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EPA-HQ-OAR-2001-0007-0107 | Supporting & Related Material | 2001-06-13T04:00:00 | null | epa | 2024-06-07T20:31:34.397462 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0007-0107/content.txt"
} |
|
EPA-HQ-OAR-2001-0007-0108 | Supporting & Related Material | 2001-06-13T04:00:00 | null | epa | 2024-06-07T20:31:34.398105 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0007-0108/content.txt"
} |
|
EPA-HQ-OAR-2001-0007-0109 | Supporting & Related Material | 2001-06-13T04:00:00 | null | epa | 2024-06-07T20:31:34.398737 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0007-0109/content.txt"
} |
|
EPA-HQ-OAR-2001-0014-0012 | Supporting & Related Material | 2001-06-21T04:00:00 | null | epa | 2024-06-07T20:31:34.419619 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0014-0012/content.txt"
} |
|
EPA-HQ-OAR-2001-0014-0078 | Supporting & Related Material | 2001-02-22T05:00:00 | null | epa | 2024-06-07T20:31:34.424664 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0014-0078/content.txt"
} |
|
EPA-HQ-OAR-2001-0014-0079 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:34.425468 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0014-0079/content.txt"
} |
|
EPA-HQ-OAR-2001-0014-0170 | Supporting & Related Material | 2001-05-01T04:00:00 | null | epa | 2024-06-07T20:31:34.431411 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0014-0170/content.txt"
} |
|
EPA-HQ-OAR-2001-0017-0258 | Supporting & Related Material | 2001-02-02T05:00:00 | null | FIGURES
FOR
SECOND
DRAFT
OF
PM
STAFF
PAPER
ATTACHMENT
6A
Chicago,
IL
Images
Figure
1.
Chicago,
IL
<
10
g/
m3
PM2.5
Figure
2.
Chicago,
IL
15
g/
m3
PM2.5
Figure
3.
Chicago,
IL
20
g/
m3
PM2.5
Figure
4.
Chicago,
IL
25
g/
m3
PM2.5
Figure
5.
Chicago,
IL
30
g/
m3
PM2.5
Figure
6.
Chicago,
IL
35
g/
m3
PM2.5
Figure
1.
Chicago
<
10
g/
m3
PM2.5,
8/
16/
00
Figure
2.
Chicago
15
g/
m3
PM2.5,
8/
7/
00
Figure
3.
Chicago
20
g/
m3
PM2.5,
8/
24/
00
Figure
4.
Chicago
25
g/
m3
PM2.5,
8/
25/
00
Figure
5.
Chicago
30
g/
m3
PM2.5,
8/
15/
00
Figure
6.
Chicago
35
g/
m3
PM2.5,
8/
26/
00
| epa | 2024-06-07T20:31:34.460042 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0017-0258/content.txt"
} |
EPA-HQ-OAR-2001-0017-0259 | Supporting & Related Material | 2001-02-02T05:00:00 | null | SECOND
DRAFT
OF
THE
PM
STAFF
PAPER
ATTACHMENT
6A
Denver,
Colorado
Images
Note:
These
images
were
generated
using
the
WinHaze
2.8.0
visual
air
quality
modeling
program.
Figure
1.
Denver,
CO
35
Mm
1
(
112
km
visual
range)
Figure
2.
Denver,
CO
43
Mm
1
(
91
km
visual
range)
Figure
3.
Denver,
CO
51
Mm
1
(
77
km
visual
range)
Figure
4.
Denver,
CO
61
Mm
1
(
64
km
visual
range)
Figure
5.
Denver,
CO
76
Mm
1
(
52
km
visual
range)
Figure
6.
Denver,
CO
93
Mm
1
(
42
km
visual
range)
Figure
7.
Denver,
CO
167
Mm
1
(
23
km
visual
range)
Figure
8.
Denver,
CO
258
Mm
1
(
15
km
visual
range)
Figure
1.
Denver,
CO
35
Mm
1
(
112
km
visual
range)
Figure
2.
Denver,
CO
43
Mm
1
(
91
km
visual
range)
Figure
3.
Denver,
CO
51
Mm
1
(
77
km
visual
range)
Figure
4.
Denver,
CO
61
Mm
1
(
64
km
visual
range)
Figure
5.
Denver,
CO
76
Mm
1
(
52
km
visual
range)
Figure
6.
Denver,
CO
93
Mm
1
(
42
km
visual
range)
Figure
7.
Denver,
CO
167
Mm
1
(
23
km
visual
range)
Figure
8.
Denver,
CO
258
Mm
1
(
15
km
visual
range)
SECOND
DRAFT
OF
THE
PM
STAFF
PAPER
ATTACHMENT
6A
FOR
CHAPTER
7,
SECTION
ON
VISIBILITY
Phoenix,
Arizona
Images
Note:
These
images
were
generated
using
the
WinHaze
2.8.0
visual
air
quality
modeling
program.
Figure
1.
Phoenix,
AZ
2.5
g/
m3
PM2.5
(
87
km
visual
range)
Figure
2.
Phoenix,
AZ
5
g/
m3
PM2.5
(
71
km
visual
range)
Figure
3.
Phoenix,
AZ
10
g/
m3
PM2.5
(
52
km
visual
range)
Figure
4.
Phoenix,
AZ
15
g/
m3
PM2.5
(
41
km
visual
range)
Figure
5.
Phoenix,
AZ
20
g/
m3
PM2.5
(
34
km
visual
range)
Figure
6.
Phoenix,
AZ
30
g/
m3
PM2.5
(
25
km
visual
range)
Figure
7.
Phoenix,
AZ
40
g/
m3
PM2.5
(
20
km
visual
range)
Figure
8.
Phoenix,
AZ
65
g/
m3
PM2.5
(
13
km
visual
range)
Figure
1.
Phoenix,
AZ
2.5
g/
m3
PM2.5
(
87
km
visual
range)
Figure
2.
Phoenix,
AZ
5
g/
m3
PM2.5
(
71
km
visual
range)
Figure
3.
Phoenix,
AZ
10
g/
m3
PM2.5
(
52
km
visual
range)
Figure
4.
Phoenix,
AZ
15
g/
m3
PM2.5
(
41
km
visual
range)
Figure
5.
Phoenix,
AZ
20
g/
m3
PM2.5
(
34
km
visual
range)
Figure
6.
Phoenix,
AZ
30
g/
m3
PM2.5
(
25
km
visual
range)
Figure
7.
Phoenix,
AZ
40
g/
m3
PM2.5
(
20
km
visual
range)
Figure
8.
Phoenix,
AZ
65
g/
m3
PM2.5
(
13
km
visual
range)
| epa | 2024-06-07T20:31:34.462532 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2001-0017-0259/content.txt"
} |
EPA-HQ-OAR-2002-0003-0084 | Notice | 2001-11-14T05:00:00 | Notice of Availability for Public Review and Comment of EPA Staff White Paper That Explores a Number of Options for Addressing Boutique Fuels | 57099
Federal
Register
/
Vol.
66,
No.
220
/
Wednesday,
November
14,
2001
/
Notices
addressed
under
SUPPLEMENTARY
INFORMATION.
DATES:
Comments,
identified
by
the
docket
control
number
OPP–
00730A,
must
be
received
on
or
before
January
19,
2002.
ADDRESSES:
Comments
may
be
submitted
by
mail,
electronically,
or
in
person.
Please
follow
the
detailed
instructions
for
each
method
as
provided
in
Unit
I.
C.
of
the
SUPPLEMENTARY
INFORMATION
of
the
August
22,
2001
Federal
Register.
To
ensure
proper
receipt
by
EPA,
it
is
imperative
that
you
identify
docket
control
number
OPP–
00730A
in
the
subject
line
on
the
first
page
of
your
response.
FOR
FURTHER
INFORMATION
CONTACT:
Jay
Ellenberger,
Field
and
External
Affairs
Division
(7506C),
Office
of
Pesticide
Programs,
Environmental
Protection
Agency,
1200
Pennsylvania
Ave.,
NW.,
Washington,
DC
20460;
telephone
number:
(703)
305–
7099,
fax
number:
(703)
305–
6244;
and
e
mail
address:
ellenberger.
jay@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
I.
General
Information
A.
Does
this
Action
Apply
to
Me?
This
action
is
directed
to
the
public
in
general.
It
may
be
of
particular
interest,
however,
to
those
persons
who
hold
pesticide
registrations,
apply
pesticides,
or
regulate
the
use
of
pesticides
for
states,
territories,
or
tribes.
Since
other
entities
may
also
be
interested,
the
Agency
has
not
attempted
to
describe
all
the
specific
entities
that
may
be
affected
by
this
action.
If
you
have
any
questions
regarding
the
information
in
this
notice,
consult
the
person
listed
under
FOR
FURTHER
INFORMATION
CONTACT.
B.
How
Can
I
Get
Additional
Information,
Including
Copies
of
this
Document?
1.
Electronically.
You
may
obtain
electronic
copies
of
this
document
and
the
draft
PR
Notice
from
the
Office
of
Pesticide
Programs'
Home
Page
at
http:/
/www.
epa.
gov/
pesticides/.
You
can
also
go
directly
to
the
listings
from
EPA
Internet
Home
Page
at
http://
www.
epa.
gov/.
To
access
this
document,
on
the
Home
Page
select
``
Laws
and
Regulations''
and
then
look
up
the
entry
for
this
document
under
the
``
Federal
Register—
Environmental
Documents''
or
go
directly
to
the
Federal
Register
listings
at
http://
www.
epa.
gov/
fedrgstr/.
A
copy
of
the
draft
PR
Notice
is
also
available
at
http:/
/www.
epa.
gov/
opppmsd1/
PR—
Notices/
prdraft
spraydrift801.
htm.
2.
Fax
on
demand.
You
may
request
a
faxed
copy
of
the
draft
PR
Notice
titled
``
Spray
and
Dust
Drift
Label
Statements
for
Pesticide
Products''
by
using
a
faxphone
to
call
(202)
401–
0527
and
selecting
item
6142.
You
may
also
follow
the
automated
menu.
3.
In
person.
The
Agency
has
established
an
official
record
for
this
action
under
docket
control
number
OPP–
00730A.
The
official
record
consists
of
the
documents
specifically
referenced
in
this
action,
any
public
comments
received
during
an
applicable
comment
period,
and
other
information
related
to
this
action,
including
any
information
claimed
as
confidential
business
information
(CBI).
This
official
record
includes
the
documents
that
are
physically
located
in
the
docket,
as
well
as
the
documents
that
are
referenced
in
those
documents.
The
public
version
of
the
official
record
does
not
include
any
information
claimed
as
CBI.
The
public
version
of
the
official
record,
which
includes
printed,
paper
versions
of
any
electronic
comments
submitted
during
an
applicable
comment
period,
is
available
for
inspection
in
the
Public
Information
and
Records
Integrity
Branch
(PIRIB),
Rm.
119,
Crystal
Mall
#2,
1921
Jefferson
Davis
Highway,
Arlington,
VA,
from
8:
30
a.
m.
to
4
p.
m.,
Monday
through
Friday,
excluding
legal
holidays.
The
PIRIB
telephone
number
is
(703)
305–
5805.
II.
What
Action
is
EPA
Taking?
In
the
Federal
Register
of
August
22,
2001
(66
FR
44141)
(FRL–
6792–
4),
EPA
announced
the
availability
of
a
draft
PR
Notice
titled
``
Spray
and
Dust
Drift
Label
Statements
for
Pesticide
Products.
''
The
Agency
provided
a
90–
day
comment
period,
which
was
scheduled
to
end
November
20,
2001.
EPA
is
extending
the
comment
period
for
the
draft
PR
Notice
for
an
additional
60
days,
until
January
19,
2002.
List
of
Subjects
Environmental
protection,
pesticides.
Dated:
November
5,
2001.
Marcia
E.
Mulkey,
Director,
Office
of
Pesticide
Programs.
[FR
Doc.
01–
28523
Filed
11–
8–
01;
3:
21
pm]
BILLING
CODE
6560–
50–
S
ENVIRONMENTAL
PROTECTION
AGENCY
[FRL–
7103–
1]
Notice
of
Availability
for
Public
Review
and
Comment
of
EPA
Staff
White
Paper
That
Explores
a
Number
of
Options
for
Addressing
Boutique
Fuels
AGENCY:
Environmental
Protection
Agency
(EPA).
ACTION:
Notice.
SUMMARY:
The
President's
National
Energy
Policy
issued
on
May
17,
2001,
directed
EPA
to
*
*
*
study
opportunities
to
maintain
or
improve
the
environmental
benefits
of
state
and
local
``
boutique''
clean
fuel
programs
while
exploring
ways
to
increase
the
flexibility
of
the
fuels
distribution
infrastructure,
improve
fungibility,
and
provide
added
gasoline
market
liquidity
***
In
response
to
this
directive,
EPA
prepared
a
report
that
discusses
the
actions
that
EPA
will
take
in
the
near
term
to
ensure
a
smoother
transition
from
winter
to
summer
grade
reformulated
gasoline
(RFG).
That
report,
entitled:
``
Study
of
Boutique
Fuels
and
Issues
Relating
to
Transition
from
Winter
to
Summer
Gasoline''
has
been
sent
to
the
President
and
has
been
made
publicly
available,
as
noted
below.
In
addition,
EPA
staff
also
prepared
a
White
Paper
that
addresses
boutique
fuels
in
the
longer
term.
This
White
Paper,
for
which
today
EPA
is
announcing
its
availability,
explores
a
number
of
options
that
could
reduce
the
total
number
of
fuels
and
lays
the
groundwork
for
further
study.
The
Staff
White
Paper
is
entitled:
``
Study
of
Unique
Gasoline
Fuel
Blends
(``
Boutique
Fuels''),
Effects
on
Fuel
Supply
and
Distribution
and
Potential
Improvements.
''
EPA
is
publishing
this
notice
of
availability
of
and
requesting
public
review
and
comment
on
the
Staff
White
Paper.
The
public
comment
period
will
end
December
31,
2001.
The
Staff
White
Paper,
as
well
as
the
Study
of
Boutique
Fuels
and
Issues
Relating
to
Transition
from
Winter
to
Summer
Gasoline,
are
both
available
in
the
public
docket
A–
2001–
20.
The
docket
is
located
at
U.
S.
Environmental
Protection
Agency,
401
M
St.,
SW.,
Room
1500,
Washington,
DC
20460.
The
telephone
number
of
the
docket
office
is
(202)
260–
7548.
Both
documents
are
also
available
on
EPA's
web
site
at
http://
www.
epa.
gov/
otaq/
fuels.
htm.
FOR
FURTHER
INFORMATION
CONTACT:
Julia
Macallister,
Office
of
Air
Quality
and
VerDate
11<
MAY>
2000
18:
30
Nov
13,
2001
Jkt
197001
PO
00000
Frm
00068
Fmt
4703
Sfmt
4703
E:\
FR\
FM\
14NON1.
SGM
pfrm01
PsN:
14NON1
57100
Federal
Register
/
Vol.
66,
No.
220
/
Wednesday,
November
14,
2001
/
Notices
Transportation,
(734)
214–
4131,
or
by
email
at
macallister.
julia@
epa.
gov.
Dated:
November
7,
2001.
Jeffrey
R.
Holmstead,
Assistant
Administrator,
Office
of
Air
and
Radiation.
[FR
Doc.
01–
28522
Filed
11–
13–
01;
8:
45
am]
BILLING
CODE
6560–
50–
P
FEDERAL
COMMUNICATIONS
COMMISSION
[CC
Docket
No.
92–
237;
DA
01–
2593]
Next
Meeting
of
the
North
American
Numbering
Council
AGENCY:
Federal
Communications
Commission.
ACTION:
Notice.
SUMMARY:
On
November
8,
2001,
the
Commission
released
a
public
notice
announcing
the
November
27–
28,
2001
meeting
and
agenda
of
the
North
American
Numbering
Council
(NANC).
The
intended
effect
of
this
action
is
to
make
the
public
aware
of
the
NANC's
next
meeting
and
its
agenda.
FOR
FURTHER
INFORMATION
CONTACT:
Deborah
Blue,
Special
Assistant
to
the
Designated
Federal
Officer
(DFO)
at
(202)
418–
2320
or
dblue@
fcc.
gov.
The
address
is:
Network
Services
Division,
Common
Carrier
Bureau,
Federal
Communications
Commission,
The
Portals
II,
445
12th
Street,
SW,
Suite
6A207,
Washington,
DC
20554.
The
fax
number
is:
(202)
418–
2345.
The
TTY
number
is:
(202)
418–
0484.
SUPPLEMENTARY
INFORMATION:
Released:
November
8,
2001.
The
North
American
Numbering
Council
(NANC)
has
scheduled
a
meeting
to
be
held
Tuesday,
November
27,
2001,
from
8:
30
a.
m.
until
5
p.
m.,
and
on
Wednesday,
November
28,
2001,
from
8:
30
a.
m.,
until
12
noon
(if
required).
The
meeting
will
be
held
at
the
Federal
Communications
Commission,
Portals
II,
445
12th
Street,
SW,
Room
TW–
C305,
Washington,
DC.
SUPPLEMENTARY
INFORMATION:
This
meeting
is
open
to
members
of
the
general
public.
The
FCC
will
attempt
to
accommodate
as
many
participants
as
possible.
The
public
may
submit
written
statements
to
the
NANC,
which
must
be
received
two
business
days
before
the
meeting.
In
addition,
oral
statements
at
the
meeting
by
parties
or
entities
not
represented
on
the
NANC
will
be
permitted
to
the
extent
time
permits.
Such
statements
will
be
limited
to
five
minutes
in
length
by
any
one
party
or
entity,
and
requests
to
make
an
oral
statement
must
be
received
two
business
days
before
the
meeting.
Requests
to
make
an
oral
statement
or
provide
written
comments
to
the
NANC
should
be
sent
to
Deborah
Blue
at
the
address
under
FOR
FURTHER
INFORMATION
CONTACT,
stated
above.
Proposed
Agenda
1.
Announcements
and
Recent
News
2.
Approve
Minutes
—Meeting
of
October
16–
17,
2001
3.
Report
of
North
American
Numbering
Plan
Administrator
(NANPA)
4.
Report
of
NANPA
Oversight
Working
Group
5.
Report
of
National
ThousandsBlock
Pooling
Administrator
6.
Report
of
NANP
Expansion/
Optimization
IMG
7.
Status
of
Industry
Numbering
Committee
activities
8.
Report
of
the
Local
Number
Portability
Administration
(LNPA)
Working
Group
—Wireless
Number
Portability
Operations
(WNPO)
Subcommittee
9.
Report
of
NAPM
LLC
10.
Report
from
NBANC
11.
Report
of
Cost
Recovery
Working
Group
12.
Steering
Committee
—Table
of
NANC
Projects
13.
Report
of
Steering
Committee
14.
Action
Items
15.
Public
Participation
(5
minutes
each)
16.
Other
Business
Wednesday,
November
28,
2001
(if
required)
17.
Complete
any
unfinished
Agenda
Items
18.
Other
Business
Federal
Communications
Commission.
Diane
Griffin
Harmon,
Acting
Chief,
Network
Services
Division,
Common
Carrier
Bureau.
[FR
Doc.
01–
28452
Filed
11–
13–
01;
8:
45
am]
BILLING
CODE
6712–
01–
P
FEDERAL
RESERVE
SYSTEM
Meeting;
Sunshine
Act
AGENCY
HOLDING
THE
MEETING:
Board
of
Governors
of
the
Federal
Reserve
System.
TIME
AND
DATE:
11
a.
m.,
Monday,
November
19,
2001.
PLACE:
Marriner
S.
Eccles
Federal
Reserve
Board
Building,
20th
and
C
Streets,
NW.,
Washington,
DC
20551.
STATUS:
Closed.
MATTERS
TO
BE
CONSIDERED:
1.
Personnel
actions
(appointments,
promotions,
assignments,
reassignments,
and
salary
actions)
involving
individual
Federal
Reserve
System
employees.
2.
Any
items
carried
forward
from
a
previously
announced
meeting.
CONTACT
PERSON
FOR
MORE
INFORMATION:
Michelle
A.
Smith,
Assistant
to
the
Board;
202–
452–
3204.
SUPPLEMENTARY
INFORMATION:
You
may
call
202–
452–
3206
beginning
at
approximately
5
p.
m.
two
business
days
before
the
meeting
for
a
recorded
announcement
of
bank
and
bank
holding
company
applications
scheduled
for
the
meeting;
or
you
may
contact
the
Board's
Web
site
at
http://
www.
federalreserve.
gov
for
an
electronic
announcement
that
not
only
lists
applications,
but
also
indicates
procedural
and
other
information
about
the
meeting.
Dated:
November
9,
2001.
Robert
deV.
Frierson,
Deputy
Secretary
of
the
Board.
[FR
Doc.
01–
28600
Filed
11–
9–
01;
11:
33
am]
BILLING
CODE
6210–
01–
P
FEDERAL
TRADE
COMMISSION
Granting
of
Request
for
Early
Termination
of
the
Waiting
Period
Under
the
Premerger
Notification
Rules
Section
7A
of
the
Clayton
Act,
15
U.
S.
C.
18a,
as
added
by
Title
II
of
the
Hart
Scott
Rodino
Antitrust
Improvements
Act
of
1976,
requires
persons
contemplating
certain
mergers
or
acquisitions
to
give
the
Federal
Trade
Commission
and
the
Assistant
Attorney
General
advance
notice
and
to
wait
designated
periods
before
consummation
of
such
plans.
Section
7A(
b)(
2)
of
the
Act
permits
the
agencies,
in
individual
cases,
to
terminate
this
waiting
period
prior
to
its
expiration
and
requires
that
notice
of
this
action
be
published
in
the
Federal
Register.
The
following
transactions
were
granted
early
termination
of
the
waiting
period
provided
by
law
and
the
premerger
notification
rules.
The
grants
were
made
by
the
Federal
Trade
Commission
and
the
Assistant
Attorney
General
for
the
Antitrust
Division
of
the
Department
of
Justice.
Neither
agency
intends
to
take
any
action
with
respect
to
these
proposed
acquisitions
during
the
applicable
waiting
period.
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| epa | 2024-06-07T20:31:34.471209 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0003-0084/content.txt"
} |
EPA-HQ-OAR-2002-0003-0085 | Notice | 2001-12-19T05:00:00 | EPA Staff White Paper That Explores a Number of Options for Addressing Boutique Fuels in the Longer Term; Extension of Public Comment Period | 65488
Federal
Register
/
Vol.
66,
No.
244
/
Wednesday,
December
19,
2001
/
Notices
3.
Provide
copies
of
any
technical
information
and/
or
data
you
used
that
support
your
views.
4.
If
you
estimate
potential
burden
or
costs,
explain
how
you
arrived
at
the
estimate
that
you
provide.
5.
Provide
specific
examples
to
illustrate
your
concerns.
6.
Offer
alternative
ways
to
improve
the
notice.
7.
Make
sure
to
submit
your
comments
by
the
deadline
in
this
document.
8.
To
ensure
proper
receipt
by
EPA,
be
sure
to
identify
the
docket
control
number
assigned
to
this
action
in
the
subject
line
on
the
first
page
of
your
response.
You
may
also
provide
the
name,
date,
and
Federal
Register
citation.
II.
Background
Growth
Products
Ltd.,
P.
O.
Box
1259,
White
Plains,
NY
10602
has
requested
an
EUP
for
the
microbial
pesticide
Companion
TM
,
based
on
the
active
ingredient
Bacillus
subtilis
Strain
GB03.
The
proposed
duration
of
the
proposed
program
is
2
years.
The
EUP
is
being
requested
to
obtain
efficacy
and
phytotoxicity
data,
evaluate
application
rates,
and
evaluate
timing
to
establish
disease
control.
The
target
pests
include
root
diseases
such
as
Rhizoctonia,
Pythium,
Erwinia,
Fusarium,
Phytopthora,
Verticillium,
Sclerotinia,
Botyris,
Anthracnose,
fire
blight,
wilt,
crown
rot,
root
rot,
downy
mildew,
and
damping
off.
The
proposed
experimental
program
is
to
cover
a
total
of
200
acres
in
5
states,
as
follows:
California,
Florida,
New
York,
North
Dakota,
and
Washington.
The
rate
of
application
of
the
pesticide
is
to
be:
for
field
crops,
32
oz.
per
acre
in
sufficient
water
to
ensure
full
coverage;
for
soil
drench
application,
16
oz.
in
100
gallons
of
water
for
cell/
plug
production;
and
1
oz.
per
30
gallons
of
water
for
closed
systems
(ebb
and
flow)
and
hydroponics.
Proposed
crop
treatment
sites
include
apples,
broccoli,
celery,
citrus,
cotton,
grapes
(raisin,
table
and
wine),
herbs
and
spices,
lettuce
(iceberg
and
leaf),
melons,
onions,
potatoes,
strawberries,
sunflower,
tobacco,
and
tomatoes.
Disease
severity
and
intensity
will
be
observed,
as
well
as
measurements
of
root
growth
in
both
length
and
mass,
leaf
color,
and
tissue
analysis
of
nutrient
levels,
all
of
which
are
indicators
of
healthy
plants.
Ground
methods
of
application
are
proposed,
including
soil
drench
application
by
injection
into
irrigation
systems,
and
closed
systems
(ebb
and
flow)
and
hydroponics
by
incorporation
into
closed
continuous
recirculation
systems.
III.
What
Action
is
the
Agency
Taking?
Following
the
review
of
the
Growth
Products
Limited
application
and
any
comments
and
data
received
in
response
to
this
notice,
EPA
will
decide
whether
to
issue
or
deny
the
EUP
request
for
this
EUP
program,
and
if
issued,
the
conditions
under
which
it
is
to
be
conducted.
Any
issuance
of
an
EUP
will
be
announced
in
the
Federal
Register.
IV.
What
is
the
Agency's
Authority
for
Taking
this
Action?
The
Agency's
authority
for
taking
this
action
is
under
40
CFR
part
172,
subpart
A.
List
of
Subjects
Environmental
protection,
Experimental
use
permits.
December
11,
2001.
Kathleen
F.
Knox,
Acting
Director,
Biopesticides
and
Pollution
Prevention
Division,
Office
of
Pesticide
Programs.
[FR
Doc.
01–
31247
Filed
12–
18–
01;
8:
45
am]
BILLING
CODE
6560–
50–
S
ENVIRONMENTAL
PROTECTION
AGENCY
[FRL–
7119–
6]
Extension
of
Public
Comment
Period
for
EPA
Staff
White
Paper
That
Explores
a
Number
of
Options
for
Addressing
Boutique
Fuels
in
the
Longer
Term
AGENCY:
Environmental
Protection
Agency.
ACTION:
Extension
of
public
comment
period
for
EPA
Staff
White
Paper
that
explores
a
number
of
options
for
addressing
boutique
fuels
in
the
longer
term.
In
the
November
14,
2001
Federal
Register,
(66
FR
57099)
EPA
published
a
notice
of
availability
and
requested
public
review
and
comment
on
the
Staff
White
Paper
entitled:
``
Study
of
Unique
Gasoline
Fuel
Blends
(``
Boutique
Fuels''),
Effects
on
Fuel
Supply
and
Distribution
and
Potential
Improvements.
''
This
notice
extends
the
end
of
the
public
comment
period
to
January
30,
2002.
FOR
FURTHER
INFORMATION
CONTACT:
Julia
Macallister,
Office
of
Air
Quality
and
Transportation,
(734)
214–
4131,
or
by
Email
at
macallister.
julia@
epa.
gov.
Dated:
December
12,
2001.
Robert
Brenner,
Acting
Assistant
Administrator,
Office
of
Air
and
Radiation,
U.
S.
Environmental
Protection
Agency.
[FR
Doc.
01–
31244
Filed
12–
18–
01;
8:
45
am]
BILLING
CODE
6560–
50–
P
ENVIRONMENTAL
PROTECTION
AGENCY
[OPP–
00755;
FRL–
6814–
8]
Pesticides;
Expedited
Review
of
Experimental
Use
Permits
(EUPs)
for
Conventional
Pesticides
AGENCY:
Environmental
Protection
Agency
(EPA).
ACTION:
Notice
of
availability.
SUMMARY:
The
Agency
seeks
public
comment
on
a
draft
Pesticide
Registration
(PR)
Notice
titled
``
Guidelines
for
Expedited
Review
of
Experimental
Use
Permits
(EUPs)
for
Conventional
Pesticides.
''
This
draft
Notice
provides
criteria
that,
if
met,
can
result
in
a
greater
number
of
food
use
EUPs
being
issued
on
an
expedited
basis
for
conventional
pesticides.
EUP
applications
submitted
that
meet
all
of
the
criteria
identified
in
the
Notice
will
be
expedited
through
the
Agency's
review
process
and
registrants
will
not
need
to
utilize
their
priority
slots.
The
Notice
applies
to
all
applicants
for
EUPs
for
non
antimicrobial,
conventional
pesticides.
The
Notice
does
not
apply
to
biological
pesticides
because
these
pesticides
present
different
risk
factors
and
because
the
Agency
has
not
heard
that
the
lack
of
biological
pesticide
EUPs
is
an
issue.
DATES:
Comments,
identified
by
docket
control
number
OPP–
00755,
must
be
received
on
or
before
February
19,
2002.
ADDRESSES:
Comments
may
be
submitted
by
mail,
electronically,
or
in
person.
Please
follow
the
detailed
instructions
for
each
method
as
provided
in
Unit
I.
C.
of
the
SUPPLEMENTARY
INFORMATION.
To
ensure
proper
receipt
by
EPA,
it
is
imperative
that
you
identify
docket
control
number
OPP–
00755
in
the
subject
line
on
the
first
page
of
your
response.
FOR
FURTHER
INFORMATION
CONTACT:
Rachel
Holloman,
Registration
Division
(7505C),
Environmental
Protection
Agency,
1200
Pennsylvania
Ave.,
NW.,
Washington,
DC
20460;
telephone
number:
(703)
305–
7193;
fax
number:
(703)
305–
6920;
e
mail
address:
holloman.
rachel@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
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| epa | 2024-06-07T20:31:34.478232 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0003-0085/content.txt"
} |
EPA-HQ-OAR-2002-0035-0008 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:34.483003 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0035-0008/content.txt"
} |
|
EPA-HQ-OAR-2002-0035-0009 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:34.483939 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0035-0009/content.txt"
} |
|
EPA-HQ-OAR-2002-0035-0011 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:34.485282 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0035-0011/content.txt"
} |
|
EPA-HQ-OAR-2002-0035-0012 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:34.486295 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0035-0012/content.txt"
} |
|
EPA-HQ-OAR-2002-0076-0061 | Supporting & Related Material | 2001-04-02T04:00:00 | null | June
29,2001
MEMORANDUM
TO:
Tim
Smith,
EPA
OAQPS\
FROM:
Patrick
Cummiils,
WRAP
Co
Project
Manag
_
I
SUBJECT:
Additional
Technical
Support
Documentation
Please
find
enclosed
the
following
additional
technical
support
documents
related
to
the
WRAP
Annex:
1)
Description
of
Methodology
Used
to
Calculate
State
and
Tribal
Opt
WOpt
Budgets
2)
Final
Report
on
Regional
Economic
Impacts
of
Annex
fi
om
ICF
Consulting
(
replaces
Vol.
IT
of
previous
submittal)
3)
Data
Worksheets
fiom
ICF
Consulting
Detailing
Utility
Emissions
Projections
4)
Informatian
on
Emission
Measurement
Metliods
for
Non
Utility
Sources.
We
are
in
the
process
of
finalizing
our
revised
visibility
modeling
and
that
report
will
be
sent
in
about
two
weeks.
Please
do
not
hesitate
to
contact
me
with
any
questions
regarding
this
information.
Thank
you
for
your
ongoing
assistance
with
this
effort.
Staffed
by:
Staffed
by:
Western
Governors'Association
National
Tribal
Environmental
Council
1515
Cleveland
Place,
Suite
200
www.
wrapair.
org
2221
Rio
Grande
NW
Dsnver,
CO
80202
Albuquerque,
NM
87104
(
303)
623
9378
(
505)
242
2175
Fax
(
303)
534
7309
Fax
(
505)
242
2654
Methodology
Used
to
Calculate
State
and
Tribal
Opt
IdOpt
Out
Budgets
Th.
e
state
and
tribal
milestone
adjustments,
and
new
source
set
aside
adjustments
were
calculated
using
the
same
methodology
that
was
used
to
develop
the
regional
SO,
milestones.
The
biggest
component
of
the
milestone
was
the
projected
emission
inventory
for
the
region,
including
emission
reduction
estimates
due
to
the
application
of
Best
Available
Retrofit
Technology
(
BART)
to
sources
in
the
region.
In
addition,
there
was
an
uncertainty
factor
that
was
included
in
the
milestones
to
account
for
possible
errors
in
the
projections.
The
spreadsheet
titled
Opt
in
Opt
out
adjustments.
xls,
which
can
be
found
in
the
Technical
Support
for
the
SupplementaryAnnex
Submittal
section
of
tbe
Market
Trading
Forum
web
site
(
www.
wrapair.
org),
calculates
the
adjustments
for
each
state
and
tribe.
A
copy
of
this
spreadsheet
is
attached.
There
are
4separate
worksheet
pages
that
are
used
to
calculate
the
adjustments
for
each
of
the
milestone
years,
2003,2008,2013
and
2018.
These
adjustments
are
summarized
in
a
final
chart
titled
Milestone
Adjustments
Due
to
States
or
Tribes
Opting
Out
of
the
Regional
Program
Under
309
that
was
adopted
by
the
WRAP
on
May
23,2001.
The
following
sections
describe
in
detail
the
data
sources,
and
any
assumptions
that
were
made
to
develop
these
individual
milestone
year
adjustments.
Projected
Emissions
from
Existing
Sources
for
2003,2008,2013
and
2018
In
July
and
August,
2000,
two
contractors
completed
stationary
source
emission
inventories
and
emission
projections
through
the
year
2018
for
major
sources
of
SO,
in
the
9
state
transport
region.
These
inventories
were
used
as
the
basis
for
final
negotiations
of
the
regional
SO,
milestones.
Utility
and
Combined
Heat
and
Power
Source
inventories
were
completed
by
ICF
Consulting.
The
final
results
of
this
contract
are
included
in
the
Technical
Support
Documentation
for
the
Annex,
and
in
a
spreadsheettitled
Zmission~
Reconciliation~
4.01
that
is
included
in
the
Technical
Support
for
the
SupplementaryAnnex
Submittal
(
see
Market
Trading
Forum
web
site,
located
at
IW.
wrapair.
or@.
Non
Utility
inventories
were
completed
by
Pechan
and
Associates.
The
final
results
of
this
contract
are
included
in
the
Technical
Support
documentation
for
the
Annex,
which
can
also
be
found
on
the
Market
Trading
Forum
web
site.
Both
of
these
emission
inventories,
and
projections
though
2018
were
calculated
at
the
state
level,
and
the
numbers
fi
omthe
contractors
reports
were.
used
as
the
starting
point
for
the
state
and
tribal
budgets.
The
columns
labeled
Utilities,
Smelters,
CHP,
and
Other
contain
these
imentory
numbers
with
the
following
adjustments:
1.
Several
Tribal
Sources
were
included
in
the
state
inventory
totals.
The
inventories
for
these
sources
were
subtracted
from
the
state
totals,
and
placed
in
a
new
entry
for
the
applicable
tribe.
The
specific
sources
were:
Tribe
Navajo
Nation
Navajo
Nation
Shoshone
Bannock
Tribes
of
the
Fort
Hall
Reservation
Ute
Indian
Tribe
of
the
Uintah
and
Ouray
Reservation
Wind
River
Reservation
Wind
River
Reservation
Source
State
Four
Corners
Generating
Station
NM
Navajo
GeneratingStation
Az
Astaris
(
formerly
FMC)
ID
Deseret
Generation
and
Transmission,
UT
Bonanza
Plant
Koch
Sulfur
Products
WY
Snyder
Oil
Corp
WY
2.
The
inventory
projections
developed
by
EH
Pechan
and
Associates
for
non
utilities
were
done
at
the
source
category
level.
Retirement
and
growth
estimates
were
applied
to
the
category
to
obtain
an
overall
projection
number
for
the
years
2003,2008,2013,
and
2018.
The
new
source
growth
estimates
were
subtracted
fiom
Pechan s
inventory
to
obtain
an
estimate
of
emissions
fiom
existing
sources
in
the
region,
including
retirements.
New
source
growth
is
treated
as
a
separate
line
item.
3.
The
projected
emissions
for
the
Mohave
Generating
Station
in
Nevada
in
2003
are
based
on
an
assumed
fbture
control
level
of
85%.
4.
Emissions
fiom
non
utility
sources
located
on
tribal
lands
were
assumed
to
remain
constant
ficm
2003
to
2018.
The
regional
category
growth
and
retirement
assumptions
that
were
used
by
Pechan
and
Associates
did
not
make
sense
when
applied
to
individual
sources
or
to
a
very
small
group
of
sources.
This
assumption
will
not
affect
new
source
growth
on
tribal
lands
because
the
milestones
will
be
applied
regionally.
Additional
Calculations
for
2003
The
SO,
emissions
projections
for
existing
sources
were
combined
into
a
regional
subtotal
of
677,858
tons.
The
new
source
growth
estimate
of
9,000
tons,
and
a
tribal
allocation
of
20,000
tons
were
added
to
the
existing
source
projections
to
achieve
a
subtotal
of
706,858
tons.
The
milestone
for
2003is
720,000
tons.
The
subtotal
of
706,858
was
subtracted
from
this
milestone
to
derive
a
regional
uncertainty
estimate.
The
uncertainty
estimate
was
then
prorated
to
each
of
the
states
according
to
the
percentage
of
total
emissions
for
existing
sources
in
each
state
with
the
following
exceptihs:
1.
Emissions
from
two
suspended
smelters
were
subtracted
fiom
the
emission
estimates
for
Arizona
and
New
Mexico
prior
to
the
proration.
This
was
done
so
that
the
milestone
adjustments
for
other
states
would
not
be
affected
by
the
hture
status
of
these
two
sources.
As
outlined
in
the
summary
tzble,
the
adjustment
numbers
for
Arizona
and
New
Mexico
would
be
modified
if
either
of
these
sources
do
not
resume
operation.
.
2.
Tribal
sources
were
not
included
in
the
proration.
As
described
above,
these
sources
were
treated
separately
due
to
problems
with
applying
regional
assumptions
to
individual
sources.
The
new
source
growth
estimate
of
9000
tons
was
also
prorated
to
each
of
the
states
according
to
the
percentage
of
total
existing
emissions
in
each
state.
Additional
calculations
for
2008
The
adjustments
for
2008
were
calculated
in
the
same
manner
as
2003.
The
new
source
growth
estimate
was
increased
to
18,000
tons
(
9,000
tons
every
5
years)
and
then
prorated
as
described
for
the
2003
calculations.
Additional
calculations
for
2013
The
year
2013
contains
an
emission
reduction
down
payment
for
the
estimated
BART
reductions
in
2018.
As
described
for
2013,
the
projected
regional
SO,
emissions
for
existing
sources
of
645,906
tons
was
added
to
the
tribal
allocation
of
20,000
tons
and
the
new
source
growth
estimate
of
27,000
tons
for
a
subtotal
of
692,906.
The
milestone
for
2013
is
655,000.
When
the
subtotal
was
subtracted
&
om
this
milestone,
it
left
a
regional
down
payment
on
BART
of
37,906.
This
down
payment
was
prorated
to
each
of
the
states
according
to
the
utility
BART
estimates
for
each
of
those
states
as
described
below
for
the
2018
adjustments.
Tribal
sources
were
not
included
in
the
proration.
Tribal
sources
were
again
treated
separately
due
to
problems
with
applying
regional
assumptions
to
individual
sources.
Additional
calculations
for
2018
The
regional
emission
reduction
estimates
calculated
in
Allstate8.
xls,
which
was
included
in
the
Technical
Support
Documentation
for
the
Annex,
was
used
to
estimate
BART
reductions.
The
reductions
in
Allstate8.
xls
were
calculated
at
the
source
level,
recognizing
that
these
estimates
were
only
valid
when
applied
regionally
to
an
entire
source
category.
The
source
level
calculations
were
added
up
for
each
state
and
tribe
for
both
utilities
and
non
utilities.
These
are
listed
in
the
columns
labeled
Utility
BART
and
Other
BART.
The
projected
emissions
from
existing
sources
subtotal
is
634,523
tons
SO,.
Utility
BART
estimates
of
151,795
for
utilities
and
16,120
for
non
utilities
were
subtracted
fi
omthis
subtotal
to
achieve
new
regional
subtotal
less
BART
of
466,608.
Thp
trihsl
nllnwtinn
of
20,000
tons
and
the
new
source
allocation
of
27,000
tons
were
added
to
this
subtotal
of
513,608.
The
milestone
for
2018
is
510,000.
The
difference
between
these
two
numbers
is
primarily
a
rounding
adjustment,
and
was
prorated
based
on
the
emission
projection
less
BART
for
each
state.
As
described
above,
these
sources
were
treated
separately
due
to
problems
with
applying
regional
assumptions
to
individual
sources.
.
| epa | 2024-06-07T20:31:34.551383 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0076-0061/content.txt"
} |
EPA-HQ-OAR-2002-0076-0062 | Supporting & Related Material | 2001-04-02T04:00:00 | null | 1999
SO2
1999
Heat
Input
State
Plant
Name
ORISPL
Unit
ID
(
tons)
(
mmBtu)
1999
Genr.
MWh
Arizona
Apache
Station
160
1
1
2,867,718
290,758
Arizona
Apache
Station
160
2
2,976
14,406,374
1,235,901
Arizona
Arizona
Apache
Station
Cholla
160
3
113
**
5
2,992
16,021,489
1,374,459
Arizona
Cholla
113
1
909
8,887,753
759,492
Arizona
Cholla
113
2
1,254
18,386,998
1,571,238
Arizona
Cholla
113
3
8,912
22,818,034
1,949,887
Arizona
Cholla
113
4
7,987
28,086,848
2,400,127
Arizona
Coronado
6177
UIB
10,475
31,197,302
2,823,334
Arizona
Coronado
6177
U2B
9,522
28,224,076
2,554,259
Arizona
lrvington
126
1
1
1,567,150
141,853
Arizona
lrvington
126
2
4
1,651,313
149,471
Arizona
irvington
126
3
1
1,965,366
177,898
Arizona
lrvington
126
4
2,857
7,731,982
640,474
Arizona
Navajo
4941
1
5,854
59,551,004
5,282,215
Arizona
Navajo
4941
2
1,822
68,268,218
6,055,438
Arizona
Navajo
4941
3
1,486
62,231,335
5,519,963
Arizona
Springerville
8223
I
9,576
31,
I74,548
2,969,489
Arizona
Arizona
Springerville
Springerville
8223
2
8223
3
8,811
30,002,862
2,857,882
Colorado
Arapahoe
465
1
716
2,988,525
195,898
Colorado
Arapahoe
465
2
520
2,171,264
142,326
Colorado
Arapahoe
465
3
1,070
3,935,436
257,968
Colorado
Arapahoe
465
4
1,858
8,658,173
567,543
Colorado
Cameo
468
I
585
2,290,
OO1
40,032
Colorado
Cameo
468
2
2,046
3,995,022
430,446
Colorado
Cherokee
469
1
3,309
8,772,266
806,964
Colorado
Cherokee
469
2
3,515
8,545,294
786,085
Colorado
Cherokee
469
3
4,800
11,634,028
1,070,219
Colorado
Cherokee
469
4
6,917
20,887,954
1,921,491
Colorado
Comanche
470
1
6,492
24,406,852
2,283,757
Colorado
Comanche
470
2
7,208
24,292,013
2,273,011
Colorado
Craig
6021
Cl
4,730
34,136,231
3,144,278
Colorado
Craig
6021
C2
4,486
34,390,315
3,167,682
Colorado
Craig
6021
C3
1,446
25,143,799
2,315,988
Colorado
Hayden
525
HI
1,554
18,214,289
1,426,590
Colorado
Hayden
525
H2
5,125
19,575,309
1,533,188
Colorado
Martin
Drake
492
5
1,155
3,171,412
252,254
Colorado
Martin
Drake
492
6
2,395
6,601,652
525,095
'
Colorado
Martin
Drake
492
7
3,047
8,336,087
663,052
Colorado
Nuda
527
1
1,476
8,678,484
641,756
Colorado
Pawnee
6248
**
2
Colorado
Pawnee
6248
1
16,666
45,855,909
3,977,069
Colorado
Rawhide
6761
101
1,117
25,800,967
2,118,734
Colorado
Ray
D
Nixon
8219
**
NAI
Colorado
Colorado
Ray
D
Nixon
Ray
D
Nixon
8219
I
8219
2
4,601
11,783,206
111,739
1,133,791
Colorado
Ray
D
Nixon
8219
3
92,911
Colorado
Colorado
Colorado
Colorado
Colorado
Colorado
Nevada
Nevada
Nevada
Nevada
Nevada
Nevada
Nevada
Nevada
Valmont
Valmont
Valmont
Valmont
WN
Clark
WN
Clark
Mohave
Mohave
North
Valmy
North
Valmy
Reid
Gardner
Reid
Gardner
Reid
Gardner
Reid
Gardner
477
14
477
21
477
24
477
5
2,835
7,430,699
726,714
462
I
253
1,227,848
95,599
462
2
349
1,688,202
127,020
234I
I
19,440
48,9
16,026
4,830,020
2341
8224
8224
2324
2324
2324
2324
87
2442
2442
2442
2442
2442
2468
2468
2451
2451
2451
2451
6106
7790
3644
3644
2
19,200
49,654,253
4,902,914
1
5,554
16,9
15,541
1,657,133
2
1,275
18,839,839
1,845,647
1
800
7,532,248
608,132
2
863
8,059,105
650,669
3
1,007
10,239,513
826,708
4
524
19,647,823
1,586,308
1
1,515
22,271,758
1,567,570
1
3,352
14,365,079
1,249,754
2
3,254
13,489,466
1,173,577
3
4,989
19,501,245
1,696,598
4
15,046
60,397,513
5,254,552
5
15,881
62,627,013
5,448,518
4
5
159
516344
35,516
1
5,745
25,689,631
2,232,002
2
5,023
25,333,201
2,201,034
3
9,885
44,003,093
3,823,137
4
8,772
38,965,397
3,385,445
1SG
16,577
42,
I94,918
3,697,900
1
1,135
35,695,733
3,227,344
1
1,827
5,734,311
508,644
2
2,561
7,995,268
709,194
1
2,636
32,246,110
2,880,999
2
2,962
37,664,030
3,365,058
3
1,447
36,240,776
3,237,899
1
2,030
36,666,383
3,513,857
2
11,870
37,695,527
3,612,483
1SGA
1,566
65,573,338
5,924,2
14
2SGA
2,132
79,089,402
7,145,321
BW41
5,350
10,853,919
755,551
BW42
5,568
1;
I,
324,966
788,341
BW43
8,477
17,86
1,947
1,243,386
BW44
8,507
35,067,519
2,441,081
BWI
7,673
50,496,020
4,168,505
BW2
7,920
52,243,407
4,312,754
BW73
6,484
42,447,268
3,504,071
BW4
3,703
47,448,763
3,916,950
1
3,748
47,892,475
4,127,009
2
3,615
46,477,951
4,005,116
3
3,706
44,693,616
3,851,355
1
7,112
14,951,993
1,182,645
2
9,576
19,658,118
1,554,881
3
5,156
24,651,223
1,949,816
559
2,
O19,926
150,477
New
Mexico
Escalante
New
Mexico
Four
Corners
New
Mexico
Four
Corners
New
Mexico
Four
Corners
New
Mexico
Four
Corners
New
Mexico
Four
Corners
New
Mexico
Raton
New
Mexico
Raton
New
Mexico
San
Juan
New
Mexico
San
Juan
New
Mexico
$
an
Juan
New
Mexico
San
Juan
Oregon
Utah
Utah
Utah
Utah
Utah
Utah
Utah
Utah
Utah
Utah
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Wyoming
Boardman
Bonanza
Carbon
Carbon
Hunter
(
Emery)
6165
Hunter
(
Emery)
6165
Hunter
(
Emery)
6165
Huntington
8069
Huntington
8069
Intermountain
6481
Intermountain
6481
Dave
Johnston
4158
Dave
Johnston
4158
Dave
Johnston
4158
Dave
Johnston
4158
Jim
Bridger
8066
Jim
Bridger
8066
Jim
Bridger
8066
Jim
Bridger
8066
Laramie
River
6204
Laramie
River
6204
Laramie
River
6204
Naughton
4162
Naughton
4162
Naughton
4162
Neil
Simpson
4150
Wyoming
Neil
Simpson
I1
7504
1
641
8,625,148
705,087
Wyoming
Osage
4151
1
620
1,321,752
78,725
Wyoming
Osage
4151
2
640
1,364,742
81,218
Wyoming
Osage
4151
3
651
1,385,617
82,465
Wyoming
Wyodak
6101
BW91
9,082
38,092,484
2,819,563
433,521
2,252,494,994
495,895,832
29,424
133,991,322
0.439189636
ncap
CF
Based
on
Projected
CF
Change
in
2018
Generation
Retire
by
2018
Tons
Name
Plate
(
Name
Plate)
Fuel
Quality
MWhr
(
Name
Plate)
2018?
(
Name
Plate)
0.443
0.500
1
328,500
NO
1
0.725
0.850
1
1,449,759
NO
3,491
0.806
0.850
1
1
1,449,759
NO
NO
3,156
0.763
0.850
1
846,134
NO
1,013
0.621
0.850
I
2,151,149
NO
1,717
0.770
0.850
1
2,151,149
NO
9,832
0.662
0.850
1
3,082,644
NO
10,258
0.784
0.850
1
3,059,859
NO
11,353
0.710
0.850
1
3,059,859
NO
11,407
0.149
0.500
1
476,544
NO
2
0.157
0.500
1
476,544
NO
11
0.179
0.500
1
497,568
NO
2
0.422
0.850
1
1,290,392
NO
5,756
0.751
0.850
1
5,980,329
NO
1,529
0.861
0.861
1
6,055,438
NO
1,822
0.785
0.850
1
5,980,329
NO
1,610
0.798
0.850
1
3,163,061
NO
10,200
0.768
0.850
1
1
3,163,061
NO
NO
9,752
0.508
0.850
1
YES
0.369
0.850
1
YES
0.669
0.850
1
327,624
NO
680
0.648
0.850
1
744,600
NO
1,524
0.208
0.850
1
163,812
NO
2,396
1.
I17
1.
I17
1
430,446
NO
2,046
0.921
0.921
1
806,964
NO
1,655
0.816
0.850
1
819,060
NO
1,831
0.814
0.850
1
1,116,900
NO
1,002
0.627
0.850
1
2,606,100
NO
2,536
0.745
0.850
1
2,606,100
NO
7,408
0.741
0.850
1
2,606,100
NO
8,264
0.804
0.850
1
3,323,894
NO
5,001
0.810
0.850
1
3,323,894
NO
4,707
0.592
0.850
1
3,323,894
NO
2,076
0.857
0.857
1
1,426,590
NO
1,554
0.681
0.850
1
1,913,622
NO
1,442
0.490
0.850
1
437,989
NO
2,005
0.679
0.850
1
656,998
NO
2,996
0.515
0.850
1
1,094,562
NO
5,029
0.923
0.923
1
1
641,756
NO
NO
1,476
0.908
0.908
1
3,977,069
NO
16,666
0.848
0.850
1
1
2,122,780
NO
NO
1,119
0.563
0.850
1
1,712,580
NO
6,949
1
NO
1
NO
1
NO
I
NO
1
NO
0.499
0.850
1
1,237,898
NO
966
0.661
0.850
1
122,859
NO
325
0.659
0.850
1
163,812
NO
450
0.674
0.850
1
6,091,573
NO
3,678
0.684
0.850
1
6,091,573
NO
3,578
0.744
0.850
1
1,893,220
NO
6,345
0.789
0.850
I
1,988,082
NO
1,373
0.609
0.850
1
848,844
NO
1,
I16
0.652
0.850
1
848,844
NO
1,126
0.828
0.850
1
848,844
NO
1,034
0.671
0.850
1
2,010,420
NO
664
0.768
0.850
I
1,734,918
NO
1,676
0.751
0.850
1
1,415,336
NO
3,796
0.705
0.850
1
1,415,336
NO
3,924
0.764
0.850
1
1,887,114
NO
5,549
0.733
0.850
1
6,091,573
NO
17,443
0.760
0.850
1
1
6,091,573
NO
NO
17,755
0.541
0.850
I
55,845
NO
250
0.706
0.850
1
2,688,006
NO
6,918
0.718
0.850
1
2,606,100
NO
5,947
0.817
0.850
1
3,976,164
NO
10,281
0.724
0.850
1
3,976,164
NO
10,302
0.753
0.850
I
4,173,483
NO
18,709
0.921
0.921
I
3,227,344
NO
1,135
0.774
0.850
1
558,450
NO
2,005
0.712
0.850
1
846,134
NO
3,056
0.737
0.850
1
3,323,894
NO
3,042
0.813
0.850
1
3,518,235
NO
3,097
0.746
0.850
1
3,689,999
NO
1,648
0.805
0.850
1
3,708,108
NO
2,143
0.828
0.850
1
3,708,108
NO
12,184
0.825
0.850
1
6,105,720
NO
1,614
0.995
0.995
1
7,145,321
NO
2,132
0.759
0.850
1
846,134
NO
5,991
0.792
0.850
1
846,134
NO
5,976
0.618
0.850
1
1,708,857
NO
11,651
0.774
0.850
1
2,680,560
NO
9,341
0.823
0.850
1
4,302,857
NO
7,921
0.852
0.852
I
4,312,754
NO
7,920
0.692
0.850
1
4,302,857
NO
7,962
0.798
0.850
1
4,174,228
NO
3,946
0.827
0.850
1
4,244,220
NO
3,854
0.831
0.850
1
4,095,300
NO
3,696
0.799
0.850
1
4,095,300
NO
3,940
0.827
0.850
1
1,215,187
NO
7,307
0.816
0.850
1
1,620,250
NO
9,979
0.682
0.850
1
2,430,374
NO
6,426
0.788
0.850
I
162,323
NO
603
1.006
1.006
1
705,087
NO
641
0.781
0.850
1
85,629
NO
674
0.806
0.850
1
85,629
NO
675
0.819
0.850
1
85,629
NO
675
0.889
0.889
1
2,819,563
NO
9,082
219,753,176
426,794
(
1,154,270)
29,930,949
2008
Projected
2003
Projected
2003
Tons
Projected
Generation
(
MWh)
Generation
(
Name
Plate)
Generation
328,500
326,780
1
328,500
1,449,759
1,442,166
3,472
1,449,759
1,449,759
1,442,166
3,140
1,449,759
846,134
841,702
1,007
846,134
2,151,149
2,139,884
1,708
2,151,149
2,151,149
2,139,884
9,781
2,151,149
3,082,644
3,066,500
10,204
3,082,644
3,059,859
3,043,835
11,293
3,059,859
3,059,859
3,043,835
11,348
3,059,859
476,544
474,048
2
476,544
476,544
474,048
11
476,544
497,568
494,962
2
497,568
1,290,392
1,283,634
5,726
1,290,392
5,980,329
5,949,011
1,521
5,980,329
6,055,438
6,023,726
1,812
6,055,438
5,980,329
5,949,
Ol
I
1,602
5,980,329
3,163,06
1
3,146,496
10,147
3,163,061
3,163,061
3,146,496
9,701
3,163,06
1
327,624
325,908
1,192
327,624
325,908
1,192
327,624
325,908
676
327,624
744,600
740,70I
1,516
744,600
163,812
162,954
2,383
163,812
430,446
428,192
2,036
430,446
806,964
802,738
1,646
806,964
819,060
814,771
1,822
819,060
1,116,900
1,111,051
997
1,
I16,900
2,606,
I00
2,592,452
2,522
2,606,100
2,606,100
2,592,452
7,370
2,606,
I00
2,606,100
2,592,452
8,221
2,606,100
3,323,894
3,306,487
4,974
3,323,894
3,323,894
3,306,487
4,682
3,323,894
3,323,894
3,306,487
2,065
3,323,894
1,426,590
1,419,119
1,545
1,426,590
1,913,622
1,903,600
1,434
1,913,622
437,989
435,695
1,994
437,989
656,998
653,557
2,981
656,998
1,094,562
1,088,830
5,003
1,094,562
641,756
638,395
1,468
641,756
..
3,977,069
3,956,24
1
16,579
3,977,069
2,122,780
2,111,663
1,113
2,122,780..
1,712,580
1,703,61I
6,913
1,712,580
63,254
2013
2008
Tons
Projected
(
Name
Plate)
Generation
1
328,500
3,491
1,449,759
3,156
1,449,759
1,013
846,134
1,717
2,151,149
9,832
2,151,149
10,258
3,082,644
11,353
3,059,859
11,407
3,059,859
2
476,544
11
476,544
2
497,568
5,756
1,290,392
1,529
5,980,329
1,822
6,055,438
1,610
5,980,329
10,200
3,163,061
9,752
3,163,061
680
327,624
1,524
744,600
2,396
163,812
2,046
430,446
1,655
806,964
1,831
819,060
1,002
1,116,900
2,536
2,606,100
7,408
2,606,100
8,264
2,606,
I00
5,001
3,323,894
4,707
3,323,894
2,076
3,323,894
1,554
1,426,590
1,442
I,
913,622
2,005
437,989
2,996
656,998
5,029
1,094,562
1,476
641,756
16,666
3,977,069
1,119
2,122,780
6,949
1,712,580
1,237,898
1,231,415
961
1,237,898
966
1,237,898
122,859
122,216
324
122,859
325
122,859
163,812
162,954
448
163,812
450
163,812
6,091,573
6,059,671
24,389
6,091,573
3,678
6,091,573
6,091,573
6,059,671
23,730
6,091,573
3,578
6,091,573
1,893,220
1,883,305
6,312
1,893,220
6,345
1,893,220
1,988,082
1,977,670
1,366
1,988,082
1,373
1,988,082
848,844
844,399
1,110
848,844
1,116
848,844
848,844
844,399
1,120
848,844
1,126
848,844
848,844
844,399
1,028
848,844
1,034
848,844
2,010,420
1,999,892
661
2,010,420
664
2,010,420
I,
734,918
1,725,832
1,667
1,734,918
1,676
1,734,918
1,415,336
1,407,924
3,776
1,415,336
3,796
1,415,336
1,415,336
1,407,924
3,904
1,415,336
3,924
1,415,336
1,887,114
1,877,232
5,520
1,887,114
5,549
1,887,114
6,091,573
6,059,671
17,351
6,091,573
17,443
6,091,573
6,091,573
6,059,671
17,662
6,091,573
17,755
6,091,573
55,845
55,553
248
55,845
250
55,845
2,688,006
2,673,929
6,882
2,688,006
6,918
2,688,006
2,606,100
2,592,452
5,916
2,606,100
5,947
2,606,100
3,976,164
3,955,341
10,227
3,976,164
10,281
3,976,164
3,976,164
3,955,341
10,248
3,976,164
10,302
3,976,164
4,173,483
4,151,627
18,611
4,173,483
18,709
4,173,483
3,227,344
3,210,443
1,129
3,227,344
1,135
3,227,344
558,450
555,525
1,995
558,450
2,005
,
558,450
846,134
841,702
3,040
846,134
3,056
846,134
3,323,894
3,306,487
3,026
3,323,894
3,042
3,323,894
3,518,235
3,499,810
3,081
3,518,235
3,097
3,518,235
3,689,999
3,670,675
1,640
3,689,999
1,648
3,689,999
3,708,108
3,688,689
2,131
3,708,108
2,143
3,708,108
3,708,108
3,688,689
12,121
3,708,108
12,184
3,708,108
6,105,720
6,073,745
1,606
6,105,720
1,614
6,105,720
7,145,321
7,107,901
2,121
7,145,321
2,132
7,145,32
1
846,134
841,702
5,960
846,134
5,991
846,134
846,134
841,702
5,945
846,134
5,976
846,134
1,708,857
1,699,908
11,590
1,708,857
11,651
1,708,857
2,680,560
2,666,522
9,292
2,680,560
9,341
2,680,560
4,302,857
4,280,323
7,879
4,302,857
7,921
4,302,857
4,312,754
4,290,168
7,878
4,3
12,754
7,920
4,312,754
4,302,857
4,280,323
7,921
4,302,857
7,962
4,302,857
4,174,228
4,152,367
3,925
4,174,228
3,946
4,174,228
4,244,220
4,221,993
3,834
4,244,220
3,854
4,244,220
4,095,300
4,073,853
3,677
4,095,300
3,696
4,095,300
4,095,300
4,073,853
3,920
4,095,300
3,940
4,095,300
1,215,187
1,208,823
7,269
1,215,187
7,307
1,215,187
1,620,250
1,611,764
9,927
1,620,250
9,979
1,620,250
2,430,374
2,417,647
6,393
2,430,374
6,426
2,430,374
162,323
161,473
600
162,323
603
162,323
705,087
701,394
638
705,087
641
705,087
85,629
85,181
671
85,629
674
85,629
85,629
85,181
671
85,629
675
85,629
85,629
85,181
672
85,629
675
85,629
2,819,563
2,804,797
9,035
2,819,563
9,082
2,819,563
220,408,424
219,254,154
467,844
219,753,176
426,794
219,753,176
2013
Tons
(
Name
Plate)
1
3,491
3,156
1,013
1,717
9,832
10,258
11,353
11,407
2
11
2
5,756
1,529
1,822
1,610
10,200
9,752
680
1,524
2,396
2,046
1,655
1,831
1,002
2,536
7,408
8,264
5,001
4,707
2,076
1,554
1,442
2,005
2,996
5,029
1,476
16,666
1,119
6,949
Adjusted
Scenario
2013
Tons
(
Name
Plate)
0
911
823
760
1,717
1,475
2,331
5,009
5,033
0
2
0
863
1,529
1,822
1,610
3,954
3,780
204
457
359
307
496
549
75I
1,902
1,111
1,240
2,206
2,077
2,076
1,295
1,260
301
449
754
22I
2,500
840
1,042
966
325
450
3,678
3,578
6,345
1,373
1,116
1,126
1,034
664
1,676
3,796
3,924
5,549
17,443
17,755
250
6,918
5,947
10,281
10,302
18,709
1,135
2,005
3,056
3,042
3,097
1,648
2,143
12,184
1,614
2,132
5,991
5,976
1
1,651
9,341
7,921
7,920
7,962
3,946
3,854
3,696
3,940
7,307
9,979
6,426
603
724
49
68
3,678
3,578
952
206
1,116
1,126
1,034
664
1,676
2,033
2,102
2,973
9,344
9,512
37
4,151
3,568
6,168
6,181
2,806
1,135
30I
458
2,281
2,323
1,648
1,948
1,828
1,614
2,132
899
896
1,748
3,046
5,400
5,165
5,193
3,288
2,965
2,843
3,031
1,096
1,497
4,191
90
641
674
675
675
9,082
426,794
96
101
i01
101
3,892
179,072
\
.
c
Based
on
Summer
Capacity
For
Comparitive
Purposes
Only.
CF
Based
on
Projected
Summer
CF
2018
Generation
2018
Tons
Capacity
(
Summer)
MWhr
(
Summer)
(
Summer)
0.467
01806
0.897
0.788
0.732
0.856
0.721
0.883
0.799
0.200
0.21
I
0.193
0.469
0.804
0.922
0.840
0.942
0.906
0.508
0.369
0.669
0.584
0.193
1.003
0.861
0.847
0.773
.
0.623
0.802
0.775
0.839
0.845
0.648
0.885
0.668
0.613
0.759
6.569
0.733
0.917
0.923
0.622
0.500
0.850
0.897
0.850
0.850
0.856
0.850
0.883
0.850
0.500
0.500
0.500
0.850
0.850
0.922
0.850
0.942
0.906
0.850
0.850
0.850
0.850
0.850
1.003
0.86I
0.850
0.850
0.850
0.850
0.850
0.850
0.850
0.850
0.885
0.850
0.850
0.850
0.850
0.850
0.917
0.923
0.850
310,980
1,303,050
1,374,459
819,060
1,824,270
1,949,887
2,829,480
2,823,334
2,717,790
354,780
354,780
459,900
I,
161,576
5,584,500
6,055,438
5,584,500
2,969,489
2,857,882
327,624
826,506
176,470
430,446
806,964
789,276
1,176,468
2,620,992
2,419,950
'
2,494,410
3,186,888
3,186,888
3,037,968
1,426,590
1,950,852
349,962
588,234
990,318
744,600
3,977,069
2,118,734
1,548,768
1
3,137
2,992
980
1,456
8,912
9,416
10,475
10,132
1
9
2
5,181
1,428
1,822
1,504
9,576
8,811
680
1,691
2,581
2,046
1,655
1,765
1,055
2,550
6,879
7,910
4,795
4,513
1,897
1,554
1,470
1,602
2,683
4,550
1,712
16,666
1,117
6,285
0.466
0.850
0.574
0.850
0.604
0.850
0.698
0.850
0.708
0.850
0.733
0.850
0.769
0.850
0.631
0.850
0.675
0.850
0.858
0.858
0.658
0.850
0.761
0.850
0.839
0.850
0.788
0.850
0.880
0.880
0.811
0.850
0.841
0.850
0.588
0.850
0.806
0.850
0.805
0.850
0.894
0.894
0.776
0.850
0.831
0.850
0.867
0.867
0.829
0.850
0.771
0.850
0.792
0.850
0.926
0.926
0.936
0.936
0.955
0.955
0.970
0.970
0.825
0.850
0.995
0.995
0.814
0.850
0.849
0.850
0.617
0.850
0.844
0.850
0.915
0.915
0.947
0.947
0.769
0.850
0.860
0.860
0.857
0.857
0.831
0.850
0.799
0.850
0.844
0.850
0.845
0.850
0.674
0.850
1.177
1.177
1,325,388
1,034
141,474
375
178,704
491
5,882,340
3,551
5,882,340
3,455
1,921,068
6,438
2,040,204
1,409
819,060
1,077
819,060
1,086
826,708
1,007
2,047,650
677
1,749,810
1,691
1,265,820
3,395
1,265,820
3,510
1,696,598
4,989
5,510,040
15,778
5,510,040
16,060
51,377
230
2,352,936
6,056
2,323,152
5,301
3,823,137
9,885
3,708,108
9,608
3,782,568
16,957
3,227,344
1,135
521,220
1,872
781,830
2,823
3,090,090
2,828
3,365,058
2,962
3,237,899
1,447
3,513,857
2,030
3,6
12,483
11,870
6,105,720
1,614
7,145,321
2,132
789,276
5,588
789,276
5,575
1,712,580
11,676
2,457,180
8,563
4,168,505
7,673
4,312,754
7,920
3,871,920
7,165
3,916,950
3,703
4,127,009
3,748
4,095,300
3,696
4,095,300
3,940
1,
I91,360
7,164
1,563,660
9,630
2,457,180
6,497
150,477
559
1.006
1.006
705,087
641
0.881
0.881
78,725
620
0.909
0.909
81,218
640
0.923
0.923
82,465
651
0.961
0.961
2,819,563
9,082
209,501,143
402,991
| epa | 2024-06-07T20:31:34.573386 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0076-0062/content.txt"
} |
EPA-HQ-OAR-2002-0076-0063 | Supporting & Related Material | 2001-04-02T04:00:00 | null | CONS
UlTl
HG
rcFF
Economic
Impacts
of
Implementing
a
Regional
SO,
Emissions
Program
in
the
Grand
Canyon
Visibility
Transport
Region
Prepared
for:
Western
RegionalAir
Partnership
Market
Trading
Forum
Prepared
by:
ICFConsulting
January
2WO
rCF
CONSULTlNG
Agenda
m
Overview
of
Analytic
Framework
and
Inputs
to
REMI
m
Detailed
Discussion
of
Economic
Impacts
1
ICF
CON
I"
f
lN
G
Regional
Economic
Impact
8
Regional
economic
impacts
were
analyzed
using
REMl's
Policy
Insight
Model.
AlO
region,
53
sector
version
of
REMl's
model
was
acquired
to
simulate
the
regional
economic
impact
of
regional
SO,
reduction
policies
at
the
state
level
for
the
the
nine
GCVTC
states
and
the
single
tribal
region.
14t
Key
drivers
to
REMI
were
derived
from
the
economic
modeling
using
ICF's
IPM.
2
L
I
COINS
U
LTlN
CI
ICF
Key
Inputs
to
REMI
Key
inputs
to
REMI
derived
from
IPM
are:
Non
fuel
expenditures
resulting
from
the
policy
Total
Capital
Investment
Annual
incremental
cost
Changes
in
wholesale
electricity
prices
Changes
in
fuel
production
and
consumption
Net
revenue
from
permit
allocations.
m
All
impacts
from
IPM
were
characterized
by
state,
sector
and
year.
!
cF
Key
Drivers:
Non
Fuel
Expenditures
Incremental
Capital
Investments
1t
4
Annualized
Cost
(
byState
and
Sector)
Expenditures
from
Installation
of
Equipment
(
scrubbers,
new
generation
or
retrofits)
*
Capital
expendituresare
split
between
constructionand
equipmentpurchases
Regional
Purchasetheficients
(
RPC)
in
REMI
determinesalocatjon
ofexpenditures
across
regions
REMI
allocates
regional
expendituresby
sector
and
input
mix.
.
Secondary
effects
are
on
householdincome,
wages,
prices,
.
Net
Change
in
annualized
productioncosts
=
change
in
revenue+
changein
annual
capital
and
FOM+
Netfuel
cost
changes+
netpermit
revenues
Electric
generatorspass
throughunrecoverable
cost
changes
or
excess
revenuesto
shareholders
Share
ownership
national
and
distributed
based
on
household
income
*
Other
sectors
experiencedecreasedprofitability
due
to
increased
production
cost
>
Sectors
that
compete
regionally
pass
through
costs
via
to
producers
and
consumers
5
Sectors
that
compete
nationallyexperience
a
change
in
market
share
3
Annual
Incremental
Cost
m
Annual
incremental
costs,
projected
by
IPM,
denote
the
compliance
cost
of
the
policy
and
are
incrementalto
the
base
case.
1
Annual
incremental
cost
consist
of
changes
in
capital
investment
and
changes
in
variable
and
fixed
operating
cost.
R
Annual
incremental
costs
affect
the
regional
economy
in
two
main
ways.
Non
electric
industries
that
compete
nationallyexperience
a
decrease
in
competitiveness,
while
non
electricindustries
that
compete
locally
change
their
product
price.
Electricgenerators
pass
through
unrecoverable
cost
changes
or
excess
revenues
to
shareholders.
Capital
investments
spur
construction
and
increase
equipment
purchase.
Incremental
Annual
Cost
in
2013
(
millions
1997$)
Environ
Command
8,
State
Minontv
MTF
EPA
mental
Control
A2
10
25
32
62
37
CA
3
31
54
130
1
co
ID
7
19
1
26
2
49
55
5
2
NM
5
15
19
38
1
NV
14
33
44
83
4
OR
9
9
9
9
4
UT
4
12
15
25
11
WY
11
28
40
75
102
Tribal
8
20
26
50
Total
11
9
I
16
21I
4
ICF
CONSUL7IY6
lncremental
Annual
Cost
in
2018
(
millions
1997$)
EnGron
Command
&
State
Minority
MTF
EPA
mental
Control
CA
6
22
39
37
2
co
15
39
43
33
47
ID
1
I
1
1
NM
NV
5
2
IO
12
3
a
5
3
6
OR
2
2
2
1
4
UT
1
16
20
21
12
WY
24
41
51
199
108
Tribal
3
9
I1
1
2
Az
5
25
41
68
40
._
Total
60
121
145
274
210
CON5I)
LTING
Annual
lncremental
Cost
(
Continued)
Sources
located
in
AZ,
CO
and
WY
bear
most
of
the
cost
(
primarily
capital
investment
costs)
associated
with
the
command
&
control
scenario
because
a
large
share
of
the
BART
eligible
sources
are
located
in
these
states.
Sources
located
in
CA
realizes
lower
costs
in
2013
and
2018
under
the
trading
scenarios
because
of
the
lower
level
of
repowering
of
existing
oil/
gas
steam
units
relative
to
the
Baseline.
5
Annual
Incremental
Cost
(
Continued)
a
Similarly,
sources
located
in
CO
and
WY
realize
lower
costs
in
2013
under
the
trading
scenarios
relative
to
the
baseline
because
repowering
ofexisting
IC1boilers
is
postponed
in
anticipation
ofthe
policy
in
2018.
ICF
Trading
Cases
CONSULrlNG
Incremental
Cost
for
GCVTC
States
in
2018
500
Environmental
400
1M
IH
200
100
0
1
00
MTF
$
123
MM
200
Variable
O&
M
Fixed
O&
M
0Fuel
0Capital
6
EF
CON
II1
L1
ING
Incremental
Annual
Capital
Cost
in
2013
(
millions
1997$)
Environ
Command
&
State
Minoritv
MTF
EPA
mental
Control
Az
1
3
4
a
21
CA
0
5
9
23
1
co
3
9
12
25
28
ID
0
0
0
0
0
NM
1
2
2
5
3
NV
4
9
12
25
3
OR
2
2
2
2
4
UT
0
1
1
2
6
Tribal
Total
4
14
20
44
107
WY
2
4
6
11
43
1
3
4
9
0
ICF
IncrementalAnnual
Capital
Cost
in
2018
(
millions
1997$)
Environ
Command
&
State
Minority
MTf
PA
mental
Control
Az
1
3
4
22
22
CA
0
5
9
27
1
co
3
11
10
24
27
ID
2
2
2
2
0
2
4
3
10
5
1
1
1
16
0
OR
3
3
3
3
4
UT
1
3
2
20
7
4
6
8
20
45
NM
NV
WY
Tribal
2
3
5
33
1
Total
9
23
17
127
110
7
L
B
ICpl<
ey
Drivers:
Changes
in
Wholesale
C
0
N
I
U
L'FI
N
t
in
Electricity
Prices
I
Electric
Distribution
Companies
I.
Changes
in
electricity
prices
affects
industrial,
commercialand
residential
customers.
I
*
Changes
in
wholesaleelectricity
prices
affects
utility
revenuesand
shareholder
profits.
11
CommercialAndustrial
Users
of
Electricity
Residential
User
of
Electricity
*
Changes
in
electricity
prices
for
the
Changes
in
electricity
prices
affects
residential
commercialindustrialsector
affects
the
costof
consumers
as
change
in
Consumer
Price
Index
raw
material
inputs.
(
CPI)
and
purchasingpower
Non
electricsectors
that
compete
regionally
Changes
In
CPI
directly
affects
real
after
tax
wage
are
able
to
pass
throughinput
cost
changes
to
rate,
and
has
indirect
effects
on
migration,
labor
their
consumers.
force
and
government
services.
change
in
competitivenessrelative
to
Wholesale
Electricity
Prices
1p1
Projected
changes
(
relative
to
the
baseline)
in
wholesale
energy
prices
from
IPM
are
used
to
derive
changes
in
retail
energy
prices
paid
by
residential,
commercial
and
industrial
sectors.
I
We
assume
competitive
market
conditions
where
changes
in
wholesale
energy
prices
are
the
only
price
impacts
observed
by
end
users
under
a
policy.
Any
unrecoverable
costs
are
absorbed
by
shareholders;
revenues
in
excess
of
costs
are
passed
on
to
shareholders
in
the
form
of
increased
dividends.
8
CDNLU
LTlNG
Wholesale
Electricity
Prices
(
Continued)
Wholesale
energy
prices
in
IPM
represent
the
variable
cost
of
the
marginal
generating
unit
and
simulate
continuously
clearing
competitive
electric
generation
markets.
M
Electricity
prices
only
change
if
the
variable
cost
of
production
of
the
marginal
unit
changes.
I
Electricity
price
impacts
in
the
command
&
control
scenario
are
small
relative
to
the
trading
scenarios
because
capital
investment
(
which
does
not
directly
influence
variable
operating
cost)
dominate
the
compliance
strategy
under
ICF
CONSU
LilfiG
Wholesale
Electricity
Prices
(
Continued)
I
Since
fuel
costs
(
which
directly
influence
variable
cost
of
operation)
dominate
incremental
cost
under
the
trading
scenarios,
electricity
price
impacts
under
the
trading
scenarios
are
relatively
more
pronounced.
m
Decline
in
electricity
prices
in
2013
represent
inter
temporal
tradeoffs
in
anticipation
of
the
policy
in
2018.
h
I
9
ICF
CDNSULrlNG
Wholesale
Electricity
Price
Impacts
Stale
Minoriiy
I
MTF
I
2013
Enwronmental
I
Command&
ConVol
EPA
1997
mills
percent
1897
mills
percent
kWh
change
A2
0.32
0.2%
CA
0.19
0.7%
4.33
0.1
%
CO
0.17
0.7%
0.32
02%
ID
0.19
0.7%
0.33
0.1%
NM
0.19
4.7%
0.33
0.1%
NV
0.18
0.7%
0.33
02%
OR
0.18
0.7%
0.33
0.1K
UT
0.18
0.7%
0.32
0.2%
WY
0.17
03%
0.32
0.
z
%
Tribal
0.17
0.7%/
0.32
1.30.1
0.43
1.7%
1
0.81
3.2%
1
0.05
02%
Average
0.18
I
0.32
1
0.42
I
0
80
I
004
Wholesale
Electricity
Price
Impacts
2018
State
Minority
I
MTF
I
EPA
I
Environmentill
Command
&
Control
1997
mills
percan
'
1997
mills
psrcen
11997
malls
percan
'
1997mills
psrcen
1997
mills
percent
IkWh
changa
1
IkWh
chanBi
1
RWh
change
/
kWh
change
A2
0.18
0.7%
I
041
17%
0.96
3.9%
0.0%
CA
0.29
1.1%
0.50
2.0%
063
25%
1.22
4.8%
0.05
0.2%
CO
0.18
0.7%
0.31
1.3%
041
17%
I
0.96
3.9%
0.0%
ID
0.24
1.0%
0.37
1.5%
051
20%
1.12
4.5%
0.03
0.1%
NM
0.26
1.0%
0.39
1.5%
053
21%
1.16
4.6%
0.04
0.2%
NV
0.24
0.9%
0.41
1.6%
052
21%
1.09
4.4%
0.03
0.1%
OR
026
%.
OR
0.39
1.5%
053
21%
1.16
4.6%
0.04
0.2%
UT
0.22
0.9%
037
1.5%
048
19%
1.04
42%
0.02
0.1%
WY
0.18
0.7%
0.31
1.3%
041
17%
0.96
3.9%
0.0%
Tribal
0.18
0.7%
0.31
13%
041
17%
0.96
3.9%
0.0%
Average
0.22
0.37
0
48
1.06
0.02
10
t
3
CONSULTING
ICF
Fuel
Mix
Impacts
in
REMI
Fuel
Productionand
Consumption
I
Changes
in
the
value
of
coalproduced
Changes
in
the
value
of
gas
consumptionby
the
ekcttic
utility
and
non
utilitysector
Changes
in
fuel
expenditures
by
sector
and
region
is
modeled
as
a
change
in
dividends
for
publiGutilitysector
companies
and
as
production
costs
for
nonpublic
utility
sector
Companies
I
I
1
Coal
Gas
*
Change
in
the
value
of
coal
producedaffects
REMI
determines
the
share
of
gas
consumption
the
mining
sector
in
REMI
that
is
produced
within
a
particular
region
FU~
IProduction
&
Consumption
m
Regional
coal
production
is
a
key
driver
to
the
REMI
model
and
is
based
on
changes
in
coal
production
by
state
as
projected
by
IPM.
E
A
coal
producer
experiences
revenue
losses
(
gains)
when
less
(
more)
coal
is
produced
and
coal
prices
decrease
(
increase)
due
to
lower
(
higher)
quantity
of
coal
demanded.
1p
Changes
in
coal
production
have
been
valued
at
the
market
clearing
mine
mouth
price
based
on
IPM
projections.
Changes
in
gas
consumption,
based
on
IPM
projections,
also
feed
into
the
REMI
model
I
_
I
t
CONSULllNG
ICF
Impacts
on
Coal
Markets
Coal
prices
and
coal
production
in
IPM
are
endogenously
determined
in
IPM
and
are
based
on
coal
supply
curves.
rn
Coal
revenues
increase
under
the
trading
scenarios.
The
total
increase
in
the
GCVTC
region
is
less
than
a
percent
(
0.7
%)
in
2018
under
the
Environmental
scenario.
m
Coal
revenues
decline
under
the
Command
&
Control
scenario.
The
total
decline
in
the
GCVTC
region
is
less
than
a
percent
(
0.5
%)
in
2018.
ICF
impacts
on
Coal
Markets
CDNSULilNG
Trading
Scenarios
B
Although
coal
based
generation
(
and
coal
consumption)
decreases
in
the
9
states
GCVTC
region
in
the
Trading
scenarios,
coal
production
in
the
same
9
state
region
increases.
E
Revenues
from
coal
production
from
the
9
states
region
increases
as
the
SO,
reduction
requirement
becomes
more
stringent
across
the
trading
scenarios.
Increase
in
coal
revenues
is
largely
due
to
increased
exports
of
western
coals
to
other
parts
of
the
countrv.
12
ICF
Impacts
on
Coal
Markets
CONSULrl
NG
Trading
Scenarios
(
Continued)
1
Increased
demand
for
western
coals
is
offset
by
decreased
demand
for
coal
from
other
regions
of
the
country,
predominantly
the
mid
west.
N
lncreased
export
of
western
coal
to
other
parts
of
country
reflect:
Decreased
demand
for
coal
in
the
GCVTC
region.
Less
stringent
national
SO,
cap
due
to
SO,
reductions
inthe
GCVTC
region.
This
leads
to
increased
coal
generation
in
the
rest
of
the
country.
Impacts
on
Coal
Markets
CON
I
ULTlN
G
Command
&
Control
Scenario
1
Under
the
command
and
control
scenario
coal
revenues
in
the
GCVTC
region
declines.
1
Command
&
control
is
a
capital
intensive
program
that
does
not
lower
coal
purchases
in
the
GCVTC
region:
Coal
consumption
increases
slightly
in
the
GCVTC
region.
lncreased
coal
demand
in
the
9
state
region
is
largely
the
result
of
additional
new
coal
capacity.
13
I
ICF
Impacts
on
Coal
Markets
CON
SI1
L
IIN
G
Command
&
Control
Scenario
(
Continued)
rn
Increased
coal
demand
in
GCVTC
region:
Puts
upward
pressure
on
western
coal
prices
and
plants
capable
of
receiving
non
western
coal
switch
away
from
western
coal.
Decline
in
export
of
western
coal
to
other
parts
of
the
country
leads
to
a
decline
in
coal
production
in
the
western
states.
rn
Production
cuts
in
the
western
states
are
balanced
by
production
increases
in
the
Appalachian
region.
ic
CONSUL
F
:
lNG
Coal
Revenue
Impacts
by
State
in
2013
(
millions
1997$)
Environ
Command
State
Minority
MTF
EPA
mental
&
Control
AZ
CA
co
ID
NM
0.01
NV
OR
UT
0.31
WY
2.87
2.93
2.95
2.85
30.70
Tribal
0.12
Total
2.87
2.93
2.95
2.85
31.14
14
ICF
LoN5ULiiNG
Coal
Revenue
Impacts
by
State
in
2018
(
millions
1997$)
Environ
Command
State
Minority
MTF
EPA
mental
&
Control
HL
CA
co
13.40
ID
NM
0.01
0.00
0.22
0.01
NV
OR
UT
21.02
30.20
52.08
WY
4.65
6.80
6.30
30.58
12.68
Tribal
0.12
6.25
19.03
0.12
Total
4.65
14.09
17.65
15.65
12.81
Gas
Consumption
s
Change
in
gas
consumption
is
relatively
small
under
the
Command
&
Control
scenario
because
the
policy
does
not
create
incentives
to
shift
to
natural
gas.
m
Gas
consumption
increases
with
the
stringency
of
the
trading
program
because
increased
generation
from
gas
is
a
significant
compliance
strategy.
15
ICF
CONSUL I ING
Gas
Consumption
by
State
in
2013
(
millions
1997$)
Environ
Command
State
Minority
MTF
EPA
mental
&
Control
A2
9
20
26
53
0
CA
2
25
42
100
0
co
3
6
9
18
6
ID
0
I
2
5
2
NM
4
12
16
33
2
NV
8
20
26
53
5
OR
6
6
6
6
3
UT
4
11
14
27
0
WY
8
21
30
60
44
Tribal
6
14
19
37
0
Total
16
22
24
38
48
5CF
CONSULTtN
G
Gas
Consumption
by
State
in
2018
(
millions
1997$)
Environ
Command
State
Minority
MTF
EPA
mental
&
Control
A2
7
17
24
92
0
CA
5
16
27
4
1
co
7
16
22
59
0
ID
1
1
1
0
0
NM
3
6
9
29
0
NV
I
4
6
11
0
OR
6
6
6
6
3
UT
3
8
12
39
0
WY
7
16
22
188
47
Tribal
5
12
16
48
0
Total
31
56
77
456
43
16
!.
CFPermit
Trading
Impacts
in
REMI
Revenue
Impacts
from
Allocations
I
Allowance
allocation
is
comparedto
projectedemissions
to
determine
net
allowance
position
by
sector
and
geographic
area
Revenue
impacts
from
allocation
depend
on
net
allowance
position
and
permit
price
I
Non
Tribal
Revenue
impacts
from
allocations
for
sectors
'
that
compete
regionallyflows
through
as
changes
in
dividends
for
shareholders
Revenue
impacts
from
allocations
for
sectors
that
compete
nationallyflow
throughto
the
production
cost
of
that
sector
ICF
CONLULTING
I
1
Tribal
Revenueimpacts
from
allocation
to
tribal
areas
flow
through
as
changes
in
tribal
government
expenditures.
Allowance
Allocation
Revenues
I
Revenues
(
or
expenses)
from
net
allowance
sales
(
or
purchases)
represent
the
net
position
of
each
state
given
the
initial
distribution
of
allowances
and
projected
emissions.
mi
Data
on
the
distribution
of
allowances
by
sector
and
'
state
were
provided
by
MTF
participants.
P
Allowance
prices
and
the
emissions
in
each
state
were
projected
by
IPM.
IE
A
state
sells
allowances
if
its
allocation
exceeds
its
emissions
and
buys
allowances
if
its
emissions
exceeds
its
allocations.
17
CONSULTING
Allowance
Revenue
Impacts
in
2018
(
millions
1997$)
Minority
MTF
EPA
Environmental
AZ
3.5
3.2
6.5
17.8
CA
0.4
4.1
7.5
,
24.8
co
5.3
2.9
0.4
5.9
ID
1.6
0.4.
2.0
1
1.4
NM
2.6
2.9
2.4
31
.
O
NV
7.6
12.6
17.8
20.3
OR
2.0
5.5
9.0
22.1
UT
9.1
8.6
1
3.7
24.1
WY
7.6
6.8
14.4
47.6
Tribal
14.2
22.4
30.7
61.9
18
EF
CONS
I1
IT1
WG
Economic
Impacts
B
For
the
purposes
of
this
analysis,
three
indicators
of
economic
impacts
are
reported:
Employment,
Gross
regionalproduct,
and
Real
personaldisposable
income.
I
I
ICF
Review
of
Key
Assumptions
m
Sectors
that
compete
regionally
are
able
to
flow
through
changes
in
productioncost
to
prices.
8
Sectors
that
compete
nationally
are
unable
to
flow
through
production
cost
increases
to
priceand
pass
through
these
changes
to
shareholders
(
as
changes
in
profits).
Electric
utility
sector
operates
in
a
competitive
regional
market.
To
the
extent
that
price
increases
are
reflected
in
wholesale
electric
prices,
they
are
recovered.
Excess
recovery
or
under
recovery
are
flowed
through
to
shareholders.
I
Shareholders
are
distributed
across
the
country
and
are
approximated
by
the
distribution
of
personal
income.
On
this
basis,
approximately
twenty
percent
of
the
shareholders
are
estimated
to
be
located
in
the
nin
19
I
ICF
Economic
Impacts
for
GCVTC
CONSULIING
States
in
2013
Erniron
command
~
nges
Minority
MTF
EPA
mental
&
Control
Employment
1,965
3,738
4,180
7,801
4,473
GRP
(
Million
9s)
127
241
264
489
244
Real
Disp
Pers
Inc
(
Million
9%)
94
172
217
410
84
Note:
Totals
might
not
match
due
to
rounding.
Environ
Command
%
Change
Minority
MTF
EPA
mental
&
Control
Employment
0.005
0.010
0.012
0.022
0.012
GRP
0.006
0.012
0.013
0.023
0.012
Real
Disp
Pers
Inc
0.007
0.013
0.016
0.030
0.006
!
CE
Economic
Impacts
for
GCVTC
States
in
2018
Environ
Command
Changes
Minority
MTF
EPA
mental
8,
Control
Employment
926
1,418
1,434
7,918
625
GRP
(
Million
92$)
29
43
22
271
42
Real
Disp
Pers
Inc
(
Million
92$)
78
133
159
525
44
Note:
Totals
might
not
match
due
to
rounding.
Environ
Command
%
Change
Minority
MTF
EPA
mental
&
Control
Ernpfoyment
0.002
0.004
0.004
0.021
0.002
GRP
0.001
0.002
0.001
0.012
0.002
Real
Disp
Pers
Inc
0.005
0.009
0.011
0.036
0.003
20
ICF
CON
).
U
L1
ING
Regional
Economic
Impacts
E
Changes
in
the
three
economic
indicators
are
positive
in
2013
and
negative
in
2018
by
a
similar
order
of
magnitude.
m
The
magnitude
of
the
changes
in
the
three
economic
indicators
are
all
very
small,
with
no
change
in
an
economic
indicator
being
larger
than
0.05
percent
at
the
regional
level.
m
Impacts
on
the
three
economic
indicators
are
relatively
small
because
the
cost
of
the
SO,
reduction
policies
are
all
relatively
small.
Even
the
highest
cost
of
$
274
million
to
all
sectors
is
well
under
one
percent
of
the,
total
production
cost
oft
IiEFCONSUITtNG
Command
&
Control
Scenario
rn
Economic
impacts
from
the
command
and
control
scenario
are
positive
in
2013
and
comparable
to
the
EPA
trading
scenario.
rn
Increased
economic
activity
in
2013
under
the
command
and
control
scenario
reflects
the
surge
in
capital
investmentthat
begins
in
2013.
II
The
onetime
surge
in
employment
in
2013
is
primarily
due
to
capital
investments
under
the
command
and
control
scenario.
Employment
levels
decline
with
some
lag.
21
I
ICFCONS
"
IT1
N
t
Command
&
Control
(
Continued)
m
Economic
impacts
in
2078
under
the
command
and
control
scenario,
however,
are
negative,
but
of
a
more
modest
magnitude.
m
Command
and
control
scenario
is
a
capital
intensive
program
primarily
affecting
the
electric
utility
sector.
8
Because
under
the
command
and
control
scenario
most
costs
impacts
are
capital,
electricity
price
impacts
in
competitive
markets
are
relatively
small.
I
ICF
CON
S
"(
TINS
Command
and
Control
a
Declines
in
gross
regional
product
and
real
personal
disposable
income
occur
in
2018
under
the
command
and
control
scenario
after
positive
impacts
in
2013.
m
For
the
command
and
control
scenario,
the
longer
term
economic
equilibrium
would
be
expected
to
approach
pre
policy
levels
due
to
the
fact
that
the
policy
reflects
a
one
time
shock
to
the
region
that
does
not
systematically
alter
the
non
utility
sectors.
PI
Shareholders
of
the
utility
sector
continue
to
bear
the
costs
of
the
policy.
However,
these
effects
are
distributed
nationally,
with,
of
the
nine
state
area,
only
California
bearing
a
significa
22
ICF
CON
1U
L
TIN
G
Trading
Scenarios
I
All
trading
scenarios
yield
an
overall
increase
in
all
three
economic
indicators
in
2013,
and
an
overall
decrease
in
the
economic
indicators
in
2018.
The
dampened
decline
in
gross
regional
production
in
2018
under
the
EPA
scenario
represents
the
lagged
effects
of
2013.
EPA
trading
scenario,
unlike
the
other
trading
scenario,
has
no
incremental
cost
in
2013.
CONSULZING
ICF
Trading
Scenarios
Impacts
(
Continued)
II
Economic
impacts
from
the
environmental
scenario
are
greater
than
the
other
trading
scenarios
because
in
these
scenarios
nationally
competing,
non
utility
sectors
bear
a
larger
portion
of
the
compliance
cost
relative
to
the
other
trading
scenarios.
m
Thus,
they
loose
competitiveness
and
market
share
with
attendant
impacts
on
employment,
wage
rates,
and
household
income.
E
The
Environmental
Scenario
also
has
the
lowest
level
of
capital
investment,
lower
than
the
Base
Case,
thus
employment
impacts
are
largest.
23
CONSULTING
ICF
Trading
Scenarios
Impacts
(
Continued)
m
California
bears
a
large
share
of
the
impacts
in
employment,
GRP
and
income
relativeto
other
states.
This
is
primarily
due
to
its
relative
size.
California
is
the
largest
of
the
nine
states,
in
terms
of
employment,
income
and
output.
income
was
used
as
the
proxy
for
shareholderdistribution.
Sixty
six
percent
of
GCVTC
utility
shareholdersare
assumed
to
be
located
in
California.
GCVTC
electric
utility
shareholders
realizea
loss
in
income
when
increased
electric
utility
expendituresdue
to
the
policy
are
not
recoveredthrough
electric
prices.
California
experiencesa
larger
than
average
increase
in
electric
prices
which
increasesthe
cost
of
productionfor
all
other
inhustries.
COHSULrlNG
ICF
Trading
Scenarios
Impacts
(
Continued)
R
In
addition,
the
mix
of
industry
in
California
affects
the
relative
impacts.
Many
of
the
industries
located
in
California
compete
nationally
and
are
not
able
to
pass
through
the
increased
production
cost
from
higher
electricity
prices.
These
industriesbecause
less
competitive
as
a
result
of
the
the
increased
production
cost
from
electric
price
increase.
Loss
of
competitivenessleads
to
lower
output,
resulting
in
lower
employment,
reduced
income
and
lower
gross
regional
product.
24
l!
F
Impact
on
Gross
Regional
Product
in
2013
(
millions
1992$)
Environ
Command
State
Minority
MTF
EPA
mental
&
Control
Az
CA
co
ID
NM
NV
OR
UT
WY
Tribal
Total
18
40
48
90
61
48
73
64
113
79
21
32
41
75
31
2
4
4
7
8
0
17
18
32
1
6
7
3
9
9
6
11
14
29
24
7
14
18
32
13
12
26
32
58
33
7
18
23
45
2
128
242
265
490
244
lOcF
Impact
on
Gross
Regional
Product
in
2018
(
millions
1992$)
State
Minority
MTF
EPA
A2
4
0.2
4
CA
53
102
126
co
13
39
47
ID
4
7
9
NM
1
1
1
NV
4
8
19
OR
9
17
26
UT
3
20
28
WY
16
13
18
Tribal
11
19
20
Total
29
43
22
E
nvironmental
75
259
76
61
27
37
74
24
65
21
271
Com
mand
&
Control
7
25
5
0
I
1
1
1
0
9
1
42
25
ICF
CONSUL1
ING
Impact
on
Employment
in
2013
(
Number
of
Workers)
State
Minority
MTF
EPA
Az
298
688
850
CA
762
1,135
1,078
co
376
518
682
ID
44
79
79
NM
43
244
251
NV
110
147
58
OR
74
205
249
UT
117
215
270
WY
132
268
351
Tribal
100
247
314
Total
1,969
3,745
4,183
Environ
Command
mental
&
Control
1,595
1,041
1,906
1,027
1,253
746
150
120
411
19
185
173
579
377
486
279
618
1,005
618
30
7,801
4,471
I1
lockImpact
on
Employment
by
State
in
2018
(
Number
of
Workers)
Environ
Command
State
Minority
MTF
EPA
mental
&
Control
Az
125
104
88
1,708
108
CA
963
1,775
2,197
4,285
459
co
165
585
679
641
45
ID
80
135
186
1,247
1
NM
25
36
74
653
22
NV
42
162
265
439
193
OR
167
314
466
1,281
34
UT
101
106
140
307
11
WY
132
109
126
133
48
Tribal
198
312
371
346
15
26
I
I
ICF
CDNlULllNG
Impact
on
Real
Disposable
Personal
Income
by
State
in
2013
(
millions
1992$)
Environ
Command
State
Minority
MTF
PA
mental
8
Control
AZ
13
30
39
72
23
CA
31
48
48
91
20
co
21
41
56
104
I1
ID
2
3
3
6
4
NM
0
7
8
14
1
NV
9
7
19
38
8
OR
6
11
14
29
9
UT
5
9
11
21
6
WY
4
8
10
17
16
Tribal
3
8
10
19
1
I
Impact
on
Real
Disposable
Personal
Income
by
State
in
2018
(
millions
9992s)
Environ
Command
State
Minority
MTF
EPA
mental
8
Control
A2
7
1
1
12
97
3
CA
52
97
121
213
29
co
2
11
13
8
2
ID
6
8
11
109
0
NM
2
3
5
24
0
NV
1
10
2
3
7
OR
13
22
31
69
2
UT
5
1
1
18
0
WY
4
3
3
6
5
Tribal
3
5
5
I
0
Total
78
133
159
525
27
I
ICF
CONSULTING
Sensitivity
Analysis
rn
Regionaleconomic
impacts
are
sensitive
to
assumptions
about
the
recovery
from
ratepayers
of
compliance
cost
borne
by
the
electric
generating
industry.
8
We
assumed
that
retail
prices
reflect
competitive
prices
in
wholesale
markets
based
on
marginal
energy
costs.
Thus,
revenues
in
excess
of
production
costs
accrue
to
shareholders.
m
However,
an
alternate
assumption
that
the
electric
utility
sector
may
be
able
to
fully
recover
its
costs
through
price
flow
through
to
end
user
has
a
more
extended
impact
on
the
regional
economy.
JiCFCONLULTlNt
Sensitivity
Analysis
(
Continued)
rn
Under
this
alternate
assumption
of
guaranteed
cost
recovery,
the
production
cost
of
other
sectors,
using
electricity
as
an
input,
increases.
I
The
following
three
slides
detail
the
regional
economic
impact
of
a
command
and
control
scenario
for
2013
and
2018
under
these
alternate
assumptions
regarding
cost
recovery.
28
CONSU
iTlN1
1
ICF
Economic
Impacts
by
State
Million
92
$
Az
2
CA
63
co
26
ID
4
NM
4
NV
6
OR
9
UT
1
WY
26
Tribal
0
I
ICF
Economic
Impacts
by
State
Percent
Millicin
92
$
Percent
0.00
89
0.00
0.10
55
0.00
0.02
100
0.06
0.01
3
0.01
0.01
8
0.02
0.01
3
0.00
0.01
19
0.01
0.00
22
0.03
0.13
21
0.10
0.00
3
0.01
C0N5U1TlN~
Sensitivity
Analysis
Command
8
Control
Scenario
Changes
in
Real
Disposable
Income
Million
92
$
Percent
Million
92
$
Percent
Az
37
0.03
76
0.06
CA
28
0
16
0
co
39
0.03
80
0.06
ID
1
0.01
1
0
NM
2
0.01
5
0.01
NV
5
0.01
5
0.01
OR
2
0
8
0
UT
4
0.01
14
0.03
WY
I1
0.09
13
0.11
Tribal
1
0.01
I
1
0.01
29
Y
b
'
a.'
9
I
CONSULTING
ICF
Economic
Impacts
by
State
la1ysis
Sensitivity
AI
Command
i3Contro
Changes
in
Empl
2013
Persons
Perceni
Az
93
0.
oc
CA
865
0.
oc
co
310
0.01
ID
49
0.07
NM
69
0.01
NV
63
o.
oa
OR
155
0.01
Scenario
byment
2018
Persons
Percent
1,400
0.05
873
0.00
1,600
0.05
5
0.01
124
0.01
19
0.00
257
0.01
UT
42
0.00
334
0.02
WY
805
0.25
273
0.08
Tribal
3
0.00
3
0.01
Total
1.504
4.850
CONiUIilNt
Conclusions
Change
in
employment,
gross
regional
product
and
disposable
income
are
by
state,
and
may
appear
to
be
more
significant
if
the
economic
impacts
are
concentrated
within
the
certain
localities
of
a
state.
The
modeling
framework
was
constructed
to
report
at
the
state
level.
Employment,
gross
regional
product
and
disposable
income
increasejust
before
a
policy
takes
effect
and
decrease
after
the
policy
takes
effect.
1
Changes
in
employment,
gross
regional
product
and
disposable
income
represent
anticipatedfluctuations
in
economic
cycle
due
to
policy.
30
| epa | 2024-06-07T20:31:34.591026 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0076-0063/content.txt"
} |
EPA-HQ-OAR-2002-0076-0064 | Supporting & Related Material | 2001-04-02T04:00:00 | null | Data
Worksheets
from
ICF
Consulting
Detailing
Utility
Emissions
Projections
n
KUP
k
,
mmmm
2
""
V
0000
0
=.
.
m
N'
r:
N
.
II
L
cu
B
a
U
0)
c
E
s
| epa | 2024-06-07T20:31:34.600992 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2002-0076-0064/content.txt"
} |
EPA-HQ-OAR-2003-0017-0005 | Supporting & Related Material | 2001-04-18T04:00:00 | null | Summary
of
Methyl
Bromide
Crltlcat
Use
Meeting
Environmental
Protection
Agehcy,
Washington
DC
February
16,2001
lntroductioh
After
welcomlng
and
introduction,
EPA
thanked
everyone
for
their
attendance
an
The
outline
for
the
meeting
schedule
and
goals
was
as
follows:
1)
Discussion
of
EPA's
timeline
for
formulating
a
critical
use
process;
2)
Review
of
the
Montreal
Protocol
and
Clean
Air
Act
(
CAA)
language
relating
to
Critical
and
Emergency
Use
Exemptions;
and
3)
tdentlflcation
of
any
issues,
questions,
and
concerns
raised
by
stakeholders.
PA
then
stated
that
stakeholder
input
is
extremely
valuable
in
ensuring
that
the
process
is
a
success.
especially
because
the
policy
making
process
is
still
in
Its
early
stages
Methyl
Bromide
Critical
U
s
e
Exemption
PA
gave
a
slide
presentation
discussing
the
foollowing:
1)
The
steps
taken
to
conform
the
methyl
bromide
phaseout
with
the
Montreal
Protocot
(
Protocol)
and
the
CAA,
2)
The
regulatory
steps
In
developing
an
exemption
process:
3)
EPA's
timeline;
4)
Montreal
Protocol
language
relating
the
Critical
and
Emergency
Use
exemption:
and
5)
Recent
Changes
to
the
CAA
relating
to
Critical
and
Emergency
U
s
e
exemptions.
International
Perspective
EPA
began
the
discussion
by
assuring
attendees
that
the
goal
of
a
methyl
bromide
phaseout
is
to
phase
out
methyl
bromide,
not
to
harm
agricultural
interests.
Stakeholders
should
not
hat
the
US.
government,
including
the
Departments
of
Agriculture
and
State,
not
EPA
alone,
negotiate
the
critical
use
exemption
criteria
agreed
by
the
Parties
(
countries
that
have
ratified
the
Montreal
Protocol)
and
that
the
Parties
formulated
the
language
for
Critical
Use
Exemptlons.
EPA
explained
that
portions
of
the
Essential
Use
process
already
in
operation
for
CFCs
and
other
chemicals
might
possibly
be
used
as
a
template
for
the
Critical
and
Emergency
Use
exemption
process,
stressing
that
the
essential
use
process
will
have
to
be
modified
far
agriculture.
ln
addition,
EPA
discussed
the
Parties
understanding
of
the
need
for
flexibility
in
the
Critical
and
Emergency
Use
exemption
process
to
account
for
regional
and
crop
speciflc
considerations.
EPA
also
illustrated
how
the
methyl
bromide
Critical
Use
Exemption
process
could
possibly
function
internationally.
Stakeholders
should
note
that
with
the
exception
of
the
January
1,
2005
date
set
for
allowing
exempted
uses,
the
timeline
for
the
international
process
has
not
yet
been
set
by
the
Parties.
The
following
steps,
based
on
the
Essential
Use
process
for
CFCs,
summarize
a
possible
international
process
for
critical
uses:
1
)
National
governments
submit
nominations
to
the
Ozone
Secretariat
by
January
31,
2003:
2)
The
Ozone
Secretariat
submits
nominations
to
the
Technology
and
Economic
Assessment
Panel
(
TEAP),
which
submits
nominations
to
the
Methyl
Bromide
Technical
Options
Committee
(
MBTOC)
for
review;
3)
MBTOC
makes
a
recommendation
to
TEAP;
4)
TEAP
considers
the
recommendatlon
and
sends
it
to
Parties
for
debate
in
meetings
(
mid
2003);
5)
The
Parties
reach
a
declslon
(
fall
2003)
in
suficient
time
to
enable
conttnued
critical
use
after
the
January
1,2005
methyl
bromide
phaseout.
The
process
may
be
repeated
in
the
following
year
to
make
supplemental
requests
for
2005,
as
well
as
requests
for
2006
1
.
Summary
of
Stakeholder
Suggestions
and
Concerns
Many
stakeholders
expressed
concern,
as
the
methyl
bromide
phaseout
date
approaches,
over
the
future
of
crops
currently
uslng
methyl
bromide.
The
following
bulleted
list
summarizes
stakeholder
suggestions
and
concerns
that
were
introduced
and
discussed
at
the
meeting.
They
do
not
necessarily
reflect
the
opinions
of
every
attendee
at
the
meeting
or
of
PA;
rather,
thfs
list
is
provided
as
a
summary
of
information
offered
by
stakeholders.
Text
In
bold
represents
stakeholder
tAmrnents.
All
other
text
represents
clarifications
made
by
EPA
in
response
to
stakeholder
concerns
and
questions.
The
Critical
Use
Exemption
Process
Critical
Use
Exemptions
will
not
exist
until
2005.
Users
can
acquire
methyl
bromide
until
the
phaseout,
as
long
as
they
are
wllllng
to
pay
the
market
price.
Individual
methyl
bromide
users
are
not
currently
required
by
EPA
regulations
to
consume
less
methyl
bromide
than
in
the
past.
PA
requires
only
methyl
bromide
producers
and
importers
to
reduce
their
production
and
import.
The
Montreal
Protocol
negotiates
Qn
the
basis
of
methyl
bromide
consumption,
not
emissions.
Policy
has
addressed
the
reduction
of
emissions
only
through
minimizing
consumption;
thus,
Critical
Use
exemptiohs
are
related
to
production
and
consumption,
not
emissions.
The
Critical
Use
exemptfon
process
is
designed
to
provide
users
with
approved
exemptions
for
calendar
year
2005.
In
order
to
process
a
larger
number
of
applicatlons
under
time
constraints,
EPA
has
increased
Its
staff
working
on
methyl
bromide,
The
timetine
of
the
appllcation
process
could
possibly
be
a5
follows:
Application
process
begins,
mid
2002;
US.
government
reviews
appllcations,
late
2002;
EPA
submits
only
those
nominations
approved
by
the
US,
government
to
the
Protocol
Parties,
January
2003;
Protocol
makes
determinations
for
granting
critical
uses,
December
2002:
Applicants
notified
of
Protocol
decisions,
2004;
and
Approved
applicants
allowed
to
use
methyl
bromide,
January
7
,
2005.
Critical
use
exemptions
should:
Consider
use
ovw
volume;
Be
granted
to
coincide
with
crop
cycles;
Be
granted
on
a
multi
year
basis:
The
CAA
and
the
Protocol
do
not
specify
the
time
period
of
granted
exemptions
EPA
is
checking
with
Protocol
officials.
Growlng
conditions
and
pesticide
needs
do
not
change
drastically
annually.
It
Is
therefore
unlikely
that
an
exemption
would
be
needed
one
year
and
not
the
next.
Requiring
single
year
exemptions
would
decrease
the
security
level
of
Metfunctlons
In
the
adminlstratlve
process
are
posstbte;
a
multiyear
exemption
would
further
minimize
rlsk
to
growers;
and
Not
be
denled
because
of
atternetjveo
that
are
feasible
but
not
available
in
the
US.
TEAP
has
noted
that
90%
of
all
uses
have
alternatives
that
ate
technically
feasible.
However,
EPA
realizes
that
not
all
of
these
alternatives
are
available
in
the
U.
S.
gfOWQr8.
The
exemption
process
should:
Be
simple
and
meaningful;
Reflect
8
cooperative
effort
between
EPA,
USDA,
and
stakeholders;
Reflect
the
lessons
learned
from
the
1996
FIFRA
Section
18
workshop
~
n
creating
a
worlrabte
exemptioh
process;
Be
timely,
reflecting
the
fact
that
mQthyl
bromlde
is
the
first
agricultural
product
to
be
considered
for
an
exernptfon
from
the
phaseout
of
otone
depleting
substances;
Allow
growers'
assodatlons
rather
than
indivlduals,
to
submit
applicatfons;
Allow
fat
an
appeal
review
processlpeer
review
panel
should
the
viewpolnts
of
applicants
and
EPA
scientists
dlffer;
and
Be
consistent.
In
the
FlfRA
Sectlon
18
precess,
the
first
state
submitting
might
be
required
to
submit
a
greater
amount
of
data
than
another
state
submftting
for
the
same
use.
Such
inequalltles
could
exlst
in
the
crttlcal
use
process.
0
In
order
to
standardlte
the
crltical
use
exemption
process,
PA
should:
Dlstlnguish
between
regtonal
and
natlonal
significant
market
dlsruptions;
Define
phrases
such
as,
"
slgnlflcant
market
disruption"
and
"
technlcalfy
and
economically
feasible;"
and
Keep
decislons
made
at
the
international
level
(
between
now
and
2005)
In
harmony
with
decislons
made
at
the
EPA
to
avoid
complications.
While
the
Parties
wlll
use
a
common
set
of
criteria
b
judge
applications,
each
country
designs
its
own
domestic
policy.
EPA
should
look
to
the
criteria
set
by
Canada
and
the
Ozone
Secretarkat
before
finalizing
U.
S.
criterla.
Bill
Thomas,
a
member
of
MBTOC.
and
Paul
Horwitz,
EPA's
primary
Montreal
Protocol
negotiator.
wlll
help
EPA
get
as
close
to
the
thinking
at
the
international
level
as
possible.
Critical
use
applications
will
be
sent
to
the
Parties
for
review
regardless
of
the
recommendations
given
by
the
TEAP.
which
does
not
have
the
authority
to
grant
or
deny
exemptions.
Under
Decision
fX/
6,
the
TEAP
does
not
consider
"
significaht
market
dlsruption",
but
does
consider
"
technically
and
economically
feasible
alternatives."
"
Significant
market
disruption"
could
vary
for
every
country.
and
therefore
the
Parties
decided
that
it
would
be
overly
subjective
for
them
to
review
this
criterion.
However,
whether
a
nomlnated
use
is
''
technologically
and
economically
feasible"
will
be
considered
by
the
Parties.
The
Emernencv
U
s
e
Exemption
Process
Emergency
Use
exemptions
represent
a
subset
of
Critical
Use
exemptions.
There
will
be
no
deadline
for
emergency
use
applications
as
there
will
be
for
critical
use
applications.
Emergency
uses
will
only
be
granted
after
the
phaseout
and
wlll
be
dealt
with
on
a
rolling
basis.
To
understand
the
retationshlp
between
Emergency
Use
exemptions
and
Critical
Use
exemptions,
refer
to
Decision
IN6
and
IX/
7
of
the
Montreal
Protocol,
where
it
is
stated
that
the
Secretariat
and
the
TEAP
will
evaluate
Emergency
Use
exemptions
according
to
the
Crltical
U
s
e
criterla.
The
Emergency
Use
exemption
provision
was
developed
for
a
situatlon
where
the
use
of
methyl
bromide
is
Imperative.
includlng:
A
situation
where
one
needs
an
exemption
In
2005
after
Critical
Use'exemptions
for
2005
have
been
granted.,
If
a
grower,
who
had
previously
used
methyl
bromide,
switched
to
an
alternative
substance
whlch
became
unavailable
after
the
deadline
for
appfication
submissions.
.
EPA
would
like
stakeholder
input
concerning
the
issue
of
who
should
determine
whether
a
u
s
e
is
considered
an
etnet$
ehcy,
as
this
information
is
hot
specified
in
the
Protocol.
Methvl
Bromlde
Alternatives
b
Information
about
alternatives
should
be
available
so
that
critical
use
applications:
Discuss
all
relevant
alternatives.
Are
robust
and
complete
wlthout
being
overly
burdensome;
and
0
In
developing
a
list
of
alternatives,
the
EPA
should:
Make
information
available
regarding
the
sffectlveness
of
alternatlves
by
crop
and
region;
Recognize
that
field
trials
of
alternatlves
take
a
full
year;
and
Acknowledge
the
flaws
of
exfstlrkg
alternatives.
For
example,
in
the
forestry
industry.
saplings
on
which
alternatlves
have
been
used
ere
produdng
20
percent
less
wood,
leadlng
to
decreased
photosynthetic
activity
and
carbon
sequestration.
EPA's
Offlce
of
Pesticide
Programs
(
OPP)
and
the
Office
of
Air
and
Radiation
(
OAR)
are
worklng
together
to
identify
feasible
alternatives.
The
USDNEPA
working
group
is
creating
a
list
of
potential
alternatives
by
looking
at
isues
such
as
the
efficacy
and
regulatory
constraints
of
atternatives.
Closinsr
Statement
EPA
thanked
everyone
fbr
attending
the
meeting
and
reminded
attendees
that
the
next
meeting
would
be
on
March
19.2001.
st
9:
OO
am,
at
the
same
location
(
EPA,
501
3M
Street,
NW,
Washington,
D.
C.).
Stakeholders
were
encouraged
to
contact
Amber
Moreen
or
&
been
Akhtar
(
also
working
on
critical
and
emergency
uses)
with
any
comments,
suggestions,
and
concerns
at
202
564
9295
(
moreen.
amber~.
epa.
aov).
the
facilitator
encouraged
everyone
to
contact
EPA,
(
all
EPA
email
addresses
are
lastname.
firstname~
ewa.~
lpv).
especially
concerning
comments
on
the
terms,
"
significant
market
disruption"
and
"
technologically
and
economically
feasibte".
.
4
List
of
Attendees
Jabeen
Akhtar,
OAWEPA
Dan
Botts.
Florida
Frult
&
Vegetable
Association
James
Butler,
NOAA
Margriet
Caswell,
USDA
Stanley
Cichowicz,
FDA
Betsy
David,
Stratus
Consulting
Jim
Delaney,
Van
Waters
&
Rogers
Torn
buafals,
Trlcal,
lnc.
Charlie
Garlow,
OECNEPA
Larry
Glaze.
FDA
Steve
Godbehere,
Hendrix
&
Dale,
Inc.
Rachael
Goodhue,
UC
Davis
Dan
Haley,
Haley
8
Associates
Tracy
Heinanan
Smith.
Howrey
&
Simon
Charles
Herrick,
Stratus
Consulting
Dr,
Charles
Hinton,
Florida
Strawberry
Growers
Association
Paul
HQWik,
OAWEPA
Amy
K(
imbal1,
Mead
Corporation
Tom
Land,
OAWEPA
Susan
Lawrence,
OPPTSEPA
Gabriel
Ludwig,
Shramrn
&
Williams,
representing
Western
Growers
Association
Matt
lynch,
Albemarle
David
McAllister,
GLCC
blane
McConkey,
OGC/
EPA
Douglas
McNeal,
USTR
Amber
Moreen,
OAWEPA
William
"
Chip"
Murray,
American
Forest
8
Paper
Assoclation
Phil
Ross,
OPPTS/
EPA
Edward
M.
Ruckert,
McDermott,
Will
B
Emery;
Crop
Protection
Coalition
Steve
Rutz,
Florida
Dept.
of
AgriGulture
Jim
Schaub,
USDA
LaUtC?
h
Shapiro,
ICF
Consulting
Adam
Sharp,
Amerlcan
Farm
Bureau
Federation
Robert
Shramrn,
Shramm
8
Williams,
representlng
Western
Growers
Association
Sue
Stendebach,
OAR/
EPA
David
Sullivan,
Sullivan
Environmental
Consulting;
representing
Metarn
Sodlum
Task
Force
Bill
Thomas,
OAWEPA
AI
Tillman,
Arneribrom
Ken
Vick.
USDA
Vern
Walter.
WAW
lnc.
5
.
| epa | 2024-06-07T20:31:34.605193 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2003-0017-0005/content.txt"
} |
EPA-HQ-OAR-2003-0017-0006 | Supporting & Related Material | 2001-04-18T04:00:00 | null | a
LI
Summary
of
Methyl
Bromlde
Critical
Use
Meeting
&:
nvironmental
Protection
Agency,
Washington
DC
March
19,2001
In
t
roductlon
s
Sue
Sfendebach,
EPMOAR
Sue
Stendebach
opened
the
meeting
by
thanklng
everyone
for
attending
second
Methyl
Bromide
Critical
Use
Meeting.
She
requested
that
every
participant
introduce
himlherself
and
state
their
affiliation.
(
Please
refer
to
the
end
of
this
document
f
~
o
r
a
list
of
attendees).
[
Amber
has
the
list
of
attendees1
After
introductions,
Ms.
Skeridebach
reminded
everyone
that
the
meeting
would
only
last
three
hours.
She
then
summarlzed
the
first
meeting
held
on
February
16",
2001
that
resulted
in
a
discussion
of
the
critical
use
process
and
during
which
some
stakeholder
concerns
were
aired
an
a
preltrninary
basis.
She
exphined
Mat
the
purpose
of
the
present
rneetlng
would
be
as
foo)
lows:
to
further
discuss
important
issues
mentioned
during
the
February
I
6Ih
meeting;
to
continue
declaratloh
and
interpretation
af
stakeholder
needs
and
concerns;
and
to
provide
PA
with
ideas
regarding
how
to
successfully
complete
the
rulemaking.
=
Ms.
Stendebach
stressed
the
importance
of
participation
In
the
meeting
because
without
stakeholder
input,
EPA
would
not
be
aware
of
all
stakeholder
concerns.
She
also
reminded
everyone
to
state
his
or
her
name
and
aflliatlm
prior
to
making
a
comment
so
that
information
mbld
be
accurately
recorded.
Ms.
Stendebach
mentioned
that
the
outline
for
the
meeting
would
be
as
follows:
*
quickly
review
the
provisions
of
the
Montreal
Protocol,
the
Clean
Air
Act,
and
the
timefine
for
rulemaking
as
discussed
In
the
last
meeting;
and
pose
a
variety
of
questions
to
stakeholders:
some
that
originated
from
the
last
meeting
and
some
that
EPA
considers
to
be
major
issues.
Ms.
Stendebach
mentioned
that
David
McAlJister
and
Tracey
Heinzman
Smith,
representhg
GLCG,
brought
slides
that
they
wished
to
present.
Ms.
Heinzman
Smith
responded
by
stating
that
she
could
discuss
the
information
contained
in
her
slides
as
it
fit
into
the
meeting
discussion.
Review
of
Montreal
Protocol
Provlslans,
Clean
Air
Act
Language,
and
Rulernaklng
Tirneilne
Amber
Moreen,
EPNOAR
The
meeting
facilitator,
Ms.
Amber
Moreen,
briefly
revlewed
the
provisions
of
the
Montreal
Protocol,
the
Clean
Air
Act,
and
the
proposed
PA
rulemaking
timetine.
She
mentioned
that
the
~
rnellrte
displays
the
need
to
initiate
the
rulemaking
process
quickly
and
gtves
stakeholders
an
Idea
of
a
potential
internationaf
review
process.
Ms
Moreen
stressed
that
PA
would
attempt
to
publish
a
proposed
rule
in
the
fall
of
2001
and
a
final
rulemaking
by
the
middle
of
2002.
She
went
on
to
state
that
once
aDplicatians
are
submitted
to
the
United
States
government,
the
following
schedule
wit!
be
adhered
to:
applications
WclUfd
need
to
be
revlewed
and
prepared
far
nomination
to
the
Parties
by
January
2003;
*
parties
Wou)
d
revbw
all
nominations
from
each
government
and
provide
EPA
with
a
decision
fate
In
2003:
and
users
would
be
notified
at
the
international
level
in
the
beginning
to
middle
of
2004.
.
.
1
Ms.
Moreen
noted
that
another
appllcatlon
cycle
would
commence
in
the
middle
of
2003,
so
that
an
applicant
could
re
apply
for
a
2005
exemption
if
thelr
use
was
not
granted
in
the
first
exemptlon
cycle.
However,
a
user
would
not
be
notified
as
to
whether
or
not
their
use
was
granted
untll2005
due
to
the
lengthiness
of
the
internatlonal
process.
Therefore,
if
a
user
does
not
apply
until
2003,
notificatlon
would
not
be
received
until
closer
to
the
phaseout
date
and
thus,
the
actual
planting
time.
Ms.
Moreen
ensured
th8t
all
stakeholder
qusstlons
regarding
this
process
were
answered,
and
then
went
on
to
explain
the
Decisions
of
the
Montreal
Protocol
and
the
language
of
the
Clean
Air
Act.
She
pointed
out
that
the
last
paragraph
of
the
relevant
Montreal
Protocol
Dsclslons
Is
written
such
that
non
Adicle
5
countries
(
e.
g..
United
States,
EU,
Japan)
must
individually
consider
whether
applicants
have
shown
that
the
lack
of
methyl
bromide
has
led
to
a
slgnlficant
market
disruption.
She
stressed
that
decisions
would
not
be
made
by
the
Technology
and
Economic
Assessment
Panel
(
TEAP).
Questions
for
Stakeholders
Please
note
that
this
section
intends
to
provide
an
accurate
summary
of
stakeholder
responses.
Although
it
follows
the
chronology
of
the
meeting,
it
is
not
an
exact
transcrlpt.
Responses
to
most
comments
and
questions
were
addressed
by
the
meeting
facllitator,
Ms.
Amber
Moreen.
Other
EPA
personnel,
including
Ms.
Sue
Stendebach
and
Mr.
Paul
Horwitz,
also
offered
feedback
on
several
stakeholder
comments.
Ms.
Moreen
initiated
the
meeting
by
asking
stakeholders
about
the
type
of
ihformation
that
would
be
most
helpful
regarding
a
posted
list
of
methyl
bromide
alternatives.
She
requested
stakeholder
input
on
the
following
questions
regarding
the
proposed
list:
1
The
following
comments
describe
the
discussioh
that
ensued
as
a
result
of
this
question.
Edward
M.
Ruckert,
McDermott,
Will
&
Emery,
Crop
Protection
Coalition
Mr.
Ruckert
commented
on
this
toplc
by
stating
that
in
order
to
streamline
the
application
process
and
use
applicmt
and
PA
time
most
effectively,
EPA
should
post
a
list
of
acceptable
alternatives.
According
to
Mr.
Ruck&,
the
limited
time
period
established
for
t
h
e
application
process
necessitates
a
list
of
this
type
because
such
a
list
could
prevent
possible
duplicatibns
in
the
application
process
and
could
ensure
that
applicants
are
aware
of
all
available
altematives.
He
also
mentioned
that
allowing
industry
to
comment
on
each
of
the
posted
alternatives
would
provlde
addltional
crediblllty.
Response:
Ms.
Moreen
responded
by
summarizing
Mr.
Ruckert's
comments
and
asking
If
he
thought
that
a
list
of
alternatives
should
include;
What
information
should
be
included?
How
would
the
list
be
used
in
conjunction
with
the
application
process?
Use;
and
Edward
M.
Ruckert,
McDermott,
Will
&
Emery,
Crop
Protection
Coalition
Mr.
Ruckert
responded
by
stating
that
he
thought
that
a
list
should
have
posted
scientific
trials
regarding
esch
alternative
to
prove
the
efficacy
of
each
alternative
and
provide
a
form
of
substantiatlon
for
the
proposed
alternatlves.
Tracey
Heinzmen
Smith,
Howrey
8
Simon
Ms.
Heinzrnan
Smith
quoted
two
concepts
from
Decision
1x16:
1
Alternatlves
adequate
for
applicant
needs.
No
technologically
and
economically
feasible
alternatives;
and
.
.
2
.
Slgnificant
market
disruption.
She
said
that
appllcants
that
Use
methyl
bromide
for
uses
that
currently
have
no
adequate
alternatives
can
quickly
and
hastily
apply
for
an
exemption
based
on
the
idea
that
the
lack
of
methyl
bromide
for
a
specific
end
use
wlll
lead
to
a
significant
market
disruption.
Ms.
Heinzman
Smith
wmrnented
that
wlthout
an
initial
list
of
acceptable
alternatlves,
applicants
are
uncertain
of
the
baseline
they
are
to
evaluate
themselves
against.
She
argued
that
it
would
be
useless
to
apply
for
an
exemption
stating
that
there
are
no
alternatives
for
a
specific
end
use
and
later
discover
that
research
has
been
conducted
to
show
that
alternatives
do
in
fact
exist.
Response:
Ms.
Moreen
responded
by
inquiring
about
people's
opinions
as
to
how
PA
should
keep
an
up
to
date
list
of
the
most
current
research
trlals
on
alternatives.
The
next
set
of
stakeholder
comments
discussed
ideas
for
how
EPA
can
successfully
accomplish
this
task.
Edward
M.
Ruckert,
McDerrnott,
Wi//
&
Emery,
Crop
Profection
Coalition
Mr.
Ruck&
advised
that
researchers
should
report
findings
of
all
research
and
new
technologies
to
EP4
as
they
occur
or
are
dlscovered.
David
McAlkter,
GLGC
Mr.
McAllister
noted
that
the
conversation
until
this
point
had
omitted
an
important
step
in
the
exemption
process:
after
a
list
of
alternatives
is
developed,
this
list
should
serve
as
one
of
the
inputs
for
developing
a
list
of
critical
uses.
He
proposed
a
scheme
where
PA
would
present
a
list
of
all
posslble
uses
of
methyl
bromide,
and
would
simultaneously
develop
a
list
of
alternatives.
These
lists,
used
in
conjunction.
could
allow
growers
and
users
of
methyl
bromide
to
know
exactly
which
uses
match
up
wlth
which
technically
and
economically
feasible
alternatlves,
and
would
therefore
act
as
a
critical
use
list.
Future
alternatives
could
then
be
submitted
to
add
to
the
list,
showing
what
uses
they
can
replace
and
proving
that
they
meet
all
of
the
criteria
for
a
crltlcal
use
e%
emption.
Therefore.
Mr.
McAllister
concluded.
it
is
not
necessary
to
have
a
list
of
alternatives
that
is
updated
monthly;
rather,
the
list
can
be
updated
as
alternatives
are
approved.
Tracey
Heinzman
Smith,
Howrey
&
Shon
Ms
Heinzrnan
Smith
added
that
this
process
is
analogous
to
the
process
for
determining
viable
SNAP
substitutes,
but
is
more
complicated.
As
new
ODS
alternatives
are
commercialized
under
SNAP,
EPA
posts
a
running
list
of
these
alternatives,
both
by
end
use
and
by
geographic
region.
and
this
list
is
published
In
the
Federal
Register
or
on
a
Web
site
so
that
people
can
find
out
about
new
alternatives
as
they
become
available.
For
methyl
bromide,
this
llst
should
be
accessible
and
available
to
all
interested
parties,
where
developers
of
new
substitutes
can
add
their
substitute
to
the
list
and
then
provide
EPA
with
relevant
information,
as
opposed
to
EPA
initiatlng
the
process.
Pete
[
last
name,
AEIiafion]
Pete
said
that
informatlon
provided
for
this
list
must
be
substantiated
and
backed
up
with
efficacy
data.
Response:
Ms
Moreen
responded
that
researchers
should
match
the
list
provided
by
EPA
with
existing
uses
to
determine
which
uses
do
not
have
alternatives.
However,
this
approach
may
be
too
broad
from
the
Parties'
standpoint.
Two
stakeholders
responded
to
this
comment.
Tmcey
Heinzman
Smith,
Howrey
&
Simon
Ms.
Heinzman
Smith
recognized
this
point
and
argued
that
if
something
currently
has
no
alternative,
it
should
have
the
first
opportunity
to
be
considered
critical,
Then,
it
can
be
determined
if
the
lack
of
methyl
bromide
for
this
end
use
would
cause
a
significant
market
disruptton.
3
Pete
[
last
name,
Affiliation]
Pete
reiterated
his
earlier
comment
regarding
the
importance
of
efficacy
data
and
substantiation.
Ms.
Moreen
responded
wlth
a
question
to
Mr.
Ruckert.
She
stated
that
people
have
Indicated
that
alternatives
can
be
determined
by
state,
but
questioned
the
manner
in
which
distinctions
can
then
be
made
between
condltlons
that
differ
within
a
state,
such
as
soil
type,
weather.
and
water
table.
Stated
differently,
if
a
list
of
alternatives
Is
to
be
developed
on
a
state
by
state
basts,
how
are
specific
crop,
soil,
and
weather
circumstances
taken
into
account?
The
following
remarks
were
made
in
an
attempt
to
resolve
this
question,
Edward
M.
Ruckert,
McDermott.
Will
B
Emery,
Crop
Protection
Coalition
Mr.
Ruckert
responded
that
the
llst
should
be
presumptlve,
presenting
all
available
tools.
Tracey
Heinzrnan
Smith,
Howrey
&
Simon
Ms.
Heinzman
Smith
reiterated
that
the
term
"
technically
and
economically
feasible"
is
extremely
broad.
She
cornmehted
that
most
analyses
thus
far
have
focused
on
technical
feasibility,
and
that
the
alternatives
discussed
would
be
helpful
for
Users.
She
also
stressed
that
the
Patties
must
understand
that
theoretical
lab
tested
alternatives
may
not
be
"
technicatty
and
economically
feasible''
in
the
field.
[
Unidentified
Stakeholder]
An
unidentified
stakeholder
then
remarked
that
growers
would
end
up
trying
to
"
prove
a
negative."
In
other
words,
will
growers
approach
the
ga~
ernrnent
with
research
attempts
that
display
the
efficacy
of
an
alternatlve
or
will
the
government
make
alternative
efficacy
data
available
to
users?
Response:
EPA
representative,
Ms.
Stendebach.
responded
that
a
list
pf
alternatives
is
beihg
developed,
and
hopefully
manufacturers
and
distributbrs
of
alternatfves
will
inform
EPA
if
any
viable
substitutes
were
neglected
from
the
Ilst.
Ms.
Moreen
then
asked
the
group
if
everyone
would
be
comfortable
with
a
list
being
published
on
the
web.
The
next
two
comments
discussed
the
availability
of
a
published
list
of
potential
substitutes
and
were
responded
to
by
a
facilitator.
David
McAllister,
GLCC
Mr.
McAlllster
responded
by
saying
that
case
studies
of
methyl
bromide
alternatlves
are
already
provided
on
EPA's
methyl
bromide
phaseout
Web
site.
Jack
@
ad
nwrne,
Afiliation]
Jack
expressed
concern
on
relying
solely
on
efficacy
data,
statlng
that
other
limitations,
such
as
buffer
zones
and
product
combinations,
need
to
be
taken
into
account
as
well.
Response:
Ms.
Moreen
responded
that
the
case
studies
and
other
published
efficacy
data
are
at
least
good
starting
points.
The
next
stakeholder
requested
informatioh
on
this
subled
from
EPA.
[
Unidentified
Stekehoidet
1,
Metham
Sodlutn
Task
Force
An
unidentified
stakeholder
representing
the
Metham
Sodium
Task
Force
requested
that
alternative
manufacturers
be
contacted
to
obtain
information
on
the
development
of
alternatives
so
that
evetyone
is
kept
aware
of
the
most
current
information.
Ms.
Moreen
stated
that
evidence
of
technical
feasibility
(
or
lack
thereof)
and
documentation
are
necessary
in
order
to
show
the
Parties
that
a
technically
feasible
alternative
does
hot
exist
for
a
certain
end
use.
4
The
following
set
of
comments
specify
the
requlrements
for
possible
alternatives.
David
McAllister,
GLCC
and
Tracey
Heinzman
Smith,
Howrey
&
Simon
Mr.
McAllister
and
Ms.
Heinzman
Smith
provided
a
list
of
criteria
for
possible
alternatives,
stating
that
the
alternative
must:
.
have
efficacy
data;
.
c
*
9
Ms.
Moreen
asked
if
anyone
had
any
additions
to
the
list.
be
registered
for
the
application
(
if
they
are
pesticides):
be
efflcaclous
based
on
actual
ffeld
trials
(
as
opposed
to
lab
tests);
pose
no
health
risks
to
applicators;
not
require
protective
equipment
that
would
severely
restrict
applicability;
be
commercially
available
in
sufficient
quantities;
and
have
an
overall
risk
that
is
not
greater
than
that
of
methyl
bromide.
Jim
Saggent,
[
Affiliation]
Mr.
Ssrgent
added
that
the
alternative
must
be
non
damaging
to
crops
and
any
other
materials
that
are
being
fumigated.
David
McAllister,
GLCC
Mr.
McAIIister
stated
that,
an
expert
opinion,
similar
to
that
required
for
an
emergency
registration,
should
be
involved
in
the
process.
Bruce
Helman,
[
Afiliation]
Mr.
Helman
pointed
out
that
if
an
alternative
is
registered.
it
could
be
inferred
that
it
is
already
environmeh
ta
Ily
acceptable.
Response:
Ms.
Moreen
said
that
Mr.
Hslman's
point
was
a
good
one,
and
reiterated
the
need
for
economic
availability
and
documentstion
of
substitutes.
The
next
stakeholder
comments
discussed
the
need
for
economic
availability
of
alternatives.
David
McAllister,
GLCC
Mr.
McAIlister
suggested
that
PA
consult
with
other
agencies,
specifically
USDA,
because
they
have
the
right
background
to
assist
EPA
with
economic
feasibility
studies.
He
argued
that
criteria
should
be
established
specifying
the
maximum
acceptable
percent
increase
in
treatment
costs
and
the
maximum
acceptable
percent
decrease
in
profitability
for
any
given
alternative,
and
claimed
that
USDA
can
then
use
this
lnformation
to
provide
an
economic
analysis
of
available
substitutes.
Adam
Sharp,
American
Farm
Bureau
Federatbn
Mr.
Sharp
mentioned
that
he
asked
farmers
about
what
economic
feasibility
means
from
their
perspective,
and
they
responded
that
a
methyl
bromide
alternative
or
combination
should
control
the
same
range
of
pests
as
methyl
bromlde,
while
concurrently
meeting
industry
standards.
He
also
stated
that
economic
feasibility
criteria
could
be
gathered
by
farmers
based
on
five
year
average
per
acre
return
In
yield.
Response:
Ms.
Moreen
inquired
whether
the
farmers
consulted
felt
comfortable
documenting
each
of
those
items.
Adam
Sharp,
American
Farm
Bureau
federation
Mr.
Sharp
replied
that
there
ere
B
number
of
areas
from
which
this
information
could
be
garnered,
Tracey
Heinzrnsn
Smith,
Howrey
&
Simon
5
Ms.
Heinzman
Smith
said
most
growers
or
people
that
run
warehouses
keep
track
of
their
treatment
costs
and
profitability
or
potential
losses.
She
noted
that
this
information
is
Important
because
although
treatment
costs
apply
to
everyone,
profitability
varies
on
a
case
by
case
basis.
Steve
Godbehere,
Hendrix
I$
Dale,
Inc.
Mr.
Godbehere
added
that
most
figures
and
crop
budgets
are
publicly
available
through
state
extension
services.
Ms.
Moreen
asked
if
everyone
was
comfortable
with
the
discussion
so
far,
None
of
the
attendees
responded,
and
so
a
discussion
began
on
slgnificant
market
disruption
and
documen
tation.
Adam
Sharp,
American
Farm
Bureau
Federaikm
Mr.
Sharp
began
the
discussioh
by
introducing
the
idea
that
a
loss
of
methyl
bromide
in
the
US.
would
result
in
an
increase
himpork,
especially
from
countrles
that
ar0
not
effected
by
the
phaseout,
which
wauld
cause
a
signlficant
regional
shift
in
productlon.
He
stated
that
market
production
suffers
when
return
per
acre
drops
below
a
five
year
average,
which
can
be
based
on
personal
farm
records,
hiversity
studies,
etc.,
as
described
above.
David
McAllister,
GL
CC
Mr.
McAtlister
indicated
that
it
is
difficult
to
difff3tehfiate
between
significant
market
disruption
and
economic
feasibility.
He
said
that
criteria
are
currently
prioritized,
where
significant
market
disruption
needs
to
be
determined
before
economic
feasiblllty
can
be
assessed.
He
remarked
that
the
becision
does
not
specifically
mentlon
alternatives;
rather,
they
are
only
a
means
to
avoid
signlficant
market
disruption.
He
provlded
the
example
of
a
food
processing
facility
asked
the
following
question:
If
this
is
a
critical
use
of
methyl
bromide.
is
the
significant
market
disruption
criterion
determined
before
or
after
consideration
of
alternatives?
Vem
Walter,
WA
W,
Inc.
Mr.
Walter
mentioned
that
although
phosphine
could
be
a
potential
substltute
in
food
plants,
it
corrodes
equfpment.
He
stressed
that
these
other
effects
of
the
alternative
need
to
be
considered.
Adam
Shap,
American
Farm
Bureau
Federation
Mr.
Sharp
added
that
the
availability
of
the
alternative
also
must
be
considered.
Tmcey
Heinzman
Smith,
Uowrey
&
Simon
Ms.
Hcinzman
Smith
defined
market
disruptions
in
terms
of
the
impact
on
a
particular
user
of
methyl
bromide.
She
used
turf
farms
a5
an
example,
stating
that
if
ail
turf
farms
were
faced
with
not
having
methyl
bromide
available,
a
significant
market
disruption
would
occur
Wlthih
the
turf
industry
because
turf
still
must
be
produced.
The
market
would
be
significantly
disrupted
if
the
criteria
introduced
earlier
by
Mr.
Sharp
were
not
met.
In
partlcutar,
if
substitute
turf
yields
per
dollar
were
a
certain
percent
below
the
yield
using
methyl
bromide
such
that
less
turf
would
be
able
to
be
produced,
or
such
that
c
o
s
t
s
to
produce
turf
got
so
high
that
they
would
detrimentally
affect
the
profitability
of
the
industry,
a
break
polnt
would
eventually
be
reached
where
there
would
exist
a
significantly
lower
quantity
of
turf
in
the
marketplace.
The
demand
would
exceed
the
supply
and
consumers
would
try
to
obtain
the
commodity
offshore.
David
McAllisfer,
GLCC
Mr,
McAllister
explalned
that
GLCC
was
Iooklng
at
the
issue
from
a
userlenterprise
perspective
as
opposed
to
looking
at
the
issue
of
significant
market
disruption
at
the
consumer
level.
He
provided
the
following
hypothetical
example:
If
methyl
bromide
is
unavailable
for
fumigation
of
soils
for
a
tree
nursery
for
International
Paper,
the
yields
per
acre
of
seedlings
will
drop
by
50
percent.
As
a
result,
the
price
of
paper
will
increase
signiflcantly
in
ten
years.
He
reiterated
the
fact
that
GLCC
is
not
referring
to
this
type
of
situation:
rather,
they
are
looking
at
effects
mere
from
the
userknterprisa
perspective.
Response:
Ms.
Moreen
asked
why
Mr.
McAlllster
thought
consumer
disruptlons
should
not
be
considered?
Tracey
Heinzman
Smith,
Howrey
&
Simon
Ms.
Heinzmah
Smith
responded
that
consumer
effects
occur
too
far
Into
the
future
for
growers
and
other
methyl
bromide
users
to
consider.
Unidentified
Stakeholder,
Tree
Trade
Assot$
ation
An
unidentifled
stakeholder
claimed
that
a
downstream
effect
could
occur
as
a
result
of
international
competition,
Referring
to
Mr.
McAllister's
International
Paper
elample,
the
unidentifled
stakeholder
hypothesized
that
seedlings
would
then
be
grown
on
soils
outslde
of
the
US..
where
growth
rates
are
far
greater
than
they
are
domestically.
He
concluded
that
a
sense
of
economic
impact
should
be
assessed
even
though
It
is
difficult
to
quantify,
Jim
C/
af,
fAEIiation]
A
mostty
inaudible
comment
from
Mr.
Clat
mentioned
sources
of
information
provided
by
manufacturers.
Jim
Scheub,
USDA
Mr.
Schaub
indicated
that
the
discussion
should
be
focused
on
how
to
define
the
market,
i.
e.,
how
broadly
to
define
a
commodity,
lncludihg
a
geographic
component
and
a
time
dimension
He
mentioned
that
the
Federal
Power
Comrnlsslon
(
FPC)
and
the
Justice
Department
solved
an
analogous
Issue
by
viewing
disruptions
at
the
consumer
level
when
struggling
with
a
competition
determination
for
antl
trusts
[
Le,,
whether
a
merger
will
have
a
slgnlflcant
impact
on
a
market).
He
concluded
his
comment
by
stating
that
after
EPA
decides
how
to
define
the
market,
it
is
then
possible
to
determine
significant
market
disruptions.
Edward
M.
Ruckert,
Will
&
Emery,
Crop
Protection
Agency
Mr.
Ruckert
vocalized
an
additional
comment
regarding
defining
a
market
disruption
by
examining
consumer
level
effects.
He
provided
the
following
hypothetical
example:
With
international
trade
In
the
state
It
is
today,
if
strawberries
can
not
be
grown
in
the
US.
without
methyl
bromide,
growers
in
Mexico
would
supply
the
US.
market
with
strawberries,
undoing
the
utility
of
exemption.
Therefore,
there
is
little
or
no
effect
at
the
consumer
level;
EPA
should
focus
on
the
industry
level
effects
to
define
market
disruptions.
Lee
Murphy,
[
A~
Wiation]
A
mostly
inaudible
comment
from
Mr.
Murphy
mentioned
a
25
percent
reduction
in
production.
Pete
[
last
name,
Afikh'on]
Pete
suggested
that
if
EPA
were
to
develop
crlteria
for
determining
a
significant
market
disruption
based
on
five
year
total
average
production,
it
would
be
dificult
to
determine
which
five
year
period
should
be
analyzed
because
of
steadfly
Increasing
treatment
costs.
Adam
Sharp,
American
Farm
Bureau
Federation
[
cannot
hear
all
c6mmentsJ
Mr.
Sharp
asked
Ms.
Moreen
whether
a
basellne
would
be
best
established
using
a
five
or
ten
year
period,
and
stated
that
establishing
a,
baseline
is
difficult
because
EPA
will
have
to
predict
future
demand
for
the
product
and
consider
criteria
other
than
total
production.
Response:
Ms.
Moreen
asked
whether
the
farmers
Mr.
Sharp
interacted
with
express
a
preference
for
a
five
year
or
a
ten
year
period
for
establishing
a
baseline,
Adam
Sharp,
American
Farm
Bureau
Federation
Mr.
Sharp
indicated
that
the
farmers
interviewed
did
not
express
a
preference
regarding
selecting
a
time
period,
but
were
concerned
about
shlfk
In
the
market
and
analyzing
present
market
conditions
to
create
a
baseline
for
future
use.
With
regard
to
economlc
feasiblilty
and
significant
7
market
disruptions,
Mr.
Sharp
suggested
that
posting
a
list
of
available
alternatives
would
be
a
way
to
initiate
research
on
this
issue,
Unidentified
Stakeholder
An
unidentifled
stakeholder
agreed
with
Mr.
Sharp's
comments
and
added
that
It
would
be
difficult
to
establish
a
baselihe
for
the
post
harvest
sector
because
it
is
impossible
to
quantify
future
food
contamination.
Response:
Ms.
Moreen
respohded
by
stating
that
results
from
tests
on
alternatives
exist,
and
one
could
project
from
those
results
to
create
a
baseline.
She
clarified
the
unidentified
stakeholder's
comment
by
asking
if
he
thought
that
no
alternatives
were
available
on
a
base
level.
Unidentified
stakeholder
The
unldentifled
stakeholder
affirmed
that
that
was
Indeed
the
point
Re
was
trying
to
make.
Response:
Ms.
Moreen
asked
the
unidentified
stakeholder
if
he
would
respond
in
a
similar
manner
if
alternatives
were
tested
and
made
available
for
use
In
the
post
harvest
use
sector.
Unidentified
Stakeholder
The
Unidentified
Stakeholder
provided
an
Inaudible
response
to
Ms.
Moreen's
question.
Ms.
Moreen
changed
the
discussion
topic
SO
that
stakeholders
would
respond
to
Mr.
Shawls
comment
on
how
PA
should
define
the
methyl
bromide
market.
The
following
set
of
stakeholder
comments
relate
to
this
discussion,
Edwwrd
M.
Ruckert,
McDermott,
Will
8
Emery;
Cmp
Protection
Coalition
Prior
to
addressing
Ms.
Moreen's
question
on
the
definition
of
a
market,
Mr.
Ruckert
required
additional
clarification
regarding
the
dlscusslon
on
whether
or
not
the
effectiveness
of
an
alternative
Is
quantifiable.
Ms.
Moreen
responded
to
Mr.
Ruckert
by
restating
the
previously
addressed
question.
Ms.
Moreen
explained
that
she
was
attempting
to
clarify
the
unidentified
stakeholder's
comment,
stating
that
perhaps
an
alternative
is
not
quantifiable
if
it
has
not
been
used
on
a
large
scale
and
long
term
results
can
not
be
projected.
However.
she
argued
that
If
the
alternative
has
been
tested,
there
should
be
some
data
avaflable
to
quantify
the
effectiveness
of
the
alternatlve.
The
following
comments
highlight
the
discussion
on
the
definition
of
a
market
and
may
be
used
in
determining
definitions
of
a
significant
market
disruption.
Tmcey
Heinzman
Smith,
Howmy
&
Simon
Ms.
Heintman
Smith
addressed
this
topic
by
explaining
that
varlations
in
pest
type
require
EPA
to
define
a
market
by
lndlvidual
commodities
limited
by
geographic
distinctions,
as
opposed
to
determining
a
market
just
by
use
(
e.
g.,
post
harvest
uses),
She
went
on
to
state
that
methyl
bromide
is
not
a
chemical
that
has
broad
industry
wide
uses,
and
that
users
may
utilize
methyl
bromide
for
one
type
pest
in
one
region
that
might
not
be
applicable
to
a
similar
pest
in
another
geographic
area.
Although
not
entirely
sure
that
the
topics
are
analogous,
Ms.
Helnzman
Smith
went
on
to
mention
that
the
Department
of
Justlce
(
DoJ)
Federal
Power
Commission
(
FPC)
guldellnes
deflne
a
market
using
regional
and
geographic
distinctions.
Ms.
Moreen
posed
the
comment
prevlously
Introduced
by
Jim
Schaub
of
USDA
to
the
stakeholders
to
determine
whether
a
market
defined
by
commodity
and
geography
would
be
too
broad
for
this
situation
(
e
g..
canned
tomatoes
versus
fresh
tomatoes,
same
commodity
grown
and
processed
in
the
same
region).
ReSpQnStS
8
TfaCe)
r
Heihzman
Smith,
Howrey
&
Simon
Ms.
Helnzman
Smith
responded
to
this
statement
by
asking
Mr.
Schaub
if
the
market
would
have
to
be
defined
by
species
(
e.
g.,
Roma
Tomatoes).
Steve
Godbehere,
Hendrix
&
Dale,
lnc.
Mr.
Godbehere
informed
attendees
that
methyl
bromide
is
only
used
on
fresh
tomatoes,
not
canned
tomatoes.
Ms.
Moreen
stated
that
using
fresh
versus
canned
tomatoes
to
discuss
thls
topic
is
not
an
appropriate
Instance.
She
proposed
that
the
stakeholders
consider
this
issue
of
wlth
a
different
example,
such
as
winter
versus
summer
tomatoes.
Jim
Schaub,
USOA
Mr.
Schaub
suggested
that
EPA
use
registration
definitions
to
define
the
market
(
e.
g.,
Bermuda
grass).
He
mentloned
that
there
exists
a
certain
amount
of
substitution
between
the
commodities
(
Le,,
turf
farms
may
produce
several
grass
varleties)
and
that
not
defining
the
market
may
lead
to
confusion
among
producers.
Mr.
Schaub
concluded
that
the
subject
of
defining
market
scope
is
critical
and
he
did
not
think
that
it
could
be
defihed
by
slating
examples.
He
suggested
that
EPA
think
about
economic
prihciptes
for
defining
a
market
and
then
rely
on
industry
and
users
to
apply
these
principles
to
specific
commodities.
Tiacey
Heinzrnan
Smith,
Howrey
&
Simon
Ms.
Heinzrnan
Smith
agreed
with
Mr.
Schaub's
idea
that
the
market
may
have
to
be
defined
more
specifically
by
explalning
how
the
word
"
turf"
is
synonymous
with
the
word
"`
fruit,"
meaning
that
stating
that
there
are
different
types
of
fruit
is
similar
to
stating
that
there
are
different
types
of
turf.
Unidentified
Stakeholder
An
unidentified
stakeholder
commented
that
it
is
important
to
make
distinctions
for
the
purposes
of
defining
the
market
even
within
crops,
becsuse
harvesting
cycles
and
time
required
to
control
pests
are
not
always
the
same.
Ms.
Moreen
redirected
the
topic
of
conversation
by
mentioning
that
many
stakeholders
had
strong
reactions
when
distinctions
between
the
Sectlon
18
exemption
process
and
the
methyl
bromide
critical
use
exemption
process
was
discussed
at
the
last
meeting.
She
went
on
to
ask
if
stakeholders
had
any
other
opinions
on
the
issue.
The
following
discussion
highlights
stakeholder
comments
on
this
Issue.
Adam
Sharp,
Americen
Farm
Bureau
Federation
Mr.
Sharp
stated
that
unlike
Section
18,
the
methyl
bromide
critical
use
process
wlll
have
to
grant
approval
on
a
multi
year
basis.
Tracey
Heinzman
Smith,
Howrey
&
Simon
Ms.
Heinman
Smith
mentioned
that
the
Section
I
S
exemption
process
relates
to
emergency
pest
outbreaks
and
focuses
on
public
health
effects,
while
the
critical
use
exemptlon
process
focuses
more
on
economic
and
technical
criterla.
Response:
Ms
Moreen
clarified
the
discussion
toplc
by
restating
that
there
are
only
a
few
portions
of
the
Sectfon
I
8
process
that
relate
to
this
issue,
and
mentioned
that
EPA
wanted
feedback
on
whether
stakeholders
see
distinctions
between
the
manners
in
which
feasible
alternatives
are
determined
through
the
Sectfon
18
process
and
the
critical
use
exemption
process.
Unidentified
Stakeholder
An
Unidentified
stakeholder
stated
that
the
following
three
items
are
the
main
criteria
used
to
determine
whether
an
exemption
Is
granted
through
the
Section
18
process.
and
asked
Ms.
Moreen
if
she
believed
that
these
same
criteria
applied
to
the
critical
use
exemption
process:
9
.
*
a
Response:
Ms.
Moreen
responded
by
stating
that
in
some
respects,
she
agreed
with
these
criteria.
Unidentified
Stakeholder
The
unidentified
stakeholder
went
on
to
suggest
that
all
three
of
these
criteria
apply
to
the
methyl
bromide
situation.
and
stated
his
agreement
with
Mr.
Sharp
regarding
the
need
to
grant
exemptions
on
a
multi
year
basis
based
oh
the
following'reasons:
Will
a
lack
of
use
of
the
product
al7lOUht
to
substantial
economlc
loss?
Are
there
feasible
alternatives
that
are
commercially
available?
Does
the
situation
occur
frequently?
a
There
are
not
many
available
alterhatives;
and
Bureaucracy
of
the
system
would
make
an
annual
appllcation
process
difficult.
Edward
M.
Ruckert,
McDermott,
Will
&
Emery;
Crop
Protection
Coalition
Mr.
Ruckert
inquired
about
EPA
progress
to
reglster
new
alterhatives.
Pete
past
name,
AffllrationJ
Pete
suggested
looking
back
five
years
to
define
the
methyl
bromide
market.
Response:
Ms.
Moreen
responded
to
Pete's
comment
by
stating
that
some
people
have
suggested
that
EPA
examlne
a
flve
year
time
period
to
define
the
market.
Steve
Godbehere,
Hendrix
&
Dale,
Inc.
Mr.
Godbehere
argued
that
examining
a
period
five
years
ago
to
define
the
methyl
bromide
market
will
not
take
into
consideration
the
fact
that
methyl
bromlde
prices
are
increasing.
He
went
on
to
express
his
concern
about
cornpletihg
the
rulemaking
process
in
8
timely
manner
in
order
to
ensure
the
sustainability
of
the
United
States
agricultural
market.
Response:
In
response
to
the
previously
stated
comments,
Ms.
Moreen
inquired
as
to
whether
or
not
Mr.
Godbehere
supported
the
measurement
of
8
time
period
prior
to
five
years
ago
for
quantlfying
the
methyl
bromide
market.
Steve
Godhehere,
Hendrix
&
Dale,
Inc.
Mr.
Godbehere
suggested
that
EPA
examine
a
speciflc
time
frame
to
average
the
high
costs
in
order
to
define
the
market.
He
once
again
stressed
the
urgency
of
this
rulemaking
by
describing
EI
situatlon
where
high
methyl
bromlde
costs
had
led
to
a
decrease
In
the
amount
of
acres
produced.
MI.
Godbehere
explained
how
there
is
currently
no
indication
that
planting
will
occur
in
the
near
future
In
Georgia
because
plastic
has
not
yet
been
laid
down
to
prepare
for
the
upcoming
season.
Ms.
Moreen
modified
the
discussion
topic
and
stated
that
she
understood
the
need
to
extend
a
exemption
for
longer
than
one
year,
but
could
not
understand
why
stakeholders
suggested
that
exemptions
be
granted
for
three
to
five
years
and
went
on
to
ask
why
a
two
to
three
year
exemption
Is
not
an
adequate
amount
of
tlrne.
The
followlng
dialogue
highllghts
stakeholder
responses
to
this
topic,
comments
on
the
timeframe
for
an
exemption
notification,
and
discusses
the
application
process.
Unidentified
Stakeholder
An
unidentified
stakeholder
mentioned
that
users
have
to
initiate
the
application
process
18
months
in
advance.
Response:
Ms.
Moreen
agreed,
and
explained
that
the
review
process
is
lengthy
and
explained
that
it
is
set
up
in
this
manner
so
that
nominations
can
be
submitted
to
the
Parties
of
the
Montreal
Protocol.
She
restated
her
question
so
that
stakeholders
would
comment
on
the
length
of
a
granted
exemption
rather
the
length
of
the
application
process.
10
Unidentified
Stakeholder
An
unidentified
stakeholder
claimed
that
an
exemption
granted
for
less
thah
two
years
would
result
in
a
perpetual
application
cycle,
and
went
on
to
ask
if
the
exemption
renewal
process
would
be
less
time
consumlng,
Le.,
approximately
three
months.
Response:
Ms.
Moreen
could
not
comment
on
the
question
posed,
but
did
slate
that
users
would
have
to
apply
every
year
if
the
exemptions
were
granted
annually.
This
comment
led
to
a
situation
where
many
people
began
talking
at
the
same
time.
The
disorder
was
curbed
by
a
comment
from
an
FA
representative.
Paul
Horwitz,
OAREPA
Mr.
Horwitz
discussed
the
need
to
understand
the
international
structure
of
this
process.
He
stated
that
countrles
will
be
notified
as
to
whether
or
not
a
use
Is
granted
at
least
12
to
18
months
prior
to
the
calendar
year
In
which
the
use
is
requlred,
and
hence
over
one
year
would
elapse
in
which
a
farmer
could
consider
alternatives
to
methyl
brornlde
use.
He
restated
that
the
process
does
allow
plenty
of
time
for
a
user
to
assess
his/
her
pesticide
use
for
the
following
year.
Uflidentified
Stakeholder
An
unidentified
stakeholder
described
a
situation
that
displayed
the
need
for
a
multi
year
exemption.
He
explained
that
an
orchard
requires
several
years
to
reach
to
complete
harvest
and
therefore
cannot
be
planted
if
a
grower
is
not
sure
that
methyl
bromide
will
be
accessible
throughout
the
rnufti
year
production
cycle.
David
Mdllister,
Great
Lakes
Chemical
Corporation
Mr.
McAllister
stated
that
it
seemed
unreasonable
to
submit
applications
to
the
PA
on
an
annual
or
biannual
basis
unless
there
has
been
significant
progress
in
alternatlves,
or
if
a
situation
changes.
He
suggested
that
EPA
should
consider
creatlng
a
permanent
list
of
critical
uses
that
the
US.
could
submit
to
the
Parties
on
an
annual
basis,
rather
than
submlttlng
the
same
justification
each
year.
Mr.
McAlllster
stated
that
this
perpetual
list
could
b
e
updated
by
EPA,
USDA,
or
someone
wishing
to
promote
a
new
alternative.
Edward
M.
Ruckert,
McDwmott,
Will
&
Emery;
Crop
Protection
Coalition
Mr.
Ruckert
stated
that
there
are
two
maln
components
of
this
situatlon
that
need
to
be
analyzed.
They
are
as
follows:
=
Lehgth
of
time
For
an
exemption
grant;
and
Type
of
application
process.
He
suggested
that
the
exemption
process
should
be
tm
to
three
years
because
reviewing
applications
on
an
annual
basis
is
extremely
resource
intensive
for
EPA.
He
also
suggested
that
an
annual
application'process
is
too
burdensome
and
difficult
for
users,
as
well
as
resource
intensive
and
tlme
consuming
for
EPA.
He
agreed
with
Mr.
McAllister
by
stating
that
users
should
only
re
apply
for
a
critical
use
exemptlon
If
circumstances
change,
At
this
point,
Ms.
Moreen
asked
the
stakeholders
If
they
had
any
additional
input
regarding
this
subject
.
Unidentified
Stakeholder
An
unidentified
stakeholder,
responding
to
Mr.
Hotwltz's
explanation
of
the
international
framework
and
the
exemption
notification
period,
noted
that
a
nursery
or
any
perennial
crop
requimes
two
years
notice
of
pesticide
use
prlor
to
plahting.
in
other
words.
a
grower
needs
to
know
if
methyl
bromlde
Is
going
to
be
available
for
more
than
one
year.
Response;
Ms.
Moreen
requested
that
the
unldentifled
stakeholder
elaborate
on
thls
toplc.
11
Adam
Sham,
American
Farm
Bureau
federation
Mr.
Sharp
added
that
another
reason
why
applications
should
not
be
processed
annually
is
that
a
crop
cycle
does
not
necessarily
follow
the
calendar
year,
and
growers
do
not
always
plant
in
the
spring
and
harvest
in
the
fall.
He
mentioned
that
some
growers
make
plans
more
than
one
year
In
advance.
Unidentified
Stakeholder
To
elaborate
on
the
previously
mentiohed
topic,
the
unidentified
stakeholder
described
a
typlcal
grower's
plantlng
process
and
explained
how
pesticide
knowledge
is
required
more
than
one
year
in
advance.
He
described
a
hypothetical
situation
where
If
it
were
the
year
2003,
and
a
grower
planned
to
produce
100
acres
of
pistachios
in
2005,
he/
she
would
not
know
whether
they
would
be
permitted
to
use
methyl
bromide
in
2005.
He
explatned
that
a
grower
in
this
situation
would
probably
prefer
to
wait
until
recelvlng
notiflcation
before
continuing
the
planning
process,
and
if
notification
was
issued
in
2004.
the
grower
may
not
be
able
to
plant
by
2005.
He
Stated
that
four
to
five
years
is
an
average
planning
period
for
a
grower.
Unidentified
Stakeholder
An
unidentified
stakeholder
commented
that
walnut
trees
require
methyl
bromide
for
both
pre
plaht
and
post
harvest
USES.
We
stated
that
eliminating
methyl
bromide
in
either
of
those
use
categories
would
reduce
product
yield.
Response:
Ms,
Moreen
agreed
with
the
unldentifled
stakeholder
in
that
a
circumstance
such
as
the
one
mentioned
Is
distinct
and
would
be
examined
as
such,
and
stated
that
a
nursery
could
apply
for
an
exemption
in
the
middle
of
2002
(
the
earliest
date
possible)
and
would
be
notified
in
early
2004
for
a
use
in
2005.
Steve
Godbehere,
Hendrix
B
Dale,
Inc.
Mr.
Godbehere
clarified
the
situattons
previously
described
to
Ms.
Moreen
by
explalnlng
that
growers
are
concerned
about
the
time
allotted
fer
a
notlflcatlon
because
they
are
in
contract
with
the
nursery.
He
went
on
to
explain
that
trees
need
to
be
fumigated
immediately
prior
to
relocatlon
from
the
nursery
to
the
field.
Therefore,
even
if
a
nursery
has
access
to
methyl
bromide,
a
grower
is
concerned
that
methyl
bromide
will
not
be
available
when
it
is
necessary
to
move
the
trees.
two
to
three
years
later.
Tracey
Heinztnan
Smith,
Howrey
&
Simon
Ms.
Heinzrnan
Smith
mentioned
that
the
language
in
the
Montreal
Protocol
does
not
state
that
EPA
needs
to
re
substantiate
the
list
of
critical
use
exemptions
annually,
and
that
it
only
requires
EPA
to
review
and
determine
whether
nominations
meet
the
criteria.
She
suggested
that
if
a
substantial
effort
has
been
placed
on
identifying
critical
uses,
it
is
approprlate
to
annually
nomlnate
the
same
list
to
avoid
a
perpetual
cycle
of
applying
for
and
nominating
exemptions.
At
thls
point
in
the
meeting,
the
discussion
tumed
to
international
issues.
Specifrcally,
topics
such
as
expectations
for
applications
and
the
percent
of
total
productlon
reserved
for
critical
use
exemptions
were
discussed,
Paul
Horwitz,
OAWEPA
Mr.
Horwitz
provided
a
summary
of
the
International
point
of
view
to
date.
He
mentioned
that
initial
international
dis'cusslons
have
revealed
that
some
countries
believe
that
critical
use
exemptions
represent
a
very
small
percentage
(
approximately
one
to
three
percent)
of
total
national
production.
He
indicated
that
countries
expressing
thls
viewpoint
probably
have
not
begun
to
explore
the
issue
as
in
depth
as
the
US.
has.
and
that
they
will
probably
become
more
aware
of
criticaliw
as
the
Issue
is
investigated
further.
He
stressed
that
it
is
essential
to
notice
that
the
language
of
the
Montreal
Protocol
is
designed
so
that
there
Is
an
Incentive
for
users
to
investigate
new
alternatives
to
methyl
bromide,
and
exemptions
will
be
granted
to
those
that
have
displayed
advances
In
alternative
research
throughout
the
exemption
period.
Mr.
Howitz
elaborated
on
this
topic
by
stating
that
the
best
case
that
will
be
submitted
to
the
Parties
is
one
12
that
presents
a
plan
to
consider
new
alternatfves.
He
stated
that
the
feasibility
of
an
alternative
is
not
determined
in
just
a
one
year
or
a
three
year
research
plan
for
methyl
bromide
use;
rather,
results
of
multiple
crop
cycle
research
may
be
necessary
to
determlne
efficacy.
He
stated
that
the
Parties'
conslderation
for
rnulti
year
exemption
requests
wlll
be
based
an
plans
of
action
for
trying
to
flnd
alternatives
in
areas
where
there
were
originally
none.
Tracey
Heinzrnan
Smfth,
llowrey
8
Simon
Ms.
Heinzman
Smith
contributed
to
the
conversation
by
stating
that
If
the
US.
could
present
a
list
of
feasible
alternatives
and
a
correspohding
use
list
to
the
Parties
to
illustrate
current
research,
previous
exemptions
granted
for
uses
that
do.
not
have
feasible
alternatives
could
be
renewed
without
an
application
process.
She
went
on
to
clarify
this
topic
by
asking
Mr.
Horwitz
if
it
is
important
to
show
progress
in
analyzlng
research
regarding
new
alternatives.
Paul
Horwitr;
OAWEPA
Mr.
Horwih
stated
that
the
application
process
and
Montreal
Protocol
language
state
that
one
must
demonstrate
that
new
alternatives
are
being
exahihed.
Tacey
Heinzman
Smith,
Howey
8
Simah
Ms.
Heinzman
Smith
restated
Mr.
Horwltz's
point
that
proving
that
one
has
explored
other
options
to
methyl
bromide
Is
an
important
part
of
this
process.
Paul
Horwitz,
OAWEPA
Mr.
Horwitz
remarked
that
he
wanted
all
stakeholders
to
understand
that
the
previously
discussed
information
Is
his
opinion
based
on
preliminary
discusslons,
and
not
a
reflection
of
the
US.
or
international
position
on
the
Issue.
Matt
Lynch,
Albemarle
Mr.
Lynch
suggested
that
it
would
be
inapproprlate
to
require
users
to
apply
to
EPA
for
exemptions
annually
in
order
to
prove
to
the
Parties
that
users
are
seeking
alternatives.
He
mentioned
that
the
application
process
for
crltical
use
exemptions
should
be
discussed
independently
of
the
length
of
a
granted
exemption.
Edward
M.
Ruckerf,
McDerrnott,
Will
t4
Emery;
Cmp
Protection
Coalition
Mr.
Ruckert
pointed
but
that
the
methyl
bromide
situation
can
not
be
compared
to
the
ban
of
CFCs,
and
asked
Ms.
Moreen
whether
EPA
has
considered
streamlining
the
critlcal
use
process
by
eliminating
a
procedural
step
(
specifically,
the
international
process).
Mr.
Ruckert
stated
that
eliminating
the
international
process
could
save
time
and
money
for
EPA
and
users
because
EPA
is
a
professlonal
organization
and
decisions
made
by
EPA
do
not
require
additional
examinatlon.
Paul
Horwitz,
OAWEPA
Mr.
Hohnritz
responded
to
this
comment
by
stating
that
EPA
has
not
considered
eliminating
a
procedural
step.
He
went
on
to
suggest
that
the
purpose
of
the
international
review
process
is
to
ensure
that
the
Montreal
Protocol
is
implemented
equally
internationally
and
to
allow
alf
countries
to
more
readily
access
research
regarding
new
alternatives.
Edward
M.
Ruckert,
McDermott,
Will
g
Emery;
Crop
Protection
Coalition
Mr.
Ruckert
responded
to
this
statement
by
presentlng
the
negative
effects
of
procedural
steps:
Numerous
steps
contribute
to
the
uncertainty
in
predicting
sxemptioq
grants;
and
Extra
steps
create
an
opportunity
for
political
issues
to
guide
policy
decisions.
Mr.
Ruckert
added
that
the
blofoglcal
nature
of
methyl
bromide
w
e
requires
that
the
system
run
efficiently
to
eliminate
possible
production
and
employment
losses.
13
Unidentified
Stakeho/
der
An
unidentified
stakeholder
asked
Mr.
HDwitz
whether
the
international
cornmunlty
would
consider
that
80
to
90
percent
of
U.
S.
methyl
bromide
uses
are
critical.
Paul
~
orwitz,
oaR/&
a
Mr.
Howitz
stated
that
the
international
community
would
probably
understand
that
80
to
90
percent
of
US.
methyl
bromide
uses
are
critical
once
more
research
has
been
completed.
Mr.
Howitr
went
on
to
suggest
that
in
the
past,
each
time
methyl
bromide
consumption
has
been
reduced.
many
have
assumed
that
a
negative
effect
on
industry
would
occur,
and
that
50
percent
less
methyl
bromide
use
would
lead
to
a
50
percent
loss
In
production.
He
indicated
that
to
date,
this
trend
has
not
occurred,
but
that
users
will
have
to
shift
to
use
of
alternatives
in
many
places
in
order
to
phase
out
methyl
bromide.
Steve
Godbehere,
Hendrix
8
Dale,
Inc
Mr.
Godbehere
explained
that
there
has
not
been
a
shift
to
alternatives
within
the
tomato
industry;
rather,
the
percent
of
chloropicrin
mixed
with
methyl
bromide
has
increased
to
extend
volume,
and
production
has
decreased
significantly.
[
Can
not
hear
all
comments1
Edward
M.
Ruckert,
McDermoff,
Will
8
Emery;
Crop
Protection
Coalition
Mr.
Ruckert
stressed
that
agrlbuslness
Is
an
international
issue
and
that
the
statement.
"
Ninety
percent
of
our
methyl
bromide
uses
have
alternatives."
discredits
our
technlcal
and
problem
solving
abilities.
Response:
Ms.
Moreen
replied
to
Mr.
Ruckert.
stating
that
the
statement
is
slightly
mlsleadlng,
but
reminding
stakeholders
that
this
issue
was
clarified
In
the
previous
meeting.
Edward
M.
Ruckeft,
McDemott,
W//
&
Emery;
Crop
Protection
Coalition
Mr.
Ruckert
suggested
that
the
stakeholders
listen
to
the
Greenpeace
representative's
international
perspective
on
this
issue.
Greenpeace
representative
[
Difficult
to
hear]
The
Greenpeace
representative
began
his
statements
by
explaining
that
there
exists
no
doubt
that
a
larger
research
effort
(
Le.,
8
to
9
years)
would
result
in
more
feasible
alternatlves.
He
stressed
that
alternatives
with
a
greater
environmental
risk
than
that
of
methyl
bromide
are
not
desirable.
He
also
stressed
that
declslon
makers
must
adhere
to
buffer
tone
requirements.
`
Tiscey
Heinzman
Smith,
Howrey
4
Simon
Ms.
Heinzman
Smith
wanted
to
remind
all
attendees
that
the
suggestions
brought
up
by
herself
and
David
Mdllister
do
not
represent
just
the
viewpoint
of
Great
Lakes
Chemical
Corporation,
but
also
the
viewpoint
of
a
task
force
Cohsisting
of;
r
Florida
Fresh
fruit
and
Vegetable
Association;
Crop
Protection
Coalltlon;
and
Turf,
nuts.
and
dried
fruit
industry
representatives.
The
following
two
stakeholder
comments
clarify
toplcs
dlscussed
earlier
in
the
meeting
that
were
answered
by
Ms.
Stendebach.
Unidentified
Stakeholder
An
unidentified
stakeholder
asked
Ms,
Moreen
to
clarify
an
issue
brought
up
earlier
in
the
meeting
regarding
commodities
imported
from
countries
such
as
Mexi
that
have
hot
yet
been
affected
by
the
methyl
bromlde
ban.
14
Sue
Stmdebach,
QAWEPA
Ms.
Stendebech
reassured
the
unidentified
stakeholder
that
the
Intention
of
the
methyl
bromide
phaseout
is
not
to
relocate
agricultural
production
offshore
or
to
countries
such
as
Mexico.
She
explained
that
EPA
wants
to
be
made
aware
of
all
potential
competitive
disabilltles.
Tracey
Ueinzrnan
Smith,
Howrey
&
Simon
Ms.
Heihzrnan
Smith
wanted
to
clarify
with
EPA
that
market
disruptions
are
defined
by
each
country
as
opposed
to
at
the
international
level.
Sue
Stendebach,
O
A
E
P
A
Ms.
Stendebach
pointed
out
that
as
Ms.
Moreen
rnentiohed
earlier
in
the
meeting,
a
significant
market
dlsruptioh
is
a
topic
that
will
be
defined
by
individual
countries,
not
by
the
Montreal
Protocol.
Pete
past
name,
Afiiliationf
To
add
to
the
conversation
regarding
the
importance
of
the
international
crlticsl
use
proFess,
Pete
mentioned
that
impartial
third
patty
verification
regarding
the
feasibility
of
an
alternative
makes
an
Individual
application
stronger.
Ms.
Moreen
transitioned
into
a
new
toplc
by
asking
the
stakeholders
whether
they
thought
grower
groups
or
individuals
should
submit
applicetions
to
the
US.
government.
Unidentified
Stakeholder
An
unidentified
stakeholder
asked
Ms.
Moreen
why
the
application
process
should
be
limited
to
groups
or
individuals.
Response:
Ms.
Moreen
stressed
that
no
decisions
regarding
this
toplc
have
been
made
and
asked
the
unidentified
stakeholder
for
input
on
the
subject.
Unidentified
Stakeholder
An
unldentifled
stakeholder
suggested
that
anyone
who
is
involved
in
the
situation
should
be
able
to
apply,
both
individual
growers
and
grower
$
toups.
He
went
on
to
ask
whether
EPA
prefers
group
applications
to
increase
administrative
efficiency.
Response:
Ms.
Moreen
repllad
to
thls
comment
by
indicating
that
group
appllcatlons
are
a
consideration,
but
Individual
growers
shpuld
be
able
to
apply
as
well.
Unidentified
Stakstmldef
The
unidentified
stakeholder
agreed
with
the
previous
comment
that
anyone
should
be
able
to
apply
for
an
exemptioh,
and
added
that
different
organizatlons,
such
as
the
Farm
Bureau,
state
departments,
commodity
groups,
walnut
~
omrnissions.
etc..
will
all
have
different
viewpoints
as
to
who
should
submit
applications.
Paul
Horwitz,
OAWEPA
Mr.
Horwitz
asked
stakeholders
how
EPA
should
avoid
potential
doubte
countlng
that
could
result
from
application
submittal
from
users
and
groups.
Tracey
Hehzmm
Smifh,
Howrey
8
Simon
Ms.
Heinzman
Smith
suggested
that
slnce
there
will
have
to
be
an
established
date
to
end
the
annual
application
cycle,
PA
could
publish
a
list
of
appllcations
received
for
each
use
pattern.
She
further
suggested
that
users
are
the
best
people
to
apply
for
an
exemption
because
they
have
the
most
data
available
regarding
previously
discussed
criterla.
Sue
Stendebach,
OAREPA
Ms.
Stendebach
asked
stakeholders
for
their
feedback
regardlng
the
followihg
potential
appllcatlon
process:
1
5
e
.
9
Unidentified
Stakeholder
A
mostly
Inaudible
comment
by
ah
unidentified
stakeholder
stressed
the
Importance
of
the
appllcation
process
by
citing
an
example
related
to
the
carrot
industry.
Pete
flast
name,
Affiliation]
Pete
mentioned
that
stakeholders
should
realize
that
there
are
financial
limitations
in
this
rulemaking,
and
that
stakeholders
must
allow
for
some
trade
offs.
He
compared
the
Section
18
process
to
this
situation
by
stating
that
400
to
000
appllcatlons
are
processed
per
year
through
Section
18,
requiring
a
significant
amount
of
time
and
resources.
He
indicated
that
there
will
be
a
learning
curve
for
processing;
the
first
year
will
be
the
most
time
consuming
and
resource
intensive.
Pete
also
stated
that
once
EPA
recognizes
where
critical
uses
exist,
the
appllcation
processing
speed
will
increase
considerably.
users
apply
to
state
agriculture
departments;
state
agriculture
departments
aggregate
similar
applications;
aggregated
applications
are
sent
to
EPA.
Unidentified
Stakeholder
An
uhidentifred
stakeholder
agreed
with
Pete
in
that
it
would
be
fairly
resource
intensive
to
provide
and
compose
the
use
list
discussed
previously,
but
stressed
the
importance
of
having
such
a
list.
Unidentified
Stakeholder
Another
unldentlfled
stakeholder
mentloned
that
he
arrived
at
the
meeting
late
and
inquired
as
to
whether
EPA
planned
to
summarize
their
action
items
as
part
of
the
meeting
agenda.
Response:
Ms.
Moreen
stated
that
all
suggestions
would
be
taken
into
consideration,
that
there
is
a
February
16,2001
meetlng
summary
available,
a
summary
of
today's
meeting
would
be
made
available,
and
that
EPA
is
not
ready
to
present
specific
action
items.
Sue
Siendebach,
OAREPA
Ms.
Stendebach
added
that
EPA
considers
the
following
to
be
the
current
general
action
Items:
*
begin
writing
a
regulation;
=
9
create
a
sensible
rulemaking.
compile
mcre
reSearch,
including
written
comments
from
stakeholders;
and
Ms.
Moreen
mentioned
that
she
wanted
to
continue
the
discussion
regarding
stakeholder
preference
regarding
who
should
apply
for
exemptions:
a
larger
body
or
B
user.
The
following
stakeholder
comment
was
noted
by
EPA
representatives
but
did
not
requlre
a
response.
Unidentified
Stakeholder,
Tee
Trade
Association
An
unidentified
stakeholder
compared
this
situation
to
that
of
the
tree
industry.
He
indicated
that
here
are
38
state
associations
for
the
tree
Industry
and
that
the
storm
water
permitting
system
.
presents
an
opportunity
to
use
group
applications
or
apply
individually
through
a
state
department
of
agriculture.
He
suggested
that
EPA
examine
this
system
to
determine
which
option
is
more
administratively
effective,
and
stressed
that
each
individual
commodity
should
determine
the
most
effective
option
based
the
comfort
level
that
users
have
with
various
institutions.
The
following
discusslon
summarizes
stakeholder
comments
regardin$
labeling.
Pete
past
name,
AffillaiionJ
Pete
reminded
the
stakeholders
that
B
label
must
be
created
when
granting
a
Section
18
bromide
label.
tion,
and
asked
if
stakeholders
thought
that
companles
would
be
willing
to
provide
a
methyl
1
6
,
Tracey
Heinzman
Smith,
Howey
&
Simon
Ms.
Heinman
Smith
suggested
that
producers
create
a
separate
label
for
criticaf
uses,
and
that
EPA
should
avoid
d
labeling
system
analogous
to
the
Section
I
8
process
in
order
to
limit
the
number
of
labels
that
would
have
to
be
Droduced.
Pete
tlast
name,
Afffllatiett]
Pete
stated
that
if
labels
for
critical
uses
could
not
be
crop
specific,
rather,
they
would
have
to
be
asslgned
to
individual
growers.
He
illustrated
thls
point
by
presenting
the
followlng
example:
a
label
will
have
to
be
produced
for
Farmer
X
at
Farm
X
for
Use
X
so
that,
for
instance,
a
user
in
Florida
does
not
use
methyl
bromide
with
B
Californla
label.
Tracey
Helnzman
Smlth,
Howey
B
Simon
Ms.
Heinzman
Smith
suggested
that
Inspectors
could
deal
with
enforcement
issues.
[
Can
not
hear
all
comments]
Pete
past
name,
AMliation]
Pete
compared
Section
18
exemptions
to
this
sltuation
and
further
discussed
the
issue
surrounding
enforcement.
Tracey
Heinzman
Smith,
Ho
wrey
&
Simon
Ms.
Heinzman
Smith
stated
that
labeling
would
depend
on
how
broad
an
exemption
is
(
Le.,
will
labels
be
limited
by
county,
state,
or
commodity).
She
also
suggested
that
exemptions
should
be
commodity
specific
rather
than
region
specific.
[
cannot
hear
all
comments]
A
conversation
then
transpired
between
Pete,
Ms.
Heinzrnan
Smith,
and
an
unidentified
stakeholder
regarding
specific
criteria
establlshed
for
Section
18
exemptions.
Unidentified
Stakeholder
An
unidentified
stakeholder
mentioned
that
if
there
are
600
applicatiorrs.
it
will
be
necessary
to
aggregate
them
at
some
level.
Ms.
Moreen
steered
the
conversation
back
to
the
issue
of
the
applicatlon
process
by
stating
that
she
requited
stakeholder
Input
on.
the
subject
of
applications.
The
following
dialogue
highlights,
this
discussion.
Unidentified
Stakeholder
An
unidentified
stakeholder
asked
Ms.
Moreen
if
applications
would
be
filed
in
each
state
and
subsequently
forwarded
EPA,
or
if
individuals
would
apply
dlrectly
to
EPA.
Response:
Ms.
Moreen
responded
by
stating
that
the
EPA
has
not
yet
determined
the
answer
to
that
question
and
that
stakeholder
Input
Is
welcome.
Unidentified
Stakeholder
An
unidentified
stakeholder
remarked
that
at
some
point
PA
will
probably
adopt
the
Section
18
process
because
many
are
familiar
with
it.
Tracey
Helnzman
Smith,
Uowrey
&
Slmon
Ms.
Heinzrnan
Smith
asked
Ms.
Moreen
the
following
questions
regarding
state
agriculture
departments:
[
cannot
hear
all
comments]
Do
state
agriculture
departments
have
expertise
In
thls
area?
Will
state
agriculture
departments
aggregate
applications?
Will
state
agrlculture
departments
evaluate
applications.
adding
another
layer
of
review7
17
Unidentified
Stakeholder
An
unldentlfled
stakeholder
mentioned
that
Ms.
Heinzman
Smith
brought
up
a
good
point.
The
fOllOWihg
comment
was
not
related
to
the
application
process
and
was
responded
to
by
the
Greenpeace
representatlve.
Unidenttried
Stakeholder
An
unldentified
stakeholder
informed
the
Greenpeace
representative
that
excessive
amounts
of
money
have
been
spent
looking
for
alternatives
over
the
past
ten
years
8nd
asked
if
efforts
have
been
Initiated
by
Greenpeace
to
assist
with
this
research.
Greenpeace
Representative
The
Greenpeace
representative
stated
that
no
such
efforts
have
been
initiated
by
Greenpeace.
Tracey
Heintman
Smith,
Howrey
8
Simon
Ms.
Heinkman
Smith
reverted
the
conversation
topic
back
to
the
workings
of
the
critical
use
exemption
process
by
stating
that
EPA
should
consider
creating
an
initial
List
of
critical
uses
and
alternatives,
and
that
stakeholders
could
examine
this
list
throughout
the
application
process.
She
went
on
to
state
that
a
list
of
this
type
would
provide
an
opportunity
for
users
to
examine
the
most
current
information.
Ms.
Heinzman
Smith
also
suggested
that
the
process
could
be
more
efficient
If
USDA
could
provide
information
and
determine
whether
applicants
have
demonstrated
a
significant
market
disruption,
and
if
EPA
could
provide
the
information
and
determine
whether
uses
have
technically
and
economically
feasible
alternatives.
She
mentioned
that
she
had
not
thought
about
how
to
aggregate
applications,
but
stated
that
allowing
user
communities
to
apply
woutd
be
an
efflcient
method
because
it
would
limit
the
number
of
applications
to
be
reviewed,
Ms.
Moreen
summarized
the
stakeholder
comments
regarding
the
appllcation
submission
process
as
follows:
It
would
be
appropriate
to
incorporate
state
departments
of
agriculture
into
the
critical
use
process
because
many
stakeholders
are
accustomed,
to
working
with
them
through
the
Section
I
8
process;
Grower
groups
should
be
allowed
to
submit
applications
because
many
users
are
comfortable
with
these
organizations;
and
Growers
that
are
not
part
of
these
organizations
should
also
be
able
to
apply.
9
1
Unidentified
Stakeholder
An
unidentified
stakeholder
restated
that
grower
groups
do
not
represent
all
stakeholders.
Response:
Ms.
Moreen
asked
the
unidentified
stakeholder
if
he
thought
that
individuals
that
3re
not
part
of
an
association
feel
comfortable
applying
through
the
state
department
of
agriculture
or
directly
to
US.
EPA.
Unidmtified
Stakeholder
The
unidentified
stakeholder
replied
that
as
long
as
users
are
aware
of
the
requlrsd
documentation,
it
does
not
matter
what
governmental
body
is
involved
in
the
process.
David
McAllister,
Great
Lakes
Chemical
Corporetion
Mr.
McAHister
suggested
that
the
subrnlsslon
process
be
an
open
process
worded
in
such
a
way
that
joint
submissions
from
groups
or
various
organizations
are
encouraged.
He
stated
that
from
a
practical
standpoht.
individuals
would
probably
prefer
to
submit
an
application
with
a
group
in
order
to
ltmit
the
amount
of
work
that
must
be
completed
by
the
individual.
An
open
appllcatibh
system
such
as
this
would
limit
the
total
number
of
applicatlons.
Once
again,
Ms.
Moreen
steered
the
conversation
back
to
the
issue
of
the
appllcation
process
and
reminded
the
stakeholders
that
there
still
must
be
a
method
to
prevent
counting
requests
for
a
18
use
more
than
once.
She
mentioned
that
Ms.
Heinzman
Smith
had
suggested
that
EPA
distribute
some
type
of
notlce
tt,
users,
but
if
there
is
a
deadline
for
submitting
an
appllcatlon
it
might
be
too
late
to
ensure
that
Users
are
aware
of
all
submltted
applications.
Tl`
acey
Heinzman
Smith,
Howrey
8
Simon
Ms.
Heinzrnan
Smith
suggested
that
PA
post
applicatlons
on
the
Internet
as
they
are
received
so
that
applicants
can
verify
that
a
request
has
not
already
been
submitted.
Sue
Stendebach,
OAWEPA
Ms.
Stendebach
reminded
stakeholders
that
there
could
be
confidential
business
information
(
CEI)
issues
that
would
not
allow
PA
to
post
such
Information
on
the
Internet.
David
McAtlister,
Great
Lakes
Chemical
Corporation
Mr.
McAllister
mentioned
that
if
appllcatlons
are
commodity
and
region
specific,
EPA
could
probably
determine
if
there
Is
an
overlap
in
requests.
and
that
only
ambiguous
applications
would
allow
the
posslblllty
for
double
counting.
Unidentified
Stakeholder,
Tree
Trade
Association
An
unidentified
stakeholder
described
the
submlsslon
process
for
a
storm
water
permit
to
Ms.
Moreen.
He
m8ntlOned
that
wheh
a
group
application
is
racelved,
the
names
of
individuals
within
the
group
are
also
submitted,
and
those
people
whose
names
are
not
in
the
group
submit
applications
individually
He
added
that
a
process
of
this
type
presents
a
business
opportunlty
for
associations
to
entice
new
members.
Matt
Lynch,
Albemarle
Mr.
Lynch
reminded
the
meeting
attendees
that
the
system
should
be
Open
so
that
users
that
prefer
to
apply
as
individuals
are
not
forc&
to
become
involved
with
an
association.
Paul
Homilz,
OAWEPA
Mr.
Honnritz
mentioned
that
there
probably
would
not
be
a
limit
on
the
number
of
exemptions
granted
because
the
Montreal
Protocol
language
states
that:
"
This
paragraph
will
apply
save
to
the
extent
that
the
Parties
decide
to
permit
the
level
of
production
or
consumption
that
is
necessary
to
satisfy
uses
agreed
by
them
to
be
critical
uses"
He
also
stated
that
In
the
past,
the
same
language
has
been
applied
to
limit
the
actual
tonnage
of
methyl
bromide
exempted,
and
if
a
grower
group
requires
4,000
tons
and
individual
farmers
growing
the
same
crop
claim
to
requlre
an
aggregate
4,000
tons,
the
concern
about
double
counting
arises
if
there
is
not
much
use
in
the
entire
industry.
Steve
Godbehere,
Hendrix
&
Dale,
Inc.
Mr.
Godbehere
mentioned
that
the
Economic
Research
Service
(
ERS)
could
help
to
ensure
that
double
counting
does
not
occur.
Paul
Horwitz,
OAWEPA
Mr.
Horwitr
questioned
whether
ERS
would
know
how
many
tons
of
methyl
bromide
would
be
needed.
Tracey
ffejnzman
Smjth,
Howrey
&
Simon
Ms.
Heinzman
Smith
interrupted
Mr.
Iiorwitz
and
indicated
that
the
Perties
must
recognfze
that
it
is
dimcult
to
predld
quantities
of
methyl
bromide
because
many
manufacturers
produce
it,
a5
opposed
to
only
a
few
companies
producing
CFC
12
for
metered
dose
inhalers
@
e,
CFC
12
producers
know
how
much
will
be
sold
next
year
and
can
predict
the
exact
tonnage
needed).
She
Went
on
to
remark
that
it
would
not
be
possible
to
determine
a
detailed
estimate
for
methyl
bromide
because
weather
conditions
and
pests
can
not
be
predicted.
She
asked
Ms.
Moreen
if
the
government
is
aware
of
this
situation.
1
9
.
Response:
Ms.
Moreen
responded
by
stating
that
the
government
is
aware
of
this
situstion
and
suggested
that
it
may
be
possible
to
submlt
a
range
of
the
possible
volume
needed
so
that
PA
can
determlne
the
adequate
amount
for
each
use.
Unidentified
Stakeholder
An
unldentified
stakeholder
mentioned
that
the
methyl
bromide
application
process
should
b
e
analogous
to
the
Sectlon
18
application
process.
The
following
two
statements
relate
to
the
proposed
list
of
alternatives.
Vern
Wai'fer,
WA
W,
InC.
Mr.
Walter
indicated
that
a
proposed
list
of
alternatives
should
contain
the
advantages
and
limitations
of
each
alternative.
He
requested
that
8111
Thomas
discuss
the
progress
of
this
proposed
list,
and
inquired
about
the
posslbllity
of
posting
the
list
on
the
Internet.
Bill
Thomas,
OAWEPA
Dr.
Thomas
mentioned
that
he
was
trying
not
to
comment
because
he
wanted
to
listen
to
stakeholder
input.
and
that
he
has
been
working
to
create
a
list
since
1992
with
an
interagency
EPNUSDA
Working
Group
created
specifically
to
analyze
potential
alternatives.
He
indicated
that
the
alternatives
identified
thus
far
cah
be
separated
into
three
different
"
piles:"
=
He
went
oh
to
indicate
that
he
did
not
want
to
comment
any
further
because
h
e
is
involved
with
other
groups
such
a5
OPP,
USDA,
ARS,
ERS,
and
APHIS.
Effective
alternatives
that
are
unavailable
for
various
reasons
{
e.
g.,
regulatory
hurdles,
buffer
zone
requirements,
labeling
issues,
cost
effectiveness,
etc.);
Alternatives
that
are
already
in
use;
and
Experimentally
effective
alternatlves
that
ate
not
s;
ornmercially
avallable.
Ms.
Moreen
changed
the
subject
to
discuss
the
emergency
use
application
process
and
whether
stakeholders
thought
that
applications
should
be
submitted
to
state
departments
of
agriculture.
There
was
no
response
regardihg
this
issue,
so
Ms.
Moreen
assumed
that
stakeholders
wanted
the
emergehcy
use
application
process
to
function
identically
to
the
critical
use
process.
She
asked
stakeholders
which
governmental
body
should
assess
emergency
uses.
Steve
Godbehere,
Hendrix
&
Dale,
lnc.
Mr.
Godbehere
proposed
that
APHIS,
USDA,
and
state
departments
of
agrlculture
are
all
qualified
to
assess
emergency
use
exemptions.
Susan
O'Took
and
Several
Unidentified
Stakeholders
Ms.
O'Toole
initiated
a
conversation
discussing
the
differences
between
quarantlne
and
preshiprnent
(
QPS)
exemptions,
critical
use
exemptions,
and
emetgency
exemptions.
Ms.
Moreen
resolved
this
discussion
by
explaining
the
maln
differences
between
the
exemption
types.
.
Sue
Stendebach,
OAWEPA
Ms.
Stendebach
added
to
Ms.
Moreen's
explanation
by
stating
that
preshipment
exemptions
are
used
for
export
products,
quarantlne
exemptions
are
used
for
controlling
pests
between
states,
and
emergency
exemptions
are
used
for
heatth
threats.
The
fOlbWihg
stakeholder
comment
was
noted
by
EPA
representatives
but
did
not
require
a
response.
2
0
.
Dsvld
McAllister,
Great
takes
Chemical
Corporatlon
Mr.
McAllister
stated
that
any
emergency
application
would
require
some
validation
by
a
regulatory
agency.
Ms.
Moreen
remarked
that
she
did
not
have
any
other
specific
questions
and
opened
the
meeting
up
to
any
other
suggestions
or
comments.
The
following
three
comments
were
responded
to
by
a
facilltator
or
an
PA
representative,
Unidentified
Stakeholder
An
unidentified
stakeholder
asked
Ms.
Moreen
whether
Section
18
exemptions
will
be
applicable
after
the
phaseout.
Response:
Ms.
Moreen
stated
that
methyl
bromide
use
will
be
phased
out
through
the
Clean
Air
Act
as
of
2005,
and
mentioned
that
a
user
that
has
been
$
ranted
a
Section
18
exemption
will
have
to
apply
for
an
extension
through
the
critical
use
process,
posslbly
in
conjunction
with
a
Section
18
exemption.
Sue
Stendebach,
OARLEPA
Ms.
Stehdebach
mentioned
that
EPA
would
work
closely
with
OPP
to
determine
what
would
be
considered
an
emergency
use,
and
that
all
emergency
situations
would
probably
be
considered
under
the
critical
use
and
emergency
exemptlon
process.
David
McAlIister,
Great
Lakes
Chemical
Corporation
Mr.
Mdlister
asked
Ms.
Moreen
to
clarlfqr
whether
the
Glean
Air
Act
would
regulate
production
as
opposed
to
use,
as
is
the
case
for
FlFRA
regulations.
Unidentified
Stakehdder
An
unidentified
stakeholder
asked
if
OAR
would
review
Section
18
labels.
Sue
Stendebach,
OARlEPA
Ms.
Stendebach
replied
to
the
stakeholder
questions
by
stating
that
OAR
would
work
with
OPP,
but
that
it
was
OPP's
responsibility
to
review
Section
18
labels.
She
also
said
that
Section
18
exemptions
would
stili
be
applicable
despite
the
fact
that
a
methyl
bromide
phaseout
had
occurred.
David
McAllister,
Great
Lakes
Chemical
Corporatlon
Mr.
McAlllster
suggested
that
the
Section
18
process
is
unnecessary
for
methyl
bromide
because
uses
can
apply
for
an
emergency
use
exemption
under
the
critical
use
exemption
process,
and
asked
Ms.
Moreen
what
wlll
happen
to
pre
existing
methyl
bromide
Section
18
exemptions
after
the
phaseout.
Paul
Uotwitz,
OAWEPA
Mr.
Horwib
indicated
that
stakeholders
need
to
discuss
how
to
implement
exemptions
once
they
are
granted.
The
following
stakeholder
comment
was
noted
by
EPA
representatives,
but
many
people
began
to
tdk
at
the
same
time,
making
it
difficult
to
hear
the
response.
Matt
Lynch,
Albemarle
Mr.
Lynch
asked
Ms.
Moreen
whether
it
is
possible
to
have
an
emergency
use
In
the
future
that
would
hot
be
subject
to
the
Section
18
process.
[
Amber
cah
you
provide
a
response?]
The
followlng
stakeholder
comment
was
noted
by
EPA
representatives
but
did
hot
require
a
response.
21
Greenpeace
Representative
A
Greenpeace
representative
remarked
that
EPA
should
publlclte
the
dialogue
between
OAR
and
OPP
so
that
all
stakeholders
are
aware
of
progress,
plans,
and
options
as
decisions
ate
made.
The
following
question
was
responded
to
by
an
unldantlfied
stakeholder.
Unidentified
Stakeholder
An
unidentified
stakeholder
required
clarification
regarding
the
relationship
between
methyl
bromide
critical
use
exemptions
and
Section
18
emergency
exemptions.
Unidentified
Stakeholder
Another
unidentified
stakeholder
explained
that
Section
18
and
the
critical
use
exemption
process
are
separate
statutes,
and
that
it
is
not
necessary
to
look
for
similarities
within
each
to
make
the
critical
use
exemption
process
more
efficient.
He
went
on
to
mention
that
Clean
Air
Act
requirements
would
not
take
precedence
over
FIFRA
requirements.
The
following
series
of
questions
and
responses
highlight
the
dialogue
related
to
publiclzlng
a
list
of
alternatives.
Steve
Godbehere,
Hendrix
8
Dale,
Inc.
Mr.
Godbehere
agreed
with
the
Greenpeace
representa
tive
and
suggested
that
EPA
publicize
alternatlves
as
they
are
identified
so
that
users
can
start
preparing
for
the
phaseout.
Btll
Thomas,
OAWEPA
Dr
Thomas
remarked
that
the
list
will
be
made
available
In
the
next
several
months,
as
CBI
issues
are
resolved.
Tracey
Heinzman
Smith,
Howrey
&
Simon
Ms.
Heinzrnan
Smith
suggested
that
EPNOAR
should
publlcite
the
alternatives
that
are
already
commercially
available,
while
continuing
to
resolve
CBI
issues.
BM
Thomas,
OAWEPA
Dr.
Thomas
stated
that
it
is
critical
to
consider
all
possible
alternatives
in
this
situation.
Steve
Godbehere,
Hendrix
&
Dale,
Inc.
Mr.
Godbehere
suggested
that
a
list
of
available
alternatives
should
be
posted
on
the
Internet.
We
advised
that
the
list
should
be
updated
as
more
information
is
discovered
so
that
growers
could
comment
on
it
and
send
feedback
to
EPA.
EN
Thomas.
OAWEPA
Dr.
Thomas
indicated
that
the
Interagency
working
group
has
been
working
to
resolve
this
issue
for
3
to
4
years
at
the
same
prior$
level
as
establishing
the
rulemaking
for
the
critical
use
exemption
process.
He
then
introduced
Ken
Vick,
the
USOA
head
of
the
interagency
working
group.
He
added
that
PA
has
spoken
to
growers
in
diffeteht
states
and
has
brought
growers
to
Washington
D.
C.
to
create
a
realistic
list
of
available
alternatives.
Tracey
Heinzman
Smith,
Howrey
tk
Simon
MS.
Heinman
Smith
Indicated
that,
as
mentioned
previously,
users
must
have
a
baseline
to
which
to
compare
themselves
so
that
the
application
process
is
not
extremely
difficult,
time
consuming,
and
resource
Intensive,
and
to
avoid
the
need
to
reapply
if
all
available
alternatives
are
not
known
Sue
Stendebach,
OAWEPA
Ms.
Stendebach
indlcated
that
8
list
will
be
made
available.
22
.
I
Tracey
Heinzmen
Smith,
Homey
&
Simon
Ms.
Heinzman
Smith
asked
Dr.
Thomas
if
the
list
will
be
made
available
prior
to
t
h
e
proposed
rulemaking
in
August.
Bill
Thomas,
OAWEPA
Dr.
Thomas
stated
that
the
llst
will
be
made
available
around
the
same
time
as
proposed
rule.
around
the
end
of
the
summer
(
July
or
August
2001
).
Ken
Vick,
USDA
Mr.
Vick
stated
that
the
following
reasons
contributed
to
the
delay
in
posting
a
potential
list
of
alternatives;
*
Research
an
alternatives
included
footnotes
by
varlous
studies
with
regional
disparities;
and
Growers
made
subjective
and
sometlmas
contradictory
judgements
about
chemicals.
Bill
Thomas,
OAREPA
Dr.
Thomas
asked
stakeholders
if
they
would
be
comfortable
with
an
internet
posting
of
the
potential
list
of
alternatives.
Steve
Godbehere,
Hendrix
&
Dale,
/
ne.
Mr.
Godbehere
stated
that
if
users
were
made
aware
of
the
posting,
the
Internet
would
be
an
appropriate
place
to
display
the
Information
Bill
Thomas,
OAWEPA
Dr.
Thomas
responded
to
Mr.
Godbehere
by
asklng
how
EPA
should
make
users
aware
of
the
availability
of
the
list.
Steve
Godbehem,
Hendrix
&
Dale,
Inc.
Mr.
Godbehere
suggested
that
EPA
use
an
extenslon
service,
which
operates
by
extracting
information
from
local
growers.
Unidentified
Stakeholder
An
unidentified
stakeholder
asked
Ms.
Moreen
about
the
length
of
time
designated
to
the
emergency
use
notification
process.
Response:
Ms.
Moreen
responded
that
the
process
would
not
he
time
consuming
and
that
notification
would
probably
be
received
one
to
two
days
beforehand.
She
went
on
to
indicate
that
after
an
emergency
use
is
granted,
a
critical
use
review
would
be
completed
at
the
international
level
to
advise
parties
if
the
proposed
use
can
qualify
as
an
emergency
in
the
future.
Unidentified
Stakeholder
An
unidentified
stakeholder
asked
Ms.
Moreen
whether
the
application
process
would
involve
a
public
comment
perlod
after
applications
are
submitted.
Response:
Ms.
Moreen
replied
that
a
public
comment
period
is
a
possibility
and
asked
stakeholders
If
there
were
any
mote
comments
or
suggestions.
Paul
Hofwitz,
OAR/
EPA
Mr.
Horwitz
stressed
that
the
following
comment
is
important
but
is
his
own
Opinion
and
not
necessarily
the
position
of
the
US.
government.
He
began
his
comment
by
reiterating
the
importance
for
users
to
submit
any
field
research
data
so
that
applicants
can
display
both
historic
efforts
and
future
efforts
to
try
alternatives.
He
also
mentioned
that
a
robust
plan
will
suppot?
multlple
year
requests,
and
that
the
applicatlon
package
will
probably
request
information
and
to
the
degree
possible,
money
that
has
been
spent,
different
alternatives
studied,
and
case
studles
that
show
specific
results.
23
.
Closing
Statement
Ms.
Moreen
thanked
everyone
for
attending
the
meeting
and
encouraged
stakeholders
to
contact
EPA
with
any
additional
comments
or
special
circumstances.
She
asked
all
attendees
to
take
a
business
card
and
the
February
16,2001
Crltical
USR
Meeting
Summary,
and
reminded
everyohe
to
sign
the
participant
list
before
departing.
2
4
.
| epa | 2024-06-07T20:31:34.628906 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2003-0017-0006/content.txt"
} |
EPA-HQ-OAR-2003-0084-0132 | Supporting & Related Material | 2001-09-06T04:00:00 | null | LYONDELL
Gail
B.
Kelly
Manager,
Solvents
Development
3801
West
Chester
Pike
Newtown
Square,
PA
19073
Telephone:
61
0
3596443
Fax:
610
359
3155
E
mail:
gail.
kelly@
lyondell.
com
August
27,2001
Terry
J.
Keating,
Ph.
D.
AAAS
Environmental
Science
Fellow
EPA
Office
of
Air
and
Radiation
Ariel
Rios
North
5442
(
MC6
103A)
1200
Pennsylvania
Ave,
N
W
Washington
DC
20460
Dear
Dr.
Keating:
In
response
to
your
request,
Lyondell
is
providing
a
copy
(
attached)
of
our
submittal
to
the
California
Air
Resources
Board,
summarizing
the
toxicological
data
for
tertiary
butyl
acetate
(
TBAc).
As
explained
in
that
submittal,
we
believe
the
existing
data
indicate
that
TBAc
is
of
a
low
order
of
toxicity
and
would
not
present
significant
health
or
environmental
concerns
from
its
use
as
a
solvent.
On
the
other
hand,
use
of
TBAc
could
provide
a
health
benefit
to
the
extent
it
replaces
use
of
solvents
that
are
Clean
Air
Act
hazardous
air
pollutants
or
that
have
hijjher
photochemical
reactivity
and
so
contribute
to
ozone
formation.
We
hope
this
information
is
helpful
to
you.
Please
feel
free
to
call,
write,
or
email
me
with
any
questions.
Sincerely,
W
Gail
B.
Kelly
Attachment
Lyondell
Chemical
Company
| epa | 2024-06-07T20:31:34.660540 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2003-0084-0132/content.txt"
} |
EPA-HQ-OAR-2004-0272-0003 | Supporting & Related Material | 2001-11-27T05:00:00 | null | epa | 2024-06-07T20:31:34.683924 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OAR-2004-0272-0003/content.txt"
} |
|
EPA-HQ-OEI-2003-0001-0001 | Rule | 2001-02-28T05:00:00 | Advanced Notice of proposed rulemaking and recordkeeping and delayed effective date of recordkeeping provisions in the electronic signatures in Global and National Commerce Act of 2000 | 12746
Federal
Register
/
Vol.
66,
No.
40
/
Wednesday,
February
28,
2001
/
Proposed
Rules
dominant
in
their
fields,
and
governmental
jurisdictions
with
populations
of
less
than
50,000
people.
The
small
entities
identified
(
approximately
3
charter
fisherman
and
1
tug
operator)
do
not
represent
a
substantial
number
of
entities
that
would
be
affected
by
this
proposed
rule.
Most
vessels
that
must
pass
Franklin
Street
bridge
are
pleasure
craft.
According
to
LaPorte
County
Highway
Dept.,
the
charter
fisherman
can
pass
Franklin
Street
in
the
closed
position
once
all
lowerable
appurtenances
on
their
vessels
are
adjusted.
Otherwise,
the
scheduled
openings
would
still
satisfy
the
reasonable
needs
for
these
few
vessels.
The
12
hour
advance
notice
requirement
during
winter
months
is
a
standard
practice
on
the
Great
Lakes
and
still
provides
for
bridge
openings
with
advance
notice
from
vessel
operators.
Therefore,
the
Coast
Guard
certifies
under
5
U.
S.
C
605(
b)
that
this
proposed
rule
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
If
you
think
that
your
business,
organization,
or
governmental
jurisdiction
qualifies
as
a
small
entity
and
that
this
proposed
rule
would
have
a
significant
economic
impact
on
it,
please
submit
a
comment
(
see
ADDRESSES)
explaining
why
you
think
it
qualifies
and
how
and
to
what
degree
this
proposed
rule
would
economically
affect
it.
Collection
of
Information
This
proposed
rule
would
call
for
no
new
collection
of
information
requirement
under
the
Paperwork
Reduction
Act
(
44
U.
S.
C.
3501
et
seq.).
Federalism
The
Coast
Guard
has
analyzed
this
proposed
rule
under
the
principles
and
criteria
contained
in
Executive
Order
13132,
and
determined
that
this
rule
does
not
have
federalism
implications
under
that
Order.
Unfunded
Mandates
Reform
Act
The
Unfunded
Mandates
Reform
Act
of
1995
(
2
U.
S.
C.
1531
1538)
governs
the
issuance
of
federal
regulations
that
require
unfunded
mandates.
An
unfunded
mandate
is
a
regulation
that
requires
a
state,
local,
or
tribal
government
or
the
private
sector
to
incur
direct
costs
without
the
federal
government
having
first
provided
the
funds
to
pay
those
unfunded
mandate
costs.
This
proposed
rule
will
not
impose
an
unfunded
mandate.
Taking
of
Private
Property
This
proposed
rule
will
not
effect
a
taking
of
private
property
or
otherwise
have
taking
implications
under
Executive
Order
12630,
Governmental
Actions
and
Interference
with
Constitutionally
Protected
Property
Rights.
Civil
Justice
Reform
This
proposed
rule
meets
applicable
standards
in
sections
3(
a)
and
3(
b)(
2)
of
Executive
Order
12988,
Civil
Justice
Reform,
to
minimize
litigation,
eliminate
ambiguity,
and
reduce
burden.
Protection
of
Children
We
have
analyzed
this
proposed
rule
under
Executive
Order
13045,
Protection
of
Children
from
Environmental
Health
Risks
and
Safety
Risks.
This
proposed
rule
is
not
an
economically
significant
rule
and
does
not
concern
an
environmental
risk
to
health
or
risk
to
safety
that
may
disproportionately
affect
children.
Environment
The
Coast
Guard
considered
the
environmental
impact
of
this
proposed
rule
and
concluded
that,
under
figure
2
1,
paragraph
34(
g)
of
Commandant
Instruction
M16475.
lC,
this
rule
is
categorically
excluded
from
further
environmental
documentation.
This
proposed
rule
changes
a
drawbridge
regulation
which
has
been
found
not
to
have
a
significant
effect
on
the
environment.
A
Categorical
Exclusion
Determination
is
not
required.
List
of
Subjects
in
33
CFR
Part
117
Bridges.
For
the
reasons
set
out
in
the
preamble,
the
Coast
Guard
proposes
to
revise
Part
117
of
Title
33,
Code
of
Federal
Regulations,
as
follows:
PART
117
DRAWBRIDGE
OPERATION
REGULATIONS
1.
The
authority
citation
for
Part
117
continues
to
read
as
follows:
Authority:
33
U.
S.
C.
499;
49
CFR
1.46;
33
CFR
1.05
1(
g);
section
117.255
also
issued
under
the
authority
of
Pub.
L.
102
587,
106
Stat.
5039.
2.
Revise
§
117.401
to
read
as
follows:
§
117.401
Trail
Creek.
(
a)
The
draw
of
the
Franklin
Street
bridge,
mile
0.5
at
Michigan
City,
shall
be
operated
as
follows:
(
1)
From
March
16
through
November
30,
the
draw
shall
open
on
signal;
except
from
6:
15
a.
m.
to
11:
15
p.
m.,
Monday
through
Sunday,
the
draw
need
open
only
from
three
minutes
before
to
three
minutes
after
the
quarter
hour
and
three
quarter
hour.
(
2)
From
December
1
through
March
15,
the
draw
shall
open
on
signal
if
at
least
12
hours
advance
notice
is
provided
prior
to
intended
time
of
passage.
(
b)
The
draw
of
the
Amtrak
bridge,
mile
0.9
at
Michigan
City,
shall
open
on
signal;
except,
from
December
1
through
March
15,
the
bridge
shall
open
on
signal
if
at
least
12
hours
advance
notice
is
provided
prior
to
intended
time
of
passage.
(
c)
Public
vessels
of
the
United
States,
state
or
local
vessels
used
for
public
safety,
vessels
in
distress,
and
vessels
seeking
shelter
from
severe
weather
shall
be
passed
through
the
draws
of
each
bridge
as
soon
as
possible.
Dated:
February
5,
2001.
James
D.
Hull,
Rear
Admiral,
U.
S.
Coast
Guard,
Commander,
Ninth
Coast
Guard
District.
[
FR
Doc.
01
4884
Filed
2
27
01;
8:
45
am]
BILLING
CODE
4910
15
U
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Parts
51,
60,
63,
70,
123,
142,
145,
162,
233,
257,
258,
271,
281,
403,
501,
745
and
763
[
FRL
6949
6]
RIN
2025
AA10
Public
Information:
Advanced
Notice
of
Proposed
Rulemaking
on
Electronic
Reporting
and
Recordkeeping
and
Delayed
Effective
Date
of
Recordkeeping
Provisions
in
the
Electronic
Signatures
in
Global
and
National
Commerce
Act
of
2000
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Advance
notice
of
proposed
rulemaking
(
ANPRM).
SUMMARY:
EPA
announces
its
intent
to
develop
a
rule
to
establish
performance
standards
to
assure
accuracy,
record
integrity,
and
accessibility
of
electronic
reports
and
records
applying
generally
to
all
recordkeeping
requirements
contained
in
Chapter
I
of
Title
40
of
the
Code
of
Federal
Regulations.
This
action
delays
until
June
1,
2001
the
effective
date
of
certain
provisions
in
the
Electronic
Signatures
in
Global
and
National
Commerce
Act
of
2000
that
may
affect
certain
federal
environmental
recordkeeping
requirements.
DATES:
In
order
to
be
considered,
comments
on
this
ANPRM
must
be
received
on
or
before
March
30,
2001.
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14:
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12747
Federal
Register
/
Vol.
66,
No.
40
/
Wednesday,
February
28,
2001
/
Proposed
Rules
Please
direct
all
correspondence
to
the
addresses
shown
below.
ADDRESSES:
Written
comments
should
be
submitted
in
triplicate
to
the
United
States
Environmental
Protection
Agency,
Enforcement
and
Compliance
Docket
and
Information
Center
(
Mail
Code
2201A),
Docket
Number
EC
2000
007
(
Attn:
E
SIGN
ANPRM),
1200
Pennsylvania
Avenue
NW,
Washington,
DC,
20460.
No
facsimiles
(
faxes)
will
be
accepted.
Comments
in
an
electronic
format
should
also
reference
docket
number
EC
2000
07,
(
Attn:
E
SIGN
ANPRM),
and
should
be
addressed
to
the
following
Internet
address:
docket.
oeca@
epa.
gov.
Electronic
comments
must
be
submitted
as
an
ASCII,
WordPerfect
5.1/
6.1/
8
format
file
and
avoid
the
use
of
special
characters
or
any
form
of
encryption.
FOR
FURTHER
INFORMATION
CONTACT:
David
Schwarz
(
2823),
Office
of
Environmental
Information,
U.
S.
Environmental
Protection
Agency,
1200
Pennsylvania
Avenue
NW,
Washington,
DC
20460,
(
202)
260
2710,
schwarz.
david@
epa.
gov,
or
Evi
Huffer
(
2823),
Office
of
Environmental
Information,
U.
S.
Environmental
Protection
Agency,
1200
Pennsylvania
Avenue
NW.,
Washington,
DC,
20460,
(
202)
260
8791,
huffer.
evi@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
The
Electronic
Signatures
in
Global
and
National
Commerce
Act
of
2000,
15
U.
S.
C.
7001
to
7031
(
hereinafter
``
ESign
enacted
on
June
30,
2000,
provides
that,
with
respect
to
any
transaction
in
or
affecting
interstate
commerce,
no
contract,
signature,
or
record
relating
to
such
a
transaction
shall
be
denied
legal
effect
solely
because
it
is
in
electronic
form.
Similarly,
E
Sign
provides
that
such
a
document
may
not
be
denied
legal
effect
solely
because
an
electronic
signature
or
record
was
used
in
its
formation.
Under
E
Sign,
terms
of
existing
statutes
or
agency
rules
containing
paper
based
requirements
that
might
otherwise
deny
effect
to
electronic
signatures
and
records
in
consumer,
commercial
or
business
transactions
between
two
or
more
parties
are
superseded.
While
ESign
does
not
generally
affect
reporting
under
federal
regulations
or
records
of
those
reports,
E
Sign
does
potentially
supersede
a
requirement
that
a
record
be
kept
on
paper
if
that
record
is
not
retained
principally
for
governmental
purposes,
but
is
maintained
primarily
for
consumer,
commercial
or
business
purposes.
E
Sign
does,
however,
preserve
the
authority
of
federal
and
State
agencies
to
set
technology
neutral
standards
and
formats
for
the
retention
of
any
such
electronic
records.
Today,
EPA
announces
its
intent
to
develop
rules
governing
the
use
of
electronic
records
to
satisfy
any
recordkeeping
requirements
contained
in
Chapter
I
of
Title
40
of
the
Code
of
Federal
Regulations,
including
any
recordkeeping
requirements
potentially
affected
by
E
Sign.
With
respect
to
record
retention
requirements
imposed
by
federal
statute,
regulation,
or
other
rule
of
law,
E
Sign
takes
effect
on
March
1,
2001
unless
a
federal
regulatory
agency
has
announced,
proposed,
or
initiated,
but
not
completed,
rulemaking
to
establish
performance
standards
to
assure
accuracy,
record
integrity,
and
accessibility
of
electronic
reports
and
records.
If
a
federal
agency
announces,
proposes,
or
initiates
such
a
rulemaking
on
or
before
March
1,
2001,
the
effective
date
of
E
Sign
is
delayed
until
June
1,
2001,
with
respect
to
such
records.
Today's
ANPRM
announces
EPA's
intent
to
develop
a
rule
applying
generally
to
all
recordkeeping
requirements
contained
in
Chapter
I
of
Title
40
of
the
Code
of
Federal
Regulations
and,
accordingly,
to
the
extent
E
Sign
affects
any
such
requirement,
E
Sign
will
take
effect
on
June
1,
2001,
instead
of
March
1,
2001.
In
order
to
satisfy
the
mandates
of
the
Government
Paperwork
Elimination
Act
(
GPEA)
of
1998,
public
law
105
277,
http://
ec.
fed.
gove/
gpedoc.
htm,
EPA
is
currently
developing
the
Cross
Media
Electronic
Reporting
and
Recordkeeping
Rule
(
CROMERRR).
This
rule
would
govern
the
use
of
electronic
records
and
recordkeeping
to
satisfy
any
reporting
or
recordkeeping
requirement
contained
in
Chapter
I
of
Title
40
of
the
Code
of
Federal
Regulations.
EPA
may
also
choose
to
develop
a
rule
in
addition
to
CROMERRR
that
would
apply
to
the
subset
of
those
recordkeeping
requirements
that
are
affected
by
E
Sign.
Such
a
rule
would
establish
interim
performance
standards
to
assure
accuracy,
record
integrity,
and
accessibility
of
this
smaller
universe
of
electronic
records
until
EPA
is
able
to
finalize
the
CROMERR
rule
of
general
applicability.
EPA
solicits
comment
on
whether
it
should
develop
such
an
interim
rule.
EPA
also
solicits
comment
on
what
class
or
classes
of
records
should
be
subject
to
any
such
interim
rule.
Dated:
February
23,
2001.
Christine
Todd
Whitman,
Administrator.
[
FR
Doc.
01
4972
Filed
2
27
01;
8:
45
am]
BILLING
CODE
6560
50
P
DEPARTMENT
OF
HEALTH
AND
HUMAN
SERVICES
42
CFR
Part
36
Cancellation
of
the
Meeting
of
the
Negotiated
Rulemaking
Committee
on
Joint
Tribal
and
Federal
Self
Governance
AGENCY:
Indian
Health
Service,
HHS.
ACTION:
Notice
of
Meeting
Cancellation.
SUMMARY:
On
February
13,
2001,
the
Indian
Health
Service
published
a
notice
in
the
Federal
Register
announcing
two
meetings
of
the
Negotiated
Rulemaking
Committee
on
Joint
Tribal
and
Federal
Self
Governance
(
66
FR
10182,
February
13,
2001).
The
first
meeting,
scheduled
for
February
27
28
in
Washington,
DC,
is
cancelled.
The
second
meeting,
scheduled
for
March
15
16
in
San
Diego,
CA,
will
be
held
as
planned
at
the
Clarion
Hotel
Bay
View,
660
K
Street,
San
Diego,
CA
92101,
from
8:
00
a.
m.
5:
00
p.
m.
each
day.
FOR
FURTHER
INFORMATION
CONTACT:
Paula
Williams,
Director,
Office
of
Tribal
Self
Governance,
Indian
Health
Service,
5600
Fishers
Lane,
Room
5A
55,
Rockville,
MD
20857,
Telephone
301
443
7821.
(
This
is
not
a
toll
free
number.)
Dated:
February
22,
2001.
Michael
H.
Trujillo,
Assistant
Surgeon
General,
Director.
[
FR
Doc.
01
4967
Filed
2
26
01;
12:
37
pm]
BILLING
CODE
4160
16
M
FEDERAL
COMMUNICATIONS
COMMISSION
47
CFR
Part
73
[
DA
01
390,
MM
Docket
No.
01
46,
RM
10046]
Digital
Television
Broadcast
Service;
Temple,
TX
AGENCY:
Federal
Communications
Commission.
ACTION:
Proposed
rule.
SUMMARY:
The
Commission
requests
comments
on
a
petition
filed
by
Channel
6,
Inc.,
licensee
of
station
KCEN
TV,
NTSC
channel
6,
Temple,
Texas,
requesting
the
substitution
of
DTV
channel
9
for
station
KCEN
TV's
assigned
DTV
channel
50.
DTV
Channel
9
can
be
allotted
to
Temple,
Texas,
in
compliance
with
the
principle
community
coverage
requirements
of
Section
73.625(
a)
at
reference
coordinates
(
31
16
24
N.
and
97
13
14
W.).
As
requested,
we
propose
to
allot
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14:
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| epa | 2024-06-07T20:31:34.797913 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OEI-2003-0001-0001/content.txt"
} |
EPA-HQ-OPP-2002-0146-0002 | Supporting & Related Material | 2001-06-25T04:00:00 | null | UNITED
STATES
ENVIRONMENTAL
PROTECTION
AGENCY
UNITED
STATES
ENVIRONMENTAL
PROTECTION
AGENCY
UNITED
STATES
ENVIRONMENTAL
PROTECTION
AGENCY
UNITED
STATES
ENVIRONMENTAL
PROTECTION
AGENCY
WASHINGTON,
D.
C.
20460
WASHINGTON,
D.
C.
20460
WASHINGTON,
D.
C.
20460
WASHINGTON,
D.
C.
20460
OFFICE
OF
OFFICE
OF
OFFICE
OF
OFFICE
OF
PREVENTION,
PESTICIDES
AND
PREVENTION,
PESTICIDES
AND
PREVENTION,
PESTICIDES
AND
PREVENTION,
PESTICIDES
AND
TOXIC
SUBSTANCES
TOXIC
SUBSTANCES
TOXIC
SUBSTANCES
TOXIC
SUBSTANCES
22
April
2002
MEMORANDUM:
SUBJECT:
Tebuthiuron.
Preliminary
Human
Health
Risk
Assessment.
HED
Chapter
for
the
Tolerance
Reassessment
Eligibility
Decision
(TRED).
Chemical
No.
105501.
DP
Barcode
D274580.
FROM:
Paula
A.
Deschamp,
M.
S.,
Risk
Assessor
Reregistration
Branch
2
Health
Effects
Division
(7509C)
THRU:
Alan
Nielsen,
Branch
Senior
Scientist
Reregistration
Branch
2
Health
Effects
Division
(7509C)
TO:
Wilhelmena
Livingston,
Chemical
Review
Manager
Special
Review
and
Reregistration
Division
(7508C)
Attached
is
HED's
Preliminary
Human
Health
Risk
Assessment
for
the
Tebuthiuron
Tolerance
Reassessment
Eligibility
Decision
(TRED).
This
document
addresses
tolerances
subject
to
reassessment
in
accordance
with
Federal
Food
Drug
&
Cosmetic
Act
(FFDCA)
as
amended
by
the
Food
Quality
Protection
Act
of
1996
(FQPA).
The
FQPA
requires
EPA
to
re
evaluate
existing
tolerances
to
ensure
that
children
and
other
sensitive
subpopulations
are
protected
from
pesticide
risks.
Because
FQPA
addresses
only
non
occupational
(residential)
risk
concerns
for
food
use
pesticides
with
established
tolerances
or
exemptions,
risks
to
workers
are
not
addressed
in
this
document.
The
human
health
risk
findings
summarized
in
this
assessment
incorporate
disciplinary
chapters
and
other
supporting
documentation
as
follows:
TRED
for
Tebuthiuron.
M.
Corbin
(11/
28/
01;
D279066)
Addendum
to
TRED
Drinking
Water
Assessment
for
Tebuthiuron.
M.
Corbin
(2/
22/
02;
D279066)
Product
Chemistry
Chapter
for
the
TRED.
K.
Dockter
(11/
15/
01;
D277104)
Residue
Chemistry
Chapter
for
the
TRED.
S.
Piper
(04/
09/
02;
D277103)
Acute
and
Chronic
Dietary
Exposure
Assessments
for
the
TRED.
S.
Piper
(04/
03/
02;
D281821)
Toxicology
Chapter
for
the
TRED.
R.
Fricke
(3/
20/
02;
D277101;
TXR
0050572)
2
Third
Report
of
the
HIARC
Committee.
R.
Fricke
(4/
16/
02;
TXR
0050672)
Report
of
the
FQPA
Safety
Factor
Committee.
Carol
Christensen
(2/
12/
02;
TXR
0050466)
The
Outcome
of
the
HED
MARC
Meeting
(2/
25/
02;
TXR
0050409)
RDI:
Team
(04/
03/
02),
BRSrSci:
Nielsen
(04/
22/
02),
RARC
(04/
03/
02)
P.
Deschamp
812D:
CM#
2:
(703)
305
6227:
7509C:
RRB2
1.0
EXECUTIVE
SUMMARY
...................................................
1
2.0
PHYSICAL/
CHEMICAL
PROPERTIES
CHARACTERIZATION
.................
4
2.1
Chemical
Structure
and
Identification
of
Active
Ingredient
.................
4
2.2
Physical
Properties
..................................................
4
3.0
HAZARD
CHARACTERIZATION
............................................
4
3.1
Hazard
Profile
......................................................
4
3.2
FQPA
Considerations
..............................................
10
3.3
Dose
Response
Assessment
..........................................
10
3.4
Endocrine
Disruption
...............................................
13
4.0
EXPOSURE
ASSESSMENT
AND
CHARACTERIZATION
......................
14
4.1
Summary
of
Registered
Uses
.........................................
14
4.2
Dietary
Exposure/
Risk
Pathway
......................................
15
4.2.1
Residue
Profile
..........................................
15
4.2.2
Dietary
Exposure
........................................
19
4.2.2.1
Acute
Dietary
Exposure
Analysis
..........................
20
4.2.2.2
Chronic
Dietary
Exposure
Analysis
........................
20
4.2.2.3
Cancer
Dietary
Exposure/
Risk
............................
21
4.3
Water
Exposure/
Risk
Pathway
.......................................
21
4.4
Residential
Exposure/
Risk
Pathway
...................................
23
4.4.1
Other
Non
Occupational
Exposure
..........................
23
5.0
AGGREGATE
RISK
ASSESSMENTS
AND
RISK
CHARACTERIZATIONS
.......
24
5.1
Acute
Risk
........................................................
24
5.1.1
Aggregate
Acute
Risk
Assessment
...........................
24
5.1.2
Acute
DWLOC
Calculations
................................
24
5.2
Short
and
Intermediate
Term
Risk
...................................
25
5.3
Chronic
Risk
......................................................
25
5.3.1
Aggregate
Chronic
Risk
Assessment
.........................
25
5.3.2
Chronic
DWLOC
Calculations
..............................
25
6.0
CUMULATIVE
............................................................
26
7.0
OCCUPATIONAL
EXPOSURE
..............................................
27
8.0
DATA
NEEDS/
LABEL
REQUIREMENTS
....................................
28
1
Tebuthiuron
(PC
Code
105501)
Preliminary
Human
Health
Risk
Assessment
HED
Chapter
for
the
Tolerance
Reassessment
Eligibility
Decision
(TRED)
1.0
EXECUTIVE
SUMMARY
The
following
human
health
risk
assessment
has
been
prepared
by
the
Health
Effects
Division
(HED)
for
Phase
1
(Registrant
Error
Correction)
of
the
tolerance
reassessment
eligibility
decision
(TRED)
process
for
tebuthiuron.
The
Tebuthiuron
Reregistration
Standard
Guidance
Document
was
issued
6/
94.
Tebuthiuron
is
a
non
selective
substituted
urea
herbicide.
The
mechanism
of
herbicidal
action
is
the
inhibition
of
photosynthesis.
Unlike
other
substituted
ureas
such
as
fluometuron,
diuron,
and
linuron,
tebuthiuron
contains
a
dimethyl
thiadiazole
moiety
and
does
not
degrade
or
metabolize
to
3,4
dichloroaniline.
Tebuthiuron
controls
broadleaf
and
grassy
weeds
and
woody
plants.
Use
sites
include
pastureland/
rangeland,
non
crop
industrial
areas
such
as
highways,
fence
rows,
firebreaks,
utility
rights
of
ways,
railroad
rights
of
ways,
and
clearings
for
wildlife
habitat.
Pastureland/
rangeland
in
TX,
OK
and
NM
is
the
primary
use
site.
End
use
formulations
include
granular,
pelleted/
tablets,
and
wettable
powder
products
which
are
applied
using
ground
and
aerial
equipment.
The
only
source
of
dietary
(food)
exposure
is
the
consumption
of
secondary
residues
in
meat
and
milk
from
livestock
fed
tebuthiuron
treated
grass
forage
and
hay.
Tolerances
in
meat
and
milk
are
established
at
2
ppm
and
in
grass
forage
and
hay
at
10
ppm
for
residues
of
tebuthiuron
and
its
metabolites
containing
the
dimethyl
thiadiazole
moiety.
There
are
no
registered
residential
uses.
Hazard
Profile,
Dose/
Response
Analysis,
and
FQPA
Considerations
The
toxicology
database
for
tebuthiuron
is
not
complete,
but
provides
sufficient
information
to
adequately
identify
hazards
for
risk
assessment
purposes.
The
acute
toxicity
studies
indicate
that
tebuthiuron
is
more
toxic
for
oral
(Category
II)
exposure
than
for
either
dermal
(Category
IV)
or
inhalation
(Category
III)
exposure.
Tebuthiuron
is
not
an
eye
or
skin
irritant
and
not
a
skin
sensitizer.
In
a
21
day
dermal
toxicity
study
in
rabbits,
no
dermal
or
systemic
toxicity
was
observed
at
the
limit
dose
of
1000
mg/
kg/
day.
In
subchronic
and
chronic
toxicity
studies
in
the
rat
the
most
consistent
toxicological
effect
was
decreased
body
weight;
however,
histopathological
changes
in
the
pancreas
were
also
observed.
In
subchronic
and
chronic
toxicity
studies
in
the
dog,
anorexia,
decreased
body
weight,
clinical
chemistry
effects,
and
increased
organ
weights
were
observed.
There
was
no
qualitative/
quantitative
evidence
of
increased
susceptibility
in
rat
developmental
and
reproduction
studies;
however
susceptibility
could
not
as
assessed
in
the
rabbit.
The
classification
of
tebuthiuron
as
a
Group
D,
not
classifiable
as
to
human
carcinogenicity,
was
reevaluated
by
HIARC.
At
the
doses
tested,
neither
the
rat
nor
mouse
showed
any
treatment
related
increase
in
the
incidence
of
neoplasms;
however,
the
HIARC
concluded
that
the
dose
levels
were
too
low
to
assess
the
carcinogenic
potential
of
tebuthiuron.
Tebuthiuron
was
not
mutagenic
in
bacteria,
but
was
weakly
positive
for
gene
mutations
in
cultured
mouse
lymphoma
sells.
The
effect
in
mammalian
cells
was,
however,
confined
to
non
activated
test
conditions.
There
was
also
some
2
evidence
of
a
clastogenic
response
at
cytotoxic
doses
both
with
and
without
S9
activation.
Since
an
acceptable
in
vivo
bone
marrow
cytogenetic
assay
is
not
available,
final
conclusions
regarding
the
mutagenic
potential
of
tebuthiuron
can
not
be
made
at
this
time.
HED
has
requested
new
carcinogenicity
studies
in
rats
and
mice
and
an
in
vivo
mammalian
bone
marrow
chromosomal
aberration
test
as
confirmatory
data.
A
dose
level
of
25
mg/
kg/
day
was
selected
for
acute
dietary
risk
assessment
based
on
increased
post
implantation
loss
and
fetal/
litter
resorptions
observed
at
50
mg/
kg/
day
in
the
rabbit
developmental
study.
A
dose
level
of
14
mg/
kg/
day
was
selected
for
chronic
dietary
risk
assessment
based
on
decreased
body
weight
and
feed
consumption
observed
at
30
mg/
kg/
day
in
F1
females
in
a
2
generation
rat
reproduction
study.
An
uncertainty
factor
(UF)
of
100
was
applied
to
all
doses
selected
for
risk
assessment
purposes
to
account
for
interspecies
extrapolation
(10x)
and
intraspecies
variability
(10x).
The
FQPA
Safety
Factor
Committee
recommended
that
the
FQPA
Safety
Factor
be
reduced
to
3x
when
assessing
acute
dietary
exposure
to
females
13
50
years
old
because
there
is
a
data
gap
for
the
susceptibility
of
fetuses
following
in
utero
exposure
to
tebuthiuron.
The
Committee
also
recommended
that
the
safety
factor
be
removed
(1x)
when
assessing
chronic
dietary
exposure
to
the
general
U.
S.
population
and
all
population
subgroups.
Exposure
and
Risk
Contributions
from
the
Food
Pathway
HED
did
not
identify
any
risk
concerns
from
exposure
to
tebuthiuron
in
food.
The
acute
and
chronic
dietary
risk
estimates
associated
with
the
use
of
tebuthiuron
do
not
exceed
HED's
level
of
concern
(!100%)
for
any
population
subgroup.
A
Tier
2
deterministic
chronic
dietary
assessment
was
conducted
using
the
Dietary
Exposure
Evaluation
Model
(DEEM™)
which
incorporates
consumption
data
from
USDA's
Continuing
Surveys
of
Food
Intake
by
Individuals
(CSFII),
1989
1992.
Inputs
to
the
dietary
analysis
included
anticipated
residues
(ARs)
from
field
trials
and
livestock
feeding
studies.
Maximum
and
weighted
average
estimates
of
percent
crop
treated
were
incorporated
into
the
acute
and
chronic
assessments,
respectively.
The
calculated
chronic
dietary
exposure
(residue
x
consumption)
was
compared
to
a
chronic
population
adjusted
dose
(cPAD)
of
0.14
mg/
kg/
day,
which
reflects
a
FQPA
factor
of
1x
for
the
general
U.
S.
population
and
all
population
subgroups.
The
chronic
dietary
exposure
estimate
for
the
general
U.
S.
population
and
all
subgroups
was
<1%
of
the
cPAD.
The
acute
dietary
exposure
was
compared
to
an
acute
population
adjusted
dose
(aPAD)
of
0.083
mg/
kg/
day.
The
acute
dietary
risk
estimates
associated
with
the
use
of
tebuthiuron
do
not
exceed
HED's
level
of
concern
for
females
13
50
years
old.
The
acute
dietary
risk
estimate
for
this
population
subgroup
is
<1%
of
the
aPAD.
Exposure
and
Risk
Contributions
from
the
Water
Pathway
HED
did
not
identify
any
acute
or
chronic
risk
concerns
from
exposure
to
tebuthiuron
in
drinking
water.
Tebuthiuron
and
its
dimethyl
thiadiazole
containing
degradate
(Compound
104)
are
persistent
and
mobile.
The
Environmental
Fate
and
Effects
Division
(EFED)
Tier
II
(PRZM/
EXAMS)
surface
water
modeling
for
residues
of
tebuthiuron
and
its
degradate
104
using
the
index
reservoir
with
the
percent
cropped
area,
predicts
the
1
in
10
year
peak
(acute)
3
concentration
of
tebuthiuron
is
not
likely
to
exceed
15.5
!g/
L.
The
1
in
10
year
annual
average
concentration
(non
cancer
chronic)
of
tebuthiuron
is
not
likely
to
exceed
4.3
!g/
L.
The
SCIGROW
predicted
concentration
of
tebuthiuron
and
its
degradate
104
in
ground
water
is
not
expected
to
exceed
245
µg/
L.
Aggregate
Risk
Assessments
HED
did
not
identify
any
aggregate
risk
concerns.
The
aggregate
acute
and
aggregate
chronic
dietary
risk
estimates
include
exposure
to
residues
of
tebuthiuron
in
food
and
water.
No
short,
intermediate
or
long
term
residential
use
scenarios
were
identified.
Acute
dietary
(food)
exposure
is
<1%
of
the
aPAD
for
females
13
50.
Chronic
dietary
(food)
exposure
is
<1%
of
the
chronic
PAD
for
the
general
U.
S.
population
and
all
population
subgroups.
The
estimated
acute
and
chronic
EECs
in
ground
and
surface
water
are
less
than
the
drinking
water
levels
of
comparison
indicating
that
acute
and
chronic
aggregate
exposures
to
tebuthiuron
do
not
exceed
HED's
level
of
concern.
Data
Gaps
and
Uncertainties
Toxicology
data
gaps
include
a
developmental
toxicity
study
in
rabbit,
as
well
as
the
chronic
feeding/
carcinogenicity
study
in
the
rat
and
oncogenicity
study
in
the
mouse;
all
of
these
studies
were
found
to
be
unacceptable.
Although
tebuthiuron
was
not
mutagenic
in
bacteria,
it
was
weakly
positive
for
gene
mutations
in
cultured
mouse
lymphoma
cells,
but
only
under
non
activated
test
conditions.
An
in
vivo
bone
marrow
cytogenetic
assay
is
needed
to
fully
evaluate
the
mutagenic
potential
of
tebuthiuron.
Further,
a
28
day
inhalation
study
in
the
rat
is
required
to
characterize
the
effects
of
tebuthiuron
via
the
inhalation
route,
and
the
requirement
for
a
developmental
neurotoxicity
study
is
being
held
in
reserve,
pending
submission
of
the
rabbit
developmental
toxicity
study.
The
NOAEL
of
14
mg/
kg/
day
from
the
two
generation
reproduction
study
used
for
derivation
of
the
chronic
RfD
is
the
lowest
NOAEL
in
the
database.
In
other
long
term
toxicity
studies,
doses
of
50
mg/
kg/
day
(1
year
dog)
and
80
mg/
kg/
day
(2
year
rat)
were
identified
as
LOAELs;
a
LOAEL
was
not
established
in
the
78
week
mouse
oncogenicity
study
at
the
highest
dose
tested
(240
mg/
kg/
day).
Based
on
this
weight
of
evidence,
the
HIARC
inferred
that
a
repeat
study
in
rats
at
higher
dose
would
provide
hazard
characterization
and
evaluate
the
carcinogenic
potential
of
this
pesticide,
but
would
not
yield
a
dose
that
is
lower
than
the
dose
that
is
used
for
derivation
of
the
RfD.
The
chronic
RfD
is
adequate
to
protect
any
adverse
toxicity
effects
following
exposure
to
tebuthiuron.
Although
there
are
some
uncertainties
regarding
the
carcinogenic
potential
of
tebuthiuron,
HED
has
elected
not
to
quantify
cancer
risk
at
this
time
because
the
dose
levels
used
in
the
available
carcinogenicity
studies
were
sufficient
to
decrease
any
cancer
risk
concerns.
HED
has
requested
new
carcinogenicity
studies
in
rats
and
mice
and
an
in
vivo
mammalian
bone
marrow
chromosomal
aberration
test
as
confirmatory
data.
4
N
N
S
N
CH
3
CH
3
C
H
3
O
NH
2
OH
2.0
PHYSICAL/
CHEMICAL
PROPERTIES
CHARACTERIZATION
2.1
Chemical
Structure
and
Identification
of
Active
Ingredient
Chemical
Name:
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N,
N'
dimethylurea
Common
Name:
Tebuthiuron
PC
Code
Number:
105501
CAS
Registry
No.:
34014
18
1
Chemical
Class:
Phenylurea
Chemical
Type:
Herbicide
Trade
Names:
Spike
Mode
of
Action:
Photosynthetic
inhibitor
which
causes
disruption
of
cell
membranes
Empirical
formula:
C9H16N4OS
Molecular
weight:
228.3
2.2
Physical
Properties
Tebuthiuron
is
a
solid
at
room
temperature
with
a
low
vapor
pressure;
thus,
any
losses
due
to
volatilization/
sublimation
are
expected
to
be
minimal.
Preliminary
analysis
data
indicate
there
are
no
impurities
of
toxicological
concern
in
tebuthiuron
technical
material.
A
detailed
list
of
the
physical
properties
of
tebuthiuron
technical
is
provided
below:
Color:
off
white
Physical
state:
crystalline
solid
Odor:
pungent
MP:
161.5
164C
Bulk
Density:
0.
579
g/
cc
Water
solubility:
2.
5
mg/
mL
@25C
Vapor
Pressure:
2
x
10
6
mm
Hg
@
25C
log
Pow:
1.
79
Stability:
Stable
for
3
yrs
at
normal
temperatures.
3.0
HAZARD
CHARACTERIZATION
3.1
Hazard
Profile
The
toxicology
database
for
tebuthiuron
is
not
complete,
but
provides
sufficient
information
to
adequately
identify
hazards
for
risk
assessment
purposes.
Toxicology
data
gaps
include
a
developmental
toxicity
study
in
rabbit,
as
well
as
the
chronic
feeding/
carcinogenicity
study
in
the
rat
and
oncogenicity
study
in
the
mouse;
all
of
these
studies
were
found
to
be
unacceptable.
Although
5
tebuthiuron
was
not
mutagenic
in
bacteria,
it
was
weakly
positive
for
gene
mutations
in
cultured
mouse
lymphoma
cells,
but
only
under
non
activated
test
conditions.
An
in
vivo
bone
marrow
cytogenetic
assay
is
needed
to
evaluate
the
mutagenic
potential
of
tebuthiuron.
A
28
day
inhalation
study
in
the
rat
is
required
to
characterize
the
effects
of
tebuthiuron
via
the
inhalation
route.
Further,
the
requirement
for
a
developmental
neurotoxicity
study
is
being
held
in
reserve,
pending
submission
of
the
rabbit
developmental
toxicity
study.
The
acute
toxicity
studies
indicate
that
tebuthiuron,
technical,
is
more
toxic
for
oral
(Toxicity
Category
II)
exposure
than
for
either
dermal
(Toxicity
Category
IV)
or
inhalation
(Toxicity
Category
III).
Tebuthiuron
is
not
an
eye
or
skin
irritant
and
not
a
skin
sensitizer.
In
the
21
day
dermal
toxicity
study
in
rabbits,
no
dermal
or
systemic
toxicity
was
observed
at
1000
mg/
kg/
day
(limit
dose).
Although
the
most
consistent
toxicological
effect
was
decreased
body
weight,
histopathological
changes
in
the
pancreas
were
observed
in
both
the
subchronic
and
chronic
toxicity
studies
in
the
rat.
Pancreatic
acinar
cells
of
both
sexes
showed
vacuolation,
which
was
described
as
generally
slight
or
affecting
only
a
few
cells;
males
also
had
increased
relative
spleen
and
prostate
gland
weights.
In
a
rat
developmental
study,
however,
pancreatic
tissue
appeared
normal.
Subchronic
and
chronic
toxicity
studies
were
available
for
the
dog.
In
a
subchronic
study,
anorexia,
with
resulting
weight
loss,
and
clinical
chemistry
effects
(increased
blood
urea
nitrogen
and
alkaline
phosphatase)
were
observed
at
50
mg/
kg/
day.
In
a
chronic
(1
year)
dog
study,
clinical
signs
of
toxicity
(emesis
anorexia,
and
diarrhea
),
decreased
body
weight,
increased
alanine
aminotransferase
(ALT)
and
alkaline
phosphatase
(ALP)
(males
only),
increased
absolute
and
relative
liver
weights,
and
increased
relative
kidney
(females
only)
and
thyroid
(males
only)
weights.
Results
from
the
rat
developmental
and
reproductive
toxicity
studies
indicated
that
there
was
no
evidence
(qualitative
or
quantitative)
for
increased
susceptibility
following
in
utero
and/
or
pre/
post
natal
exposure.
The
rabbit
developmental
toxicity
study
was
found
to
be
unacceptable;
susceptibility
can
not
be
evaluated
in
rabbits.
At
the
doses
tested,
neither
the
rat
nor
mouse
showed
any
treatment
related
increase
in
the
incidence
of
neoplasms.
However,
the
HIARC
(TXR
No.
0050672,
April
16,
2002)
concluded
that
the
dose
levels
were
too
low
to
assess
the
carcinogenic
potential
of
tebuthiuron.
Tebuthiuron
was
not
mutagenic
in
bacteria,
but
was
weakly
positive
for
gene
mutations
in
cultured
mouse
lymphoma
cells.
The
effect
in
mammalian
cells
was,
however,
confined
to
non
activated
test
conditions.
There
was
also
some
evidence
of
a
clastogenic
response
at
cytotoxic
doses
both
with
and
without
S9
activation.
Since
an
acceptable
in
vivo
bone
marrow
cytogenetic
assay
is
not
available,
final
conclusions
regarding
the
mutagenic
potential
of
tebuthiuron
can
not
be
made
at
this
time.
In
a
rat
metabolism
study
with
14
C
tebuthiuron,
absorption
was
complete;
excretion
was
rapid
in
both
sexes,
but
was
delayed
during
the
first
12
hours
post
dose,
indicating
saturation
of
biotransformation
or
excretion.
At
termination,
no
significant
amounts
of
residual
radioactivity
remained
in
any
tissue
examined,
but
the
skin
showed
the
highest
amounts
relative
to
other
tissues.
Six
metabolites
of
tebuthiuron
were
identified.
The
major
urinary
metabolites
were
identified
as
hydroxylated
tebuthiuron
metabolites.
A
summary
of
the
findings
from
acute
toxicity
tests
is
presented
in
Table
1
and
a
summary
of
the
findings
from
the
subchronic,
chronic,
mutagenicity
and
other
toxicity
studies
is
presented
in
Table
6
2.
Table
1.
Acute
Toxicity
of
Tebuthiuron
Technical
Guideline
No.
Study
Type
MRID
No.
Results
Toxicity
Category
870.1100
Acute
Oral
(Rat)
40583901
LD50
=477.5
mg/
kg
(!!
)
387.5
mg/
kg
(""
)
II
870.1200
Acute
Dermal
(Rabbit)
40583902
LD50
=>
5000
mg/
kg
(!!
and
""
)IV
870.1300
Acute
Inhalation
(Rat)
00155730
LC50
=
3.696
mg/
L
III
870.2400
Primary
Eye
Irritation
40583903
Slight
irritation
IV
870.2500
Primary
Skin
Irritation
40583902
Non
irritating
IV
870.2600
Dermal
Sensitization
40583904
Non
sensitizer
–
7
Table
2.
Subchronic,
Chronic,
and
Other
Toxicity
Table
Guideline
No./
Study
Type
MRID
No.
(year)/
Classification
/Doses
Results
870.3100
90
Day
oral
toxicity
rat
00020662
(1972)
Acceptable/
Guideline
0,
20,
50,
125
mg/
kg/
day
NOAEL
=
50
mg/
kg/
day
LOAEL
=
125
mg/
kg/
day,
based
on
decreased
body
weight,
increased
relative
liver,
kidney,
gonads,
spleen
(males
only),
and
prostate
and
slight
vacuolization
of
pancreatic
acinar
cells.
870.3150
90
Day
oral
toxicity
dog
00020663
(1972)
Acceptable/
Guideline
0,
12.5,
25,
50
mg/
kg/
day
NOAEL
=
25
mg/
kg/
day
LOAEL
=
50
mg/
kg/
day,
based
on
decrease
in
body
weight
and
increased
alkaline
phosphatase
activity.
870.3200
21/
28
Day
dermal
toxicity
rabbit
00149733
(1985)
00160796
(1986)
Acceptable/
Guideline
0,
1000
mg/
kg/
day
NOAEL
=
1000
mg/
kg/
day
(limit
dose)
870.4100
[83
1(
b)]
1
Year
Feeding
Study
Dog
00146801
(1985)
Acceptable/
Guideline
0,
12.5,
25,
50
mg/
kg/
day
NOAEL=
25
mg/
kg/
day
LOAEL
=
50
mg/
kg/
day
based
on
clinical
signs,
decreased
body
wt,
increased
ALT
and
ALP
(males
only),
increased
absolute
and
relative
livers
and
relative
thyroid
wt,
(males
only)
wt,
and
increased
absolute
liver
wt.
870.4200
[83
2
(b)]
Oncogenicity
Study
Mouse
00020717
(1986)
Unacceptable/
Guideline
0,
60,
120,
240
mg/
kg/
day
NOAEL=
240
mg/
kg/
day
LOAEL
=
Not
achieved
Histopathology:
None
observed
at
doses
tested,
doses
not
high
enough
to
assess
carcinogenicity.
870.4300
[83
5(
a)]
Combined
Chronic
Toxicity/
Carcinogenicity
Study
Rat
00020714
(1976)
00098190
(1981)
40870101
(1988)
Unacceptable/
Guideline
0,
20,
40,
80
mg/
kg/
day
NOAEL
=
40
mg/
kg/
day,
females
80
mg/
kg/
day
males
LOAEL
=
80
mg/
kg/
day,
based
on
decreased
terminal
body
weight
in
females;
not
established
in
males
Histopathology:
None
observed
at
doses
tested,
doses
not
high
enough
to
assess
carcinogenicity.
870.3700
[83
3(
a)]
Developmental
Toxicity
Study
Rat
00020803
(1972)
40485801
(1972)
Acceptable/
Guideline
0,
37,
72,
110
mg/
kg/
day
Maternal
Systemic
NOAEL=
72
mg/
kg/
day
LOAEL
=
110
mg/
kg/
day)
based
on
decreased
body
weight
gains
and
food
consumption.
Developmental
NOAEL
=
110
mg/
kg/
day
LOAEL
=
not
established
870.3700
[83
3(
b)]
Developmental
Toxicity
Rabbit
00020644
(1975)
41122401
(1989)
Unacceptable/
Guideline
0,
10,
or
25mg/
kg/
day
Maternal
Systemic
NOAEL=
25
mg/
kg/
day
LOAEL
=
not
established
Developmental
NOAEL
=
25
mg/
kg/
day
LOAEL
=
not
established
Table
2.
Subchronic,
Chronic,
and
Other
Toxicity
Table
Guideline
No./
Study
Type
MRID
No.
(year)/
Classification
/Doses
Results
8
870.3700
[83
3(
b)]
Developmental
Toxicity
Rabbit
(Range
finding)
40776301
(1988)
5,
10,
20,
25,
50,
100
mg/
kg/
day
Mated
rabbits
(4/
group).
Three
animals
in
the
100
mg/
kg/
day
group
died
or
were
killed
moribund
on
GD
8
10.
The
percentage
of
early
resorptions
in
the
25,
50,
and
100
mg/
kg/
day
groups
was
68.8,
66.7
and
100%,
respectively.
870.3800
[83
4]
2
Generation
Reproduction
Rat
00090108
(1981)
Acceptable/
Guideline
!!
0,
7,
14,
and
26
mg/
kg/
day
""
7,
14,
and
30
mg/
kg/
day,
Systemic
NOAEL=
14
mg/
kg/
day
LOAEL
=
30
mg/
kg/
day,
based
on
deceased
in
body
weight
and
weight
gain
in
F1
females.
Parental
effect
levels
were
not
established
for
adult
male
rats
in
this
study.
Reproductive
NOAEL
=
30
mg/
kg/
day
LOAEL
=
not
established
Offspring
NOAEL
=
30
mg/
kg/
day
LOAEL
=
not
established
870.5100
Bacterial
reverse
gene
mutation
assay
MRID
00141691
(1984)
Acceptable/
Guideline
There
was
no
increase
in
mutant
frequency
in
tested
bacterial
strains
exposed
up
to
the
limit
dose
(5000
!g/
plate)
with
or
without
S9
activation.
870.5100
Bacterial
reverse
gene
mutation
assay
MRID
00141690
(1984)
Acceptable/
Non
Guideline
There
was
no
increase
in
mutant
frequency
in
any
S.
typhimurium
or
E.
coli
tested
strain
exposed
to
tebuthiuron
(98.0%,)
with
or
without
metabolic
activation.
There
was
no
evidence
of
induced
mutant
colonies
over
background
in
tested
S.
typhimurium
strains
and
E.
coli
strains
with
or
without
S9
activation.
870.5300
In
vitro
mammalian
cell
gene
mutation
MRID
00145041
(1984)
Acceptable/
Guideline
In
a
mammalian
cell
gene
mutation
assay
in
vitro,
cultures
of
mouse
lymphoma
were
exposed
to
Tebuthiuron
(98.0%)
technical
at
concentrations
limited
by
cytotoxicity.
Mutations
were
not
induced
at
any
concentration
with
activation.
Tebuthiuron
was
considered
weakly
mutagenic
but
only
in
the
absence
of
metabolic
activation.
No
evidence
of
an
increased
mutant
frequency
was
observed
in
the
presence
of
metabolic
activation.
870.5550
Unscheduled
DNA
synthesis
in
mammalian
cell
culture
MRID
40750901
Acceptable/
Guideline
MRID
40750901
(1988)
Acceptable/
Guideline
In
an
unscheduled
DNA
synthesis
assay,
primary
rat
hepatocyte
cultures
were
exposed
to
Tebuthiuron
(99.1%
)
to
the
limit
of
cytotoxicity
(
!900
!g/
mL).
UDS
activity
was
evaluated
at
concentrations
up
to
800
!g/
mL
and
there
was
no
evidence
of
induction
of
UDS.
There
was
no
evidence
that
unscheduled
DNA
synthesis,
as
determined
by
radioactive
tracer
procedures
[nuclear
silver
grain
counts]
was
induced.
870.5375
In
vitro
mammalian
cell
chromosome
aberration
MRID
41134101
(1989)
Acceptable/
Guideline
In
a
mammalian
chromosome
aberration
assay,
Chinese
Hamster
Ovary
(CHO)
cell
cultures
were
exposed
to
Tebuthiuron
(99.08%)
at
concen
trations
limited
by
cytotoxicity.
A
significant
increase
in
the
percent
of
cells
with
aberrations
was
noted
in
nonactivated
and
activated
cultures
at
cytotoxic
doses.
The
predominant
types
of
aberrations
were
chromosome
and
chromatid
breaks.
No
significant
increases
were
observed
at
lower
concentrations;
however,
rare
complex
aberrations,
such
as
triradials,
quadriradials
and
complex
rearrangements
were
noted,
providing
further
support
for
clastogenicity.
Positive
control
values
were
acceptable.
There
was
evidence
of
an
increase
in
structural
chromosomal
aberrations
over
background
in
the
presence
and
absence
of
metabolic
activation
at
cytotoxic
doses.
Table
2.
Subchronic,
Chronic,
and
Other
Toxicity
Table
Guideline
No./
Study
Type
MRID
No.
(year)/
Classification
/Doses
Results
9
870.5915
In
vivo
sister
chromatid
exchange
MRID
40750902
(1988)
Acceptable/
Guideline
In
an
in
vivo
cytogenetic
assay
measuring
sister
chromatid
exchange
(SCE)
frequency
in
Chinese
hamster
bone
marrow
cells
female
Chinese
hamsters
(3/
group)
were
administered
single
oral
doses
of
tebuthiuron
(99.1%,
Lot
No.
729AS7)
in
10%
aqueous
acacia
at
3000,
4000,
or
5000
mg/
kg.
Tebuthiuron
was
tested
up
to
cytotoxic
concentrations.
Hypoactivity
was
noted
in
all
treatment
groups
and
bone
marrow
cytotoxicity
(as
evidenced
by
an
increase
in
the
percent
division
metaphases)
was
observed
at
5000
mg/
kg.
There
was
no
increase
in
the
number
of
cells
containing
SCEs
compared
to
controls
at
any
concentration
of
tebuthiuron
tested.
Cyclophosphamide
(50
mg/
kg)
and
vehicle
control
values
were
acceptable.
There
was
no
evidence
of
an
increase
in
SCEs
over
background.
870.7485
(85
1)
Metabolism
Study
Rat
42711701
(1993)
43129701
(1994)
Acceptable/
Guideline
10
or
100
mg/
kg,
1
day
10
mg/
kg/
day
for
14
days
Terminal
distribution
data
showed
no
significant
amounts
of
residual
radioactivity
in
any
tissue
examined,
but
the
skin
showed
the
highest
amounts
relative
to
other
tissues.
Excretion
was
rapid
at
both
the
low
and
high
dose
levels
in
both
sexes,
but
was
delayed
during
the
first
12
hours
post
dose,
indicating
saturation
of
biotransformation
or
excretion.
Six
metabolites
of
tebuthiuron
were
identified.
The
major
metabolite
in
0
24
hour
urine
of
male
(58.3%)
and
female
(62.1%)
rats
was
identified
as
hydroxylated
tebuthiuron
metabolites
(109
OH
and
/or
104
OH).
The
second
most
abundant
metabolite
was
identified
as
metabolite
106
of
tebuthiuron.
This
comprised
between
9
15%
of
the
administered
dose
in
0
24
hour
urine
of
low
dose
rats,
and
between
1
10%
of
the
administered
dose
in
high
dose
rats.
Two
other
metabolites
identified,
104/
109
and
103
OH,
comprised
between
2
10%
of
the
administered
dose
in
male
and
female
0
24
hour
urine.
Feces
contained
minor
amounts
of
104
OH
and
109
OH,
accounting
for
an
average
of
3.5%
of
the
administered
dose.
10
3.2
FQPA
Considerations
The
HED
FQPA
Safety
Factor
Committee
met
on
February
4,
2002
to
evaluate
the
hazard
and
exposure
data
for
tebuthiuron.
The
Committee
recommended
that
the
FQPA
safety
factor
(as
required
by
the
Food
Quality
Protection
Act
of
August
3,
1996)
be
reduced
to
3x
when
assessing
the
risk
posed
by
this
chemical
for
the
following
reasons:
"
there
is
no
indication
of
quantitative
or
qualitative
increased
susceptibility
of
rats
to
in
utero
exposure;
"
there
is
no
indication
of
quantitative
or
qualitative
increased
susceptibility
of
rat
offspring
seen
in
the
two
generation
reproductive
toxicity
study;
"
the
dietary
(food
and
drinking
water)
exposure
assessments
will
not
underestimate
the
potential
exposures
for
infants
and
children;
and
"
there
is
a
data
gap
for
a
developmental
toxicity
study
in
the
rabbit.
The
reduced
FQPA
safety
factor
of
3x
is
required
when
assessing
acute
dietary
exposure
to
females
13
50.
This
is
because
there
is
a
data
gap
for
assessing
susceptibility
of
fetuses
following
in
utero
exposure
to
tebuthiuron.
When
assessing
chronic
dietary
exposure
to
the
general
population,
the
FQPA
safety
factor
will
be
removed
(1x).
This
is
because
there
was
no
susceptibility
identified
in
the
2
generation
rat
reproduction
study
(a
long
term
study).
3.3
Dose
Response
Assessment
On
December
13,
2001,
January
17,
2002,
and
February
12,
2002
the
Health
Effects
Division
(HED)
Hazard
Identification
Assessment
Review
Committee
(HIARC)
reviewed
the
toxicology
database
of
tebuthiuron
and
selected
the
doses
and
toxicological
endpoints
summarized
in
Table
3
for
use
in
risk
assessments.
Also
included
in
this
table
is
the
FQPA
safety
factor
selected
by
the
FQPA
Safety
Factor
Committee
on
February
4,
2002.
This
table
is
followed
by
rationales
for
the
selection
of
endpoints
and
doses.
11
aRfD
FQPA
SF
aPAD=
cRfD
FQPA
SF
cPAD=
Table
3.
Summary
of
Toxicological
Dose
and
Endpoints
for
Tebuthiuron
for
Use
in
Human
Risk
Assessment
Exposure
Scenario
Dose
Used
in
Risk
Assessment,
UF
1
FQPA
SF
and
Endpoint
for
Risk
Assessment
Study
and
Toxicological
Effects
Acute
Dietary
females
13
50
years
of
age
NOAEL
=
25
mg/
kg/
day
UF
=
100
Acute
RfD
=
0.25
mg/
kg/
day
FQPA
SF
2
=3
=
0.083
mg/
kg/
day
Developmental
Toxicity
Study
Rabbit
NOAEL
of
25
mg/
kg/
day.
LOAEL
not
established
A
range
finding
study
showed
increased
early
resorptions
at
50
mg/
kg/
day
Acute
Dietary
general
population
including
infants
and
children
N/
A
N/
A
No
appropriate
effects
attributed
to
a
single
exposure
was
identified.
Chronic
Dietary
all
populations
NOAEL=
14
mg/
kg/
day
UF
=
100
Chronic
RfD
=
0.14
mg/
kg/
day
FQPA
SF
3
=
1
=
0.14
mg/
kg/
day
Two
generation
reproduction
study
in
the
rat
LOAEL
=
30
mg/
kg/
day,
based
on
decreased
body
weight
and
feed
consumption
in
F1
females
Toxicological
endpoints
for
occupational/
residential
exposure
risk
assessments
were
not
selected
since
tebuthiuron
is
scheduled
for
a
Tolerance
Reassessment
Eligibility
Decision
(TRED)
1
UF
=
uncertainty
factor,
FQPA
SF
=
FQPA
safety
factor,
NOAEL
=
no
observed
adverse
effect
level,
LOAEL
=
lowest
observed
adverse
effect
level,
PAD
=
population
adjusted
dose
(a
=
acute,
c
=
chronic)
RfD
=
reference
dose.
2
Because
there
is
a
data
gap
for
assessing
susceptibility
of
fetuses
following
in
utero
exposure
a
FQPA
safety
factor
of
3x
will
be
used.
3
Because
there
was
no
susceptibility
identified
in
the
2
generation
rat
reproduction
study
(a
long
term
study)
the
FQPA
safety
factor
will
be
removed
(1x).
12
Acute
Reference
Dose
(RfD)
Females
13
50
years
old
The
HIARC
considered
the
data
of
the
main
study
and
the
range
finding
study
to
establish
this
endpoint.
In
the
main
study,
no
maternal
or
developmental
toxicity
was
seen
at
the
highest
dose;
the
NOAEL
was
25
mg/
kg/
day
(HDT).
In
the
range
finding
study,
early
resorptions
were
observed
at
25
(69%),
50
(67%),
and
100
(100%)
mg/
kg/
day.
Although
the
range
finding
study
indicates
that
25
mg/
kg/
day
is
an
effect
level,
this
dose
(25
mg/
kg/
day)
was
selected
for
risk
assessment
since
there
was
no
dose
response
in
the
observed
early
resorptions
and
because
there
was
greater
confidence
in
the
results
of
the
main
study
where
no
toxicity
was
seen
at
this
dose
(25
mg/
kg/
day)
and
thus
was
deemed
to
be
an
appropriate
dose
for
risk
assessment.
In
addition,
the
selection
of
the
25
mg/
kg/
day
dose
for
risk
assessment
is
supported
by
the
NOAEL
of
50
mg/
kg/
day
in
a
rabbit
developmental
range
finding
study
with
a
structurally
related
urea
(UC
77179).
This
chemical
had
a
toxicity
profile
similar
to
that
of
tebuthiuron.
At
200
mg/
kg/
day
UC
77179
decreased
body
weight
gain,
lethality
and
early
resorption
were
observed.
Acute
Reference
Dose
(RfD)
General
U.
S.
Population
An
appropriate
end
point
attributable
to
a
single
dose
was
not
available
in
the
database.
The
slight
decrease
(7%)
in
body
weight
gain
seen
on
gestation
day
16
in
the
rabbit
study
is
not
attributable
to
a
single
dose
and
no
maternal
toxicity
was
seen
in
the
rabbit
study.
It
should
be
noted
that
HED
considers
the
finding
of
a
lower
acute
RfD
than
the
chronic
RfD
to
be
an
artifact
of
the
available
data.
The
lower
acute
RfD
is
due
to
the
use
of
an
additional
3x
uncertainty
factor
for
the
acute
assessment
(due
to
the
lack
of
an
acceptable
rabbit
developmental
study).
HED
considered
the
results
from
the
chronic
study
with
those
of
the
acute
studies
and
determined
that
the
cPAD
at
the
higher
dose
level
is
adequately
protective
of
females
13
50
for
both
the
chronic
toxic
effect
(decreased
body
weight
and
feed
consumption)
and
the
acute
toxic
effect
(increased
early
resorptions).
Chronic
Reference
Dose
(RfD)
The
HIARC
noted
that
the
chronic
toxicity/
carcinogenicity
study
in
rats
is
unacceptable
since
at
the
doses
tested
(0,
20,
40
or
80
mg/
kg/
day)
no
treatment
related
effects
were
seen
for
mortality,
clinical
signs
or
clinical
pathology.
Treatment
had
no
effects
on
absolute
body
weight
or
body
weight
gains
in
males
and
there
were
minimal
(15%
reduction)
changes
in
absolute
body
weights
in
females
at
termination.
There
were
no
effects
on
neoplastic
and
non
neoplastic
lesions
in
either
sex.
Because
of
the
lack
of
systemic
toxicity,
the
HIARC
determined
that
the
doses
tested
were
inadequate
to
assess
the
chronic
toxicity
or
the
carcinogenic
potential
of
tebuthiuron.
The
NOAEL
of
14
mg/
kg/
day
from
the
two
generation
reproduction
study
used
for
derivation
of
the
chronic
RfD
is
the
lowest
NOAEL
in
the
database.
In
the
1
year
chronic
study
in
dog,
the
NOAEL
was
25
mg/
kg/
day
and
the
LOAEL
was
50
mg/
kg/
day.
In
the
78
week
carcinogenicity
study
in
mice,
the
NOAEL
was
240
mg/
kg/
day
(HDT).
The
HIARC
inferred
that
a
repeat
study
in
rats
at
higher
dose
would
provide
hazard
characterization
and
evaluate
the
carcinogenic
potential
of
this
pesticide,
but
would
not
yield
a
dose
that
is
lower
than
the
dose
that
is
used
for
derivation
of
the
RfD.
The
chronic
RfD
is
adequate
to
protect
any
adverse
toxicity
effects
following
exposure
to
tebuthiuron.
The
Committee
therefore
concluded
that
an
additional
uncertainty
factor
(for
data
gap)
is
not
needed.
13
Classification
of
Carcinogenic
Potential
The
classification
of
tebuthiuron
as
a
Group
D,
not
classifiable
as
to
human
carcinogenicity,
was
reevaluated
by
HIARC.
At
the
doses
tested,
neither
the
rat
nor
mouse
showed
any
treatment
related
increase
in
the
incidence
of
neoplasms;
however,
the
HIARC
concluded
that
the
dose
levels
were
too
low
to
assess
the
carcinogenic
potential
of
tebuthiuron.
While
there
is
evidence
that
other
registered
substituted
urea
compounds
are
mutagenic
and
show
carcinogenic
potential,
a
conclusive
SAR
analogy
between
these
compounds
and
tebuthiuron
cannot
be
drawn
because
tebuthiuron
contains
a
thiadiazole
moiety
and
the
other
substituted
ureas
do
not.
An
unregistered
sulfonamide
compound
(UC77179),
shown
to
induce
thyroid
adenomas
in
rats,
also
bears
some
structural
similarities
to
tebuthiuron.
However,
comparison
of
tebuthiuron
and
UC77179
genotoxicity
data
does
not
support
a
strong
SAR
analogy.
Compound
UC77179
caused
gene
mutation
is
an
Ames
assay,
produced
chromosomal
damage
in
cultured
Chinese
Hamster
Ovary
(CHO)
cells,
and
was
negative
in
other
mutagenicity
tests.
Tebuthiuron
was
not
mutagenic
in
bacteria,
but
was
weakly
positive
for
gene
mutations
in
cultured
mouse
lymphoma
cells.
There
was
also
some
evidence
of
a
clastogenic
response
at
cytotoxic
doses
both
with
and
without
S9
activation.
Although
there
are
some
uncertainties
regarding
the
carcinogenic
potential
of
tebuthiuron,
HED
has
elected
not
to
quantify
cancer
risk
at
this
time
because
the
dose
levels
used
in
the
available
carcinogenicity
studies
were
sufficient
to
decrease
any
cancer
risk
concerns.
HED
has
requested
new
carcinogenicity
studies
in
rats
and
mice
and
an
in
vivo
mammalian
bone
marrow
chromosomal
aberration
test
as
confirmatory
data.
3.4
Endocrine
Disruption
EPA
is
required
under
the
Federal
Food,
Drug,
and
Cosmetic
Act
(FFDCA),
as
amended
by
FQPA,
to
develop
a
screening
program
to
determine
whether
certain
substances
(including
all
pesticide
active
and
other
ingredients)
"may
have
an
effect
in
humans
that
is
similar
to
an
effect
produced
by
a
naturally
occurring
estrogen,
or
other
such
endocrine
effects
as
the
Administrator
may
designate."
Following
the
recommendations
of
its
Endocrine
Disruptor
Screening
and
Testing
Advisory
Committee
(EDSTAC),
EPA
determined
that
there
was
scientific
bases
for
including,
as
part
of
the
program,
the
androgen
and
thyroid
hormone
systems,
in
addition
to
the
estrogen
hormone
system.
EPA
also
adopted
EDSTAC's
recommendation
that
the
Program
include
evaluations
of
potential
effects
in
wildlife.
For
pesticide
chemicals,
EPA
will
use
FIFRA
and,
to
the
extent
that
effects
in
wildlife
may
help
determine
whether
a
substance
may
have
an
effect
in
humans,
FFDCA
authority
to
require
the
wildlife
evaluations.
As
the
science
develops
and
resources
allow,
screening
of
additional
hormone
systems
may
be
added
to
the
Endocrine
Disruptor
Screening
Program
(EDSP).
In
the
available
toxicity
studies
on
tebuthiuron,
there
was
no
evidence
of
endocrine
disruptor
effects.
When
the
appropriate
screening
and/
or
testing
protocols
being
considered
under
the
Agency's
EDSP
have
been
developed,
tebuthiuron
may
be
subjected
to
additional
screening
and/
or
testing
to
better
characterize
effects
related
to
endocrine
disruption.
14
4.0
EXPOSURE
ASSESSMENT
AND
CHARACTERIZATION
4.1
Summary
of
Registered
Uses
Tebuthiuron
is
a
non
selective
substituted
urea
herbicide
that
provides
long
term
control
of
annual
and
perennial
grasses,
herbaceous
plants
and
woody
brush.
Use
sites
include
pastureland/
rangeland,
non
crop
industrial
areas
such
as
highways,
fence
rows
firebreaks,
utility
rights
of
ways,
railroad
rights
of
ways,
and
clearings
for
wildlife
habitat;
there
is
no
agricultural
crop
use
of
tebuthiuron
except
for
range
and
pasture
land
uses.
The
primary
use
site
is
pastureland/
rangeland
in
TX,
OK
and
NM.
Based
on
a
search
of
OPP's
REFS
conducted
on
22
March
2002,
there
are
eight
active
Section
3
registrations
for
end
use
products
containing
tebuthiuron.
End
use
formulations
include
granular,
pelleted/
tablets,
and
wettable
powder
products
which
are
applied
using
ground
and
aerial
equipment.
In
a
SMART
meeting
on
2
May
2001,
Dow
AgroSciences
expressed
their
intention
to
support
all
currently
registered
uses
and
products
of
tebuthiuron.
A
summary
of
the
currently
registered
enduse
products
and
use
sites
is
given
in
the
table
below:
Company
EPA
Reg.
No.
Formulation
Class
%
ai
Use
Sites
Rainbow
Technology
Corp.
13283
18
Granular
2
Industrial
areas
(outdoor)
Nonag
rights
of
way/
fencerows/
hedgerows
13283
21
Granular
1
Industrial
areas
(outdoor)
Nonag
rights
of
way/
fencerows/
hedgerows
SSI
Maxim
Company,
Inc.
34913
10
Granular
5
Drainage
systems
Nonag
uncultivated
areas/
soils
34913
15
Granular
1
Nonag
uncultivated
areas/
soils
34913
16
Granular
2
Nonag
uncultivated
areas/
soils
Dow
AgroSciences
LLC
62719
107
Wettable
Powder
80
Drainage
systems
Nonag
uncultivated
areas/
soils
62719
121
Pelleted/
Tableted
20
Pasture/
rangeland
Nonag
uncultivated
areas/
soils
62719
122
Pelleted/
Tableted
40
Pasture/
rangeland
Nonag
uncultivated
areas/
soils
15
The
20%
and
40%
P/
T
formulations
are
registered
for
a
single
broadcast
application
to
rangeland
and
forage
grasses
by
aerial
or
ground
equipment
at
0.5
4.00
lb
ai/
A.
Tebuthiuron
may
be
applied
anytime
but
the
recommended
timing
of
application
is
prior
to
the
resumption
of
active
seasonal
growth
in
the
spring
or
before
expected
seasonal
rainfall.
The
maximum
recommended
rate
is
4.0
lb
ai/
A
for
areas
receiving
>20
inches
average
annual
rainfall,
or
2.0
lb
ai/
A
for
areas
receiving
<20
inches
average
annual
rainfall.
Application
to
ditches
used
to
transport
irrigation
or
potable
water
is
prohibited.
Treated
grasses
may
not
be
cut
for
hay
for
livestock
feed
for
one
year
after
treatment.
4.2
Dietary
Exposure/
Risk
Pathway
A
refined
acute
and
chronic
dietary
exposure
assessment
was
conducted
for
tebuthiuron
registered
for
foliar
application
to
pastures
and
rangeland
(secondary
transfer
to
livestock
commodities).
Anticipated
residues
from
livestock
feeding
studies,
residue
field
trials,
and
percent
crop
treated
data
were
utilized
to
estimate
the
dietary
exposure
to
tebuthiuron
in
the
diets
of
the
U.
S.
Population
(chronic)
and
females
13
50
years
old
(acute
only).
4.2.1
Residue
Profile
Tolerances
for
residues
of
tebuthiuron
have
been
established
for
grasses
and
animal
commodities
[40
CFR
§180.390].
These
tolerances
are
expressed
in
terms
of
the
combined
residues
of
N[
5
1,1diemthylethyl)
1,3,4
thiadiazol
2
yl]
N,
N'
dimethylurea
and
its
metabolites
containing
the
dimethylethyl
thiadiazole
moiety.
No
Codex
MRLs
have
been
established
or
proposed
for
residues
of
tebuthiuron.
Therefore,
issues
of
compatibility
with
respect
to
U.
S.
tolerances
and
Codex
MRLs
do
not
exist.
For
dietary
risk
assessment,
the
Metabolism
Committee
concluded
that
the
residue
of
concern
in
plants
are
the
parent
compound
and
its
metabolites
103,
103(
OH),
104,
and
109.
The
residue
of
concern
in
livestock
commodities
(fat,
meat,
kidney,
and
liver)
are
tebuthiuron
and
its
metabolites
104,
106,
108,
and
109;
the
terminal
residues
of
concern
in
milk
are
tebuthiuron
and
metabolites
104,
104(
OH),
106,
109,
and
109(
OH).
MARC
revisited
N.
Dodd's
memo,
"Nature
of
the
Residue
in
Milk
and
Bovine
Tissues,"
dated
6/
22/
89
and
determined
the
parent
compound
and
its
metabolites
103
(OH),
104,
and
109
should
also
be
included
in
the
risk
assessment
(3/
28/
02;
MARC
members
C.
Olinger,
L.
Cheng,
R.
Loranger
and
D.
Nixon).
GLN
860.1300:
Nature
of
the
Residue
Plants
The
qualitative
nature
of
the
residue
in
grasses
is
adequately
understood.
The
registrant
(1976;
MRID
00020756)
submitted
a
"revised"
metabolism
study
in
which
a
[
14
C]
tebuthiuron
solution
(labeled
in
the
5
position
of
the
thiadiazole
ring;
specific
activity
of
16.9
uCi/
mg)
was
applied
to
the
surface
of
the
soil
in
which
10
week
old
tall
fescue
(0.374
lb
ai/
A),
little
bluestem
and
indiangrass
(0.75
lb
ai/
A.)
were
grown.
The
residues
of
concern
are
the
parent
compound
and
its
metabolites
103
(OH),
104,
and
109
(N.
Dodd,
12/
10/
87).
16
Tebuthiuron
was
the
most
abundant
14
C
residue
recovered
in
the
organosoluble
fraction
of
the
grass
extract.
Other
metabolites
identified
in
the
organosoluble
fraction
from
all
three
grass
species
were
103(
OH),
104,
and
109.
Approximately
39
86%
of
the
total
14
C
activity
of
all
grasses
was
identified
from
the
organosoluble
fraction.
The
metabolites
which
were
recovered
and
identified
by
acid
hydrolysis
of
the
aqueous
fraction
were
103(
OH),
104,
and
l04(
0H).
The
predominant
conjugate
in
little
bluestem
was
103(
OH)
while
104
was
the
major
conjugate
in
indiangrass.
One
additional
metabolite,
isopropyl
103,
was
found
in
the
hydrolysates
of
the
aqueous
fraction
of
little
bluestem.
Based
on
the
14
C
residues
identified
in
the
organosoluble
and
aqueous
fractions,
approximately
81
89,
58
70,
and
78
80%
of
the
total
14
C
activity
found
in
tall
fescue,
little
bluestem,
and
indiangrass,
respectively,
was
identified.
In
summary,
two
major
metabolic
pathways
are
involved:
N
demethylation
of
tebuthiuron
to
form
104
and
alkyl
hydroxylation
of
the
dimethylethyl
side
chain
to
form
103(
OH).
The
molecular
structures
of
the
metabolites
of
concern
are
presented
in
Table
4.
GLN
860.1300:
Nature
of
the
Residue
Animals
The
qualitative
nature
of
the
residue
in
milk
and
ruminant
tissues
is
adequately
understood.
The
terminal
residues
of
concern
in
fat,
meat,
kidney,
and
liver
are
tebuthiuron
and
its
metabolites
104,
106,
108,
and
109;
the
terminal
residues
of
concern
in
milk
are
tebuthiuron
and
metabolites
104,
104
(OH),
106,
109,
and
A
[109
(OH)]
(N.
Dodd,
MRIDs
40985001
and
40985002,
6/
22/
89).
A
poultry
metabolism
study
is
not
required
since
grasses
are
not
considered
to
be
poultry
feed
items.
A
metabolism
study
was
conducted
on
one
cow
dosed
by
capsule
containing
[
14
C]
tebuthiuron
labeled
in
the
5
position
of
the
thiadiazole
ring
at
a
calculated
feeding
level
of
50
ppm.
Doses
were
administered
every
12
hours
(morning
and
evening)
for
3
consecutive
days.
The
cow
was
sacrificed
12
hours
after
the
final
dose.
The
percentage
of
the
total
radioactivity
which
was
identified
was
82.7
percent
in
fat,
87.2
percent
in
lean,
83.2
percent
in
liver,
and
91.0
percent
in
kidney.
The
predominant
residues
in
milk
(days
1,
2,
and
3)
as
a
percentage
of
TRR
were
metabolites
104
(21%),
106
(21
26%),
104(
OH)
(10
16%),
109
(10
12%),
and
109
(OH)
(8
12%).
Parent
tebuthiuron
was
present
at
about
1%
of
the
TRR.
17
N
N
S
N
CH
3
CH
3
C
H
3
O
N
H
CH
3
OH
N
N
S
NH
2
CH
3
C
H
3
C
H
3
N
N
S
N
CH
3
CH
3
C
H
3
C
H
3
O
NH
2
N
N
S
N
CH
3
CH
3
C
H
3
C
H
3
O
N
H
OH
N
N
S
N
CH
3
CH
3
C
H
3
O
NH
2
OH
N
N
S
N
CH
3
CH
3
C
H
3
O
N
H
OH
OH
N
N
S
N
H
CH
3
C
H
3
C
H
3
O
NH
2
Table
4.
The
chemical
structures
of
the
metabolites
of
concern
of
tebuthiuron.
Structure
Metabolite:
Chemical
name
Structure
Metabolite:
Chemical
name
103
(OH):
N[
5(
2
hydroxy
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N,
N
dimethylurea
108:
2
dimethylethyl
5
amino
1,3,4
thiadiazole
104:
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
methylurea
109:
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N'
hydroxymethyl
N
methylurea
104
(OH):
N[
5(
2
hydroxy
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
methylurea
A
[109
(OH)]:
N[
5(
2
hydroxy
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
hydroxymethyl
N
methylurea
106:
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
urea
18
GLN
860.1340:
Residue
Analytical
Methods
Plants
and
Animals
An
adequate
method
is
available
for
the
enforcement
of
plant
commodity
tolerances.
A
GLC
method
with
flame
photometric
detection
is
designated
as
Method
II
in
PAM
Vol.
II.
Tebuthiuron
and
metabolites
104
and
109
are
thermally
degraded
on
the
GLC
column
and
are
determined
as
5
(1,1
dimethylethyl)
N
methyl
1,3,4
thiadiazol
2
amine;
metabolite
103
(OH)
is
determined
as
5(
2
hydroxy
1,1
dimethylethyl)
N
methyl
1,3,4
thiadiazol
2
amine.
The
stated
detection
limits
are
0.1
ppm
for
tebuthiuron
and
metabolites
104
and
109,
and
0.2
ppm
for
metabolite
103
(OH).
A
revised
enforcement
method
for
milk,
to
include
hydrolysis
steps
and
the
determination
of
metabolites
104
(OH)
and
A
[109
(OH)],
and
a
revised
enforcement
method
for
animal
tissues,
to
include
hydrolysis
steps
and
the
determination
of
metabolite
108,
have
been
submitted.
GLN
860.1480:
Magnitude
of
the
Residue
in
Meat,
Milk,
Poultry
and
Eggs
The
reregistration
requirements
for
data
depicting
magnitude
of
the
residue
in
milk,
eggs,
and
livestock
tissues
are
fulfilled
and
the
data
demonstrate
a
transfer
of
tebuthiuron
residues
to
animal
tissue
(meat,
meat
by
products,
etc.).
An
acceptable
ruminant
feeding
study
(S.
Funk,
D217379,
12/
05/
95)
has
been
submitted.
The
results
of
the
ruminant
feeding
study
conducted
at
a
nominal
45
ppm
tebuthiuron
feeding
level
(1.5x)
for
28
days
show
that
the
existing
tolerances
for
milk
and
meat
are
inadequate
and
that
they
should
be
revised.
The
tolerances
for
meat
and
fat
may
be
lowered,
but
the
tolerances
for
milk
and
meat
byproducts
must
be
increased.
For
details,
refer
to
Appendix
A
Table
1:
Tolerance
Reassessment
Summary
for
Tebuthiuron.
No
poultry
of
swine
feed
items
are
associated
with
the
registered
uses
on
grass;
therefore,
there
is
no
reasonable
expectation
of
detectable
residues
of
tebuthiuron
and
its
metabolites
in
poultry,
swine,
and
eggs
resulting
from
the
use
patterns
being
considered
for
reregistration.
These
uses
for
poultry,
swine,
and
eggs
can
be
classified
under
Category
3
(no
reasonable
expectation
of
finite
residues)
of
40
CFR§
180.6(
a).
GLN
860.1500:
Magnitude
of
the
Residue
in
Plants
All
data
requirements
for
the
magnitude
of
the
residue
in
plants
have
been
evaluated
and
deemed
acceptable.
GLN
860.1520:
Processed
Food/
Feed
No
processed
food/
feed
studies
were
submitted
by
the
registrant
and
none
are
required
to
support
the
existing
use
pattern.
GLNs
860.1850/
1900:
Confined/
Field
Rotational
Crops
Grasses
in
rangeland
are
not
rotated.
Pastures
on
the
other
hand
can
vary
from
permanent
(>
8
years),
short
term
(2
4
years),
long
term
(5
8
years),
as
well
as
temporary
(<
1
year).
A
rotational
pasture
is
one
used
for
a
few
seasons
and
then
plowed
and
planted
to
another
crop.
19
The
Quantitative
Usage
Analysis
for
Tebuthiuron
indicates
that
the
states
with
the
most
acres
treated
are
in
the
Southwest
U.
S.
(TX,
OK,
NM,
and
AZ).
The
grassland
areas
covered
by
these
states
include
the
Southern
Plains
and
the
Southwest
Grasslands.
These
grassland
areas
are
predominately
rangeland
that
contains
perennial
native
or
introduced
grasses,
that
have
been
invaded
by
woody
perennial
weedy
shrubs
which
are
very
difficult
to
control.
Pastures
are
mostly
perennial
grasses
or
legumes;
however,
we
do
not
know
if
there
are
any
significant
pasture
acreage
planted
to
annual
forages
in
this
region.
Therefore,
confined
field
rotational
crop
studies
will
be
conditionally
required
unless
the
registrant
can
provide
information
that
pastureland
in
this
area
is
either
insignificant
in
acreage
or
is
predominantly
perennial
grasses
that
are
not
rotated
annually.
4.2.2
Dietary
Exposure
Tebuthiuron
acute
and
chronic
dietary
exposure
assessments
were
conducted
using
the
Dietary
Exposure
Evaluation
Model
(DEEM™)
software
Version
7.73,
which
incorporates
consumption
data
from
USDA's
Continuing
Surveys
of
Food
Intake
by
Individuals
(CSFII),
1989
1992.
The
1989
92
data
are
based
on
the
reported
consumption
of
more
than
10,000
individuals
over
three
consecutive
days,
and
therefore
represent
more
than
30,000
unique
"person
days"
of
data.
Foods
"as
consumed"
(e.
g.,
apple
pie)
are
linked
to
raw
agricultural
commodities
and
their
food
forms
(e.
g.,
apples
cooked/
canned
or
wheat
flour)
by
recipe
translation
files
internal
to
the
DEEM
software.
Consumption
data
are
averaged
for
the
entire
U.
S.
population
and
within
population
subgroups
for
chronic
exposure
assessment,
but
are
retained
as
individual
consumption
events
for
acute
exposure
assessment.
For
chronic
exposure
and
risk
assessment,
an
estimate
of
the
residue
level
in
each
food
or
food
form
(e.
g.,
orange
or
orange
juice)
on
the
commodity
residue
list
is
multiplied
by
the
average
daily
consumption
estimate
for
that
food/
food
form.
The
resulting
residue
consumption
estimate
for
each
food/
food
form
is
summed
with
the
residue
consumption
estimates
for
all
other
food/
food
forms
on
the
commodity
residue
list
to
arrive
at
the
total
estimated
exposure.
Exposure
estimates
are
expressed
in
mg/
kg
body
weight/
day
and
as
a
percent
of
the
cPAD.
This
procedure
is
performed
for
each
population
subgroup.
For
acute
exposure
assessments,
individual
one
day
food
consumption
data
are
used
on
an
individual
by
individual
basis.
The
reported
consumption
amounts
of
each
food
item
can
be
multiplied
by
a
residue
point
estimate
and
summed
to
obtain
a
total
daily
pesticide
exposure
for
a
deterministic
(Tier
1
or
Tier
2)
exposure
assessment,
or
"matched"
in
multiple
random
pairings
with
residue
values
and
then
summed
in
a
probabilistic
(Tier
3/
4)
assessment.
The
resulting
distribution
of
exposures
is
expressed
as
a
percentage
of
the
aPAD
on
both
a
user
(i.
e.,
those
who
reported
eating
relevant
commodities/
food
forms)
and
a
per
capita
(i.
e.,
those
who
reported
eating
the
relevant
commodities
as
well
as
those
who
did
not)
basis.
In
accordance
with
HED
policy,
per
capita
exposure
and
risk
are
reported
for
all
tiers
of
analysis.
However,
for
tiers
1
and
2,
significant
differences
in
user
vs.
per
capita
exposure
and
risk
are
identified
and
noted
in
the
risk
assessment.
HED
notes
that
there
is
a
degree
of
uncertainty
in
extrapolating
exposures
for
certain
population
20
subgroups
which
may
not
be
sufficiently
represented
in
the
consumption
surveys
(i.
e.,
nursing
infants).
Therefore,
risks
estimated
for
these
subpopulations
were
included
in
representative
populations
having
sufficient
numbers
of
survey
respondents
(i.
e.,
all
infants
or
females
13
50
years
old).
Thus,
the
population
subgroups
listed
in
Table
5
include
those
subgroups
having
sufficient
numbers
of
survey
respondents
in
the
CSFII
food
consumption
survey.
4.2.2.1
Acute
Dietary
Exposure
Analysis
A
Tier
2
acute
dietary
exposure
assessment
was
conducted
for
females
13
50
years
old
using
anticipated
residues
for
meat
and
milk
commodities
which
incorporated
an
estimated
maximum
2%
CT
for
rangeland/
pastureland
(2/
28/
02;
S.
Smearman,
BEAD).
No
acute
dietary
endpoint
was
selected
by
the
HIARC
for
the
general
U.
S.
population,
including
infants
and
children.
Therefore,
an
acute
dietary
exposure
assessment
was
not
performed
for
these
population
subgroups.
The
acute
dietary
exposure
estimates
are
below
HED's
level
of
concern
(!100%
aPAD)
at
the
95
th
exposure
percentile
for
females
13
50
years
old
(<
1%
of
the
aPAD).
4.2.2.2
Chronic
Dietary
Exposure
Analysis
A
Tier
2
chronic
dietary
exposure
assessment
was
conducted
for
the
general
U.
S.
population
and
all
population
subgroups
(including
infants
and
children)
using
anticipated
residues
for
meat
and
milk
commodities
which
incorporated
an
average
weighted
1%
CT
for
rangeland/
pastureland
provided
by
BEAD.
The
chronic
dietary
exposure
estimates
are
below
HED's
level
of
concern
(!100%
cPAD)
for
the
general
U.
S.
population
(<
1%
of
the
cPAD)
and
all
population
subgroups.
21
Table
5.
Summary
of
Results
from
Acute
and
Chronic
DEEM
™
Analyses
of
Tebuthiuron.
Population
Subgroup
Acute
Dietary
1
Chronic
Dietary
2
Cancer
Risk
or
MOE
Dietary
Exposure
(mg/
kg/
day)
%
aPAD
Dietary
Exposure
(mg/
kg/
day)
%
cPAD
U.
S.
Population
(total)
NA
3
0.000023
<1
NA
All
Infants
(<
1
year)
0.
000036
<1
Children
1
6
years
0.
000083
<1
Children
7
12
years
0.
000043
<1
Females
13
50
0.000078
<1
0.000013
<1
Males
13
19
NA
0.000025
<1
Males
20+
years
0.
000012
<1
Seniors
55+
0.000012
<1
1.
Acute
dietary
endpoint
applies
to
females
13
50
years
old
only.
No
acute
dietary
endpoint
was
chosen
by
the
HIARC
for
the
general
U.
S.
population
(including
infants
and
children).
2.
Chronic
dietary
endpoint
applies
to
general
U.
S.
population
and
all
population
subgroups.
3.
NA
Not
Applicable.
4.2.2.3
Cancer
Dietary
Exposure/
Risk
The
classification
of
tebuthiuron
as
a
Group
D,
not
classifiable
as
to
human
carcinogenicity,
was
reevaluated
by
HIARC.
At
the
doses
tested,
neither
the
rat
nor
mouse
showed
any
treatment
related
increase
in
the
incidence
of
neoplasms;
however,
the
HIARC
concluded
that
the
dose
levels
were
too
low
to
assess
the
carcinogenic
potential
of
tebuthiuron.
Although
there
are
some
uncertainties
regarding
the
carcinogenic
potential
of
tebuthiuron,
HED
has
elected
not
to
quantify
cancer
risk
at
this
time
because
the
dose
levels
used
in
the
available
carcinogenicity
studies
were
sufficient
to
decrease
any
cancer
risk
concerns.
HED
has
requested
new
carcinogenicity
studies
in
rats
and
mice
and
an
in
vivo
mammalian
bone
marrow
chromosomal
aberration
test
as
confirmatory
data.
4.3
Water
Exposure/
Risk
Pathway
The
Agency
currently
lacks
sufficient
water
related
exposure
data
from
monitoring
to
complete
a
quantitative
drinking
water
exposure
analysis
and
risk
assessment
for
tebuthiuron.
Therefore,
the
Agency
is
presently
relying
on
computer
generated
estimated
environmental
concentrations
(EECs).
PRZM/
EXAMS
is
used
to
generate
EECs
for
surface
water
and
SCI
GROW
(an
empirical
model
based
upon
actual
monitoring
data
collected
for
a
number
of
pesticides
that
serve
as
benchmarks)
predicts
EECs
in
ground
water.
These
models
take
into
account
the
use
patterns
and
the
environmental
profile
of
a
pesticide,
but
do
not
include
consideration
of
the
impact
that
processing
raw
water
for
distribution
as
drinking
water
would
likely
have
on
the
removal
of
pesticides
from
the
22
source
water.
The
primary
use
of
these
models
by
the
Agency
at
this
stage
is
to
provide
a
screen
for
determining
whether
pesticide
residues
(and
metabolites)
in
water
are
not
of
concern.
EFED
(M.
Corbin,
28
November
2001)
provided
a
drinking
water
assessment
for
residues
of
tebuthiuron
and
its
degradate104
that
included
analysis
of
surface
and
ground
water
monitoring
data
and
PRZM/
EXAMS
(Tier
II)
and
SCI
GROW
modeling
results.
There
is
no
Maximum
Contaminant
Level
Goal
(MCLG)
or
Maximum
Contaminant
Level
(MCL)
established
by
the
Agency's
Office
of
Water
for
tebuthiuron.
Environmental
Profile:
The
environmental
fate
database
is
essentially
complete
for
parent
tebuthiuron.
Degradate
104
was
the
only
tebuthiuron
degradate
of
toxicological
concern
detected
in
the
available
environmental
fate
studies;
degradate
104
was
found
at
6.9%
of
applied
parent
and
rising
by
the
end
of
the
aerobic
soil
metabolism
study.
Based
on
the
available
data,
the
parent
and
degradate
104
are
persistent
and
mobile.
The
quickest
observed
route
of
tebuthiuron
degradation
in
laboratory
studies
was
soil
photolysis
(half
life
39.7
days.)
Tebuthiuron
is
stable
in
laboratory
studies
to
hydrolysis,
aqueous
photolysis,
and
aerobic
aquatic
metabolism.
Tebuthiuron
was
also
stable
during
a
9
month
aerobic
soil
metabolism
study,
with
a
calculated
half
life
of
35.4
months.
Soil
partition
coefficients
(Kd)
from
adsorption/
desorption
studies
were
0.11,
0.62,
0.82
and
1.82,
indicating
that
Tebuthiuron
is
very
mobile
over
a
range
of
soil
types.
The
corresponding
Koc
values
relating
to
these
studies
ranged
from
31
to
151,
with
a
median
of
76
l/
kg.
The
soil
adsorption
of
Tebuthiuron
appears
to
be
related
to
the
amount
of
organic
carbon
in
the
soil.
MARC
Decision:
The
HED
Metabolism
Assessment
Review
Committee
(MARC)
concluded
that
the
parent
compound
tebuthiuron
and
its
degradate
104
should
be
included
in
the
drinking
water
risk
assessment.
Although,
MARC
expressed
concern
about
the
toxicity
of
other
metabolites
of
tebuthiuron,
the
Committee
did
not
recommend
including
them
in
a
drinking
water
risk
assessment
because
they
are
not
likely
to
be
present
in
drinking
water.
Available
data
indicate
that
the
parent
and
degradate
104
are
persistent
and
mobile
in
the
environment.
Tebuthiuron
is
frequently
detected
in
ground
and
surface
water
monitoring
studies.
The
degradate
104
was
detected
in
a
retrospective
ground
water
monitoring
study
and
was
a
major
degradate
in
a
terrestrial
field
dissipation
study
accounting
for
up
to
23%
of
the
mass
applied.
The
degradate
104
was
also
found
in
aerobic
soil
metabolism
and
soil
photolysis
studies
comprising
close
to
7%
of
the
mass
applied.
In
addition,
due
to
the
structural
similarity
of
degradate
104
to
tebuthiuron
(104
lacks
an
N
methyl
group)
and
lack
of
toxicity
information
on
degradate
104,
MARC
assumes
that
it
has
similar
toxicity
to
the
parent.
Estimated
Environmental
Concentrations:
Tier
II
(PRZM/
EXAMS)
surface
water
modeling
for
residues
of
tebuthiuron
and
its
degradate
104
using
the
index
reservoir
with
the
percent
cropped
area,
predicts
the
1
in
10
year
peak
(acute)
concentration
of
tebuthiuron
is
not
likely
to
exceed
15.5
!g/
L.
The
1
in
10
year
annual
average
concentration
(non
cancer
chronic)
of
tebuthiuron
is
not
likely
to
exceed
4.3
!g/
L.
The
SCIGROW
predicted
concentration
of
tebuthiuron
in
ground
water
is
not
expected
to
exceed
245
µg/
L.
Assumptions/
Uncertainties
for
Water
Exposure
Pathway:
23
A
cumulative
residue
approach
was
employed
to
provide
conservative
estimated
concentrations
in
drinking
water
for
tebuthiuron
and
its
degradation
products.
In
this
approach,
the
fate
parameters
necessary
for
Tier
II
modeling
are
estimated
from
the
total
residue
data
in
the
available
environmental
fate
studies.
For
tebuthiuron,
total
residue
data
were
evaluated
for
the
aerobic
soil
metabolism
half
life,
aqueous
photolysis
half
life,
aerobic
aquatic
half
life,
anaerobic
soil
metabolism
half
life,
and
hydrolysis
half
lives.
Degradate
104
was
used
as
a
reference
degradate
because
it
was
the
degradate
detected
at
the
highest
concentration
in
the
environmental
fate
studies,
is
expected
to
be
a
highly
mobile
tebuthiuron
residue
in
soil
and
aquatic
environments
based
on
its
chemical
structure
and
the
fact
that
it
was
the
only
degradate
detected
in
a
Small
Scale
Retrospective
Monitoring
study.
Surface
water
concentrations
of
tebuthiuron
were
modeled
using
the
PRZM/
EXAMS
(Tier
II)
programs
for
pasture/
rangeland
using
EFED's
standard
scenario
for
alfalfa
in
Texas.
The
alfalfa
scenario
was
chosen
because
its
hydrologic
and
agronomic
practices
are
expected
to
approximate
those
of
pasture/
rangeland.
Groundwater
concentrations
were
modeled
using
the
SCI
GROW
program.
4.4
Residential
Exposure/
Risk
Pathway
An
assessment
of
residential
exposure/
risk
was
not
conducted
because
the
registered
use
sites
are
limited
to
pastureland/
rangeland,
non
crop
areas,
railroad/
utility
rights
of
way.
4.4.1
Other
Non
Occupational
Exposure
Spray
drift
is
always
a
potential
source
of
exposure
to
residents
nearby
to
spraying
operations.
This
is
particularly
the
case
with
aerial
application,
but,
to
a
lesser
extent,
could
also
be
a
potential
source
of
exposure
from
groundboom
application
methods.
The
Agency
has
been
working
with
the
Spray
Drift
Task
Force,
EPA
Regional
Offices
and
State
Lead
Agencies
for
pesticide
regulation
and
other
parties
to
develop
the
best
spray
drift
management
practices.
The
Agency
is
now
requiring
interim
mitigation
measures
for
aerial
applications
that
must
be
placed
on
product
labels/
labeling.
The
Agency
has
completed
its
evaluation
of
the
new
data
base
submitted
by
the
Spray
Drift
Task
Force,
a
membership
of
U.
S.
pesticide
registrants,
and
is
developing
a
policy
on
how
to
appropriately
apply
the
data
and
the
AgDRIFT
computer
model
to
its
risk
assessments
for
pesticides
applied
by
air,
orchard
airblast
and
ground
hydraulic
methods.
After
the
policy
is
in
place,
the
Agency
may
impose
further
refinements
in
spray
drift
management
practices
to
reduce
off
target
drift
and
risks
associated
with
aerial
as
well
as
other
application
types
where
appropriate.
5.0
AGGREGATE
RISK
ASSESSMENTS
AND
RISK
CHARACTERIZATIONS
An
aggregate
exposure
risk
assessment
was
performed
for
acute
and
chronic
dietary
(food
+
drinking
water)
exposures.
Since
HED
does
not
have
ground
and
surface
water
monitoring
data
to
calculate
a
quantitative
aggregate
exposure,
DWLOCs
were
calculated.
A
DWLOC
is
a
theoretical
upper
limit
on
a
pesticide's
concentration
in
drinking
water
in
light
of
total
aggregate
exposure
to
a
24
pesticide
in
food,
drinking
water,
and
through
residential
uses.
A
DWLOC
will
vary
depending
on
the
toxic
endpoint,
drinking
water
consumption,
body
weights,
and
pesticide
uses.
Different
populations
will
have
different
DWLOCs.
HED
uses
DWLOCs
in
the
risk
assessment
process
to
assess
potential
concern
for
exposure
associated
with
pesticides
in
drinking
water.
DWLOC
values
are
not
regulatory
standards
for
drinking
water.
To
calculate
the
chronic
DWLOCs,
the
chronic
dietary
exposure
estimates
from
food
(from
DEEM
™
)
were
subtracted
from
the
cPAD
value
to
obtain
the
allowable
average
exposure
to
tebuthiuron
in
drinking
water.
DWLOCs
were
then
calculated
using
the
standard
body
weights
and
drinking
water
consumption
figures:
70kg/
2L
(adult
male
and
U.
S.
Population),
60
kg/
2L
(adult
female),
and
10kg/
1L
(infant
&
children).
DWLOCs
are
compared
to
EECs
for
a
pesticide
in
surface
water
and
ground
water.
If
the
DWLOCs
are
greater
than
the
EECs,
HED
concludes
with
reasonable
certainty
that
estimates
of
aggregate
risks
are
below
HED's
level
of
concern.
5.1
Acute
Risk
5.1.1
Aggregate
Acute
Risk
Assessment
Acute
aggregate
risk
estimates
for
tebuthiuron
do
not
exceed
HED's
level
of
concern.
This
acute
aggregate
risk
assessment
addresses
potential
exposure
from
the
combined
residues
of
tebuthiuron
and
its
metabolites
containing
the
dimethylethyl
thiadiazole
moiety
in
food
and
residues
of
tebuthiuron
and
degradate
104
in
drinking
water
(both
surface
and
ground
water).
5.1.2
Acute
DWLOC
Calculations
As
shown
in
Table
6
below,
EFED's
EECs
are
less
than
the
Agency's
back
calculated
DWLOC
values
for
tebuthiuron
and
its
degradate
104.
Table
6.
Acute
DWLOC
Calculations
Population
Subgroup
Acute
Scenario
aPAD
mg/
kg/
day
Acute
Food
Exp
mg/
kg/
day
Max
Acute
Water
Exp
mg/
kg/
day
1
Ground
Water
EEC
(ppb
)
2
Surface
Water
EEC
(ppb)
2
Acute
DWLOC
(µg/
L)
3
Females
13
50
0.083
0.000078
0.082922
245
15.1
2500
1
Maximum
Acute
Water
Exposure
(mg/
kg/
day)
=
[aPAD
(mg/
kg/
day)
acute
food
exposure
(mg/
kg/
day)]
2
Texas
grown
alfalfa
was
selected
to
represent
pasture/
rangeland
as
the
scenario
with
the
highest
runoff
potential.
3
Acute
DWLOC(
µg/
L)
=
[maximum
acute
water
exposure
(mg/
kg/
day)
x
body
weight
(kg)]
[water
consumption
(L)
x
10
3
mg/
µg]
25
5.2
Short
and
Intermediate
Term
Risk
The
are
no
currently
registered
residential
uses
for
tebuthiuron.
Therefore,
aggregate
short
and
intermediate
term
risk
assessments
were
not
conducted.
5.3
Chronic
Risk
5.3.1
Aggregate
Chronic
Risk
Assessment
Chronic
aggregate
risk
estimates
do
not
exceed
HED's
level
of
concern.
The
aggregate
chronic
dietary
risk
estimates
include
exposure
to
residues
of
tebuthiuron
and
its
metabolites
containing
the
dimethylethyl
thiadiazole
moiety
in
food
and
residues
of
tebuthiuron
and
degradate
104
in
drinking
water
(both
surface
and
ground
water).
No
chronic
residential
use
scenarios
were
identified.
Exposure
(food
only)
to
residues
of
tebuthiuron,
based
on
a
Tier
3
refinement
using
average
residues
from
livestock
feeding
studies
and
percent
of
crop
treated
data,
represent
less
than
1%
of
the
chronic
PAD
for
the
general
U.
S.
population
and
all
population
subgroups.
5.3.2
Chronic
DWLOC
Calculations
The
EECs
generated
by
EFED
are
less
than
HED's
calculated
chronic
DWLOCs
for
chronic
exposure
to
tebuthiuron.
The
EEC
values
used
for
comparison
to
the
DWLOC
are
4.31
(surface
water)
and
245
ppb
(ground
water).
These
estimated
environmental
concentrations
are
less
than
1400
ppb
which
is
HED's
lowest
drinking
water
level
of
comparison
for
exposure
to
tebuthiuron
in
drinking
water
as
a
contribution
to
aggregate
chronic
dietary
risk.
Based
on
the
available
information,
HED
concludes
with
reasonable
certainty
that
no
harm
to
any
population
will
result
from
aggregate
chronic
dietary
exposure
to
tebuthiuron.
Details
are
presented
in
Table
7.
Table
7.
Chronic
DWLOC
Calculations
Population
Subgroup
Chronic
Scenario
cPAD
mg/
kg/
day
Chronic
Food
Exp
mg/
kg/
day
Max
Chronic
Water
Exp
mg/
kg/
day
1
Ground
Water
EEC
(ppb
)
2
Surface
Water
EEC
(ppb)
2
Chronic
DWLOC
(µg/
L)
3
U.
S.
Population
0.
14
0.
000023
0.139977
245
4.31
4900
All
Infants
(<
1yr)
0.14
0.000036
0.139964
245
4.31
1400
Children
1
6
years
0.
14
0.
000083
0.139917
245
4.31
1400
Children
7
12
yrs
0.
14
0.
000043
0.139957
245
4.31
1400
Females
13+
0.14
0.000013
0.139987
245
4.31
4200
Males
13
19
years
0.
14
0.
000025
0.139975
245
4.31
4900
Males
20+
years
0.
14
0.
000012
0.139988
245
4.31
4900
Table
7.
Chronic
DWLOC
Calculations
Population
Subgroup
Chronic
Scenario
cPAD
mg/
kg/
day
Chronic
Food
Exp
mg/
kg/
day
Max
Chronic
Water
Exp
mg/
kg/
day
1
Ground
Water
EEC
(ppb
)
2
Surface
Water
EEC
(ppb)
2
Chronic
DWLOC
(µg/
L)
3
26
Seniors
55+
years
0.
14
0.
000012
0.139988
245
4.31
4900
1
Maximum
Chronic
Water
Exposure
(mg/
kg/
day)
=
[cPAD
(mg/
kg/
day)
chronic
food
exposure
(mg/
kg/
day)]
2
Texas
grown
alfalfa
was
selected
to
represent
pasture/
rangeland
as
the
scenario
with
the
highest
runoff
potential.
3
Chronic
DWLOC(
µg/
L)
=
[maximum
chronic
water
exposure
(mg/
kg/
day)
x
body
weight
(kg)]
[water
consumption
(L)
x
10
3
mg/
µg]
6.0
CUMULATIVE
The
Food
Quality
Protection
Act
(1996)
stipulates
that
when
determining
the
safety
of
a
pesticide
chemical,
EPA
shall
base
its
assessment
of
the
risk
posed
by
the
chemical
on,
among
other
things,
available
information
concerning
the
cumulative
effects
to
human
health
that
may
result
from
dietary,
residential,
or
other
non
occupational
exposure
to
other
substances
that
have
a
common
mechanism
of
toxicity.
The
reason
for
consideration
of
other
substances
is
due
to
the
possibility
that
low
level
exposures
to
multiple
chemical
substances
that
cause
a
common
toxic
effect
by
a
common
mechanism
could
lead
to
the
same
adverse
health
effect
as
would
a
higher
level
of
exposure
to
any
of
the
other
substances
individually.
A
person
exposed
to
a
pesticide
at
a
level
that
is
considered
safe
may
in
fact
experience
harm
if
that
person
is
also
exposed
to
other
substances
that
cause
a
common
toxic
effect
by
a
mechanism
common
with
that
of
the
subject
pesticide,
even
if
the
individual
exposure
levels
to
the
other
substances
are
also
considered
safe.
HED
did
not
perform
a
cumulative
risk
assessment
as
part
of
this
tolerance
reassessment
review
for
tebuthiuron
because
HED
has
not
yet
initiated
a
review
to
determine
if
there
are
any
other
chemical
substances
that
have
a
mechanism
of
toxicity
common
with
that
of
tebuthiuron.
For
purposes
of
this
tolerance
reassessment
review,
EPA
has
assumed
that
tebuthiuron
does
not
have
a
common
mechanism
of
toxicity
with
other
substances.
On
this
basis,
the
registrant
must
submit,
upon
EPA's
request
and
according
to
a
schedule
determined
by
the
Agency,
such
information
as
the
Agency
directs
to
be
submitted
in
order
to
evaluate
issues
related
to
whether
tebuthiuron
shares
a
common
mechanism
of
toxicity
with
any
other
substance
and,
if
so,
whether
any
tolerances
for
tebuthiuron
need
to
be
modified
or
revoked.
If
HED
identifies
other
substances
that
share
a
common
mechanism
of
toxicity
with
tebuthiuron,
HED
will
perform
aggregate
exposure
assessments
on
each
chemical,
and
will
begin
to
conduct
a
cumulative
risk
assessment.
HED
has
recently
developed
a
framework
that
it
proposes
to
use
for
conducting
cumulative
risk
assessments
on
substances
that
have
a
common
mechanism
of
toxicity.
This
guidance
was
issued
for
public
comment
on
January
16,
2002
(67
FR
2210
2214)
and
is
available
from
the
OPP
Website
27
at:
http://
www.
epa.
gov/
pesticides/
trac/
science/
cumulative_
guidance.
pdf
In
the
guidance,
it
is
stated
that
a
cumulative
risk
assessment
of
substances
that
cause
a
common
toxic
effect
by
a
common
mechanism
will
not
be
conducted
until
an
aggregate
exposure
assessment
of
each
substance
has
been
completed.
Before
undertaking
a
cumulative
risk
assessment,
HED
will
follow
procedures
for
identifying
chemicals
that
have
a
common
mechanism
of
toxicity
as
set
forth
in
the
"Guidance
for
Identifying
Pesticide
Chemicals
and
Other
Substances
that
Have
a
Common
Mechanism
of
Toxicity"
(64
FR
5795
5796,
February
5,
1999).
7.0
OCCUPATIONAL
EXPOSURE
Because
FQPA
addresses
only
non
occupational
(residential)
risk
concerns,
risks
to
occupational
workers
are
not
addressed
in
this
document.
28
8.0
DATA
NEEDS/
LABEL
REQUIREMENTS
Toxicology
OPPTS
870.3465:
28
Day
inhalation
toxicity
study
OPPTS
870.3700b:
Developmental
Toxicity
(non
rodent)
OPPTS
870.4100a:
Chronic
Toxicity
(Rodent)
OPPTS
870.4200a:
Oncogenicity
(Rat)
OPPTS
870.4200b:
Oncogenicity
(Mouse)
OPPTS
870.4300:
Chronic/
Oncogenicity
OPPTS
870.5385:
Mutagenicity
Mammalian
bone
marrow
chromosomal
aberration
test
OPPTS
870.6300:
Developmental
Neurotoxicity
(held
in
reserve
pending
submission
of
a
rabbit
developmental
toxicity
study)
Residue
Chemistry
OPPTS
860.1340
Residue
Analytical
Methods:
Enforcement
methods
for
milk
and
animal
tissues
have
been
proposed;
independent
laboratory
validation
is
required.
OPPTS
860.1850
Rotational
Crops
(Confined):
The
confined
rotational
crop
studies
are
required
unless
the
registrant
can
provide
information
that
pastureland
in
TX,
OK,
and
NM
is
either
insignificant
in
acreage
or
is
predominantly
perennial
grasses
that
are
not
rotated
annually.
OPPTS
860.1100
Directions
for
Use:
The
current
labels
indicate
that
treated
grasses
may
not
be
cut
for
hay
for
livestock
feed
for
one
year
after
treatment.
The
Agency
considers
restrictions
against
the
grazing
of
treated
rangeland
to
be
impractical.
Removal
of
this
label
restriction
is
required.
cc:
P.
Deschamp
(RRB2),
R.
Fricke
(RRB2),
K.
Dockter
(RRB2),
S.
Piper
(CEB)
RDI:
Team
(04/
03/
02),
A.
Nielsen
(04/
22/
02),
RARC
(04/
03/
02)
P.
Deschamp
812D:
CM#
2:
(703)
305
6227:
7509C:
RRB2
29
Appendix
A
Table
1:
Tolerance
Reassessment
Summary
for
Tebuthiuron
Commodity
Current
Tolerance
(ppm)
Tolerance
Reassessment
(ppm)
Correct
Commodity
Definition
Cattle,
fat
2
1
Cattle,
mbyp
2
5
Cattle,
meat
2
1
Goats,
fat
2
1
Goats,
mbyp
2
5
Goats,
meat
2
1
Grass,
hay
20
10
Grass,
rangeland,
forage
20
10
Grass,
forage
Horses,
fat
2
1
Horses,
mbyp
2
5
Horses,
meat
2
1
Milk
0.
3
0.
8
Sheep,
fat
2
1
Sheep,
mbyp
2
5
Sheep,
meat
2
1
HED
recommends
that
the
40
CFR
tolerance
expression
under
§180.390
be
modified
as
follows:
§
180.390
Tebuthiuron;
tolerances
for
residues
(a)
Tolerances
are
established
for
the
combined
residues
of
the
herbicide
tebuthiuron
(N[
5
(1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl
N,
N'
dimethylurea)
and
its
metabolites
N[
5(
2
hydroxy
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N,
N'
dimethylurea,
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
methylurea,
and
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N'
hydroxymethyl
N
methylurea
in
or
on
the
following
agricultural
commodities:
Commodity
Parts
per
million
Grass,
hay
10
Grass,
forage
10
(b)
Tolerances
are
established
for
the
combined
residues
of
the
herbicide
tebuthiuron
(N[
5
(1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl
N,
N'
dimethylurea)
and
its
metabolites
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
methylurea,
–[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
urea,
2
dimethylethyl
5
amino
1,3,4
thiadiazole,
and
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N'
hydroxymethyl
N
methylurea
in
or
on
the
following
raw
agricultural
commodities:
30
Commodity
Parts
per
million
Cattle,
fat
1
Cattle,
mbyp
5
Cattle,
meat
1
Goats,
fat
1
Goats,
mbyp
5
Goats,
meat
1
Horses,
fat
1
Horses,
mbyp
5
Horses,
meat
1
Sheep,
fat
1
Sheep,
mbyp
5
Sheep,
meat
1
(c)
A
tolerance
is
established
for
the
combined
residues
of
the
herbicide
tebuthiuron
(N[
5
(1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl
N,
N'
dimethylurea)
and
its
metabolites
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
methylurea,
N[
5(
2
hydroxy
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N
methylurea,
N[
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
urea,
N
5(
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N'
hydroxymethyl
N
dimethylurea,
and
N[
5
(2
hydroxy
1,1
dimethylethyl)
1,3,4
thiadiazol
2
yl]
N'
hydroxymethyl
N
methylurea
in
or
on
the
following
raw
agricultural
commodity:
Commodity
Parts
per
million
Milk
0.
8
| epa | 2024-06-07T20:31:34.832225 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OPP-2002-0146-0002/content.txt"
} |
EPA-HQ-OW-2004-0032-0712 | Supporting & Related Material | 2001-08-18T04:00:00 | null | Draft,
4/
12/
05;
subject
to
change
Page
1
of
14
1.0
FOOD
SERVICE
ESTABLISHMENTS
1.1
Industry
Profile
Food
service
establishments
include
facilities
in
SIC
codes
5812,
Eating
Places,
and
5813,
Drinking
Places.
The
1987
SIC
Code
Manual
defines
these
SIC
codes
as
follows:
SIC
Code
5812:
Establishments
primarily
engaged
in
the
retail
sale
of
prepared
food
and
drinks
for
on
premise
or
immediate
consumption.
Caterers
and
industrial
and
institutional
food
service
establishments
are
also
included
in
this
industry.
Establishments
in
which
sales
of
alcoholic
beverages
for
consumption
on
the
premises
exceed
sales
of
prepared
food
and
nonalcoholic
beverages
are
classified
in
Drinking
Places
(
SIC
5813).
SIC
Code
5813:
Establishments
primarily
engaged
in
the
retail
sale
of
alcoholic
drinks
such
as
beer,
ale,
wine,
and
liquor
for
consumption
on
the
premises.
The
sale
of
food
frequently
accounts
for
a
substantial
portion
of
the
receipts
of
these
establishments.
Meals
may
or
may
not
be
served.
Table
1
1.
Census
Data
(
Available
for
1997
Only)
SIC
Code
NAICS
Code
Number
of
Facilities
in
1997
5812:
Eating
Places
423,082
711110:
Dinner
theaters
184
722110:
Full
service
restaurants
191,245
722211:
Limited
service
restaurants
174,104
722212:
Cafeterias
4,172
722213:
Snack
&
nonalcoholic
beverage
bars
27,908
722213:
Ice
cream
&
soft
serve
shops
9,753
722213:
Frozen
yogurt
shops
1,582
722213:
Bagel
shops
3,926
722213:
Coffee
shops
6,843
722213:
Other
snack
&
nonalcoholic
beverage
bars
5,804
722310:
Foodservice
contractors
18,991
722320:
Caterers
6,478
5813:
Drinking
places
722410:
Drinking
places
(
alcoholic
beverages)
52,825
Draft,
4/
12/
05;
subject
to
change
Page
2
of
14
(
alcoholic
beverages)
Source:
1997
U.
S.
Census.
Table
1
2
shows
2000
TRI
and
PCS
data
available
for
food
service
establishments.
No
establishments
reported
to
TRI
in
2000.
Of
the
approximately
470,000
food
service
establishments
in
the
U.
S.
(
1997
U.
S.
Census),
only
57
report
discharges
to
PCS
(
all
minor
dischargers).
Based
on
470,000
total
establishments
and
only
57
direct
dischargers,
the
vast
majority
of
food
establishments
discharge
indirectly.
Table
1
2.
Facility
Counts
SIC
Code
Number
of
Facilities
Reporting
to
2000
TRI
Number
of
Facilities
Reporting
to
PCS
2000
Direct
Indirect
Both
No
Discharge
Reported
Direct
(
Minors)
5812
0
0
0
0
54
5813
0
0
0
0
3
Source:
TRIReleases2000
and
PCSLoads2000
databases.
1.2
Wastewater
Characteristics
1.2.1
Wastewater
Quantity
Food
establishments
use
water
for
food
preparation
(
washing,
cooking,
drinking
water,
ice,
sinks),
clean
up
(
dishwashing,
floor,
and
rack
washing),
sanitation
(
toilets),
and
landscaping
(
irrigation,
parking
lot
spraying,
etc).
Table
1
3
summarizes
the
wastewater
flow
data
available
from
PCS.
No
wastewater
flow
data
are
available
for
TRI.
Table
1
3.
Wastewater
Flow
Data
From
PCS
2000
SIC
Flow,
MGY
5812
(
54
Establishments
Reporting)
Max
91,440
Min
0.000000360
Median
0.805
5813
(
3
Establishments
Reporting)
Max
0.205
Min
0.144
Median
0.162
Source:
PCSLoads2000.
Draft,
4/
12/
05;
subject
to
change
Page
3
of
14
To
gain
additional
information
on
discharge
volumes,
EPA
examined
some
Environmental
Engineering
textbooks.
Table
1
4
summarizes
the
wastewater
flow
data
from
the
applicable
textbooks
examined.
Table
1
4.
Typical
Wastewater
Flow
Rates
from
Food
Service
Establishments
Type
of
Establishment
Wastewater
Flow
Range
(
gal/
day
per
unit)
Unit
Textbook
Source
Restaurant
2
4
Meals
Metcalf
&
Eddy
Restaurant,
kitchen
waste
only
2.5
3
Persons
Standard
Handbook
of
Environmental
Engineering
Restaurant,
kitchen
and
toilet
waste
7
10
Persons
The
Agri
Food
Trade
Service
web
page
(
http://
atn
riae.
agr.
ca/
info/
us
e.
htm)
reports
that
80%
of
Americans
get
at
least
one
meal
per
month
from
a
food
service
establishment
(
mostly
takeout).
Based
on
a
U.
S.
population
of
260
million
people,
Americans
eat
close
to
7
million
meals
per
day
from
food
service
establishments.
Using
an
average
wastewater
flow
range
of
3
gallons
per
day
per
meal
(
Metcalf
&
Eddy),
the
food
service
industry
generates
21
MGD
of
wastewater,
not
including
toilet
waste.
Food
establishments
are
usually
defined
either
as
small
volume
(
operating
less
than
16
hours
a
day)
or
large
volume
(
includes
most
fast
food
restaurants).
One
1990
Massachusetts
case
study
of
a
large
volume
steak
house
estimated
that
the
restaurant
used
13
million
gallons
of
water
annually,
including
toilets
(
Massachusetts
Water
Resources
Authority).
The
study
notes
that
the
restaurant
was
new
and
used
state
of
the
art
equipment
(
such
as
water
efficient
dishwashers).
It
served
approximately
40,000
meals
per
week,
or
approximately
5,000
per
day.
The
case
study
noted
that
it
used
a
"
minimal"
volume
of
water
compared
with
older,
less
efficient
restaurants.
Based
on
the
Standard
Handbook
of
Environmental
Engineering
estimate
of
7
to
10
gallons
per
day
per
person,
the
steak
house
would
generate
13
to
18
million
gallons
of
wastewater
per
day,
which
corresponds
to
the
case
study
findings.
Table
1
5
below
summarizes
relevant
steak
house
data.
Draft,
4/
12/
05;
subject
to
change
Page
4
of
14
Table
1
5.
Wastewater
Flow
for
a
Massachusetts
Steak
House
Wastewater
Source
Estimated
1990
Volume
(
million
gallons/
year)
Toilets
(
19)
3.12
Dishwasher
1.045
Wash
sinks
0.153
Rack
Washing
0.147
Glass
Washer
0.065
Source:
Non
Domestic
Water
Audit
Report,
A
Steak
House
in
Massachusetts.
Prepared
by
B&
M
Technological
Services,
Inc.
for
Massachusetts
Water
Resources
Authority.
March
1990.
1.2.2
Wastewater
Quality
During
this
study,
EPA
could
not
locate
a
readily
available
source
of
discharge
data
for
food
service
establishments
that
discharge
to
POTWs.
No
TRI
data
are
available
regarding
pollutants
in
treated
wastewater
from
food
service
establishments.
The
2000
PCS
database
contains
discharge
data
from
57
food
service
facilities
that
are
minor
direct
dischargers.
This
information
represents
0.01
percent
(
less
than
1
percent)
of
the
industry,
as
there
are
470,000
food
service
establishments
in
the
U.
S.
(
1997
U.
S.
Census).
In
addition,
because
these
facilities
are
direct
dischargers,
the
information
may
or
may
not
be
representative
of
indirect
discharging
facilities
(
particularly
for
conventional
pollutants
and/
or
treatment
chemicals
such
as
chlorine).
Nevertheless,
the
data
provide
some
indication
of
the
level
and
types
of
pollutants
that
may
be
present
in
discharges
from
food
service
establishments.
Table
1
7
lists
these
facilities
and
their
respective
TWPE,
where
applicable.
Table
1
8
lists
all
pollutants
reported
by
these
57
facilities,
ranked
by
TWPE.
Table
1
7.
List
of
Facilities
in
PCSLoads2000
SIC
Name
City
State
Total
TWPE
5812
Hartman
James
Williams
Houston
Houston
TX
9.0
5812
Tesi/
Discovery
Bay
Marina
Pass
Christian
MS
2.857
5812
Grandma's
Home
Cooking
Rensselaer
IN
0.906
5812
Marti's
Place
bomars
River
Ldg
Hebron
IN
0.082
5813
Sand
Trap
Bar
&
Lounge
Alexandria
KY
0.074
Draft,
4/
12/
05;
subject
to
change
Table
1
7.
List
of
Facilities
in
PCSLoads2000
SIC
Name
City
State
Total
TWPE
Page
5
of
14
5812
Huber
Family
Restaurant
Borden
IN
0.073
5812
Colorado
Café
Wtp
Watchung
NJ
0.070
5812
Giovannis
Pizza
South
Williamson
KY
0.068
5812
Tall
Tales
Fish
Camp
Mayo
SC
0.607
5812
Gardenbrook
Party
Center
Cortland
OH
0.006
5812
Cynthiana
Dairy
Queen
Inc
Cynthiana
KY
0.054
5812
Happy
Daze
Dairy
Bar
Nesbit
MS
0.527
5812
KY
Fried
Chicken
Owensboro
KY
0.051
5812
Simpson
Property
Louisville
KY
0.049
5812
Cadron
Creek
Catfish
House
Bee
Branch
AR
0.043
5812
Beef
House
Restaurant
Covington
IN
0.359
5812
Burnaugh
Enterprises
Catlettsburg
KY
0.322
5812
O'Brien's
Pizza
Pub
Hot
Springs
Village
AR
0.003
5812
McDonald's
Restaurants
of
in
Cambridge
City
IN
0.029
5812
Delta
Inc.
Leavenworth
IN
0.027
5812
Riverview
Restaurant
Hawesville
KY
0.216
5812
Fast
Market
Jericho
AR
0.213
5812
Bananas
on
the
River
Winchester
KY
0.002
5812
Village
Inn
Restaurant
Burgin
KY
0.019
5812
Toor
Car
&
Truck
Plaza
Wadsworth
IL
0.181
5812
Stuckey's
Pecan
Shoppe
#
083
Coosawhatchie
SC
0.159
5812
Long
John
Silvers
Anchors
Inc
Owensboro
KY
0.015
5812
Smith
House
Restaurant
Owenton
KY
0.013
5812
McDonalds
Restaurant
Owensboro
KY
0.012
5812
Pilot
Travel
Center
No.
362
Fortville
IN
0.120
5812
Paws
Inc.
Wwtp
Albany
IN
0.011
5812
Catfish
Kitchen
Restaurant
Draffenville
KY
0.011
5813
Camp
Springs
Tavern
Melbourne
KY
0.001
5812
Otter
Creek
Park
Vine
Grove
KY
0.001
5813
Ebbie's
Mini
Mart
Beckmeyer
IL
0.000
Draft,
4/
12/
05;
subject
to
change
Table
1
7.
List
of
Facilities
in
PCSLoads2000
SIC
Name
City
State
Total
TWPE
Page
6
of
14
5812
Best
Inn
Missoula
MT
0
5812
Brown
Derby
Roadhouse
Ontario
OH
0
5812
Fireplace
Restaurant
&
Lounge
Gurnee
IL
0
5812
Golden
Isles
Marina
St.
Simons
Island
GA
0
5812
Halfway
Restaurant
Southington
OH
0
5812
I
74
Auto/
truck
Plaza
Oakwood
IL
0
5812
Keller
Oil
Raccoon
Super
K
Centralia
IL
0
5812
Lakeview
Steak
House
Greer
SC
0
5812
Mac's
General
Inv
Llc
dba
Tin
El
Dorado
AR
0
5812
McDonalds
#
11963'
s
Wwtp
Mt.
Comfort
IN
0
5812
McDonald's
Restaurant
Rensselaer
IN
0
5812
New
Jersey
Turnpike
Authority
Salem
NJ
0
5812
Old
South
Mountain
Inn
Boonsboro
MD
0
5812
Pilot
Travel
Center
#
361
Greenfield
IN
0
5812
Restaurant
Service
LLC
Houston
TX
0
5812
Shamrock
Restaurant
Thurmont
MD
0
5812
Stuckey's
Restaurant
Centerville
IN
0
5812
The
Islands
Restaurant
Walton
KY
0
5812
Thresco
Inc
Crestwood
KY
0
5812
Track's
Inn
Cortland
OH
0
5812
Twin
Cedars
Restaurant
Louisville
KY
0
5812
Waunee
Farms
Restaurant
Kewanee
IL
0
Source:
PCSLoads2000.
Draft,
4/
12/
05;
subject
to
change
Page
7
of
14
Table
1
8.
List
of
Pollutants
Reported
from
Facilities
in
PCSLoads2000
SIC
Pollutant
Reported
TWPE
per
Year
Pounds
per
Year
#
of
Facilities
5812
Total
Residual
Chlorine
14
29
20
5812
Ammonia
as
Nitrogen
1.9
1,055
39
5812
Chloroform
0.00016
0.077
2
5812
Benzene
&
Ethylbenzene
&
Toluene
&
Xylene
(
BTEX)
1
0.000033
0.0044
1
5812
Xylenes
(
Mixed
Isomers)
1
0.000013
0.0031
1
5812
Toluene1
0.0000071
0.0013
1
5812
BOD,
5
day
NA
14,417
55
5812
Total
Suspended
Solids
NA
8,560
55
5812
Oil
&
Grease
NA
781
14
5812
Phosphorus,
Total
(
As
P)
NA
16
2
5813
Nitrogen,
Kjeldahl
Total
(
As
N)
NA
9
1
5813
Oxygen,
Dissolved
(
DO)
NA
NA
41
1
Some
of
the
facilities
in
Table
2
7
appear
to
be
gas
stations,
and
the
BTEX
pollutant
loads
in
Table
2
8
most
likely
result
from
gas
station
related
operations.
The
facility
reporting
BTEX,
for
example,
is
the
Ebbie's
Mini
Mart
in
Beckmeyer,
IL.
NA
indicates
that
the
parameters
do
not
have
TWFs
assigned
and,
in
the
case
of
DO,
pounds
per
year
are
not
a
representative
measure.
The
information
in
Tables
1
7
and
1
8
indicates
that
for
the
facilities
reporting
to
PCS,
toxic
discharges
are
low,
with
less
than
1
TWPE
per
facility.
Also,
the
1
TWPE
per
facility
average
includes
loads
from
facilities
that
appear
to
be
gas
stations.
EPA
also
collected
data
about
discharges
to
POTWs
through
inquiries
to
EPA
Region
pretreatment
coordinators
and
Internet
queries.
These
data
sources
show
that
fats,
oil,
and
grease
(
FOG)
are
the
predominant
pollutant
of
concern
for
food
establishments.
Oil
and
grease,
which
are
lighter
than
water,
float
and
can
accumulate
on
the
top
and
sides
of
sewer
pipes,
eventually
causing
clogs
and
sewer
back
ups.
In
particular,
FOG
discharges
from
food
service
establishments
have
been
linked
to
sewer
blockages
and
storm
sewer
overflows
(
SSOs).
1.3
On
Site
Wastewater
Treatment/
Pretreatment
Most
food
establishments
pretreat
their
wastewater
through
grease
traps
prior
to
discharge
to
a
POTW.
The
http://
www.
p2pays.
com
web
site
provides
guidance
on
proper
design
of
grease
separation
devices.
The
main
design
parameters
for
grease
traps
are
time,
temperature,
turbulence,
and
tankage
(
storage
capacity).
Food
service
establishments
that
install
grease
traps
collect
FOG
which
must
be
recovered
from
grease
traps.
Some
localities
require
trap
cleaning
at
Draft,
4/
12/
05;
subject
to
change
Page
8
of
14
least
monthly.
See
the
attached
excerpts
from
the
www.
p2pays.
com
FOG
Guidance
Manual
for
illustrations
of
typical
grease
separation
devices.
1.4
Local
limits
on
FOG
Many
localities
have
established
ordinances
that
tighten
up
FOG
control
programs
to
reduce
blockages.
Some
require
restaurants
to
install
grease
traps
and
require
periodic
grease
clean
out.
Some
also
set
pretreatment
limits
for
FOG
or
oil
and
grease
as
hexane
extractable
material
(
HEM)(
of
which
FOG
is
a
component).
Table
1
6
lists
the
pretreatment
requirements
for
select
localities
in
North
Carolina,
which
were
available
on
the
Internet.
Some
local
ordinances
also
require
certain
size
and/
or
pumping
requirements.
Localities
have
successfully
controlled
FOG
problems
with
FOG
control
programs,
limits,
and/
or
grease
trap
requirements
(
P2
Pays
web
site).
Table
1
6.
Pretreatment
Standards
for
Oil
and
Grease
as
HEM
for
Certain
Localities
Locality
Limit
(
mg/
L)
Asheville,
NC
150
Raleigh,
NC
300
Statesville,
NC
200
Wilmington,
NC
200
Wilson
200
Source:
http://
www.
p2pays.
org.
1.5
Multimedia
Environmental
Releases
1.5.1
Volatilization
Prior
to
Reaching
POTW
Based
on
information
collected
for
this
review,
food
service
establishments
do
not
generate
significant
amounts
of
volatile
pollutants
in
wastewater
(
p2pays
and
PCS
2000).
1.5.2
Solid
Wastes
Food
service
establishments
generate
solid
waste,
mostly
leftover
food
and
cuttings
from
food
preparation.
Food
waste
can
present
vector
problems
for
trash
storage.
The
Michigan
Department
of
Environmental
Quality
provides
the
following
guidance
on
reducing
solid
waste:
Control
inventory
(
minimize
outdated
food);
Buy
in
bulk
to
reduce
container
waste
but
consider
what
food
will
spoil;
Draft,
4/
12/
05;
subject
to
change
Page
9
of
14
Collect
and
send
used
FOG
to
a
renderer;
and
Maintain
grease
traps
and
grease
interceptors.
Food
service
establishments
do
not
usually
generate
enough
hazardous
waste
to
be
considered
a
RCRA
generator.
Hazardous
waste
accumulation
is
usually
limited
to
caustics/
acids
for
cleaning
and
pesticides/
insecticides
for
pest
management.
1.6
Industry
Trends
Many
on
line
documents
from
various
states
and
localities
provide
lists
of
BMPs
and
pollution
prevention
methods.
Most
of
these
focus
on
recycling
water
where
possible
and
using
water
efficient
equipment
for
dishwashers,
closed
loop
condensers
on
refrigerators,
lowflush
toilets,
etc.
Most
BMPs
focus
on
minimizing
water
usage
and
food
waste
generation.
The
FranchiseHandbook.
com
web
site
provides
economic
statistics
on
food
service
establishments,
including
that
the
industry
grew
2.9%
in
1999.
1.7
References
1997
U.
S.
Census.
Available
online
at:
http://
www.
census.
gov.
Agri
Food
Trade
Service
web
page.
http://
atn
riae.
agr.
ca/
info/
us
e.
htm
accessed
on
October
18,
2004.
Corbitt,
Robert
A.
Standard
Handbook
of
Environmental
Engineering.
2nd
Edition.
McGraw
Hill,
1999.
East
Bay
Municipal
Utility
District
web
page.
http://
www.
ebmud.
com/
wastewater/
industrial_&_
commercial_
permits_&_
fees/
wastewater_
rates/
default.
htm
accessed
on
October
19,
2004.
E
mail
from
Matthew
Gluckman,
U.
S.
EPA
Region
5,
to
Jan
Matuszko,
U.
S.
EPA.
October
18,
2004.
E
mail
from
Lee
Bohme,
U.
S.
EPA
Region
6,
to
Carey
Johnston,
U.
S.
EPA.
November
1
and
2,
2004.
E
mail
from
Stephen
Copeland,
U.
S.
EPA
Region
3,
to
Jan
Pickrel,
U.
S.
EPA.
October
26,
2004.
FranchiseHandbook.
com
web
site.
http://
www.
franchise1.
com/
articles/
article.
asp?
articleid=
57
accessed
on
October
19,
2004.
Draft,
4/
12/
05;
subject
to
change
Page
10
of
14
Massachusetts
Water
Resources
Authority,
as
prepared
by
B&
M
Technological
Services,
Inc.
Non
Domestic
Water
Audit
Report,
A
Steak
House
in
Massachusetts.
March
1990.
P2pays.
org
web
site.
http://
www.
p2pays.
org
accessed
on
October
18,
2004.
Tchobanoglous,
George/
Metcalf
&
Eddy,
Inc.,
Wastewater
Engineering:
Treatment,
Disposal,
and
Reuse.
2nd
Edition.
Irwin/
McGraw
Hill,
1991.
Page
11
of
14
Attachments:
Excerpts
from
the
P2Pays.
com
WebSite
Manual,
Considerations
for
the
Management
of
FOG
Discharge
To
Sanitary
Sewer
Systems
Page
12
of
14
Source:
P2Pays.
com
Web
Site
Manual,
Considerations
for
the
Management
of
FOG
Discharge
To
Sanitary
Sewer
Systems
Page
13
of
14
Source:
P2Pays.
com
Web
Site
Manual,
Considerations
for
the
Management
of
FOG
Discharge
To
Sanitary
Sewer
Systems
Page
14
of
14
Example
Grease
Separation
Device
Designed
to
Eliminate
Hydraulic
Jump
Source:
P2Pays.
com
WebSite
Manual,
Considerations
for
the
Management
of
FOG
Discharge
To
Sanitary
Sewer
Systems
| epa | 2024-06-07T20:31:34.972764 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-OW-2004-0032-0712/content.txt"
} |
EPA-HQ-RCRA-2001-0003-0011 | Supporting & Related Material | 2001-04-18T04:00:00 | null | epa | 2024-06-07T20:31:34.998511 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0003-0011/content.txt"
} |
|
EPA-HQ-RCRA-2001-0017-0001 | Rule | 2001-10-23T04:00:00 | Revision of the Definition of Municipal Solid Waste Landfill Unit; Addition of the Definition of Residential Lead-Based Paint Waste, Direct Final Rule | 53535
Federal
Register
/
Vol.
66,
No.
205
/
Tuesday,
October
23,
2001
/
Rules
and
Regulations
18
AAC
50.410.
Emission
Fees
(
effective
1/
18/
97)
18
AAC
50.420.
Billing
Procedures
(
effective
1/
18/
97)
Article
9.
General
Provisions
18
AAC
50.910.
Establishing
Level
of
Actual
Emissions
(
effective
1/
18/
97)
18
AAC
50.990.
Definitions
(
effective
1/
18/
97)
*
*
*
*
*
[
FR
Doc.
01
26684
Filed
10
22
01;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Parts
257
and
258
[
FRL
7076
4]
RIN
2050
AE86
Criteria
for
Classification
of
Solid
Waste
Disposal
Facilities
and
Practices
and
Criteria
for
Municipal
Solid
Waste
Landfills:
Disposal
of
Residential
Lead
Based
Paint
Waste
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Direct
final
rule.
SUMMARY:
In
order
to
help
accelerate
the
pace
of
lead
based
paint
removal
from
residences,
and
thereby
reduce
exposure
to
children
and
adults
from
the
health
risks
associated
with
lead,
EPA
is
taking
direct
final
action
to
revise
the
definition
of
``
municipal
solid
waste
landfill
unit''
in
both
the
Criteria
for
Classification
of
Solid
Waste
Disposal
Facilities
and
Practices
and
the
Criteria
for
Municipal
Solid
Waste
Landfills.
EPA
is
also
adding
two
new
definitions
for
``
construction
and
demolition
(
C&
D)
landfill''
and
``
residential
lead
based
paint
waste.''
This
rule
will
expressly
allow
residential
lead
based
paint
waste
to
be
disposed
of
in
construction
and
demolition
landfills
by
clearly
stating
that
a
construction
and
demolition
landfill
accepting
residential
lead
based
paint
waste,
and
no
other
household
waste,
is
not
a
municipal
solid
waste
landfill
unit.
Today's
action
does
not
prevent
a
municipal
solid
waste
landfill
unit
from
continuing
to
receive
residential
lead
based
paint
waste.
DATES:
This
rule
is
effective
on
January
22,
2002
unless
EPA
receives
adverse
comment
by
November
23,
2001.
If
we
receive
such
comment,
we
will
publish
a
timely
withdrawal
in
the
Federal
Register
informing
the
public
that
this
rule
will
not
take
effect.
ADDRESSES:
Commenters
must
send
an
original
and
two
copies
of
their
comments
referencing
docket
number
F
2001
LBPP
FFFFF
to:
(
1)
if
using
regular
US
Postal
Service
mail:
RCRA
Docket
Information
Center,
Office
of
Solid
Waste
(
5305G),
U.
S.
Environmental
Protection
Agency
Headquarters
(
EPA,
HQ),
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW,
Washington,
DC
20460
0002,
or
(
2)
if
using
special
delivery,
such
as
overnight
express
service:
RCRA
Docket
Information
Center
(
RIC),
Crystal
Gateway
One,
1235
Jefferson
Davis
Highway,
First
Floor,
Arlington,
VA
22202.
Comments
may
also
be
submitted
electronically
through
the
Internet
to:
rcra
docket@
epa.
gov.
Comments
in
electronic
format
should
also
be
identified
by
the
docket
number
F
2001
LBPP
FFFFF
and
must
be
submitted
as
an
ASCII
file
avoiding
the
use
of
special
characters
and
any
form
of
encryption.
Commenters
should
not
submit
electronically
any
confidential
business
information
(
CBI).
An
original
and
two
copies
of
CBI
must
be
submitted
under
separate
cover
to:
RCRA
CBI
Document
Control
Officer,
Office
of
Solid
Waste
(
5305W),
U.
S.
EPA,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW,
Washington,
DC
20460
0002.
You
can
view
supporting
materials
for
this
rule
in
the
Resource
Conservation
and
Recovery
Act
(
RCRA)
Information
Center
(
RIC).
The
RIC
is
located
at
Crystal
Gateway
I,
First
Floor,
1235
Jefferson
Davis
Highway,
Arlington,
VA,
and
is
open
from
9
a.
m.
to
4
p.
m.,
Monday
through
Friday,
excluding
federal
holidays.
The
Docket
Identification
Number
for
this
notice
is
F
2001
LBPF
FFFFF.
To
review
docket
materials,
we
recommend
that
you
make
an
appointment
by
calling
(
703)
603
9230.
You
may
copy
a
maximum
of
100
pages
from
any
regulatory
docket
at
no
charge.
Additional
copies
cost
$
0.15/
page.
The
index
and
some
supporting
materials
are
available
electronically.
See
the
SUPPLEMENTARY
INFORMATION
section
for
information
on
accessing
them.
FOR
FURTHER
INFORMATION
CONTACT:
For
general
information,
contact
the
RCRA
Hotline
at
(
800)
424
9346
or
TDD
(
800)
553
7672
(
hearing
impaired).
In
the
Washington,
DC,
metropolitan
area,
call
(
703)
412
9810
or
TDD
(
703)
412
3323.
For
information
on
specific
aspects
of
this
rule,
contact
Sue
Nogas,
Office
of
Solid
Waste
(
mail
code
5306W),
U.
S.
Environmental
Protection
Agency,
1200
Pennsylvania
Avenue,
NW,
Washington,
DC
20460;
(
703)
308
7251,
nogas.
sue@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
The
index
to
the
rule
docket
and
some
supporting
materials
are
available
on
the
Internet.
You
can
find
these
materials
at
http://
www.
epa.
gov/
epaoswer/
non
hw/
muncpl/
landfill/
pb
paint.
htm.
EPA
is
publishing
this
rule
without
prior
proposal
because
we
view
this
as
a
noncontroversial
amendment
and
anticipate
no
adverse
comment.
The
rule
expressly
allows
another
environmentally
safe
waste
disposal
option
(
i.
e.,
C&
D
landfills)
for
residential
LBP
waste,
an
option
that
may
be
less
expensive
than
MSWLFs
in
certain
areas
of
the
U.
S.
For
that
reason,
EPA
believes
this
rule
may
hasten
the
pace
with
which
LBP
hazards
are
removed
from
homes,
thus
reducing
the
risk
of
lead
poisoning
in
children.
However,
in
the
``
Proposed
Rules''
section
of
today's
Federal
Register
publication,
we
are
publishing
a
separate
document
that
will
serve
as
the
proposal
to
revise
the
definition
of
municipal
solid
waste
landfill
unit
and
add
the
definitions
of
construction
and
demolition
landfill
and
residential
leadbased
paint
waste.
We
are
publishing
the
proposal
to
give
the
public
the
opportunity
to
comment
on
today's
action,
although
we
do
not
expect
to
receive
comments.
This
rule
will
be
effective
on
January
22,
2002
without
further
notice
unless
we
receive
adverse
comment
by
November
23,
2001.
If
EPA
receives
adverse
comment,
we
will
publish
a
timely
withdrawal
in
the
Federal
Register
informing
the
public
that
the
rule
will
not
take
effect.
We
will
address
all
public
comments
in
a
subsequent
final
rule
based
on
the
proposed
rule.
We
will
not
institute
a
second
comment
period
on
this
action.
Any
parties
interested
in
commenting
must
do
so
at
this
time.
Affected
Entities:
You
may
be
potentially
affected
by
this
direct
final
rule
if
you
generate
residential
leadbased
paint
(
LBP)
waste
as
a
result
of
LBP
activities
(
including
abatement,
rehabilitation,
renovation
and
remodeling)
in
homes,
residences,
and
other
households.
By
``
households,''
we
mean
single
and
multiple
residences,
hotels
and
motels,
bunkhouses,
ranger
stations,
crew
quarters,
campgrounds,
picnic
grounds,
and
day
use
recreation
areas.
Affected
categories
and
entities
would
include:
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205
/
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October
23,
2001
/
Rules
and
Regulations
Category
Examples
of
affected
entities
Individuals
and
firms
who
generate
residential
LBP
waste
.....
Contractors
and
do
it
yourselfers
who
generate
and
dispose
of
residential
LBP
waste
as
a
result
of
abatement,
rehabilitation,
renovation
and
remodeling
activities
in
homes,
residences,
and
other
households.
Construction
and
demolition
waste
disposal
firms.
..................
Owners
or
operators
of
construction
and
demolition
landfills
that
accept
residential
LBP
waste
for
disposal.
This
table
is
not
intended
to
be
exhaustive,
but
rather
lists
the
types
of
entities
that
EPA
is
now
aware
of
that
could
potentially
be
affected
by
this
action.
Other
types
of
entities
not
listed
in
this
table
could
also
be
affected.
(
Please
see
Sections
X.
A.
and
X.
B.
of
this
preamble
for
further
discussion
of
affected
entities.
Also,
in
the
docket
for
today's
rule,
see
``
Economic
Analysis
of
EPA's
Direct
Final
Rule
Amending
40
CFR
parts
257
and
258.'')
If
you
have
any
questions
regarding
the
applicability
of
this
action
to
a
particular
entity,
consult
the
persons
listed
in
the
preceding
FOR
FURTHER
INFORMATION
CONTACT
section.
Acronyms
Acronym
Definition
CDC
.....
Centers
of
Disease
Control
and
Prevention.
C&
D
.....
Construction
and
Demolition.
CFR
......
Code
of
Federal
Regulations.
EA
........
Economic
Analysis.
EPA
......
Environmental
Protection
Agency.
FR
........
Federal
Register.
HUD
.....
U.
S.
Department
of
Housing
and
Urban
Development.
IQ
.........
Intelligence
Quotient.
LBP
......
Lead
Based
Paint.
MSWLF
Municipal
Solid
Waste
Landfill.
OMB
.....
Office
of
Management
and
Budget.
OPPTS
Office
of
Prevention,
Pesticides,
and
Toxic
Substances.
OSWER
Office
of
Solid
Waste
and
Emergency
Response.
RCRA
...
Resource
Conservation
Recovery
Act.
RIC
.......
RCRA
Docket
Information
Center.
TC
........
Toxicity
Characteristic.
TSCA
...
Toxic
Substances
Control
Act.
USEPA
United
States
Environmental
Protection
Agency.
Outline
I.
Legal
Authority
II.
Why
are
Lead
and
Lead
Based
Paint
A
Concern?
III.
Congressional
Response
to
Lead
Hazards:
Title
X
IV.
RCRA
as
a
Barrier
to
Cost
Effective
LBP
Abatements,
and
Stakeholders'
Requests
for
Regulatory
Relief
from
EPA
V.
EPA's
Implementation
of
Title
X
and
Response
to
Stakeholders'
Requests
A.
1998
Proposed
Rules
1.
TSCA
Proposal
2.
RCRA
Proposal
B.
Contractor
Generated
Residential
Lead
Based
Paint
Memorandum
VI.
What
Does
Today's
Rule
Do?
A.
Revision
to
the
Definition
of
a
Municipal
Solid
Waste
Landfill
Unit
B.
Addition
of
Construction
and
Demolition
Landfill
Definition
C.
Addition
of
Residential
Lead
Based
Paint
Waste
Definition
VII.
Analytic
Basis
for
Today's
Rule
VIII.
Other
Applicable
Federal,
State,
Tribal,
and
Local
Requirements
IX.
How
do
States
and
Tribes
Implement
this
Rule?
X.
How
does
this
Rule
Comply
with
Applicable
Statutes
and
Executive
Orders?
A.
Executive
Order
12866:
Regulatory
Planning
and
Review
B.
Regulatory
Flexibility
Act
C.
Paperwork
Reduction
Act
D.
Unfunded
Mandates
Reform
Act
E.
Executive
Order
13132:
Federalism
F.
Executive
Order
13175:
Consultation
and
Coordination
with
Indian
Tribal
Governments
G.
Executive
Order
13045:
Protection
of
Children
from
Environmental
Health
Risks
and
Safety
Risks
H.
National
Technology
Transfer
and
Advancement
Act
of
1995
I.
Executive
Order
12898:
Environmental
Justice
Strategy
J.
Congressional
Review
Act
K.
Executive
Order
13211:
Energy
Effects
I.
Legal
Authority
EPA
is
promulgating
this
rule
pursuant
to
section
1008(
a)(
3),
2002(
a),
4004(
a)
and
4010(
c)
of
the
Resource
Conservation
and
Recovery
Act
(
RCRA),
42
U.
S.
C.
6907(
a),
6912(
a),
6944(
a),
6949a(
c).
We
are
also
correcting
a
typographical
error
in
the
existing
statement
of
authority
in
part
257
by
amending
the
citation
to
42
U.
S.
C.
6949(
c)
to
read
``
6949a(
c).''
II.
Why
Are
Lead
and
Lead
Based
Paint
a
Concern?
The
Centers
for
Disease
Control
and
Prevention
(
CDC)
have
estimated
that
approximately
900,000
children,
or
about
4.4%
of
children
under
the
age
of
6
years
old,
may
have
unacceptably
high
levels
of
lead
in
their
blood.
(
See:
``
Update:
Blood
Lead
Levels
United
States,
1991
1994.''
Morbidity
and
Mortality
Weekly
Report,
Vol.
46,
No.
7,
February
21,
1997.
CDC,
U.
S.
Department
of
Health
and
Human
Services.)
Children
are
more
susceptible
than
adults
to
the
toxic
effects
of
lead
because
their
nervous
systems
are
still
developing
and
their
bodies
more
readily
absorb
lead
once
exposed
to
it.
(
For
a
fuller
discussion
of
this
issue,
see
66
FR
1206
1240,
January
5,
2001).
The
most
common
sources
of
residential
lead
exposure
include
contaminated
dust
and
paint
chips
from
deteriorated
lead
based
paint
(
LBP)
in
older
homes,
activities
that
disturb
LBP
(
such
as
abatement,
deleading,
home
renovation
and
remodeling),
lead
contaminated
drinking
water,
and
lead
contaminated
soil
around
homes
and
play
areas.
It
is
estimated
that
approximately
38
million
homes
in
the
United
States
contain
interior
LBP.
(
See
``
Economic
Analysis
of
EPA's
Direct
Final
Rule
Amending
40
CFR
parts
257
and
258,''
p.
31.
III.
Congressional
Response
to
Lead
Hazards:
Title
X
In
response
to
this
health
threat,
Congress
enacted
the
Residential
Lead
Based
Paint
Hazard
Reduction
Act
of
1992
(
hereinafter
referred
to
as
Title
X
of
the
Housing
and
Community
Development
Act
of
1992,
or
as
Title
X).
Among
other
provisions,
Title
X
amended
the
Toxic
Substances
Control
Act
(
TSCA)
and
directed
the
Environmental
Protection
Agency
(
EPA)
to
develop
and
finalize
standards
governing:
(
1)
The
training
and
certification
of
individuals
engaged
in
LBP
activities;
(
2)
the
accreditation
of
training
programs;
and
(
3)
the
process
by
which
LBP
activities
are
conducted
by
certified
individuals.
Congress
also
directed
EPA
to
identify
by
regulation
LBP
hazards,
lead
contaminated
dust,
and
lead
contaminated
soil.
As
a
result
of
the
enactment
of
Title
X,
there
is
an
increasing
effort
to
reduce
the
hazards
posed
by
LBP
(
especially
to
children)
in
residential
housing
and
other
buildings.
IV.
RCRA
as
a
Barrier
to
Cost
Effective
LBP
Abatements,
and
Stakeholders'
Requests
for
Regulatory
Relief
From
EPA
The
Resource
Conservation
and
Recovery
Act
(
RCRA)
was
enacted
in
1976
to
address
management
of
solid
waste,
including
industrial
and
municipal
wastes.
Subtitle
C
of
RCRA
governs
the
generation,
transportation,
treatment,
storage
and
disposal
of
hazardous
waste.
A
solid
waste
is
a
``
hazardous
waste''
if
it
exhibits
one
or
more
of
the
characteristics
of
hazardous
waste
pursuant
to
40
CFR
part
261,
subpart
C
(
toxicity,
ignitability,
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Regulations
corrosivity,
and
reactivity)
or
if
it
is
listed
as
a
hazardous
waste
in
part
261
subpart
D.
Subtitle
D
of
RCRA
addresses
the
management
of
nonhazardous
solid
waste
(
including
municipal
and
nonmunicipal
waste).
Subtitle
D
was
amended
in
1984
to
address
two
classes
of
hazardous
wastes
exempt
from
Subtitle
C
hazardous
waste
requirements:
conditionally
exempt
small
quantity
generator
(
CESQG)
waste
and
household
hazardous
waste.
Household
waste
is
defined
in
40
CFR
258.2
as
``
any
solid
waste
(
including
garbage,
trash,
and
sanitary
waste
in
septic
tanks)
derived
from
households
(
including
single
and
multiple
residences,
hotels
and
motels,
bunkhouses,
ranger
stations,
crew
quarters,
campgrounds,
picnic
grounds,
and
day
use
recreation
areas).''
Household
waste
is
excluded
from
RCRA
hazardous
waste
regulations
at
40
CFR
261.4(
b)(
1).
Abatements,
renovations,
and
remodeling
activities
in
housing
units
with
LBP
can
generate
large
quantities
of
residential
LBP
waste.
In
cases
where
the
waste
exhibits
the
toxicity
characteristic
for
lead,
the
waste
would
be
classified
as
a
hazardous
waste
subject
to
the
comprehensive
``
cradle
to
grave''
hazardous
waste
management
regulations
of
RCRA
Subtitle
C,
unless
they
qualify
for
an
exemption.
Lead
abatement
contractors
and
public
housing
agencies
argued
that
the
application
of
these
hazardous
waste
rules
to
residential
LBP
waste
poses
a
barrier
to
the
cost
effective
abatement
of
lead
hazards.
EPA
and
HUD
met
to
review
the
disposal
requirements
for
lead
based
paint
waste
and
to
consider
regulatory
relief
from
the
applicability
of
RCRA
Subtitle
C
to
waste
generated
from
residential
LBP
activities.
Additionally,
several
States
and
advocacy
groups
(
such
as
the
Alliance
to
End
Childhood
Lead
Poisoning)
expressed
concern
that
the
RCRA
requirements
were
considerably
reducing
the
number
of
residential
LBP
abatements
by
imposing
significant
waste
disposal
costs.
They
argued
that
the
benefits
of
handling
lead
based
paint
waste
as
a
hazardous
waste
were
outweighed
by
the
potential
risk
to
children
resulting
from
the
disincentive
the
RCRA
regulations
created
for
leadbased
paint
abatement.
They
requested
that
EPA
consider
ways
to
minimize
management
and
disposal
costs
and
provide
an
appropriate
regulatory
framework
that
would
both
accelerate
the
pace
of
lead
abatements
(
by
lowering
costs)
and
ensure
that
waste
from
such
activities
be
managed
and
disposed
of
reliably,
effectively,
and
in
a
manner
which
protects
human
health
and
the
environment.
They
further
contended
that
any
regulatory
relief
that
would
avoid
the
cost
of
managing
LBP
waste
as
a
hazardous
waste
would
allow
public
housing
authorities
to
use
cost
savings
to
perform
additional
abatements,
thus
reducing
current
and
future
exposure
of
children
to
residential
lead
based
paint.
V.
EPA's
Implementation
of
Title
X
and
Response
to
Stakeholders'
Requests
A.
1998
Proposed
Rules
In
order
to
facilitate
efforts
to
address
lead
based
paint
hazards
to
children
and
respond
to
stakeholders'
requests
for
regulatory
relief,
EPA
analyzed
waste
characterization,
laboratory
leachate,
and
the
risk
and
cost
of
disposal
for
lead
based
paint
debris.
Based
on
those
analyses,
EPA
published
two
proposals
on
December
18,
1998
the
TSCA
Proposed
Rule
(``
Management
and
Disposal
of
Lead
Based
Paint
Debris''),
and
the
RCRA
Proposed
Rule
(``
Temporary
Suspension
of
Toxicity
Characteristic
Rule
for
Specified
Lead
Based
Paint
Debris'').
The
Agency
believed
that
these
rules,
if
finalized,
would
help
reduce
the
costs
associated
with
the
management
and
disposal
of
LBP
debris,
increasing
the
number
of
LBP
abatements,
while
continuing
to
protect
human
health
and
the
environment.
1.
TSCA
Proposal
(``
Management
and
Disposal
of
Lead
Based
Paint
Debris'')
Under
the
mandate
of
Title
X
of
TSCA,
we
proposed
new
TSCA
management
and
disposal
standards
for
LBP
debris
generated
by
contractors
from
pre
1978
homes
and
public
and
commercial
buildings
(
63
FR
70190
70233,
December
18,
1998.)
These
standards
would
allow
the
disposal
of
contractor
generated
LBP
debris
in
a
variety
of
facilities,
including
construction
and
demolition
(
C&
D)
landfills.
EPA
based
the
C&
D
landfill
disposal
option
on
the
results
of
the
groundwater
risk
analysis
performed
to
support
the
proposal.
The
results
showed
that
the
potential
impact
to
groundwater
resources
from
the
disposal
of
LBP
debris
in
C&
D
landfills
would
be
negligible.
(
For
further
details,
see
``
USEPA.
June
1998,
Groundwater
Pathway
Analysis
for
Lead
Based
Paint
(
LBP)
Architectural
Debris;
Background
Document''
in
the
docket
for
today's
rule.
Also,
see
Section
VII
of
this
preamble.)
The
TSCA
proposal
has
not
been
finalized.
The
preamble
to
the
proposed
TSCA
rule
also
clarified
that
the
RCRA
Subtitle
C
household
waste
exclusion
in
40
CFR
261.4(
b)(
1)
applies
to
residential
LBP
waste
generated
by
do
ityourselfers
in
their
homes
(
see
63
FR
70241
70242).
This
clarification
remains
in
place.
2.
RCRA
Proposal
(``
Temporary
Suspension
of
Toxicity
Characteristic
Rule
for
Specified
Lead
Based
Paint
Debris'')
In
1998,
EPA
proposed
to
temporarily
suspend
the
applicability
of
the
Toxicity
Characteristic
(
TC)
rule
to
contractorgenerated
LBP
debris
that
would
be
subject
to
the
TSCA
management
and
disposal
standards
cited
above.
The
Agency
proposed
this
suspension
in
order
to
avoid
duplication
with
other
statutes
implemented
by
EPA
as
mandated
under
RCRA
Section
1006(
b)(
1).
B.
Contractor
Generated
Residential
Lead
Based
Paint
Memorandum
On
July
31,
2000,
EPA
issued
a
memorandum
clarifying
the
regulatory
status
of
waste
generated
as
a
result
of
LBP
activities
(
including
abatement,
renovation
and
remodeling,
and
rehabilitation)
in
homes
and
other
residences.
Specifically,
the
memorandum
clarified
that
contractors
can
manage
residential
LBP
waste
as
household
waste
and
thus
are
not
subject
to
RCRA
Subtitle
C
requirements.
This
means
contractors
can
dispose
residential
LBP
waste
as
household
waste
in
municipal
solid
waste
landfills
or
municipal
solid
waste
combustors,
according
to
State
and
local
requirements.
Dumping
and
open
burning
of
residential
LBP
waste
are
not
allowed.
(
See
RCRA
Sections
1008
and
4004.)
By
interpreting
residential
LBP
waste
as
a
household
waste
under
40
CFR
261.4(
b)(
1),
the
July
2000
memorandum
could
be
construed
as
allowing
land
disposal
of
LBP
waste
only
in
municipal
solid
waste
landfill
units
complying
with
the
requirements
of
40
CFR
part
258.
This
is
because
a
``
municipal
solid
waste
landfill
unit''
is
defined
in
40
CFR
258.2
as
receiving
``
household
waste.''
Therefore,
under
section
258.2,
a
C&
D
landfill
that
receives
residential
LBP
waste
could
be
deemed
to
be
receiving
household
waste
and
may
need
to
comply
with
EPA's
Municipal
Solid
Waste
Landfill
Criteria
found
in
40
CFR
part
258.
Today's
rule
is
designed
to
expressly
state
that
C&
D
landfills
can
receive
residential
LBP
waste
without
becoming
subject
to
the
requirements
for
a
MSWLF
in
part
258.
Please
note
that
the
memorandum
does
not
affect
the
regulatory
status
of
nonresidential
LBP
waste,
such
as
that
generated
during
the
abatement
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Regulations
renovation
and
remodeling
of
a
commercial
building.
In
addition,
the
memorandum
does
not
cover
residential
demolition
and
deconstruction.
EPA
does
not
consider
demolition
and
deconstruction
waste
to
be
household
waste,
since
it
is
not
similar
to
those
wastes
generated
by
a
consumer
in
the
home
in
the
course
of
daily
living.
(
For
more
information
visit,
http://
www.
epa.
gov/
lead/
hhwmemojuly00fnl
pdf
for
a
direct
link
to
the
memorandum.
See
``
Regulatory
Status
of
Waste
Generated
by
Contractors
and
Residents
from
Lead
Based
Paint
Activities
Conducted
in
Households''
by
visiting
http://
www.
epa.
gov/
lead/
fslbp.
htm,
or
call
the
RCRA
Hotline
at
1
800
424
9346.)
The
Agency
evaluated
if
and
how
to
finalize
the
1998
RCRA
and
TSCA
proposals.
EPA
decided
to
use
alternative
policy
and
regulatory
vehicles
(
i.
e.,
the
July
31,
2000
policy
memorandum
and
today's
rule)
in
order
to
expeditiously
accomplish
some
of
the
same
goals
of
the
1998
proposals
for
certain
key
noncontroversial
aspects.
The
Agency
has
no
further
plan
to
finalize
the
1998
RCRA
proposal.
VI.
What
Does
Today's
Rule
Do?
A.
Revision
to
the
Definition
of
a
Municipal
Solid
Waste
Landfill
Unit
Today's
rule
expressly
allows
construction
and
demolition
landfills
to
receive
residential
lead
based
paint
waste,
by
adding
a
statement
to
the
definition
of
MSWLF
unit.
The
definition
of
MSWLF
unit
in
40
CFR
257.2
and
258.2
is
amended
by
inserting
at
the
end
of
the
definition,
the
sentence,
``
A
construction
and
demolition
landfill
that
receives
residential
lead
based
paint
waste
and
does
not
receive
any
other
household
waste
is
not
a
MSWLF
unit.''
As
previously
explained,
the
existing
definition
of
a
MSWLF
unit
includes
language
which
states
that
a
disposal
unit
``
that
receives
household
waste''
is
a
municipal
solid
waste
landfill
unit.
This
language
can
be
construed
to
prohibit
the
disposal
of
any
household
waste
into
a
facility
that
is
not
designed
and
operated
in
conformance
with
40
CFR
part
258
regulations.
Today,
we
are
amending
the
definition
of
MSWLF
unit,
in
order
to
distinguish
residential
lead
based
paint
waste,
which
has
been
determined
to
be
a
household
waste,
from
other
types
of
household
waste,
for
purposes
of
disposal.
The
amended
definition
will
now
read,
``
Municipal
solid
waste
landfill
(
MSWLF)
unit
means
a
discrete
area
of
land
or
an
excavation
that
receives
household
waste,
and
that
is
not
a
land
application
unit,
surface
impoundment,
injection
well,
or
waste
pile,
as
those
terms
are
defined
in
this
section.
A
MSWLF
unit
also
may
continue
to
receive
other
types
of
RCRA
Subtitle
D
wastes,
such
as
commercial
solid
waste,
nonhazardous
sludge,
and
industrial
solid
waste.
Such
a
landfill
may
be
publicly
or
privately
owned.
A
MSWLF
unit
may
be
a
new
MSWLF
unit,
an
existing
MSWLF
unit
or
a
lateral
expansion.
A
construction
and
demolition
landfill
that
receives
residential
lead
based
paint
waste
and
does
not
receive
any
other
household
waste
is
not
a
MSWLF
unit.''
It
is
important
to
understand
that
today's
change
to
the
definition
of
a
municipal
solid
waste
landfill
unit
does
not
in
any
way
affect
these
disposal
units.
This
change
is
being
made
simply
to
distinguish
residential
lead
based
paint
waste
from
other
household
wastes.
Today's
amendment
does
not
alter
what
a
MSWLF
can
or
cannot
receive.
MSWLFs
can
continue
to
receive
residential
LBP
waste
as
household
waste.
Today's
rule
expressly
provides
that
an
additional
land
based
waste
disposal
option
exists
for
residential
LBP
waste.
Furthermore,
this
rule
in
no
way
affects
or
changes
the
operation
and
design
requirements
for
municipal
solid
waste
landfills
or
any
other
MSWLF
criteria.
B.
Addition
of
Construction
and
Demolition
Landfill
Definition
As
stated
above,
the
revised
definition
of
``
municipal
solid
waste
landfill
unit''
allows
a
subset
of
household
waste
residential
LBP
waste
to
be
disposed
of
in
construction
and
demolition
landfills
as
well
as
MSWLF
units.
Today's
rule
will
also
add
a
definition
of
a
construction
and
demolition
landfill
in
order
to
expressly
allow
only
C&
D
landfills,
and
no
other
types
of
land
disposal
units
that
meet
the
criteria
of
40
CFR
part
257
to
receive
this
subset
of
household
waste.
Based
on
a
groundwater
risk
analysis
used
to
support
the
TSCA
proposal,
we
believe
that
the
disposal
of
residential
LBP
debris
in
C&
D
landfills
is
appropriate
and
would
not
pose
adverse
health
risks
to
residents
living
near
C&
D
landfills.
(
For
more
information,
see
Section
VII
of
this
preamble.)
A
C&
D
landfill
will
be
defined
in
40
CFR
part
257
as
follows:
``
Construction
and
demolition
(
C&
D)
landfill
means
a
solid
waste
disposal
facility
subject
to
the
requirements
of
subparts
A
or
B
of
this
part
that
receives
construction
and
demolition
waste
and
does
not
receive
hazardous
waste
(
defined
in
§
261.3
of
this
chapter)
other
than
conditionally
exempt
small
quantity
generator
waste
(
defined
in
§
261.5
of
this
chapter),
or
industrial
solid
waste
(
defined
in
§
258.2
of
this
chapter).
A
C&
D
landfill
typically
receives
any
one
or
more
of
the
following
types
of
solid
wastes:
roadwork
material,
excavated
material,
demolition
waste,
construction/
renovation
waste,
and
site
clearance
waste.''
A
parallel
definition
is
also
being
added
to
40
CFR
part
258.
EPA
proposed
a
similar
definition
of
C&
D
landfill
in
the
TSCA
proposal,
and
received
no
germane
comments
on
the
definition
during
the
public
comment
period.
C.
Addition
of
Residential
Lead
Based
Paint
Waste
Definition
Today's
rule
adds
a
definition
of
``
residential
lead
based
paint
waste''
in
order
to
clarify
the
scope
of
the
waste
stream
addressed
by
today's
rule.
This
definition
of
residential
lead
based
paint
waste
states:
``
Residential
leadbased
paint
waste
means
waste
generated
as
a
result
of
lead
based
paint
activities
(
including
abatement,
rehabilitation,
renovation
and
remodeling)
in
homes
and
other
residences.
The
term
residential
leadbased
paint
waste
includes,
but
is
not
limited
to,
lead
based
paint
debris,
chips,
dust,
and
sludges.''
Not
included
in
the
residential
LBP
waste
definition
are
residential
LBP
demolition
and
deconstruction
waste,
and
LBP
waste
from
nonresidential
structures
such
as
public
and
commercial
buildings,
warehouses,
bridges,
water
towers,
and
transmission
towers.
In
drafting
this
definition,
we
included
these
particular
LBP
activities
because
they
are
those
limited
to
residences
and
that
could
pose
lead
hazards
to
occupants,
especially
to
children.
We
included
these
particular
waste
types
(
i.
e.,
debris,
chips,
dust,
and
sludges)
because
they
are
those
that
are
typically
generated
during
the
named
LBP
activities.
VII.
Analytic
Basis
for
Today's
Rule
The
technical
basis
for
today's
rule
is
the
analytical
data
and
groundwater
risk
analysis
used
to
support
the
1998
TSCA
proposal.
(
See
``
USEPA.
June
1998,
Groundwater
Pathway
Analysis
for
Lead
Based
Paint
(
LBP)
Architectural
Debris;
Background
Document''
in
the
docket
for
today's
rule.)
Based
on
that
data
and
analysis,
EPA
is
concluding
that
residential
LBP
waste
is
not
hazardous
household
waste
when
disposed
of
in
C&
D
landfills.
What
follows
is
a
discussion
of
that
data
and
analysis
and
how
they
support
today's
rule.
In
the
groundwater
risk
analysis
used
to
support
the
1998
TSCA
proposal,
we
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1
All
comments
and
data
received
in
response
to
the
1998
TSCA
proposal
may
be
accessed
via
Docket
Control
OPPTS
62160,
located
in
the
TSCA
Nonconfidential
Information
Center,
Rm.
NE
B607,
401
M
St.,
SW.,
Washington,
DC
20460.
The
TSCA
Nonconfidential
Information
Center
telephone
number
is
202
260
7099.
For
a
summary
of
the
comments,
especially
those
related
to
the
groundwater
risk
analysis,
see
``
Summary
of
Comments
on:
Management
and
Disposal
of
Lead
Based
Paint
Debris;
Proposed
Rule,
and
Temporary
Suspension
of
Toxicity
Characteristic
Rule
for
Specified
Lead
Based
Paint
Debris;
Proposed
Rule''
in
the
docket
for
today's
rule.
assumed
that
all
lead
based
paint
from
the
entire
pre
1978
U.
S.
housing
stock
would
be
disposed
of
in
C&
D
landfills,
and
that
the
LBP
would
be
removed
from
housing
while
it
was
still
attached
to
architectural
(
i.
e.,
building)
components
that
are
removed
during
LBP
activities.
Examples
of
architectural
components
are
doors,
window
frames,
moldings,
painted
plaster
boards,
concrete,
and
bricks.
We
assumed
that
the
components
would
be
removed
with
intact
LBP
because
we
believed
that
component
removal,
if
cost
effective,
would
be
preferred
over
paint
scraping
and
other
paint
removal
options,
since
the
latter
pose
worker
and
occupant
exposure
concerns.
This
assumption
was
necessary
due
to
the
lack
of
data
indicating
what
portion
of
pre
1978
housing
would
undergo
paint
removal
vs.
component
removal
and
what
types
and
quantities
of
LBP
waste
are
generated
at
what
frequency
from
various
residential
LBP
activities.
Also,
in
the
groundwater
analysis,
we
used
the
term
``
LBP
debris''
to
refer
to
architectural
components
with
intact
LBP.
To
estimate
lead
loading
from
residential
LBP
debris
in
C&
D
landfills
around
the
country,
we
relied
upon
the
1990
Report
to
Congress
prepared
by
the
U.
S.
Department
of
Housing
and
Urban
Development
(
HUD).
The
Report
estimated
total
quantities
of
building
components
from
pre
1978
homes
in
the
U.
S.
From
the
amount
of
painted
surfaces
per
housing
unit
reported
in
the
HUD
Report,
we
estimated
the
total
quantities
of
building
materials
with
LBP
that
would
be
disposed
of
in
the
landfills.
Then,
in
our
groundwater
risk
analysis,
we
used
leachate
data,
calculated
the
potential
lead
concentration
in
groundwater,
and
estimated
risks
from
the
disposal
of
LBP
debris
in
C&
D
landfills.
We
also
assumed
that
all
of
the
lead
from
the
LBP
debris
(
which
in
this
analysis
meant
the
equivalent
of
all
of
the
lead
in
all
of
the
lead
based
paint
from
the
entire
pre
1978
U.
S.
housing
stock)
would
eventually
end
up
in
the
leachate.
The
lead
concentration
in
C&
D
landfill
leachate
varied
depending
on
the
landfill
size.
These
lead
concentrations
served
as
inputs
to
the
groundwater
modeling
we
conducted
to
simulate
the
subsurface
movement
of
landfill
leachate
and
the
resultant
potential
contamination
of
groundwater
with
lead.
The
results
from
this
analysis
show
that
the
lead
concentration
in
groundwater
would
potentially
exceed
the
drinking
water
action
level
of
0.015
mg/
L
for
lead
in
less
than
1%
of
the
receptor
wells
in
the
vicinity
of
C&
D
landfills
receiving
LBP
debris
during
the
first
2,000
years
after
disposal.
During
the
first
10,000
years
after
disposal
of
LBP
debris,
the
drinking
water
action
level
would
be
exceeded
in
fewer
than
5%
of
the
receptor
wells.
Based
on
these
groundwater
modeling
results
and
the
general
geochemical
behavior
of
lead
in
a
subsurface
environment,
the
Agency
concluded
that,
on
a
national
scale,
the
disposal
of
LBP
debris
in
C&
D
landfills
would,
in
general,
be
protective
of
human
health
and
the
environment
at
the
95th
percentile
protection
level.
This
level
of
protectiveness
is
at
the
high
end
(
i.
e.,
most
protective)
of
the
levels
that
the
Agency
has
used
in
regulating
hazardous
wastes
under
the
RCRA
program.
(
See
63
FR
70203,
December
18,
1998.)
When
deciding
whether
to
regulate
industrial
solid
wastes
as
hazardous
wastes,
the
Agency
has
considered
a
90th
percentile
or
higher
level
as
the
appropriate
protection
level
and
so
has
not
regulated
wastes
satisfying
this
level
of
protection
as
hazardous
wastes.
Thus,
in
the
1998
TSCA
proposal,
we
concluded
that
the
disposal
of
LBP
debris
in
C&
D
landfills
is
appropriate
and
would
not
pose
adverse
health
risks
to
residents
living
near
C&
D
landfills.
Note
that
the
Agency
received
many
public
comments
addressing
various
aspects
of
the
groundwater
risk
analysis.
The
comments
were
generally
supportive
of
the
proposed
provision
to
allow
LBP
debris
to
be
disposed
of
in
C&
D
landfills
and
provided
no
data
supporting
a
contrary
decision.
1
EPA
believes
that
the
technical
basis
for
the
1998
TSCA
proposal,
as
discussed
above,
also
supports
today's
rule.
This
is
because
our
groundwater
risk
analysis
assumed
that
the
total
mass
of
lead
based
paint
from
pre
1978
U.
S.
housing
was
disposed
of
in
C&
D
landfills,
and
that
all
of
the
lead
from
that
lead
based
paint
ended
up
in
the
C&
D
landfill
leachate.
Hence,
it
was
irrelevant
to
the
results
of
the
analysis
whether
or
not
the
LBP
entered
the
C&
D
landfills
by
being
attached
to
architectural
components
(
i.
e.,
as
LBP
debris),
or
rather
did
so
in
the
form
of
other
types
of
LBP
waste,
such
as
chips,
dusts,
and
sludges.
In
conclusion,
we
have
determined
that
residential
LBP
waste
from
abatement,
rehabilitation,
renovation
and
remodeling
activities
does
not
pose
a
substantial
hazard
to
human
health
and
the
environment
when
disposed
of
in
C&
D
landfills.
The
disposal
of
residential
LBP
waste
in
C&
D
landfills
is
therefore
an
appropriate
and
legal
disposal
option.
VIII.
Other
Applicable
Federal,
State,
Tribal,
and
Local
Requirements
Today's
rule
will
not
alter
the
authority
of
State,
local
and
Tribal
governments
to
regulate
LBP
waste
more
stringently
than
does
EPA.
The
generators
of
residential
LBP
waste
should
contact
State
environmental
agencies
to
determine
if
there
are
additional
or
more
stringent
disposal
requirements
for
residential
LBP
waste.
Also,
generators
should
comply
with
applicable
HUD
and/
or
TSCA
regulations
when
addressing
residential
LBP
hazards.
IX.
How
Do
States
and
Tribes
Implement
This
Rule?
Because
today's
rule
is
less
stringent
than
existing
federal
criteria,
States
are
not
required
to
amend
permit
programs
which
have
been
determined
to
be
adequate
under
40
CFR
part
239.
States
have
the
option
to
amend
statutory
or
regulatory
definitions
pursuant
to
today's
direct
final
rule.
If
a
state
chooses
to
amend
its
permit
program
pursuant
to
today's
action,
the
State
must
notify
the
Regional
Administrator
of
the
modification
as
provided
by
40
CFR
239.12.
Today's
amendments
are
directly
applicable
to
landfills
in
States
without
an
approved
permit
program
under
Part
239
and
in
Indian
Country.
We
also
encourage
Tribes
to
adopt
today's
amendments
into
their
programs
in
order
to
promote
lead
based
paint
abatement
activities
in
homes
and
other
residences
in
Indian
Country.
X.
How
Does
This
Rule
Comply
With
Applicable
Statutes
and
Executive
Orders?
A.
Executive
Order
12866:
Regulatory
Planning
and
Review
Under
Executive
Order
12866,
EPA
must
determine
whether
a
regulatory
action
is
significant
and
therefore
subject
to
Office
of
Management
and
Budget
(
OMB)
review
and
the
other
provisions
of
the
Executive
Order.
The
Order
defines
a
significant
regulatory
action
as
one
that
is
likely
to
result
in
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/
Vol.
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No.
205
/
Tuesday,
October
23,
2001
/
Rules
and
Regulations
a
rule
that
may:
(
1)
Have
an
annual
effect
on
the
economy
of
$
100
million
or
more
or
adversely
affect
in
a
material
way
the
economy,
a
sector
of
the
economy,
productivity,
competition,
jobs,
the
environment,
public
health
or
safety,
or
State,
local,
or
tribal
governments
or
communities;
(
2)
create
a
serious
inconsistency
or
otherwise
interfere
with
an
action
taken
or
planned
by
another
agency;
(
3)
materially
alter
the
budgetary
impact
of
entitlements,
grants,
user
fees,
or
loan
programs
or
rights
and
obligations
or
recipients
thereof;
or
(
4)
raise
novel
legal
or
policy
issues
arising
out
of
legal
mandates,
the
President's
priorities,
or
the
principles
set
forth
in
Executive
Order
12866.
It
has
been
determined
that
this
rule
is
not
a
``
significant
regulatory
action''
under
the
terms
of
Executive
Order
12866
and
is
therefore
not
subject
to
OMB
review.
EPA
has
performed
a
full
economic
analysis,
``
Economic
Analysis
of
EPA's
Direct
Final
Rule
Amending
40
CFR
Part
257
and
258,''
which
is
available
in
the
docket
for
today's
rule.
The
EA
concludes
that
this
rule
will
impose
no
additional
costs
to
parties,
but
may
result
in
cost
savings
and
incremental
public
health
benefits.
The
rule
authorizes
the
disposal
of
residential
LBP
waste
in
C&
D
landfills,
where
previously,
under
the
July
31,
2000
policy
memorandum,
disposal
was
authorized
only
in
MSWLFs.
As
a
result,
EPA
believes
that,
in
those
parts
of
the
country
where
it
is
cheaper
to
transport
and
dispose
of
residential
LBP
waste
in
C&
D
landfills
compared
to
MSWLFs,
some
residential
LBP
waste
will
be
diverted
from
MSWLFs
to
C&
D
landfills.
Where
this
occurs,
generators
will
benefit
from
lower
waste
management
and
disposal
costs.
EPA
assumes
that
only
residential
LBP
waste
generators
in
the
Midwest,
Northeast,
and
South
regions
will
shift
disposal
from
MSWLFs
to
C&
D
landfills,
based
on
an
analysis
of
the
relative
costs
of
MSWLF
and
C&
D
landfill
disposal
by
region.
EPA
further
assumes
that
the
percentage
of
residential
LBP
waste
that
is
affected
is
proportional
to
the
share
of
these
three
regions
in
the
number
of
housing
units
with
LBP,
which
is
84.4
percent.
Under
these
assumptions,
an
estimated
0.87
million
tons
of
residential
LBP
waste
will
be
diverted
from
MSWLFs
to
C&
D
landfills
annually.
This
represents
0.73
percent
of
the
total
volume
of
all
waste
disposed
of
in
MSWLFs
annually.
This
shift
in
disposal
would
save
residential
LBP
waste
generators
in
the
Midwest,
Northeast,
and
South
regions
up
to
an
estimated
$
16.76
million
annually.
The
savings
accruing
to
generators
of
residential
LBP
abatement
waste
is
estimated
at
$
0.79
million
per
year,
while
the
savings
accruing
to
generators
of
residential
renovation
and
remodeling
waste
is
$
15.98
million
per
year.
EPA
estimates
that
of
the
$
0.79
million
in
savings
that
could
accrue
to
generators
of
residential
LBP
abatement
waste,
an
estimated
39.7
percent,
or
$
0.31
million,
will
be
generated
annually
in
the
public
housing
sector.
EPA
assumes
that
in
the
public
sector,
any
savings
in
residential
LBP
waste
management
and
disposal
costs
will
be
used
to
conduct
additional
LBP
abatements.
Given
an
average
cost
for
LBP
abatement
in
public
housing
units
of
$
3,650,
the
$
0.31
million
in
annual
savings
would
fund
an
additional
86
abatements
each
year.
This
ensuing
increase
in
LBP
abatement
projects
would
result
in
a
more
rapid
reduction
in
the
potential
for
exposure
to
the
hazards
of
LBP,
especially
for
children.
These
hazards
include
decreased
intelligence
(
i.
e.,
lower
IQ),
behavioral
problems,
reduced
physical
stature
and
growth,
and
impaired
hearing.
B.
Regulatory
Flexibility
Act
The
Regulatory
Flexibility
Act
(
RFA),
as
amended
by
the
Small
Business
Regulatory
Enforcement
Fairness
Act
of
1996
(
SBREFA),
5
U.
S.
C.
601
et
seq.,
generally
requires
an
agency
to
prepare
a
regulatory
flexibility
analysis
of
any
rule
subject
to
notice
and
comment
rulemaking
requirements
under
the
Administrative
Procedure
Act
or
any
other
statute
unless
the
agency
certifies
that
the
rule
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
Small
entities
include
small
businesses,
small
organizations,
and
small
governmental
jurisdictions.
For
purposes
of
assessing
the
impacts
of
today's
rule
on
small
entities,
small
entity
is
defined
as:
(
1)
A
small
business
that
meets
the
Small
Business
Administration
size
standards
established
for
industries
as
described
in
the
North
American
Industry
Classification
System
(
see
http://
www.
sba.
gov/
size/
NAICS
coverpage
html;
(
2)
a
small
governmental
jurisdiction
that
is
a
government
of
a
city,
county,
town,
school
district
or
special
district
with
a
population
of
less
than
50,000;
and
(
3)
a
small
organization
that
is
any
not
for
profit
enterprise
which
is
independently
owned
and
operated
and
is
not
dominant
in
its
field.
After
considering
the
economic
impacts
of
today's
direct
final
rule
on
small
entities,
I
certify
that
this
action
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
This
direct
final
rule
will
not
impose
any
new
requirements
on
small
entities.
The
rule
will
provide
an
additional
non
mandatory
option
for
the
disposal
of
residential
LBP
waste.
C.
Paperwork
Reduction
Act
Today's
rule
is
in
compliance
with
the
Paperwork
Reduction
Act,
44
U.
S.
C.
3501
et
seq.
This
rule
does
not
require
the
collection
of
information
from
the
States,
Federal
Agencies,
or
industry.
Therefore,
we
do
not
need
to
prepare
an
Information
Collection
Request.
D.
Unfunded
Mandates
Reform
Act
Title
II
of
the
Unfunded
Mandates
Reform
Act
of
1995
(
UMRA),
Pub.
L.
104
4,
establishes
requirements
for
Federal
agencies
to
assess
the
effects
of
regulatory
actions
on
State,
local,
and
Tribal
governments,
and
the
private
sector.
Under
Section
202
of
the
UMRA,
EPA
generally
must
prepare
a
written
statement,
including
a
cost
benefit
analysis,
for
proposed
and
final
rules
with
``
Federal
mandates''
that
may
result
in
expenditures
to
State,
local,
and
tribal
governments,
in
the
aggregate,
or
to
the
private
sector,
of
$
100
million
or
more
in
any
one
year.
Before
promulgating
an
EPA
rule
for
which
a
written
statement
is
needed,
Section
205
of
the
UMRA
generally
requires
EPA
to
identify
and
consider
a
reasonable
number
of
alternatives
and
adopt
the
least
costly,
most
cost
effective
or
least
burdensome
alternative
that
achieves
the
objective
of
the
rule.
The
provisions
of
Section
205
do
not
apply
when
they
are
inconsistent
with
applicable
law.
Moreover,
Section
205
allows
EPA
to
adopt
an
alternative
other
than
the
least
costly,
most
cost
effective
or
least
burdensome
alternative
if
the
Administrator
publishes
with
the
final
rule
an
explanation
why
that
alternative
was
not
adopted.
Before
EPA
establishes
any
regulatory
requirements
that
may
significantly
or
uniquely
affect
small
governments,
including
tribal
governments,
it
must
have
developed
under
Section
203
of
the
UMRA
a
small
government
agency
plan.
The
plan
must
provide
for
notifying
potentially
affected
small
governments,
enabling
officials
of
affected
small
governments
to
have
meaningful
and
timely
input
in
the
development
of
EPA
regulatory
proposals
with
significant
Federal
intergovernmental
mandates,
and
informing,
educating,
and
advising
small
governments
on
compliance
with
the
regulatory
requirements.
Today's
rule
contains
no
Federal
mandates
(
under
the
regulatory
provisions
of
Title
II
of
the
UMRA)
for
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Federal
Register
/
Vol.
66,
No.
205
/
Tuesday,
October
23,
2001
/
Rules
and
Regulations
State,
local,
or
tribal
governments
or
the
private
sector.
This
rule
imposes
no
enforceable
duty
on
any
State,
local
or
tribal
governments
or
the
private
sector.
Thus,
today's
rule
is
not
subject
to
the
requirements
of
sections
202
and
205
of
UMRA.
E.
Executive
Order
13132:
Federalism
Executive
Order
13132,
entitled
``
Federalism''
(
64
FR
43255,
August
10,
1999),
requires
EPA
to
develop
an
accountable
process
to
ensure
``
meaningful
and
timely
input
by
State
and
local
officials
in
the
development
of
regulatory
policies
that
have
federalism
implications.''
``
Policies
that
have
federalism
implications''
is
defined
in
the
Executive
Order
to
include
regulations
that
have
``
substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
States,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government.''
This
direct
final
rule
does
not
have
federalism
implications.
It
will
not
have
substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
States,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government,
as
specified
in
Executive
Order
13132.
As
explained
in
Section
IX
of
this
preamble,
none
of
today's
revisions
are
more
stringent
or
broaden
the
scope
of
the
existing
Federal
requirements.
Therefore,
States
are
not
required
to
adopt
the
revision
to
the
definition
of
MSWLF
unit
nor
the
additional
definitions
of
construction
and
demolition
(
C&
D)
landfill
and
residential
lead
based
paint
waste
in
today's
rule.
Thus,
Executive
Order
13132
does
not
apply
to
this
rule.
F.
Executive
Order
13175:
Consultation
and
Coordination
with
Indian
Tribal
Governments
Executive
Order
13175,
entitled
``
Consultation
and
Coordination
with
Indian
Tribal
Governments''
(
65
FR
67249,
November
6,
2000),
requires
EPA
to
develop
an
accountable
process
to
ensure
``
meaningful
and
timely
input
by
tribal
officials
in
the
development
of
regulatory
policies
that
have
tribal
implications.''
``
Policies
that
have
tribal
implications''
is
defined
in
the
Executive
Order
to
include
regulations
that
have
``
substantial
direct
effects
on
one
or
more
Indian
tribes,
on
the
relationship
between
the
Federal
government
and
the
Indian
tribes,
or
on
the
distribution
of
power
and
responsibilities
between
the
Federal
government
and
Indian
tribes.''
This
direct
final
rule
does
not
have
tribal
implications.
It
will
not
have
substantial
direct
effects
on
tribal
governments,
on
the
relationship
between
the
Federal
government
and
Indian
tribes,
or
on
the
distribution
of
power
and
responsibilities
between
the
Federal
government
and
Indian
tribes,
as
specified
in
Executive
Order
13175.
Today's
rule
expressly
provides
an
additional
option
for
disposal
of
certain
waste
applicable
in
Indian
Country,
but
does
not
create
any
mandate
on
Indian
tribal
governments.
Thus,
Executive
Order
13175
does
not
apply
to
this
rule.
G.
Executive
Order
13045:
Protection
of
Children
From
Environmental
Risks
and
Safety
Risks
Executive
Order
13045,
``
Protection
of
Children
from
Environmental
Health
Risks
and
Safety
Risks''
applies
to
any
rule
that:
(
1)
Is
determined
to
be
``
economically
significant''
as
defined
under
Executive
Order
12866,
and
(
2)
concerns
an
environmental
health
or
safety
risk
that
EPA
has
reason
to
believe
may
have
a
disproportionate
effect
on
children.
If
the
regulatory
action
meets
both
criteria,
the
Agency
must
evaluate
the
environmental
health
or
safety
effects
of
the
planned
rule
on
children,
and
explain
why
the
planned
regulation
is
preferable
to
other
potentially
effective
and
reasonably
feasible
alternatives
considered
by
the
Agency.
This
rule
is
not
subject
to
Executive
Order
13045
because
it
is
not
an
economically
significant
rule
as
defined
by
Executive
Order
12866.
However,
this
rule
will
affect
decisions
involving
the
environmental
health
or
safety
risks
to
children.
It
will
benefit
children
by
allowing
environmentally
protective
disposal
of
residential
lead
based
paint
waste
in
C&
D
landfills,
which
is
less
costly
than
disposal
in
MSWLFs
in
certain
areas
of
the
U.
S.,
therefore
reducing
the
cost
of
lead
abatements.
Reducing
the
cost
of
LBP
abatements
will
also
reduce
the
amount
of
time
needed
to
complete
abatements
in
public
housing.
Lower
abatement
costs
may
increase
the
amount
of
private
homes
undergoing
abatements.
By
reducing
costs
associated
with
the
disposal
of
LBP
waste,
the
Agency
believes
that
the
number
of
abatements
may
marginally
increase,
thus
resulting
in
a
reduction
of
the
number
of
children
exposed
to
LBP.
H.
National
Technology
Transfer
and
Advancement
Act
of
1995
Section
12(
d)
of
the
National
Technology
Transfer
and
Advancement
Act
of
1995
(
NTTAA),
Pub
L.
No.
104
113,
12(
d)
(
15
U.
S.
C.
272
note)
directs
us
to
use
voluntary
consensus
standards
in
our
regulatory
activities
unless
to
do
so
would
be
inconsistent
with
applicable
law
or
otherwise
impractical.
Voluntary
consensus
standards
are
technical
standards
(
for
example,
materials
specifications,
test
methods,
sampling
procedures,
and
business
practices)
that
are
developed
or
adopted
by
voluntary
consensus
standards
bodies.
The
NTTAA
directs
EPA
to
provide
Congress,
through
OMB,
explanations
when
we
decide
not
to
use
available
and
applicable
voluntary
consensus
standards.
Today's
rule
does
not
involve
technical
standards,
voluntary
or
otherwise.
Therefore,
the
NTTAA
does
not
apply
to
today's
rule.
I.
Executive
Order
12898:
Environmental
Justice
Strategy
Under
Executive
Order
12898,
``
Federal
Actions
to
Address
Environmental
Justice
in
Minority
Populations
and
Low
Income
Populations,''
as
well
as
through
EPA's
April
1995,
``
Environmental
Justice
Strategy,
OSWER
Environmental
Justice
Task
Force
Action
Agenda
Report,''
and
National
Environmental
Justice
Advisory
Council,
EPA
has
undertaken
to
incorporate
environmental
justice
into
its
policies
and
programs.
EPA
is
committed
to
addressing
environmental
justice
concerns,
and
is
assuming
a
leadership
role
in
environmental
justice
initiatives
to
enhance
environmental
quality
for
all
residents
of
the
United
States.
The
Agency's
goals
are
to
ensure
that
no
segment
of
the
population,
regardless
of
race,
color,
national
origin,
or
income,
bears
disproportionately
high
and
adverse
human
health
and
environmental
effects
as
a
result
of
EPA's
policies,
programs,
and
activities.
Today's
rule
is
not
expected
to
negatively
impact
any
community,
and
therefore
is
not
expected
to
cause
any
disproportionately
high
and
adverse
impacts
to
minority
or
low
income
communities
versus
non
minority
or
affluent
communities.
On
the
contrary,
since
the
rule
will
reduce
the
cost
of
performing
LBP
abatements
in
certain
regions
of
the
U.
S.,
EPA
assumes
that
the
savings
will
afford
public
housing
authorities,
in
particular,
the
opportunity
to
conduct
additional
abatements
of
LBP
hazards
in
affected
housing
units.
Tenants
of
public
housing
units
are
possibly
more
likely
to
be
minority
and
lower
income
households,
and
the
rule
should
have
the
effect
of
providing
a
differential
benefit
to
such
populations.
J.
Congressional
Review
Act
The
Congressional
Review
Act,
5
U.
S.
C.
801
et
seq.,
as
added
by
the
Small
Business
Regulatory
Enforcement
Fairness
Act
of
1996,
generally
provides
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Federal
Register
/
Vol.
66,
No.
205
/
Tuesday,
October
23,
2001
/
Rules
and
Regulations
that,
before
a
rule
may
take
effect,
the
agency
promulgating
the
rule
must
submit
a
rule
report,
which
includes
a
copy
of
the
rule,
to
each
House
of
the
Congress
and
to
the
Comptroller
General
of
the
United
States.
EPA
will
submit
a
report
containing
this
rule
and
other
required
information
to
the
U.
S.
Senate,
the
U.
S.
House
of
Representatives,
and
the
Comptroller
General
of
the
United
States
prior
to
publication
of
the
rule
in
the
Federal
Register.
A
major
rule
cannot
take
effect
until
60
days
after
it
is
published
in
the
Federal
Register.
This
action
is
not
a
``
major
rule''
as
defined
by
5
U.
S.
C.
804(
2).
This
rule
will
be
effective
[
January
22,
2002].
K.
Executive
Order
13211:
Energy
Effects
This
rule
is
not
subject
to
Executive
Order
13211,
``
Actions
Concerning
Regulations
That
Significantly
Affect
Energy
Supply,
Distribution,
or
Use''
(
66
FR
28355
(
May
22,
2001))
because
it
is
not
a
significant
regulatory
action
under
Executive
Order
12866.
List
of
Subjects
40
CFR
Part
257
Environmental
protection,
Waste
treatment
and
disposal.
40
CFR
Part
258
Environmental
protection,
Reporting
and
recordkeeping
requirements,
Waste
treatment
and
disposal,
Water
pollution
control.
Dated:
September
28,
2001.
Christine
Todd
Whitman,
Administrator.
For
reasons
set
out
in
the
preamble,
title
40,
chapter
I
of
the
Code
of
Federal
Regulations
is
amended
as
follows:
PART
257
[
AMENDED]
1.
The
authority
citation
for
part
257
is
revised
to
read
as
follows:
Authority:
42
U.
S.
C.
6907(
a)(
3),
6912(
a)(
1),
6944(
a),
and
6949a(
c);
33
U.
S.
C.
1345(
d)
and
(
e).
2.
Section
257.2
is
amended:
a.
By
adding
in
alphabetical
order
the
definitions
for
``
Construction
and
demolition
(
C&
D)
landfill''
and
``
Residential
lead
based
paint
waste''.
b.
By
revising
the
definition
of
``
Municipal
solid
waste
landfill
(
MSWLF)
unit''.
The
revision
and
additions
read
as
follows:
§
257.2
Definitions.
*
*
*
*
*
Construction
and
demolition
(
C&
D)
landfill
means
a
solid
waste
disposal
facility
subject
to
the
requirements
of
subparts
A
or
B
of
this
part
that
receives
construction
and
demolition
waste
and
does
not
receive
hazardous
waste
(
defined
in
§
261.3
of
this
chapter)
other
than
conditionally
exempt
small
quantity
generator
waste
(
defined
in
§
261.5
of
this
chapter),
or
industrial
solid
waste
(
defined
in
§
258.2
of
this
chapter).
A
C&
D
landfill
typically
receives
any
one
or
more
of
the
following
types
of
solid
wastes:
roadwork
material,
excavated
material,
demolition
waste,
construction/
renovation
waste,
and
site
clearance
waste.
*
*
*
*
*
Municipal
solid
waste
landfill
(
MSWLF)
unit
means
a
discrete
area
of
land
or
an
excavation
that
receives
household
waste,
and
that
is
not
a
land
application
unit,
surface
impoundment,
injection
well,
or
waste
pile,
as
those
terms
are
defined
in
this
section.
A
MSWLF
unit
also
may
receive
other
types
of
RCRA
Subtitle
D
wastes,
such
as
commercial
solid
waste,
nonhazardous
sludge,
and
industrial
solid
waste.
Such
a
landfill
may
be
publicly
or
privately
owned.
A
MSWLF
unit
may
be
a
new
MSWLF
unit,
an
existing
MSWLF
unit
or
a
lateral
expansion.
A
construction
and
demolition
landfill
that
receives
residential
lead
based
paint
waste
and
does
not
receive
any
other
household
waste
is
not
a
MSWLF
unit.
*
*
*
*
*
Residential
lead
based
paint
waste
means
waste
generated
as
a
result
of
lead
based
paint
activities
(
including
abatement,
rehabilitation,
renovation
and
remodeling)
in
homes
and
other
residences.
The
term
residential
leadbased
paint
waste
includes,
but
is
not
limited
to,
lead
based
paint
debris,
chips,
dust,
and
sludges.
*
*
*
*
*
PART
258
[
AMENDED]
1.
The
authority
citation
for
part
258
continues
to
read
as
follows:
Authority:
33
U.
S.
C.
1345(
d)
and
(
e);
42
U.
S.
C.
6902(
a),
6907,
6912(
a),
6944,
6945(
c)
and
6949a(
c).
2.
Section
258.2
is
amended:
a.
By
adding
in
alphabetical
order
the
definitions
for
``
Construction
and
demolition
(
C&
D)
landfill''
and
``
Residential
lead
based
paint
waste''.
b.
By
revising
the
definition
of
``
Municipal
solid
waste
landfill
(
MSWLF)
unit''
.
The
revision
and
additions
read
as
follows:
§
258.2
Definitions.
*
*
*
*
*
Construction
and
demolition
(
C&
D)
landfill
means
a
solid
waste
disposal
facility
subject
to
the
requirements
of
part
257,
subparts
A
or
B
of
this
chapter
that
receives
construction
and
demolition
waste
and
does
not
receive
hazardous
waste
(
defined
in
§
261.3
of
this
chapter)
other
than
conditionally
exempt
small
quantity
generator
waste,
(
defined
in
§
261.5
of
this
chapter),
or
industrial
solid
waste
(
defined
in
this
section).
A
C&
D
landfill
typically
receives
any
one
or
more
of
the
following
types
of
solid
wastes:
roadwork
material,
excavated
material,
demolition
waste,
construction/
renovation
waste,
and
site
clearance
waste.
*
*
*
*
*
Municipal
solid
waste
landfill
(
MSWLF)
unit
means
a
discrete
area
of
land
or
an
excavation
that
receives
household
waste,
and
that
is
not
a
land
application
unit,
surface
impoundment,
injection
well,
or
waste
pile,
as
those
terms
are
defined
under
§
257.2
of
this
chapter.
A
MSWLF
unit
also
may
receive
other
types
of
RCRA
Subtitle
D
wastes,
such
as
commercial
solid
waste,
nonhazardous
sludge,
and
industrial
solid
waste.
Such
a
landfill
may
be
publicly
or
privately
owned.
A
MSWLF
unit
may
be
a
new
MSWLF
unit,
an
existing
MSWLF
unit
or
a
lateral
expansion.
A
construction
and
demolition
landfill
that
receives
residential
lead
based
paint
waste
and
does
not
receive
any
other
household
waste
is
not
a
MSWLF
unit.
*
*
*
*
*
Residential
lead
based
paint
waste
means
waste
generated
as
a
result
of
lead
based
paint
activities
(
including
abatement,
rehabilitation,
renovation
and
remodeling)
in
homes
and
other
residences.
The
term
residential
leadbased
paint
waste
includes,
but
is
not
limited
to,
lead
based
paint
debris,
chips,
dust,
and
sludges.
*
*
*
*
*
[
FR
Doc.
01
26094
Filed
10
22
01;
8:
45
am]
BILLING
CODE
6560
50
P
DEPARTMENT
OF
TRANSPORTATION
Coast
Guard
46
CFR
Part
126
[
USCG
2001
10164]
RIN
2115
AG17
Alternate
Compliance
Program;
Incorporation
of
Offshore
Supply
Vessels
AGENCY:
Coast
Guard,
DOT.
ACTION:
Direct
final
rule;
request
for
comments.
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| epa | 2024-06-07T20:31:35.052243 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0017-0001/content.txt"
} |
EPA-HQ-RCRA-2001-0022-0782 | Proposed Rule | 2001-01-19T05:00:00 | FEDERAL REGISTER: HAZARDOUS WASTE MANAGEMENT SYSTEM; IDENTIFICATION
AND LISTING OF HAZARDOUS WASTE: INORGANIC CHEMICAL MANUFACTURING
WASTES; LAND DISPOSAL RESTRICTIONS FOR NEWLY IDENTIFIED WASTES; AND
CERCLA HAZARDOUS SUBSTANCE DESIGNATION AND RE | Thursday,
September
14,
2000
Part
II
Environmental
Protection
Agency
40
CFR
Part
148
et
al.
Hazardous
Waste
Management
System;
Identification
and
Listing
of
Hazardous
Waste:
Inorganic
Chemical
Manufacturing
Wastes;
Land
Disposal
Restrictions
for
Newly
Identified
Wastes;
and
CERCLA
Hazardous
Substance
Designation
and
Reportable
Quantities;
Proposed
Rule
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Parts
148,
261,
268,
271,
and
302
[SWH±
FRL±
6864±
5]
RIN
2050±
AE49
Hazardous
Waste
Management
System;
Identification
and
Listing
of
Hazardous
Waste:
Inorganic
Chemical
Manufacturing
Wastes;
Land
Disposal
Restrictions
for
Newly
Identified
Wastes;
and
CERCLA
Hazardous
Substance
Designation
and
Reportable
Quantities
AGENCY:
Environmental
Protection
Agency.
ACTION:
Proposed
rule.
SUMMARY:
The
Environmental
Protection
Agency
(EPA)
proposes
to
amend
the
regulations
for
hazardous
waste
management
under
the
Resource
Conservation
and
Recovery
Act
(RCRA)
by
listing
as
hazardous
three
wastes
generated
from
inorganic
chemical
manufacturing
processes.
We
also
propose
not
to
list
as
hazardous
various
other
process
wastes.
This
action
proposes
to
add
the
toxic
constituents
found
in
the
wastes
to
the
list
of
constituents
that
serves
as
the
basis
for
classifying
wastes
as
hazardous,
and
to
establish
treatment
standards
for
the
wastes.
The
effect
of
this
proposed
regulation
would
be
to
subject
the
wastes
to
stringent
management
and
treatment
standards
under
Subtitle
C
of
RCRA.
Additionally,
this
action
proposes
to
designate
the
wastes
proposed
for
listing
as
hazardous
substances
subject
to
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act
(CERCLA)
and
to
adjust
the
onepound
statutory
reportable
quantities
(RQs)
for
some
of
these
substances.
DATES:
EPA
will
accept
public
comments
on
this
proposed
rule
until
November
13,
2000.
Comments
postmarked
after
this
date
will
be
marked
``
late''
and
may
not
be
considered.
Any
person
may
request
a
public
hearing
on
this
proposal
by
filing
a
request
with
Mr.
David
Bussard
by
September
28,
2000.
ADDRESSES:
If
you
wish
to
comment
on
this
proposed
rule,
you
must
send
an
original
and
two
copies
of
the
comments
referencing
docket
number
F±
2000±
ICMP±
FFFFF
to:
RCRA
Information
Center,
Office
of
Solid
Waste
(5305G),
U.
S.
Environmental
Protection
Agency
Headquarters,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460.
Hand
deliveries
of
comments
should
be
made
to
RCRA
Information
Center,
Crystal
Gateway
I,
First
Floor,
1235
Jefferson
Davis
Highway,
Arlington,
VA.
You
also
may
submit
comments
electronically
by
sending
electronic
mail
through
the
Internet
to:
rcradocket@
epamail.
epa.
gov.
You
should
identify
comments
in
electronic
format
with
the
docket
number
F±
2000±
ICMP±
FFFFF.
You
must
submit
all
electronic
comments
as
an
ASCII
(text)
file,
avoiding
the
use
of
special
characters
and
any
form
of
encryption.
Address
requests
for
a
hearing
to
Mr.
David
Bussard
at:
Office
of
Solid
Waste,
Hazardous
Waste
Identification
Division
(5304W),
U.
S.
Environmental
Protection
Agency,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460,
(703)
308±
8880.
FOR
FURTHER
INFORMATION
CONTACT:
For
general
information,
contact
the
RCRA/
Superfund
Hotline
at
(800)
424±
9346
or
TDD
(800)
553±
7672
(hearing
impaired).
In
the
Washington,
D.
C.,
metropolitan
area,
call
(703)
920±
9810
or
TDD
(703)
412±
3323.
For
specific
aspects
of
the
rule,
contact
Ms.
Gwen
DiPietro,
Office
of
Solid
Waste
(5304W),
U.
S.
Environmental
Protection
Agency,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.,
20460.
[E
mail
addressee
and
telephone
number:
dipietro.
gwen@
epa.
gov
(703±
308±
8285).]
For
technical
information
on
the
CERCLA
aspects
of
this
rule,
contact
Ms.
Lynn
Beasley,
Office
of
Emergency
and
Remedial
Response,
Analytical
Operations
and
Data
Quality
Center
(5204G),
U.
S.
Environmental
Protection
Agency,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460,
[E
mail
address
and
telephone
number:
beasley.
lynn@
epa.
gov
(703±
603±
9086).]
SUPPLEMENTARY
INFORMATION:
If
you
do
not
submit
comments
electronically,
we
ask
you
to
voluntarily
submit
one
additional
copy
of
your
comments
on
labeled
personal
computer
diskettes
in
ASCII
(text)
format
or
a
word
processing
format
that
can
be
converted
to
ASCII
(text).
It
is
essential
to
specify
on
the
disk
label
the
word
processing
software
and
version/
edition
as
well
as
your
name.
This
will
allow
us
to
convert
the
comments
into
one
of
the
word
processing
formats
we
utilize.
Please
use
mailing
envelopes
designed
to
physically
protect
the
submitted
diskettes.
We
emphasize
that
submission
of
comments
on
diskettes
is
not
mandatory
nor
will
it
result
in
any
advantage
or
disadvantage
to
any
commenter.
You
should
not
submit
electronically
any
confidential
business
information
(CBI).
You
must
submit
an
original
and
two
copies
of
CBI
under
separate
cover
to:
RCRA
CBI
Document
Control
Officer,
Office
of
Solid
Waste
(5305W),
U.
S.
EPA,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460.
Any
CBI
data
should
be
specifically
and
clearly
marked.
In
addition,
please
submit
a
non
CBI
version
of
your
comments
for
inclusion
in
the
public
record.
Supporting
documents
in
the
docket
for
this
proposal
are
also
available
in
electronic
format
on
the
Internet:
<http:/
/www.
epa.
gov/
epaoswer/
hazwaste/
id/
inorchem/
pr2000.
htm>.
We
will
keep
the
official
record
for
this
action
in
paper
form.
Accordingly,
we
will
transfer
all
comments
received
electronically
into
paper
form
and
place
them
in
the
official
record,
which
also
will
include
all
comments
submitted
directly
in
writing.
The
official
record
is
the
paper
record
maintained
at
the
RCRA
Information
Center,
also
referred
to
as
the
Docket.
Our
responses
to
comments,
whether
the
comments
are
written
or
electronic,
will
be
in
a
notice
in
the
Federal
Register
or
in
a
response
to
comments
document
placed
in
the
official
record
for
this
rulemaking.
We
will
not
immediately
reply
to
commenters
electronically
other
than
to
seek
clarification
of
electronic
comments
that
may
be
corrupted
in
transmission
or
during
conversion
to
paper
form,
as
discussed
above.
You
may
view
public
comments
and
supporting
materials
in
the
RCRA
Information
Center
(RIC),
located
at
Crystal
Gateway
I,
First
Floor,
1235
Jefferson
Davis
Highway,
Arlington,
VA.
The
RIC
is
open
from
9
a.
m.
to
4
p.
m.,
Monday
through
Friday,
excluding
federal
holidays.
To
review
docket
materials,
we
recommend
that
you
make
an
appointment
by
calling
703±
603±
9230.
You
may
copy
a
maximum
of
100
pages
from
any
regulatory
docket
at
no
charge.
Additional
copies
cost
$0.15/
page.
Customer
Service
How
Can
I
Influence
EPA's
Thinking
on
This
Proposed
Rule?
In
developing
this
proposal,
we
tried
to
address
the
concerns
of
all
our
stakeholders.
Your
comments
will
help
us
improve
this
rule.
We
invite
you
to
provide
your
comments
on
all
data,
assumptions
and
methodologies
used
to
support
our
proposal,
your
views
on
options
we
have
proposed,
your
ideas
on
new
approaches
we
have
not
considered,
any
new
data
you
may
have,
your
views
on
how
this
rule
may
affect
you,
and
other
relevant
information.
Your
comments
must
be
submitted
by
the
deadline
in
this
proposal.
Your
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
comments
will
be
most
effective
if
you
follow
the
suggestions
below:
·
Explain
your
views
as
clearly
as
possible
and
provide
a
summary
of
the
reasoning
you
used
to
arrive
at
your
conclusions.
Provide
examples
to
illustrate
your
views
wherever
possible.
·
Provide
solid
technical
data
to
support
your
views.
·
If
you
estimate
potential
costs,
explain
how
you
arrived
at
your
estimate.
·
Tell
us
which
parts
of
this
proposal
you
support,
as
well
as
which
parts
you
disagree
with.
·
Offer
specific
alternatives.
·
Reference
your
comments
to
specific
sections
of
the
proposal
by
using
section
titles
or
page
numbers
of
the
preamble
or
the
regulatory
citations.
·
Clearly
label
any
CBI
submitted
as
part
of
your
comments.
·
Include
your
name,
date,
and
docket
number
with
your
comments.
Contents
of
This
Proposed
Rule
I.
Overview
A.
Who
Potentially
Will
be
Affected
by
this
Proposed
Rule?
B.
Why
Does
this
Rule
Read
Differently
from
Other
Listing
Rules?
C.
What
are
the
Statutory
Authorities
for
this
Proposed
Rule?
II.
Background
A.
How
Does
EPA
Define
a
Hazardous
Waste?
B.
How
Does
EPA
Regulate
RCRA
Hazardous
Wastes?
C.
What
is
the
Consent
Decree
Schedule
for
and
Scope
of
this
Proposal?
III.
Approach
Used
in
this
Proposed
Listing
A.
Summary
of
Today's
Action
B.
What
Wastes
Associated
with
the
14
Sectors
Are
Outside
the
Scope
of
the
Consent
Decree?
1.
Mineral
processing
wastes
exempt
under
the
``
Bevill''
exemptions
2.
Residuals
used
or
reused
in
different
industrial
processes
3.
Debris
and
other
nonprocess
wastes
C.
What
Information
Did
EPA
Collect
and
Use?
1.
The
RCRA
Section
3007
Survey
2.
Field
work:
site
visits,
sampling
and
analysis
3.
Other
sources
D.
How
Did
EPA
Evaluate
Wastes
for
Listing
Determinations?
1.
Listing
policy
2.
Characteristic
hazardous
waste
3.
Evaluations
of
particular
units
and
pathways
of
release
4.
Evaluation
of
Secondary
Materials
E.
Description
of
Risk
Assessment
Approaches
1.
What
risk
thresholds
were
used?
2.
What
leaching
procedures
were
used?
3.
How
were
wastes
screened
to
determine
if
further
assessment
was
needed?
4.
How
was
the
groundwater
pathway
evaluated?
5.
How
was
the
surface
water
pathway
evaluated?
6.
What
are
the
limitations
and
uncertainties
of
the
assessment?
F.
Sector
specific
Listing
Determination
Rationales
1.
Antimony
oxide
2.
Barium
carbonate
3.
Boric
acid
4.
Cadmium
pigments
5.
Inorganic
hydrogen
cyanide
6.
Phenyl
mercuric
acetate
7.
Phosphoric
acid
from
the
dry
process
8.
Phosphorus
pentasulfide
9.
Phosphorus
trichloride
10.
Potassium
dichromate
11.
Sodium
chlorate
12.
Sodium
dichromate
13.
Sodium
phosphate
from
wet
process
phosphoric
acid
14.
Titanium
dioxide
G.
What
is
the
Status
of
Landfill
Leachate
from
Previously
Disposed
Wastes?
IV.
Proposed
Treatment
Standards
Under
RCRA's
Land
Disposal
Restrictions
A.
What
are
EPA's
Land
Disposal
Restrictions
(LDRs)?
B.
What
are
the
treatment
standards
for
K176
(baghouse
filters
from
production
of
antimony
oxide)
C.
What
standards
are
the
treatment
standards
for
K177
(slag
from
the
production
of
antimony
oxide
that
is
disposed
of
or
speculatively
accumulated)?
D.
What
are
the
treatment
standards
for
K178
(nonwastewaters
from
the
production
of
titanium
dioxide
by
the
chloride
ilmenite
process)?
E.
What
Other
LDR
Provisions
Are
Proposed
to
Apply?
1.
Debris
2.
Soil
3.
Underground
Injection
Wells
that
can
be
found
in
the
administrative
record
for
this
rule
F.
Is
There
Treatment
Capacity
for
the
Proposed
Wastes?
1.
What
Is
a
Capacity
Determination?
2.
What
are
the
Capacity
Analysis
Results?
V.
Compliance
Dates
A.
Notification
B.
Interim
Status
and
Permitted
Facilities
VI.
State
Authority
A.
Applicability
of
Rule
in
Authorized
States
B.
Effect
on
State
Authorizations
VII.
Designation
of
Inorganic
Chemical
Wastes
under
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act
(CERCLA)
A.
Reporting
Requirements
B.
Basis
for
Proposed
RQ
Adjustment
VIII.
Administrative
Assessments
A.
Executive
Order
12866
1.
Methodology
Section
2.
Results
B.
Regulatory
Flexibility
Act
(RFA),
as
amended
by
the
Small
Business
Regulatory
Enforcement
Fairness
Act
of
1996
(SBREFA),
5
U.
S.
C.
601
et
seq.
C.
Paperwork
Reduction
Act
D.
Unfunded
Mandates
Reform
Act
E.
Executive
Order
12898:
Environmental
Justice
F.
Executive
Order
13045
:
Protection
of
Children
From
Environmental
Health
Risks
and
Safety
Risks
G.
Executive
Order
13084:
Consultation
and
Coordination
With
Indian
Tribal
Governments
H.
Executive
Order
13132:
Federalism
I.
National
Technology
Transfer
and
Advancement
Act
I.
Overview
A.
Who
Potentially
Will
Be
Affected
by
This
Proposed
Rule?
Beginning
January
1,
1999
all
documents
related
to
EPA's
regulatory,
compliance
and
enforcement
activities,
including
rules,
policies,
interpretive
guidance,
and
site
specific
determinations
with
broad
application,
should
properly
identify
the
regulated
entities,
including
descriptions
that
correspond
to
the
applicable
SIC
codes
or
NAICS
codes
(source:
October
9,
1998
USEPA
memo
from
Peter
D.
Robertson,
Acting
Deputy
Administrator
of
USEPA).
Today's
action,
if
finalized,
could
potentially
affect
those
who
handle
the
wastes
that
we
are
proposing
to
add
to
EPA's
list
of
hazardous
wastes
under
the
RCRA
program.
This
action
also
may
affect
entities
that
may
need
to
respond
to
releases
of
these
wastes
as
CERCLA
hazardous
substances.
These
potentially
affected
entities
are
described
in
the
Economics
Background
Document
placed
in
the
docket
in
support
of
today's
proposed
rule.
A
summary
is
shown
in
the
table
below.
SUMMARY
OF
FACILITIES
POTENTIALLY
AFFECTED
BY
THE
USEPA'S
2000
INORGANIC
CHEMICAL
MANUFACTURING
WASTE
LISTING
PROPOSAL
Item
SIC
code
Industry
sector
name
Number
of
U.
S.
relevant
inorganic
mfg.
facilities
1
........................
2816
Inorganic
Pigments
...................................................................................................................
3
1
........................
2819
Industrial
Inorganic
Chemicals,
not
elsewhere
classified
.........................................................
3
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
The
list
of
potentially
affected
entities
in
the
above
table
may
not
be
exhaustive.
Our
aim
is
to
provide
a
guide
for
readers
regarding
entities
likely
to
be
regulated
by
this
action.
This
table
lists
those
entities
that
we
are
aware
potentially
could
be
affected
by
this
action.
However,
this
action
may
affect
other
entities
not
listed
in
the
table.
To
determine
whether
your
facility
is
regulated
by
this
action,
you
should
examine
40
CFR
Parts
260
and
261
carefully
in
concert
with
the
proposed
rules
amending
RCRA
that
are
found
at
the
end
of
this
Federal
Register
document.
If
you
have
questions
regarding
the
applicability
of
this
action
to
a
particular
entity,
consult
the
person
listed
in
the
preceding
section
entitled
FOR
FURTHER
INFORMATION
CONTACT.
B.
Why
Does
This
Rule
Read
Differently
From
Other
Listing
Rules?
Today's
proposed
listing
determination
preamble
and
regulations
are
written
in
``
readable
regulations''
format.
The
authors
tried
to
use
active
rather
than
passive
voice,
plain
language,
a
question
and
answer
format,
the
pronouns
``
we''
for
EPA
and
``
you''
for
the
owner/
generator,
and
other
techniques
to
make
the
information
in
today's
rule
easier
to
read
and
understand.
This
new
format
is
part
of
our
efforts
toward
regulatory
reinvention
and
it
makes
today's
rule
read
differently
from
other
listing
rules.
We
believe
that
this
new
format
will
help
readers
understand
the
regulations,
which
should
then
increase
compliance,
make
enforcement
easier,
and
foster
better
relationships
between
EPA
and
the
regulated
community.
C.
What
Are
the
Statutory
Authorities
for
This
Proposed
Rule?
These
regulations
are
proposed
under
the
authority
of
Sections
2002(
a),
3001(
b),
3001(
e)(
2),
3004(
d)±(
m)
and
3007(
a)
of
the
Solid
Waste
Disposal
Act,
42
U.
S.
C.
6912(
a),
6921(
b)
and
(e)(
2),
6924(
d)±(
m)
and
6927(
a),
as
amended
several
times,
most
importantly
by
the
Hazardous
and
Solid
Waste
Amendments
of
1984
(HSWA).
These
statutes
commonly
are
referred
to
as
the
Resource
Conservation
and
Recovery
Act
(RCRA),
and
are
codified
at
Volume
42
of
the
United
States
Code
(U.
S.
C.),
Sections
6901
to
6992(
k)
(42
U.
S.
C.
6901±
6992(
k)).
Section
102(
a)
of
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act
of
1980
(CERCLA),
42
U.
S.
C.
9602(
a)
is
the
authority
under
which
the
CERCLA
aspects
of
this
rule
are
proposed.
II.
Background
A.
How
Does
EPA
Define
a
Hazardous
Waste?
Section
3001
of
RCRA
and
EPA's
regulations
establish
two
ways
of
identifying
wastes
as
hazardous
under
RCRA.
A
waste
may
be
hazardous
either
if
it
exhibits
certain
properties
(called
``
characteristics'')
which
pose
threats
to
human
health
and
the
environment,
or
if
it
is
included
on
a
specific
list
of
wastes
EPA
has
evaluated
and
found
to
pose
unacceptable
risks.
EPA's
regulations
in
the
Code
of
Federal
Regulations
(CFR)
define
four
hazardous
characteristics:
ignitability,
corrosivity,
reactivity,
or
toxicity.
(See
40
CFR
261.21
through
261.24.)
As
a
generator,
you
must
determine
whether
or
not
a
waste
exhibits
any
of
these
characteristics
by
testing
the
material
or
by
using
your
knowledge
of
the
process
that
produced
the
waste.
(See
40
CFR
262.11(
c).)
EPA
may
also
conduct
a
more
specific
assessment
of
a
waste
or
category
of
wastes
and
``
list''
them
if
they
meet
criteria
set
out
in
40
CFR
261.11.
As
described
in
40
CFR
261.11,
we
may
list
a
waste
as
hazardous
if
it:
ÐExhibits
any
of
the
characteristics
noted
above
,
i.
e.,
ignitability,
corrosivity,
reactivity,
or
toxicity
(261.11(
a)(
1));
ÐIs
``
acutely''
hazardous,
i.
e.,
if
they
are
fatal
to
humans
or
in
animal
studies
at
low
doses,
or
otherwise
capable
of
causing
or
significantly
contributing
to
an
increase
in
serious
illness
(261.11(
a)(
2));
or
ÐIs
capable
of
posing
a
substantial
present
or
potential
hazard
to
human
health
or
the
environment
when
improperly
managed
(261.11(
a)(
3)).
Under
the
third
criterion
at
40
CFR
261.11(
a)(
3),
we
may
decide
to
list
a
waste
as
hazardous
(1)
if
it
contains
hazardous
constituents
identified
in
Appendix
VIII
to
40
CFR
Part
261,
and
(2)
if,
after
considering
the
factors
noted
in
this
section
of
the
regulations,
we
``
conclude
that
the
waste
is
capable
of
posing
a
substantial
present
or
potential
hazard
to
human
health
or
the
environment
when
improperly
treated,
stored,
transported,
or
disposed
of,
or
otherwise
managed.
''
We
place
a
chemical
on
the
list
of
hazardous
constituents
on
Appendix
VIII
only
if
scientific
studies
have
shown
a
chemical
has
toxic
effects
on
humans
or
other
life
forms.
When
listing
a
waste,
we
also
add
the
hazardous
constituents
that
serve
as
the
basis
for
listing
to
Appendix
VII
to
part
261.
Residuals
from
the
treatment,
storage,
or
disposal
of
most
listed
hazardous
wastes
are
also
classified
as
hazardous
wastes
based
on
the
``
derived
from''
rule
(see
40
CFR
261.3(
c)(
2)(
i)).
For
example,
ash
or
other
residuals
from
the
treatment
of
a
listed
waste
generally
carries
the
original
hazardous
waste
code
and
is
subject
to
the
hazardous
waste
regulations.
Also,
the
``
mixture''
rule
(see
40
CFR
261.3(
a)(
2)(
iii)
and
(iv))
provides
that,
with
certain
limited
exceptions,
any
mixture
of
a
listed
hazardous
waste
and
a
solid
waste
is
itself
a
RCRA
hazardous
waste.
Some
materials
that
would
otherwise
be
classified
as
hazardous
wastes
under
the
rules
described
above
are
excluded
from
jurisdiction
under
RCRA
if
they
are
recycled
in
certain
ways.
The
current
definition
of
solid
waste
at
40
CFR
261.2
excludes
secondary
materials
from
the
definition
of
solid
waste
that
are
used
directly
(i.
e.,
without
reclamation)
as
ingredients
in
manufacturing
processes
to
make
new
products,
used
directly
as
effective
substitutes
for
commercial
products,
or
returned
directly
to
the
original
process
from
which
they
are
generated
as
a
substitute
for
raw
material
feedstock.
(See
40
CFR
261.2(
e).)
As
discussed
in
the
January
4,
1985,
rulemaking
that
promulgated
this
regulatory
framework,
these
are
activities
which,
as
a
general
matter,
resemble
ongoing
manufacturing
operations
more
than
conventional
waste
management
and
so
are
more
appropriately
classified
as
not
involving
solid
wastes.
(See
50
FR
637±
640).
Our
approach
to
these
issues
is
described
in
more
detail
below
in
section
III.
D.
4.
B.
How
Does
EPA
Regulate
RCRA
Hazardous
Wastes?
Wastes
exhibiting
any
hazardous
characteristic
or
listed
as
hazardous
are
subject
to
federal
requirements
under
RCRA.
These
regulations
affect
persons
who
generate,
transport,
treat,
store
or
dispose
of
such
waste.
Facilities
that
must
meet
the
hazardous
waste
management
requirements,
including
the
need
to
obtain
permits
to
operate,
commonly
are
referred
to
as
``
Subtitle
C''
facilities.
Subtitle
C
is
Congress'
original
statutory
designation
for
that
part
of
RCRA
that
directs
EPA
to
issue
those
regulations
for
hazardous
wastes
as
may
be
necessary
to
protect
human
health
or
the
environment.
EPA
standards
and
procedural
regulations
implementing
Subtitle
C
are
found
generally
at
40
CFR
Parts
260
through
272.
All
RCRA
hazardous
wastes
are
also
hazardous
substances
under
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act
(CERCLA),
as
described
in
section
101(
14)(
C)
of
the
CERCLA
statute.
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
1
As
required
in
40
CFR
262.30,
the
listing
description
includes
the
hazard
code.
Wastes
listed
under
40
CFR
261.11(
a)(
1)
due
to
the
toxicity
characteristic
are
designated
``
E,
''
and
wastes
listed
under
40
CFR
261.11(
a)(
3)
for
toxicity
are
designated
``
T''.
applies
to
wastes
listed
in
40
CFR
261.31
through
261.33,
as
well
as
any
wastes
that
exhibit
a
RCRA
characteristic.
Table
302.4
at
40
CFR
302.4
lists
CERCLA
hazardous
substances
along
with
their
reportable
quantities
(RQs).
Anyone
spilling
or
releasing
a
substance
at
or
above
the
RQ
must
report
this
to
the
National
Response
Center,
as
required
in
CERCLA
Section
103.
In
addition,
Section
304
of
the
Emergency
Planning
and
Community
Right
to
Know
Act
(EPCRA)
requires
facilities
to
report
the
release
of
a
CERCLA
hazardous
substance
at
or
above
its
RQ
to
State
and
local
authorities.
Today's
rule
proposes
to
establish
RQs
for
some
of
the
newly
listed
wastes.
C.
What
Is
the
Consent
Decree
Schedule
for
and
Scope
of
This
Proposal?
The
1984
Hazardous
and
Solid
Waste
Amendments
(HSWA)
to
RCRA
require
EPA
to
make
listing
determinations
for
several
specified
categories
of
wastes,
including
``
inorganic
chemical
industry
wastes''
(see
RCRA
section
3001(
e)(
2)).
In
1989,
the
Environmental
Defense
Fund
(EDF)
filed
a
lawsuit
to
enforce
the
statutory
deadlines
for
listing
decisions
in
RCRA
Section
3001(
e)(
2).
(EDF
v.
Browner;
D.
D.
C.
Civ.
No.
89±
0598).
To
resolve
most
of
the
issues
in
the
case,
EDF
and
EPA
entered
into
a
consent
decree,
which
has
been
amended
several
times
to
revise
deadlines
for
EPA
action.
Paragraph
1.
g
(as
amended)
of
the
consent
decree
addresses
the
inorganic
chemical
industry:
EPA
shall
promulgate
a
final
listing
determination
for
inorganic
chemical
industry
wastes
on
or
before
October
31,
2001.
This
listing
determination
shall
be
proposed
for
public
comment
on
or
before
August
30,
2000.
The
listing
determination
shall
include
the
following
wastes:
sodium
dichromate
production
wastes,
wastes
from
the
dry
process
for
manufacturing
phosphoric
acid,
phosphorus
trichloride
production
wastes,
phosphorus
pentasulfide
production
wastes,
wastes
from
the
production
of
sodium
phosphate
from
wet
process
phosphoric
acid,
sodium
chlorate
production
wastes,
antimony
oxide
production
wastes,
cadmium
pigments
production
wastes,
barium
carbonate
production
wastes,
potassium
dichromate
production
wastes,
phenyl
mercuric
acetate
production
wastes,
boric
acid
production
wastes,
inorganic
hydrogen
cyanide
production
wastes,
and
titanium
dioxide
production
wastes
(except
for
chloride
process
waste
solids).
However,
such
listing
determinations
need
not
include
any
wastes
which
are
excluded
from
hazardous
waste
regulation
under
section
3001(
b)(
3)(
A)(
ii)
of
RCRA
and
for
which
EPA
has
determined
that
such
regulation
is
unwarranted
pursuant
to
section
3001(
b)(
3)(
C)
of
RCRA.
Today's
proposal
satisfies
EPA's
duty
under
paragraph
1.
g
to
propose
determinations
for
inorganic
chemical
industry
wastes.
As
described
above,
the
consent
decree
provides
that
EPA
does
not
need
to
make
listing
determinations
for
certain
wastes
that
it
has
exempted
from
hazardous
waste
regulations
under
the
``
Bevill
amendments''
to
RCRA.
See
the
discussion
of
``
exempt
mineral
processing''
wastes
in
section
III.
B.
1
below.
III.
Approach
Used
in
This
Proposed
Listing
A.
Summary
of
Today's
Action
Manufacturers
of
the
inorganic
chemical
products
described
above
identified
over
170
categories
of
residuals
generated
as
part
of
their
production
processes.
We
first
determined
which
of
these
residuals
fell
within
the
scope
of
our
consent
decree
obligations.
We
then
evaluated
the
risks
posed
by
each
of
the
remaining
categories
of
residual
materials.
In
some
cases
we
used
quantitative
or
qualitative
screening
methods.
For
18
wastes
we
conducted
full
scale
modeling
to
predict
risks.
As
a
result
of
this
evaluation,
we
found
that
three
wastes
generated
in
the
14
inorganic
chemicals
manufacturing
operations
which
we
evaluated
meet
the
criteria
for
listing
set
out
in
either
40
CFR
261.11(
a)(
1)
or
261.11(
a)(
3).
We
conducted
full
scale
modeling
of
two
of
these
wastes
and
propose
to
list
them
under
40
CFR
261.11(
a)(
3).
We
found
that
one
waste
warranted
listing
under
40
CFR
261.11(
a)(
1)
because
it
exhibited
hazardous
waste
characteristics.
We
did
not
model
this
waste.
Since
these
are
wastes
from
specific
inorganic
chemical
industries,
we
propose
to
add
them
to
Section
261.32
with
K
waste
codes.
The
three
wastestreams
we
propose
to
list
as
hazardous,
along
with
their
corresponding
hazard
code
and
proposed
EPA
Hazardous
Waste
Numbers,
are:
1
K176
Baghouse
filters
from
the
production
of
antimony
oxide.
(E)
K177
Slag
from
the
production
of
antimony
oxide
that
is
disposed
of
or
speculatively
accumulated.
(T)
K178
Nonwastewaters
from
the
production
of
titanium
dioxide
by
the
chloride
ilmenite
process.
(This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
40
CFR
261.4(
b)(
7).)
(T)
We
found
that
all
of
the
remaining
wastes
that
we
evaluated
did
not
meet
the
criteria
for
listing
in
40
CFR
261.11,
and
we
are
proposing
not
to
list
them
as
hazardous
wastes.
More
information
on
our
evaluations
of
particular
wastes
is
set
out
in
the
background
documents
and
the
sector
specific
discussions
in
section
III.
F
of
this
preamble.
We
have
previously
listed
as
hazardous
a
number
of
wastes
in
40
CFR
261.32
from
other
inorganic
chemicals
industries,
including
wastes
from
the
production
of
inorganic
pigments
(codes
K002
through
K008),
and
wastes
from
chlorine
production
(codes
K071,
K073,
and
K106).
Today's
proposal
does
not
affect
the
scope
of
any
existing
hazardous
waste
listing,
and
we
are
not
soliciting
comments
on
those
existing
listing
determinations.
We
are
also
proposing
other
changes
to
the
RCRA
regulations
as
a
result
of
the
proposed
listings.
These
changes
include
adding
constituents
to
Appendices
VII
and
VIII
for
Part
261,
and
setting
new
land
disposal
restrictions.
We
are
proposing
to
add
the
following
constituents
to
Appendix
VII
that
serve
as
the
basis
for
listing:
K176Ð
arsenic
and
lead,
K177Ð
antimony,
and
K178Ð
manganese
and
thallium.
We
are
also
proposing
to
add
manganese
to
the
list
of
hazardous
constituents
in
Appendix
VIII,
based
on
scientific
studies
that
demonstrate
manganese
has
toxic
effects
on
humans
and
other
life
forms.
Section
IV
of
today's
proposal
describes
the
proposed
changes
to
the
land
disposal
restrictions,
which
would
establish
treatment
standards
for
specific
constituents
in
the
wastes
proposed
for
listing.
Also
as
a
result
of
the
proposed
listings,
these
wastes
would
become
hazardous
substances
under
CERCLA.
Therefore,
in
today's
rule
we
are
proposing
to
designate
these
wastestreams
as
CERCLA
hazardous
substances,
and
to
adjust
the
one
pound
statutory
RQs
for
two
of
these
wastestreams;
this
is
described
in
section
VII
of
today's
proposal.
B.
What
Wastes
Associated
With
the
14
Sectors
Are
Outside
the
Scope
of
the
Consent
Decree?
Determining
the
scope
of
our
consent
decree
obligations
was
more
complicated
than
usual
for
two
reasons.
First,
Paragraph
1.
g
(quoted
above
in
II.
C)
does
not
tell
EPA
which
wastestreams
it
must
evaluate.
For
most
other
listing
obligations
set
out
in
the
consent
decree,
the
decree
specifies
particular
wastestreams
which
EPA
must
evaluate
for
listing.
See,
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
2
The
revised
consent
decree
is
available
in
the
docket
for
today's
proposal.
example,
paragraph
1.
k
identifying
14
specific
petroleum
wastestreams.
2
Second,
paragraph
1.
g
contains
an
exemption
for
wastes
found
to
be
exempt
from
hazardous
waste
regulation
in
previous
EPA
actions
implementing
the
so
called
``
Bevill
exemptions''
for
mineral
processing
wastes.
Thus,
we
needed
to
conduct
some
analysis
to
determine
the
scope
of
our
obligations.
We
began
by
asking
facilities
to
identify
all
of
the
residuals
generated
by
their
production
processes.
We
then
reviewed
their
lists.
We
found
that
some
residuals
were
actually
exempt
``
Bevill''
wastes
that
we
need
not
address.
We
found
that
other
wastes
were
really
associated
with
the
manufacture
of
other
materials.
Also,
we
concluded
that
a
few
residuals
were
not
``
production''
wastes
and
therefore
were
not
covered
by
the
decree.
With
the
exceptions
discussed
below
in
our
evaluation
of
the
sodium
dichromate
and
titanium
dioxide
sectors,
we
chose
not
to
evaluate
any
of
the
wastes
that
we
considered
to
be
outside
the
scope
of
the
decree.
We
concluded
that
evaluation
was
not
possible
under
the
time
frame
set
out
in
the
decree.
In
the
following
sections
we
provide
an
overview
of
the
types
of
wastes
that
we
consider
outside
the
scope.
1.
Mineral
Processing
Wastes
Exempt
Under
the
``
Bevill''
Exemptions
Many
of
the
inorganic
chemical
manufacturing
processes
we
address
in
this
rule
use
ores
and
minerals
as
feedstocks.
Some
wastes
derived
from
the
processing
of
ores
and
minerals
are
exempt
from
regulation
as
RCRA
hazardous
wastes
under
decisions
EPA
made
under
statutory
requirements
known
as
the
``
Bevill''
amendments.
RCRA
Sections
3001(
b)(
3)
and
8002(
p)
required
EPA
to
determine
whether
wastes
from
the
extraction,
beneficiation
or
processing
of
ores
and
minerals
warranted
regulation
as
hazardous
wastes
under
Subtitle
C
of
RCRA.
Between
1989
and
1991
EPA
completed
a
series
of
rules
and
studies
establishing
which
mining
wastes
fit
within
the
``
extraction,
''
``
beneficiation,
''
or
``
processing''
definitions,
and
which
of
the
wastes
within
each
category
were
exempt
from
regulation
as
hazardous
wastes.
EPA
concluded
that
all
wastes
produced
during
extraction
and
beneficiation
are
entitled
to
an
exemption.
EPA
found
that
20
categories
of
wastes
from
subsequent
``
mineral
processing''
operations
met
the
``
high
volume/
low
toxicity''
criteria
and
were
exempt
as
well.
See
54
FR
36592
(Sept.
1,
1989),
55
FR
2322
(Jan.
23,
1990),
the
July
31,
1990
Report
to
Congress
on
Wastes
from
Mineral
Processing,
and
56
FR
27300
(June
13,
1991).
EPA
codified
these
``
Bevill''
exemptions
at
40
CFR
261.4
(b)(
7).
EPA
discussed
some
of
these
exemptions
further
in
a
1998
final
rule
promulgating
treatment
standards
for
non
exempt
mineral
processing
wastes
that
exhibit
the
toxicity
characteristic.
See
the
Land
Disposal
Restrictions
Phase
IV
Final
Rule
at
63
FR
28598
(May
26,
1998).
Paragraph
1.
g
of
the
consent
decree
provides
that
EPA
need
not
make
listing
determinations
for
wastes
from
any
of
the
14
inorganic
chemical
manufacturing
processes
which
are
``
excluded
from
hazardous
waste
regulation
under
Section
3001(
b)(
3)(
A)(
ii)
of
RCRA
and
for
which
it
has
determined
that
such
regulation
is
unwarranted
pursuant
to
Section
3001(
b)(
3)(
C)
of
RCRA.
''
In
other
words,
the
consent
decree
does
not
require
us
to
make
listing
determinations
for
wastes
which
we
exempted
under
the
statute's
``
Bevill''
provisions.
Paragraph
1.
g.
of
the
consent
decree
requires
EPA
to
make
a
listing
determination
for
``*
*
*
titanium
dioxide
production
wastes
(except
for
chloride
process
waste
solids).
''
EPA
interprets
the
exception
to
refer
to
the
chloride
process
waste
solids
from
the
production
of
titanium
tetrachloride
which
are
exempt
under
the
Bevill
rule,
rather
than
all
solids
from
the
chloride
process.
Solids
generated
after
titanium
tetrachloride
forms
fall
within
the
scope
of
the
consent
decree.
We
reviewed
the
generators'
lists
of
process
residuals
to
determine
whether
they
had
included
any
Bevill
exempt
wastes
which
we
need
not
assess.
(In
some
cases,
the
generators
had
claimed
that
certain
wastes
were
exempt
under
EPA's
Bevill
decisions.)
This
process
was
not
always
simple.
We
found
it
was
sometimes
difficult
to
determine
whether
a
particular
facility's
waste
fit
within
one
of
the
exempt
categories.
For
example,
the
mineral
processing
exemption
for
titanium
dioxide
covers
only
solid
materials
from
an
initial
step
in
the
production
process.
It
was
not
always
easy
to
tell
whether
particular
waste
solids
were
generated
from
the
portion
of
the
process
that
would
make
them
exempt,
or
from
later
production
steps.
Sector
specific
information
regarding
our
conclusions
appears
in
section
III.
F
of
this
preamble
for
those
sectors
where
we
found
this
exemption
had
some
relevance.
We
found
that
facilities
in
only
three
of
the
consent
decree
sectors
generate
Bevill
exempt
wastes:
Boric
acid,
sodium
dichromate,
and
titanium
dioxide.
In
other
sectors,
the
facilities
produce
inorganic
product
chemicals
from
a
mineral
product.
Under
the
Bevill
exemption
(54
FR
36620±
21),
chemical
manufacturing
begins
if
there
is
any
further
processing
of
a
saleable
mineral
product.
Since
these
facilities
use
saleable
mineral
products
as
feedstock,
their
processes
are
chemical
manufacturing,
and
may
not
be
classified
as
mineral
processing.
Therefore,
none
of
the
wastestreams
generated
by
these
facilities
in
the
production
of
the
other
inorganic
chemicals
are
Bevill
exempt.
We
emphasize
that
we
are
not
reopening
any
Bevill
decisions
made
in
earlier
actions
regarding
the
exemptions.
We
are
not
re
defining
the
boundaries
between
``
extraction''
and
``
beneficiation,
''
between
``
beneficiation''
and
``
mineral
processing,
''
or
between
``
mineral
processing''
and
non
exempt
chemical
manufacturing.
Nor
are
we
revisiting
our
decision
that
all
wastes
uniquely
associated
with
the
extraction
and
beneficiation
of
ores
and
minerals
are
exempt.
Similarly,
we
are
not
reopening
any
of
our
earlier
decisions
as
to
which
categories
of
mineral
processing
wastes
are
exempt.
Rather,
we
are
determining
whether
particular
wastestreams
fall
within
any
of
the
exempt
categories.
We
are
not
requesting
comment
on,
and
do
not
intend
to
respond
to
comments
relating
to
the
earlier
decisions.
We
also
found
that
some
inorganic
chemical
processes
generate
composite
wastestreams
that
contain
both
a
Bevill
exempt
waste
and
one
or
more
nonexempt
wastes.
We
evaluated
the
nonexempt
portions
of
such
wastes
to
fulfill
our
consent
decree
requirements.
We
apportioned
risks
between
the
exempt
and
nonexempt
portion
of
such
commingled
wastes,
and
made
listing
determinations
for
the
non
exempt
portions.
We
did
not,
however,
assess
the
exempt
portions
of
such
streams.
This
assessment,
therefore,
does
not
reopen
any
earlier
decision
regarding
exemptions
for
the
``
Bevill''
component
of
the
commingled
streams.
2.
Residuals
Used
or
Reused
in
Different
Industrial
Processes
In
some
cases,
facilities
within
the
14
inorganic
chemicals
sectors
set
out
in
the
consent
decree
produce
residuals
that
are
used
or
reused
in
processes
that
are
not
among
those
listed
in
the
decree.
Those
industries
in
turn
produced
residuals
derived
from
the
materials
generated
in
the
consent
decree
industries.
We
evaluated
the
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Proposed
Rules
management
of
the
original
industry's
material
up
to
the
point
that
the
second
industry
inserts
it
into
its
production
process.
However,
we
generally
considered
the
second
production
process
and
its
associated
wastes
to
be
beyond
the
scope
of
the
consent
decree.
We
did
not
evaluate
for
listing
purposes
wastes
generated
from
these
nonconsent
decree
industries.
For
example,
in
the
titanium
dioxide
sector,
one
facility
uses
a
residual
from
the
production
of
titanium
dioxide
as
an
ingredient
to
make
salt.
We
considered
salt
making
to
be
a
separate
production
process
outside
the
scope
of
the
consent
decree.
We
are
not
proposing
any
listing
determinations
for
wastes
generated
in
the
salt
plant.
However,
in
some
cases,
the
reuse
of
the
residual
from
a
consent
decree
process
involved
an
activity
which
we
always
regulate
as
waste
management.
In
this
situation,
we
considered
the
reuse
to
be
waste
management,
and
the
waste
to
be
within
the
scope
of
the
consent
decree.
Consequently,
we
evaluated
the
residual
for
listing.
For
example,
we
found
that
one
of
the
facilities
which
produces
boric
acid
generates
a
waste
which
is
used
as
a
fuel.
Under
our
recycling
regulations,
we
regulate
burning
for
energy
recovery
and
so,
we
evaluated
this
waste.
See
40
CFR
261.2(
c)(
2).
We
found
that
the
waste
is
already
being
managed
in
a
RCRA
Subtitle
C
unit
and
decided
not
to
list
the
waste.
Others
examples
of
reuse
that
we
evaluated
include
land
application
of
biological
treatment
solids
from
hydrogen
cyanide
production
as
a
fertilizer
or
soil
amendment,
and
land
application
of
gypsum
from
the
titanium
dioxide
sector.
In
two
cases,
however,
we
decided
to
make
listing
decisions
for
residuals
generated
during
the
production
of
non
consent
decree
products.
In
the
titanium
dioxide
sector,
the
residuals
are
commingled
with
other
wastes
clearly
within
the
scope
of
the
decree.
See
the
discussions
of
the
sodium
dichromate
sector
and
the
titanium
dioxide
sector
in
section
III.
F.
In
the
sodium
dichromate
sector,
residuals
from
the
non
consent
decree
process
are
piped
back
to
the
consent
decree
process,
making
it
difficult
to
determine
whether
the
two
processes
are
really
separate.
3.
Debris
and
Other
Nonprocess
Wastes
Some
generators
also
identified
debris
and
structural
components
of
their
production
plants
as
intermittentlygenerated
wastes.
We
concluded
that
these
materials
do
not
fall
within
the
scope
of
the
decree.
Most
of
the
wastes
that
fell
in
this
category
were
refractory
bricks
which
become
wastes
when
facilities
remove
them
to
refurbish
their
furnaces.
We
consider
this
material
to
be
a
structural
component
of
the
plant
where
production
takes
place
rather
than
a
waste
from
the
``
production''
of
an
inorganic
chemical.
Similarly,
we
consider
a
few
analogous
types
of
plant
debris
to
fall
outside
the
scope
of
the
decree.
This
debris
includes
miscellaneous
construction
materials,
insulation,
reactor
bed
material,
and
piping.
These
wastes
were
reported
for
the
following
inorganic
sectors:
Phosphoric
acid,
barium
carbonate,
sodium
dichromate,
hydrogen
cyanide,
antimony
oxide,
sodium
phosphate,
and
titanium
dioxide.
We
have
never
interpreted
the
decree
to
require
us
to
consider
listing
tanks,
pads,
or
other
structural
components
housing
production
processes
when
they
become
wastes
by
being
removed
from
use.
Other
paragraphs
of
the
decree
support
this
position.
Paragraphs
1.
c.
(coke
byproducts)
and
1.
k.
(petroleum
refining
wastes)
cover
production
processes
involving
reaction
vessels
lined
with
refractory
or
similar
materials,
and
in
neither
case
did
the
decree
include
wastes
related
to
the
reaction
vessels
themselves
or
related
materials.
Nor
do
any
other
provisions
in
the
decree
direct
us
to
list
any
other
type
of
structural
components.
We
note
that
discarded
refractory
bricks
and
other
debris
would
be
regulated
as
hazardous
wastes,
if
these
materials
were
contaminated
with
a
listed
waste
(including
wastes
listed
as
a
result
of
today's
rulemaking),
or
if
they
exhibited
a
hazardous
waste
characteristic.
A
few
facilities
also
reported
environmental
media
(excavated
soils
or
recovered
groundwater)
contaminated
with
process
residuals
as
wastes
from
their
production
processes.
We
consider
such
contaminated
media
to
be
outside
the
scope
of
today's
listing
determinations,
because
these
are
not
wastes
generated
during
production
processes,
but
rather
wastes
generated
due
to
construction
or
remedial
action.
We
note
that
none
of
the
other
consent
decree
provisions
require
us
to
evaluate
contaminated
media.
See
the
specific
listing
background
documents
for
the
different
sectors
for
a
full
listing
of
the
wastes
we
considered
to
be
out
of
scope
of
the
decree.
C.
What
Information
Did
EPA
Collect
and
Use?
Our
investigation
of
the
wastes
generated
by
the
inorganic
chemicals
manufacturing
industry
included
two
major
information
collection
efforts:
A
survey
of
the
industries
and
field
investigations.
The
survey
effort
included
the
development,
distribution,
and
assessment
of
an
extensive
questionnaire
sent
under
the
authority
of
RCRA
section
3007
to
all
known
facilities
engaged
in
any
of
the
14
inorganic
chemical
manufacturing
processes.
During
our
field
investigations
we
made
site
visits
to
familiarize
ourselves
with
processes
and
residuals,
and
made
additional
visits
to
collect
samples
of
residuals
which
we
sent
to
laboratories
for
analysis.
Finally,
we
collected
data
from
other
sources
to
help
characterize
the
settings
in
which
some
of
the
wastes
are
managed.
Each
of
these
efforts
is
summarized
below.
1.
The
RCRA
Section
3007
Survey
We
developed
an
extensive
questionnaire
under
the
authority
of
Section
3007
of
RCRA
for
distribution
to
the
inorganic
chemicals
manufacturing
industry.
The
purpose
of
the
survey
was
to
gather
information
about
solid
and
hazardous
waste
generation
and
management
practices
in
the
U.
S.
for
the
fourteen
inorganic
chemical
industry
sectors.
The
questionnaire
collected
information
about
the
inorganic
chemical
products
manufactured,
the
processes
used,
the
wastes
generated,
the
wastes
characteristics,
and
how
the
wastes
were
managed.
The
questionnaire
is
included
in
the
``
General
Background
Document
for
the
Inorganic
Chemical
Listing
Determination.
''
which
is
in
the
docket
for
today's
proposal.
This
document
also
provides
more
details
on
the
producers
identified
in
the
inorganic
sectors.
We
distributed
the
survey
in
March
of
1999
to
all
124
facilities
that
we
had
identified
as
potential
manufacturers
of
chemicals
in
the
14
targeted
sectors.
We
developed
the
list
of
facilities
from
a
review
of
the
available
literature,
which
included
directories
of
chemical
producers,
reference
works
of
chemical
technology,
chemical
profile
information,
and
previous
work
by
EPA
on
these
industries.
From
the
surveys
distributed,
57
facilities
indicated
that
they
manufacture
chemicals
from
at
least
one
of
the
14
sectors.
The
other
facilities
notified
us
that
they
had
either
stopped
operations
or
did
not
manufacture
inorganic
chemical
products.
From
the
survey,
we
confirmed
that
one
product
was
no
longer
manufactured
in
this
country
(phenyl
mercuric
acetate).
We
also
conducted
an
exhaustive
engineering
review
of
the
submitted
surveys
for
accuracy
and
completeness.
We
conducted
quality
assurance
reviews
of
the
data
to
identify
any
inappropriate
entries
and
missing
data.
The
engineering
review
of
each
facility's
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Proposed
Rules
response
resulted
in
follow
up
letters
and/
or
telephone
calls
to
the
facilities
seeking
clarifications,
corrections,
and
additional
data
where
needed.
Where
we
conducted
sampling
and
analysis
of
the
waste,
we
used
this
analytical
data
in
our
analysis
(see
the
following
section).
Facilities
also
submitted
data
in
their
survey
on
the
composition
of
some
of
their
wastes.
In
the
absence
of
our
own
analytical
data,
we
used
data
provided
by
facilities
in
our
evaluation.
These
cases
are
noted
in
the
sector
specific
discussions
in
section
III.
F.
In
some
cases,
these
data
consisted
of
results
from
testing
to
determine
whether
the
wastes
exhibited
characteristics.
We
thought
such
data
were
reliable
because
of
the
consequences
the
facilities
would
face
if
their
characteristic
data
were
not
accurate.
In
addition,
survey
respondents
were
required
to
certify
the
accuracy
of
their
submittal.
2.
Field
Work:
Site
Visits,
Sampling
and
Analysis
As
part
of
our
field
work,
we
visited
production
facilities
(engineering
site
visits),
we
took
preliminary
samples
(familiarization
sampling),
and
we
obtained
samples
to
fully
characterize
the
waste
for
constituents
of
concern
(record
sampling).
We
initiated
the
sampling
phase
of
this
listing
determination
with
the
development
of
a
Quality
Assurance
Project
Plan
(QAPP)
for
sampling
and
analysis.
The
QAPP
describes
the
quality
assurance
and
quality
control
requirements
for
the
data
collection.
We
also
developed
sampling
and
analysis
plans
(SAPs)
for
sampling
at
individual
facilities.
The
QAPP
and
the
SAPs
are
available
in
the
public
docket
for
this
proposal.
The
primary
purpose
of
the
engineering
site
visits
was
to
gain
first
hand
knowledge
of
the
manufacturing
processes,
the
waste
generation
and
management,
and
to
identify
potential
locations
for
waste
sampling.
We
conducted
site
visits
at
25
facilities
in
12
of
the
sectors.
We
selected
the
facilities
to
visit
based
on
logistics
and
to
visit
sites
that
represent
the
variety
of
process
and
wastes
generated
within
industry
sectors.
Site
visit
reports
are
available
in
the
docket
for
today's
rule.
During
some
of
the
engineering
site
visits,
we
collected
22
familiarization
samples
to
help
us
identify
potential
sampling
or
analytical
problems
for
the
wastes
of
interest.
For
example,
we
used
the
familiarization
samples
to
assess
the
effectiveness
of
the
analytical
methods
that
we
planned
to
use
during
record
sampling
for
a
number
of
the
targeted
waste
matrices.
During
record
sampling,
we
collected
69
waste
samples
from
13
different
facilities.
Additional
samples
were
collected
for
QA/
QC
purposes.
Largely
due
to
the
time
constraints
imposed
by
our
consent
decree
schedule,
we
focused
the
sampling
effort
on
the
wastes
that
we
most
expected
to
present
significant
potential
risks.
Based
on
information
obtained
from
the
RCRA
Section
3007
Surveys,
we
established
sampling
priorities
by
considering
the
reported
management
practices
(e.
g.,
wastes
going
to
Subtitle
D
landfills
and
impoundments
were
of
concern),
and
the
likely
presence
of
contaminants
of
concern.
We
also
found
that
we
were
able
to
make
listing
decisions
on
a
variety
of
reported
wastes
without
conducting
sampling.
In
some
cases,
we
were
able
to
use
information
about
the
processes
and
the
raw
materials
to
conclude
that
a
waste
was
not
likely
to
present
a
significant
risk.
Also,
we
did
not
typically
sample
wastes
that
were
reported
to
be
characteristically
hazardous
waste
and
were
already
regulated
as
hazardous
under
RCRA.
We
felt
that,
for
these
wastes,
we
could
make
listing
decisions
without
further
information
on
waste
constituents.
In
addition,
we
did
not
attempt
to
sample
wastes
that
we
found
to
be
outside
the
scope
of
the
consent
decree,
as
described
in
Section
III.
B.
Thus,
for
example,
we
did
not
sample
a
number
of
wastes
that
appeared
to
be
exempt
under
the
Bevill
regulations.
We
believe
that
the
69
record
samples
from
13
sites
provide
an
adequate
characterization
of
the
wastes
that
we
sampled.
The
13
sites
represent
approximately
30%
of
the
42
identified
production
facilities
within
the
specific
sectors
we
chose
for
sampling.
The
wastes
sampled
also
represent
the
major
waste
types
of
concern,
e.
g.,
specific
process
wastes/
sludges,
wastewater
treatment
sludges,
wastewaters,
and
spent
filter
material.
Section
III.
F
of
this
proposal
provides
information
on
the
specific
wastes
sampled
in
each
sector.
The
docket
for
today's
proposal
also
contains
background
documents
for
the
specific
sectors,
which
give
details
on
which
wastes
we
sampled
and
our
evaluation
of
the
need
for
sampling
or
modeling
certain
wastes.
For
most
sectors,
we
focused
our
analyses
on
metal
constituents,
because
these
are
the
constituents
expected
from
the
inorganic
processes
under
evaluation.
We
analyzed
for
other
constituents
in
those
cases
where
we
expected
they
might
be
present
in
the
waste,
or
if
other
constituents
showed
up
in
the
familiarization
sampling.
Thus,
we
analyzed
wastes
from
the
inorganic
hydrogen
cyanide
industry
for
cyanide
and
volatile
organics
because
of
their
potential
to
be
present
from
the
process.
Similarly,
in
the
titanium
dioxide
sector,
we
analyzed
waste
samples
for
semivolatile
and
chlorinated
organics
due
to
the
use
of
coke
and
chlorine
as
raw
materials
in
the
production
process
for
the
titanium
chloride
intermediate.
The
overall
list
of
target
analytes
are
in
the
QAPP,
which
is
in
the
docket
for
today's
rule.
The
docket
also
contains
the
background
documents
for
each
sector
and
the
corresponding
waste
characterization
data
reports,
which
show
the
chemical
analyses
performed
and
the
analytes
found
in
the
waste
samples.
In
our
analyses
of
wastes
samples,
we
performed
analyses
to
measure
constituent
concentrations
in
the
wastes
themselves
(``
total''
analysis),
as
well
as
analyses
for
constituents
that
leach
out
of
the
wastes.
We
generally
used
the
methods
specified
in
OSW's
methods
manual
(``
Test
Methods
for
Evaluating
Solid
Waste,
Physical/
Chemical
Methods,
''
SW±
846),
as
described
in
the
QAPP,
the
SAPs,
and
the
background
documents
for
the
specific
sectors.
We
used
two
extraction
methods
to
measure
leaching,
the
Toxicity
Characteristic
Leaching
Procedure
(TCLP,
SW±
846
method
1311),
and
the
Synthetic
Precipitation
Leaching
Procedure
(SPLP,
SW±
846
method
1312).
In
general,
we
were
able
to
measure
the
concentrations
of
constituents
in
waste
samples
at
very
low
detection
levels.
However,
for
some
constituents
in
some
matrices
the
SPLP
and/
or
TCLP
analyses
provided
detection
limits
that
were
somewhat
above
health
based
levels
of
concern.
In
such
cases,
we
examined
all
of
the
analytical
data
to
determine
if
the
undetected
constituent
might
possibly
present
a
potential
risk.
Where
we
did
not
detect
the
constituent
in
the
total
analysis
(i.
e.,
the
analysis
of
a
sample
prior
to
any
leaching),
we
assumed
that
the
constituent
was
not
present
in
the
leachate.
However,
if
the
totals
analysis
showed
the
presence
of
a
constituent
that
we
did
not
detect
in
the
leachate,
then
we
assessed
the
risk
that
would
be
posed
if
the
constituent
were
present
at
a
concentration
equal
to
onehalf
the
detection
limit.
Section
III.
F
shows
the
cases
where
we
used
this
assumption
in
our
evaluation
of
wastes
for
the
different
inorganic
sectors,
and
further
details
are
available
in
the
background
documents
for
each
sector.
3.
Other
Sources
We
also
collected
data
from
a
variety
of
other
sources
to
help
characterize
the
settings
in
which
these
wastes
are
managed.
For
example,
we
contacted
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Proposed
Rules
several
state
and
local
authorities
to
collect
information
regarding
the
location
of
drinking
water
wells.
We
also
obtained
information
and,
in
some
cases
analytical
data,
from
state
authorities
and
other
sources
to
help
in
our
evaluations.
We
note
these
sources
in
the
sector
specific
discussions
in
Section
III.
F
when
we
relied
on
such
data.
D.
How
Did
EPA
Evaluate
Wastes
for
Listing
Determinations?
1.
Listing
Policy
As
discussed
in
section
II.
A.
of
this
preamble,
we
consider
the
listing
criteria
set
out
in
40
CFR
261.11,
in
light
of
all
the
information
we
have
relevant
to
the
criteria,
in
making
listing
determinations.
For
decisions
made
under
40
CFR
261.11(
a)(
3),
today's
proposed
listing
determinations
follow
the
elements
of
the
EPA's
hazardous
waste
listing
policy
presented
the
proposed
listing
for
wastes
generated
by
the
dyes
and
pigments
industry
(see
FR
66072,
December
22,
1994).
We
have
modified
and
adapted
this
policy
in
subsequent
listings.
See
for
example
the
recent
Petroleum
Refining
proposal
(60
FR
57747;
November
20,
1995)
and
the
Solvents
waste
proposal
(61
FR
42318;
August
14,
1996).
This
policy
uses
a
``
weight
ofevidence
approach
in
which
calculated
risk
information
is
a
key
factor
to
consider
in
making
a
listing
determination
under
40
CFR
261.11(
a)(
3).
The
criteria
provided
in
40
CFR
261.11(
a)(
3)
include
eleven
factors
for
determining
``
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
''
We
incorporate
nine
of
these
factors,
as
described
generally
below,
into
our
risk
evaluation
for
the
wastestreams
of
concern:
ÐToxicity
(261.11(
a)(
3)(
i))
is
considered
in
developing
the
health
benchmarks
used
in
the
risk
evaluation.
ÐConstituent
concentrations
and
waste
quantities
(261.11(
a)(
3)(
ii)
and
261.11(
a)(
3)(
viii))
are
used
to
define
the
initial
conditions
for
the
risk
evaluation.
ÐPotential
to
migrate,
persistence,
degradation,
and
bioaccumulation
of
the
hazardous
constituents
and
any
degradation
products
(261.11(
a)(
3)(
iii),
261.11(
a)(
3)(
iv),
261.11(
a)(
3)(
v),
and
261.11(
a)(
3)(
vi))
are
all
considered
in
our
evaluation
of
constituent
mobility
(e.
g.,
leaching
from
waste)
and
fate
and
transport
models
we
used
to
project
potential
concentrations
of
the
contaminants
to
which
individuals
might
be
exposed.
We
considered
two
additional
factors,
plausible
mismanagement
and
other
regulatory
actions
(261.11(
a)(
3)(
vii)
and
261.11(
a)(
3)(
x))
in
selecting
the
waste
management
scenarios
we
evaluated
in
our
risk
assessments.
For
example,
we
used
information
that
the
waste
generators
submitted
in
their
Section
3007
questionnaires
to
decide
what
types
of
waste
management
units
are
used.
Using
information
about
other
federal
environmental
regulatory
programs,
we
concluded
that
some
units
or
some
pathways
did
not
pose
risks
requiring
evaluation.
We
separately
considered
the
remaining
factor,
whether
the
available
information
indicated
any
impact
on
human
health
or
the
environment
from
improper
management
of
the
wastes
of
concern
(261.11(
a)(
3)(
ix)).
Thus,
we
examined
a
variety
of
databases
for
information
on
damage
incidents
for
the
inorganic
chemical
production
processes
under
investigation.
For
example,
we
examined
databases
for
information
on
potential
and
actual
Superfund
sites
(CERCLIS),
releases
reported
under
the
Toxic
Release
Inventory
System
(TRIS),
civil
cases
filed
on
behalf
of
EPA,
and
spills
and
releases
reported
to
the
National
Response
Center
(NRC).
A
full
description
of
our
search
is
in
the
docket
for
this
rule.
Most
of
the
cases
found
for
these
industries
typically
resulted
from
spills
or
releases
of
products,
and
did
not
provide
any
useful
information
of
possible
risks
presented
by
the
wastes
we
evaluated
for
listing.
In
a
few
cases
we
found
sites
on
the
Superfund
National
Priority
List
(NPL)
that
included
inorganic
manufacturing
processes.
However
these
sites
usually
encompassed
a
variety
of
chemical
manufacturing
and
mining
industries,
and
it
is
difficult
to
attribute
the
damage
reported
to
the
specific
inorganic
manufacturing
wastes
under
evaluation.
Furthermore,
contamination
at
these
sites
appears
linked
to
historical
management
practices
at
closed
or
inactive
manufacturing
plants,
and
these
were
not
useful
in
assessing
current
or
potential
hazards
for
the
wastes
at
issue.
In
addition,
Federal
and
State
regulatory
controls
are
now
in
place
that
would
prevent
mismanagement.
For
example,
many
of
the
wastes
examined
in
today's
proposal
are
regulated
as
characteristic
waste,
and
releases
or
disposal
to
the
land
are
addressed
under
the
existing
RCRA
regulations.
We
did
not
find
any
evidence
of
actual
damage
cases.
We
describe
our
decisions
under
40
CFR
261.11(
a)(
3)
in
more
detail
in
the
sector
specific
discussion
in
section
III.
F
below,
and
in
the
background
documents.
Generally,
we
conducted
full
scale
risk
modeling
for
18
wastes
in
5
sectors.
We
found
that
we
could
adequately
address
the
risks
of
the
remaining
wastes
with
a
variety
of
less
time
consuming
approaches.
Some
were
qualitative;
others
were
quantitative,
but
not
as
complex
as
full
modeling.
We
evaluated
one
waste
using
the
single
criterion
set
out
in
40
CFR
261.11(
a)(
1)
rather
than
the
eleven
factors
referenced
in
40
CFR
261.11(
a)(
3).
This
is
the
first
time
under
this
consent
decree
that
we
have
proposed
to
make
a
listing
decision
based
on
this
criterion.
It
relies
on
the
existing
characteristics
to
identify
wastes
posing
significant
risks
and
does
not
require
the
use
of
modeling.
See
the
discussion
of
wastes
from
the
production
of
antimony
oxide
in
section
III.
F.
1
of
the
preamble.
Our
proposed
listing
determinations
are
based
upon
estimates
of
individual
risk.
We
relied
on
individual
risk
estimates
(HQs
>
1),
and
not
population
risk
estimates,
because
we
are
concerned
about
risks
to
individuals
who
are
exposed
to
potential
releases
of
hazardous
constituents.
We
believe
that
using
individual
risk
as
a
basis
for
our
listing
determinations
(rather
than
population
risk
estimates)
also
is
appropriate
to
protect
against
potential
risks,
as
well
as
present
risks
that
may
arise
due
to
the
generation
and
management
of
particular
wastestreams.
EPA
acknowledges
that
in
cases
where
small
populations
are
exposed
to
particular
wastes
and
waste
management
practices,
population
risks
may
be
very
small.
We
did
not
attempt
to
calculate
population
risks
for
the
proposed
listings.
In
general,
we
expect
population
risks
arising
from
contaminated
groundwater
due
to
waste
management
to
be
small,
because
often
only
a
limited
number
of
domestic
wells
will
be
near
these
facilities,
and
groundwater
contamination
often
moves
very
slowly.
Nevertheless,
the
increased
risk
for
an
exposed
individual
may
be
significant.
In
proposing
the
listing
determinations
for
K176,
K177,
and
K178,
EPA
is
protecting
against
the
potential
risk
for
exposed
individuals,
regardless
of
how
many
individuals
are
exposed.
We
set
out
below
general
observations
about
some
of
our
approaches
to
risk
assessment.
2.
Characteristic
Hazardous
Waste
We
describe
in
Section
a.
below
our
analysis
for
wastes
which
are
``
100%
characteristic''Ð
wastes
which
all
generators
report
as
characteristic
and
which
all
generators
appear
to
manage
in
compliance
with
applicable
hazardous
waste
regulations.
We
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3
On
April
9,
1999,
the
D.
C.
Circuit
in
Great
Lakes
Chemical
Corporation
v.
EPA
ordered
that
the
organobromine
listing
determinations
be
vacated.
Accordingly,
EPA
removed
the
listings
from
CFR
(see
65
FR
14472:
March
17,
2000).
describe
our
approach
to
wastes
which
are
occasionally
characteristicÐ
but
managed
in
complianceÐ
in
Section
b.
below.
Finally,
we
discuss
in
Section
c.
one
waste
which
appears
to
exhibit
a
characteristic
frequently,
but
does
not
appear
to
be
managed
in
compliance
with
hazardous
waste
regulations.
a.
Wastes
consistently
exhibiting
characteristics.
For
wastes
which
these
industries
identified
as
characteristic
and
managed
in
compliance
with
hazardous
waste
regulations,
we
are
proposing
to
find
that
there
is
no
``
plausible
mismanagement''
scenario
to
evaluate
for
listing.
(See
40
CFR
261.11(
a)(
3)(
vii).)
The
Subtitle
C
rules
applying
to
characteristic
wastes
adequately
protect
human
health
and
the
environment,
especially
where
waste
generators
are
complying
with
them.
40
CFR
261.11(
a)(
3)(
x)
authorizes
us
to
consider
actions
taken
by
other
regulatory
programs.
We
believe
we
can
reasonably
interpret
this
to
include
the
rules
for
characteristic
wastes
under
Subtitle
C
.
We
acknowledge
that
the
regulation
of
characteristic
wastes
differs
in
some
ways
from
the
regulation
of
listed
wastes.
For
example,
for
characteristic
wastes,
residues
from
treatment
required
by
the
land
disposal
restrictions
need
not
always
be
placed
in
hazardous
waste
disposal
units.
However,
we
do
not
regard
the
differences
as
``
mismanagement.
''
Rather,
we
believe
that
both
approaches
protect
human
health
and
the
environment.
Consequently,
for
the
purposes
of
this
rule
we
decided
that
we
would
not
propose
to
list
a
``
100%
characteristic''
waste
unless
we
found
evidence
of
extraordinary
risks
under
one
or
more
of
the
other
factors
in
40
CFR
261.11(
a)(
3).
For
a
few
of
the
100%
characteristic
wastes
in
this
rule,
we
found
factors
warranting
further
consideration.
For
example,
we
found
that
the
sole
generator
of
cadmium
pigment
wastes
codes
them
as
hazardous,
arranges
for
treatment
to
comply
with
the
land
disposal
restrictions,
and
then
disposes
of
treated
residues
in
a
Subtitle
D
landfill.
At
the
same
time,
we
found
that
the
waste
contains
very
high
levels
of
cadmium.
We
decided
to
investigate
further
to
ensure
that
the
treatment
residues
did
not
present
significant
risks.
We
examined
data
relating
to
the
treatment
process
and
leachate
monitoring
data
from
the
landfill
receiving
the
residues.
Based
on
these
data,
we
concluded
that
the
residues
did
not
pose
risks
warranting
listing.
b.
Wastes
which
sometimes
exhibit
characteristics.
Information
submitted
in
responses
to
the
Section
3007
questionnaires
also
showed
that
there
are
a
number
of
wastes
that
exhibit
characteristics
at
some
facilities,
but
not
others.
Consistent
with
previous
listing
decisions
(see
for
example,
the
most
recent
petroleum
refining
listing
at
63
FR
42137),
we
focused
on
the
volumes
of
waste
that
did
not
exhibit
characteristics
in
our
listing
evaluation.
For
wastestreams
identified
as
exhibiting
characteristics
and
apparently
managed
in
compliance
with
applicable
regulations,
we
relied
on
the
``
no
plausible
mismanagement''
and
``
other
regulations''
analysis
described
above.
A
hypothetical
example
follows.
If
one
facility
generated
40
tons
per
year
of
a
properly
managed
characteristic
waste,
and
a
second
facility
generated
60
tons
per
year
of
a
non
characteristic
waste,
we
would
not
evaluate
the
total
of
100
tons
of
waste
under
a
single
approach.
Rather,
we
would
evaluate
the
characteristic
waste
under
the
approach
described
above.
For
the
waste
that
did
not
exhibit
a
characteristic,
we
would
conduct
the
type
of
risk
assessment
described
below
in
section
III.
E.
c.
Characteristic
wastes
not
managed
in
compliance
with
Subtitle
C.
In
one
case,
we
found
a
characteristic
waste
where
we
believe
that
existing
Subtitle
C
rules
do
not
adequately
prevent
mismanagement.
Four
facilities
generate
a
baghouse
filter
waste
from
the
production
of
antimony
oxide.
Data
from
our
sampling
and
analysis
at
2
facilities
showed
exceedences
of
the
toxicity
characteristic.
Two
facilities
recycle
these
wastes
in
a
manner
that
may
comply
with
applicable
regulations.
Two
other
facilities,
however,
did
not
identify
their
waste
as
characteristic
wastes,
and
appear
to
manage
them
in
ways
which
do
not
comply
with
Subtitle
C
rules.
Because
of
this
apparent
noncompliance,
we
concluded
that
it
would
be
appropriate
to
disregard
the
characteristic
rules
in
an
analysis
of
the
factors
in
40
CFR
261.(
a)(
3).
However,
we
also
concluded
that
it
was
not
necessary
to
conduct
such
an
analysis.
Since
this
waste
fails
the
toxicity
characteristic,
it
clearly
contains
levels
of
constituents
which
could
pose
threats
to
human
health
via
groundwater
when
placed
in
a
municipal
landfill,
if
leachate
were
to
migrate
to
a
drinking
water
well
at
sufficient
concentrations.
Since
the
generators
are
not
managing
the
wastes
in
compliance
with
applicable
Subtitle
C
regulations,
we
assume
that
this
type
of
mismanagement
could
occur
at
other
sites.
Accordingly,
we
exercised
our
authority
to
propose
to
list
this
waste
under
40
CFR
261.11(
a)(
1).
As
noted
above,
this
provision
authorizes
(but
does
not
require)
EPA
to
list
wastes
that
exhibit
characteristics
without
the
analysis
required
under
40
CFR
261.11(
a)(
3).
We
believe
that
noncompliance
is
an
appropriate
reason
to
use
this
authority
to
list
a
characteristic
waste.
d.
Non
characteristic
wastes
disposed
of
in
hazardous
waste
units.
We
identified
nine
wastes
which
do
not
appear
to
exhibit
any
characteristic,
but
which
are
disposed
of
in
Subtitle
C
management
units.
Four
of
these
wastes
are
sent
to
combustion
unit
regulated
under
Subtitle
C
of
RCRA.
The
remaining
5
wastes
are
sent
to
Subtitle
C
landfills.
We
found
that
all
of
these
wastes
receive
some
treatment
before
land
disposal.
In
one
case
available
data
indicates
that
the
waste
meets
applicable
LDR
treatment
standards
as
generated.
In
general,
these
wastes
have
very
limited
potential
for
mismanagement
under
40
CFR
261.11(
a)(
3)(
vii).
This
is
particularly
true
for
wastes
which
generators
place
in
on
site,
Subtitle
C
units
with
ample
capacity.
Also,
in
some
cases,
some
of
the
wastes
are
generated
in
very
small
quantities
(less
than
1
metric
ton
per
year).
These
wastes
are
distinguishable
from
a
noncharacteristic
organobromine
waste
sent
to
a
hazardous
waste
unit
that
we
decided
to
list
in
1998.
That
waste
had
extremely
high
concentrations
of
a
constituent
posing
significant
risks,
and
received
no
treatment
(see
May
4,
1998;
63
FR
24596).
3
We
request
comment
on
the
individual
rationales
set
out
in
the
sector
specific
discussions
and
the
background
documents.
3.
Evaluations
of
Particular
Units
and
Pathways
of
Release
We
are
proposing
to
find
that
some
pathways
of
release
from
some
units
present
low
risks
because
they
are
adequately
controlled
under
other
Federal
environmental
regulations
that
minimize
the
likelihood
of
releases.
We
are
also
proposing
to
find
that
other
risk
pathways
present
low
risks
due
to
physical
or
chemical
attributes
of
the
wastes.
In
some
cases,
we
evaluated
all
release
pathways
at
a
single
unit
under
a
combination
of
these
approaches.
a.
Wastewater
management.
Facilities
in
these
industries
generally
treat
wastewaters
in
on
site
wastewater
treatment
plants
and
discharge
to
surface
waters,
or
pretreat
the
waste
and
discharge
to
an
off
site
wastewater
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
4
In
fact,
40
CFR
261.4
excludes
``
any
mixture
of
domestic
sewage
and
other
wastes
that
passes
through
a
sewer
system
to
a
POTW
for
treatment''
(40
CFR
261.4(
a)(
1)(
ii),
and
industrial
wastewater
discharges
that
are
point
source
discharges
subject
to
regulation
under
Section
402
of
the
CWA
(40
CFR
261.4(
a)(
2)).
5
Clean
Air
ActÐ
Title
III:
Upcoming
MACT
StandardsÐ
Cyanide
Chemical
Manufacturing;
Unified
Air
Toxics
Website:
http://
www.
epa.
gov/
ttn/
uatw/
mactupd.
html:
The
hydrogen
cynaide
industry
would
also
be
subject
to
regulations
under
40
CFR
Part
60,
Subpart
YYY
under
the
CAA
for
volatile
organic
compound
(VOC)
emissions
from
wastewater
treatment
at
facilities
in
the
synthetic
organic
chemical
manufacturing
industry
(SOCMI),
which
was
proposed
September
19,
1994
(59
FR
46780).
treatment
facility,
e.
g.,
a
Publicly
Owned
Treatment
Works
(POTW).
Under
the
Clean
Water
Act
(CWA),
discharges
to
surface
waters
are
controlled
under
the
National
Pollutant
Discharge
Elimination
System
(NPDES)
and
require
an
NPDES
permit,
while
discharges
to
a
POTW
are
subject
to
State
and
national
pretreatment
standards.
4
Point
source
discharges
for
the
various
sectors
in
the
inorganics
listing
are
regulated
under
the
CWA
by
the
effluent
guidelines
and
pretreatment
standards
in
40
CFR
Parts
415
(Inorganic
chemical
manufacturing)
and
422
(Phosphate
manufacturing).
Therefore,
we
did
not
evaluate
NPDES
effluent
or
discharges
to
POTWs
in
today's
proposal.
This
approach
is
consistent
with
other
listing
rules.
See,
for
example,
60
FR
57759
(November
20,
1995,
petroleum
refining
wastes
proposal).
In
a
few
cases,
facilities
reported
disposal
of
wastewaters
by
deep
well
injection
in
a
permitted
Class
I
UIC
hazardous
waste
injection
well.
In
these
cases,
the
wells
were
units
regulated
by
the
Underground
Injection
Control
(UIC)
program
under
the
Safe
Drinking
Water
Act
(40
CFR
Part
144).
These
wells
also
had
no
migration
exemptions
under
Section
148.20
to
allow
disposal
of
untreated
hazardous
waste.
Therefore,
we
did
not
evaluate
this
scenario
further.
For
surface
impoundments,
we
concluded
that
releases
to
air
were
not
likely
to
present
concerns.
For
most
sectors,
the
constituents
of
concern
are
nonvolatile
metals,
and
this
makes
volatilization
a
highly
unlikely
pathway
for
constituents
from
normal
wastewater
treatment
practices.
We
recognize
that
releases
of
volatile
organic
chemicals
from
impoundments
may
be
a
potential
route
of
concern
for
one
sector,
inorganic
hydrogen
cyanide
production.
EPA
is
developing
maximum
achievable
control
technology
(MACT)
standards
for
cyanide
manufacturing
under
the
Clean
Air
Act
(CAA),
which
may
address
these
emissions.
5
EPA
is
evaluating
possible
air
releases
from
wastewaters
in
impoundments
as
part
of
the
MACT
rulemaking.
Therefore,
we
did
not
do
any
further
evaluation
of
these
emissions
as
part
of
today's
listing
determination.
We
assessed
the
potential
for
groundwater
releases
from
the
impoundments.
For
sectors
and
wastes
where
facilities
did
not
use
surface
impoundments
for
wastewater
management,
we
determined
that
``
plausible
mismanagement''
would
be
continued
management
in
existing
tank
based
treatment
systems.
We
do
not
view
abandonment
of
existing
treatment
systems
for
surface
impoundments
as
``
plausible,
''
because
the
manufacturers
have
already
made
a
considerable
investment
in
wastewater
treatment
systems
using
tanks
and
will
continue
to
use
them.
Further,
we
assumed
that
wastewater
treatment
tanks
retain
sufficient
structural
integrity
to
prevent
wastewater
releases
to
the
subsurface
(and
therefore
to
groundwater),
and
that
overflow
and
spill
controls
prevent
significant
wastewater
releases.
Thus,
based
on
the
lack
of
any
significant
likelihood
of
release
of
the
constituents
to
groundwater,
we
did
not
project
significant
risks
to
groundwater
from
these
wastes
in
the
tank
based
wastewater
treatment
scenario.
We
did
not
model
any
releases
to
groundwater
from
tanks.
This
is
consistent
with
our
approach
in
other
listing
rules
(see,
for
example,
the
proposed
rule
for
chlorinated
aliphatics
production
wastes
at
64
FR
46476;
August
25,
1999).
We
also
considered
the
possibility
of
air
releases
from
tanks.
For
most
wastes,
the
constituents
of
concern
are
nonvolatile
metals,
making
volatilization
a
very
unlikely
pathway
of
release
from
tanks.
For
the
hydrogen
cyanide
sector,
where
volatile
compounds
are
likely
and
tanks
are
used
in
wastewater
treatment
systems,
the
tanks
will
also
be
covered
by
other
CAA
regulations
as
described
above.
In
addition,
in
many
cases
facilities
have
installed
tank
covers,
further
reducing
the
likelihood
of
release
to
the
air.
As
a
result,
we
have
not
modeled
releases
to
air
from
tanks
for
any
wastes
in
this
listing
determination.
b.
Waste
solids
management.
We
concluded
that
we
did
not
need
to
model
any
releases
of
volatile
constituents
from
solids
for
the
same
reasons
set
out
above.
The
management
practices
of
concern
for
waste
solids
were
landfills,
including
disposal
in
onsite
and
off
site
landfills,
and
in
a
few
cases,
waste
piles.
We
evaluated
the
potential
for
groundwater
releases
from
all
landfills
and
piles.
We
also
considered
the
possibility
of
releases
of
airborne
particulates
by
a
multistep
process
where
we
compared
the
total
concentrations
of
the
constituents
of
concern
to
a
series
of
soil
screening
levels
(see
section
III.
E.
3).
4.
Evaluation
of
Secondary
Materials
RCRA
gives
EPA
jurisdiction
only
over
materials
that
are
discarded.
EPA's
current
definition
of
discard
is
set
out
in
the
definition
of
solid
waste
at
40
CFR
261.2.
Under
this
approach,
process
residuals
(or
``
secondary
materials'')
destined
for
recycling
are
solid
wastes
within
our
jurisdiction
if
the
recycling
closely
resembles
waste
management.
Conversely,
if
the
materials
are
recycled
as
part
of
an
ongoing
manufacturing
process,
they
are
not
solid
wastes.
The
existing
rules
specifically
exclude
secondary
materials
from
jurisdiction
that
are
used
directly
(without
reclamation),
as
ingredients
in
manufacturing
processes
to
make
new
products,
used
directly
as
effective
substitutes
for
commercial
products,
or
returned
directly
to
the
original
process
from
which
they
are
generated
as
a
substitute
for
raw
material
feedstock.
40
CFR
261.2(
e).
In
addition,
the
existing
rules
allow
for
closed
loop
reclamation
where
secondary
materials
can
be
reclaimed
and
returned
to
the
original
production
process
provided
that
the
entire
process
is
closed,
the
reclamation
does
not
involve
controlled
flame
combustion,
and
the
reclaimed
material
is
not
used
to
produce
a
fuel
or
a
material
that
is
used
in
a
manner
constituting
disposal.
(40
CFR
261.4(
a)(
8))
As
discussed
in
the
January
4,
1985,
rulemaking,
these
are
activities
which,
as
a
general
matter,
resemble
ongoing
manufacturing
operations
more
than
conventional
waste
management
and
so
are
more
appropriately
classified
as
not
involving
solid
wastes.
However,
materials
which
would
otherwise
qualify
for
exclusion
under
these
provisions
are
not
excluded
if
EPA
finds
that
the
recycling
is
not
legitimate.
EPA
considers
a
variety
of
economic
and
chemical
factors
when
it
determines
whether
or
not
a
specific
recycling
practice
is
legitimate.
(See
Memorandum
from
Sylvia
K.
Lowrance,
Director
Office
of
Solid
Waste,
concerning
F006
Recycling,
dated
April
26,
1989).
These
determinations
are
very
site
specific
and
tend
to
be
very
time
consuming.
EPA
typically
makes
them
in
the
context
of
site
specific
enforcement
or
permitting
actions.
The
existing
rules,
however,
do
not
exclude
materials
that
are
either
contained
in
or
used
to
produce
fuels
or
that
are
directly
used,
or
incorporated
into
a
product
that
is
used,
in
a
manner
constituting
disposal.
EPA
asserts
RCRA
jurisdiction
for
these
types
of
use/
reuse
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
6
On
May
26,
1998,
we
promulgated
a
conditional
exclusion
from
the
definition
of
solid
waste
for
secondary
materials
(other
than
listed
wastes)
generated
within
the
primary
mineral
processing
industry
from
which
minerals,
acids,
cyanide,
water,
or
other
values
are
recovered
by
mineral
processing,
with
certain
provisions.
Because
this
conditional
exclusion
only
applied
to
non
listed
wastes,
and
we
were
making
listing
determinations,
we
did
not
use
this
exclusion
as
a
basis
to
not
evaluate
wastes
for
listing
purposes.
On
April
21,
2000,
the
D.
C.
Circuit
Court
issued
a
decision
vacating
a
portion
of
this
conditional
exclusion.
[See
Association
of
Battery
Recyclers,
Inc.
v.
EPA.
208
F.
3d
1047
(D.
C.
Cir.
2000)].
circumstances
as
they
more
closely
resemble
conventional
waste
management
rather
than
ongoing
manufacturing.
(See
50
FR
637±
640,
January
4,
1985).
A
series
of
court
decisions
also
address
the
issue
of
our
jurisdiction
over
recycled
materials.
In
general,
they
hold
that
EPA
lacks
authority
to
regulate
materials
that
are
immediately
reused
in
an
ongoing
manufacturing
or
industrial
process.
American
Mining
Congress
v.
EPA
(824
F.
2d
1177
(D.
C.
Cir.
1987)
(AMC
I));
American
Mining
Congress
v.
EPA
(907
F.
2d
1179,
1186
(D.
C.
Cir.
1990)
(AMC
II));
American
Petroleum
Institute
v.
EPA
(216
F.
3d
50
(D.
C.
Cir.
2000)).
The
most
recent
decision,
Association
of
Battery
Recyclers,
Inc.
v.
EPA
(208
F.
3d
1047
(D.
C.
Cir
2000)),
remanded
a
rule
regulating
the
reuse
of
some
closely
related
materials.
We
are
still
evaluating
the
impacts
of
this
decision.
However,
the
remand
does
not
affect
this
rule
because
we
are
not
relying
on
the
exemptions
in
the
remanded
rule.
6
For
almost
all
of
the
residual
materials
from
these
manufacturing
processes
which
are
re
used
or
recycled
in
some
way,
we
decided
not
to
attempt
to
determine
whether
the
recycling
practice
is
not
subject
to
regulation
under
the
court
decisions
and
regulations
described
above.
Such
determinations
can
be
very
timeconsuming
particularly
where
we
find
recycling
practices
that
appear
not
to
be
regulated,
and
then
need
to
determine
whether
or
not
such
practices
are
legitimate.
Consequently,
we
decided
that
it
would
be
more
efficient
to
examine
first
the
potential
risks
posed
by
the
reported
recycling
practices.
If
we
found
no
significant
risks,
we
would
decide
not
to
list
the
material.
If,
on
the
other
hand,
we
found
risks,
we
evaluate
the
recycling
practice
prior
to
making
a
listing
decision.
To
assess
the
risks
of
materials
recycled
on
site
by
reusing
them
in
one
of
the
consent
decree
manufacturing
processes,
we
first
evaluated
the
management
of
the
materials
prior
to
their
re
use.
We
looked
for
closed
piping,
covers
on
containers,
or
similar
barriers
to
releases
to
the
environment.
Where
we
found
such
management
practices,
we
determined
that
there
was
no
significant
potential
for
releases.
We
then
evaluated
the
potential
for
releases
from
the
consent
decree
process
itself.
We
found
that
the
only
points
at
which
releases
were
expected
were
either
those
where
we
were
already
evaluating
solid
wastes
for
the
purposes
of
this
listing
or
points
where
the
facility
released
uncontained
gases
outside
of
RCRA
jurisdiction.
Consequently,
we
felt
that
we
were
evaluating
all
of
the
potential
risks
(within
our
jurisdiction)
associated
with
the
recycling
of
these
materials.
In
the
antimony
oxide
sector,
however,
we
found
one
residual
that
was
being
held
in
containers
for
several
years
for
potential
reuse.
Our
rules
identify
this
practice
as
``
speculative
accumulation''
and
classify
the
materials
held
in
such
a
manner
as
solid
wastes.
Accordingly,
we
assessed
the
risks
posed
by
these
accumulated
wastes.
We
found
that
a
few
materials
are
inserted
into
separate
manufacturing
processes
co
located
on
site
with
consent
decree
processes.
We
evaluated
the
potential
for
releases
prior
to
reinsertion
into
that
separate
process.
However,
as
explained
above
in
section
III.
B,
we
did
not
evaluate
any
risks
posed
by
use
of
residuals
in
processes
that
are
not
subject
to
our
consent
decree
deadline.
We
also
considered
the
risks
of
materials
recycled
off
site.
We
considered
the
potential
for
release
before
the
materials
were
transferred
offsite
We
did
not
assess
the
off
site
uses
which
involved
non
consent
decree
manufacturing
processes.
In
a
few
cases,
however,
we
found
that
the
reuse
involved
land
placement
or
burning
for
energy
recovery.
These
activities
are
always
regulated
as
waste
management
under
the
rules
and
court
decisions
described
above.
In
those
cases,
we
concluded
that
the
materials
were
wastes
from
the
consent
decree
process
where
they
were
generated,
and
we
evaluated
risks
posed
by
the
use.
For
example,
we
evaluated
the
risks
posed
by
use
of
residual
materials
from
the
production
of
boric
acid
as
fuels
for
cement
kilns.
In
one
case
involving
antimony
oxide
residuals,
we
found
that
the
residuals
were
sent
off
site
to
another
smelter
producing
antimony
oxide.
This
smelter
happens
to
be
located
outside
of
the
country.
We
did
not
evaluate
risks
from
its
residuals,
as
we
have
no
legal
jurisdiction
to
regulate
them.
We
have
evaluated
the
production
of
antimony
oxide
within
the
U.
S.
in
this
rulemaking,
so
we
have
evaluated
the
risks
that
would
be
posed
if
this
generator
changed
its
practice
and
sent
the
materials
to
an
antimony
oxide
smelter
located
within
the
U.
S.
For
purposes
of
convenience,
in
the
sector
specific
discussions
below
(and
in
the
various
background
documents)
we
describe
all
of
the
residuals
as
wastes.
We
emphasize,
however,
that
we
have
not
determined
whether
any
of
the
residuals
that
are
recycled
are
solid
wastes
as
defined
in
40
CFR
260.2.
We
believe
it
is
more
appropriate
to
leave
such
site
specific
determinations
to
other
decision
making
processes.
E.
Description
of
Risk
Assessment
Approaches
Before
turning
to
the
details
of
the
risk
assessment
approaches
used,
we
want
to
highlight
two
general
issues.
First,
we
note
that
for
this
proposal
we
used
a
variety
of
screening
methodologies
to
assess
a
large
number
of
wastes.
Due
to
time
constraints
imposed
by
the
consent
decree
schedule,
we
chose
Ðwhere
appropriateÐ
to
use
these
methodologies
rather
than
conducting
more
time
consuming,
full
scale,
risk
assessment
modeling.
In
general,
however,
we
believe
that
these
screening
methodologies
conservatively
assessed
risks,
so
that
wastes
that
we
``
screened
out''
are
unlikely
to
present
significant
risks.
Second,
we
want
to
describe
our
selection
of
plausible
mismanagement
practices
for
both
screening
and
full
modeling
assessments.
In
general,
we
assessed
the
types
of
management
units
which,
according
to
data
available
to
us,
facilities
have
actually
used
or
contemplated
using.
Frequently,
we
found
that
facilities
had
made
economic
investments
that
would
make
them
likely
to
continue
to
use
the
same
types
of
units.
For
example,
where
facilities
had
paid
to
install
tanks
to
store
or
treat
wastes,
we
assumed
that
they
would
continue
to
use
tanks
rather
than
place
wastes
in
pits
or
surface
impoundments.
Furthermore,
we
found
that
some
waste
quantities
were
so
large
that
it
would
be
prohibitively
expensive
to
transport
wastes
off
site.
Similarly,
where
facilities
had
installed
piping
to
return
residual
materials
to
their
production
processes,
we
assumed
that
they
would
continue
to
use
these
systems
to
recycle
those
residuals.
We
also
assumed
that
such
facilities
had
found
it
more
economical
to
return
those
residuals
to
their
processes,
and
were
thus
not
likely
to
send
them
to
landfills
or
other
types
of
disposal
units.
We
seek
comment
on
all
data,
assumptions
and
methodologies
used
in
our
risk
assessment
for
this
proposal.
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/
Vol.
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
7
EPA's
Integrated
Risk
Information
System
(IRIS)
may
be
found
at
http://
www.
epa.
gov/
iris.
See
also
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August
2000)
for
a
discussion
of
the
toxicity
benchmark
values
used
in
today's
rule.
1.
What
Risk
Thresholds
Were
Used?
EPA's
listing
program
generally
defines
risk
levels
of
concern
for
carcinogens
as
risks
within
or
above
a
range
of
1´10
6
to
1´10
4
(from
1
in
1,000,000
to
1
in
10,000)
at
the
upper
end
of
the
risk
distribution
(e.
g.,
90th
or
95th
percentile
risk
for
a
particular
exposure
scenario).
The
level
of
concern
for
non
cancer
effects
is
generally
indicated
by
a
hazard
quotient
(HQ)
of
1
or
greater
at
the
upper
end
of
the
distribution.
Consistent
with
the
listing
policy
described
in
the
dyes
and
pigments
proposal
(59
FR
66075±
66078)
we
used
a
1´10
5
risk
level
and/
or
HQs
of
one
to
identify
which
wastes
are
candidates
for
listing.
To
make
a
listing
determination,
we
then
used
a
weightof
evidence
approach
that
considers
the
risk
estimates
along
with
other
information
related
to
the
factors
described
in
40
CFR
261.11(
a)(
3).
For
cancer,
a
risk
threshold
of
one
in
1,000,000
represents
the
probability
that
an
individual
will
develop
cancer
over
a
lifetime
as
a
result
of
exposure
to
a
chemical
contaminant.
When
we
estimate
the
lifetime
excess
cancer
risk,
we
use
an
upper
bound
estimate
of
the
carcinogenic
slope
factor
(CSF)
as
derived
from
laboratory
studies
in
animals
or
from
human
epidemiological
studies.
In
addition,
because
the
CSF
typically
relies
on
a
number
of
extrapolations
(e.
g.,
from
animals
to
humans
and
from
high
doses
to
low
doses)
there
is
some
uncertainty
in
the
value
of
the
CSF.
For
non
cancer
effects,
which
include
a
wide
variety
of
health
effects,
we
used
EPA's
reference
dose
(RfD)
as
a
risk
threshold.
A
reference
dose
is
an
estimate
of
an
oral
exposure
that
is
likely
to
be
without
an
appreciable
risk
of
adverse
effects
in
the
general
population,
including
sensitive
individuals,
over
a
lifetime.
The
RfD
can
be
derived
from
a
NOAEL,
LOAEL,
or
benchmark
dose.
Uncertainty
factors
are
applied
to
address
limitations
of
the
available
toxicological
data
and
are
necessary
to
ensure
the
RfD
is
protective
of
individuals
in
the
general
population.
The
use
of
uncertainty
factors
is
based
on
long
standing
scientific
practice.
Uncertainty
factors
when
combined
commonly
range
from
10
to
1000
depending
on
the
nature
and
quality
of
the
underlying
data.
The
RfD
methodology
is
expected
to
have
an
uncertainty
spanning
perhaps
an
order
of
magnitude.
To
assess
risks
associated
with
non
cancer
effects,
we
used
a
hazard
quotient
(HQ),
which
is
defined
as
the
ratio
of
the
estimated
dose
of
a
given
chemical
to
an
individual
to
the
reference
dose
for
that
chemical.
A
hazard
quotient
(HQ)
of
one
(1)
indicates
that
the
estimated
dose
is
equal
to
the
reference
dose
(RfD)
and,
therefore
an
HQ
of
1
is
EPA's
threshold
of
concern
for
non
cancer
effects.
Usually,
doses
less
than
the
RfD
(HQ<
1)
are
not
likely
to
be
associated
with
adverse
health
risks
and,
therefore,
are
less
likely
to
be
of
regulatory
concern.
As
the
frequency
and/
or
magnitude
of
the
exposures
exceeding
the
RfD
increase
(HQ>
1),
the
probability
of
adverse
effects
in
a
human
population
increases.
However,
it
should
not
be
categorically
concluded
that
all
doses
below
the
RfD
are
``
acceptable''
(or
will
be
risk
free)
and
that
all
doses
in
excess
of
the
RfD
are
``
unacceptable''
(or
will
result
in
adverse
effects).
The
values
of
the
CSF
and
RfD
that
we
use
for
assessing
risks
are
generally
taken
from
EPA's
on
line
toxicity
data
base
called
IRIS.
However,
in
some
cases
we
used
EPA's
compilation
of
toxicity
benchmarks
known
as
HEAST
or
other
sources,
such
as
toxicological
issue
papers
prepared
by
EPA's
National
Center
for
Environmental
Assessment
(NCEA).
7
2.
What
Leaching
Procedures
Were
Used?
As
noted
in
III.
C,
we
used
the
TCLP
and
SPLP
leaching
procedures
to
evaluate
the
wastes
in
today's
rule.
EPA
developed
the
TCLP
as
a
tool
to
predict
the
leaching
of
constituents
from
the
waste
in
a
municipal
solid
waste
landfill,
and
the
TC
regulations
use
this
method
to
determine
if
a
waste
is
hazardous
under
261.24
(see
the
Toxicity
Characteristic
rule,
55
FR
46369;
November
2,
1990).
We
have
also
used
the
TCLP
in
the
listing
program
to
estimate
leaching
concentrations
for
use
in
groundwater
modeling
(for
example,
see
the
recent
petroleum
listing,
63
FR
42110,
August
6,
1998).
We
believe
the
TCLP
is
the
most
appropriate
leaching
procedure
to
use
for
wastes
in
municipal
landfills,
because
the
leaching
solution
is
similar
to
the
type
of
leachate
generated
from
the
decomposition
of
municipal
waste.
The
TCLP
leaching
solution
is
a
solution
containing
acetic
acid
that
is
adjusted
to
a
pH
of
4.93
or
2.88,
depending
on
the
acidity
of
the
waste
sample.
EPA
developed
the
SPLP
as
a
method
to
predict
leaching
from
wastes
or
soils
under
exposure
to
the
slightly
acidic,
dilute
solution
generated
by
normal
rainfall.
The
SPLP
test
uses
a
leach
solution
which
mimics
acid
rain,
while
the
TCLP
uses
a
leach
solution
which
mimics
acids
formed
in
municipal
landfills.
In
past
actions,
EPA
has
recognized
that
the
TCLP's
use
of
organic
acids
may
not
be
appropriate
for
disposal
scenarios
that
do
not
involve
municipal
landfills.
For
example,
in
the
proposed
rule
for
management
and
disposal
of
lead
based
paint
debris,
EPA
used
the
SPLP
to
assess
leaching
from
landfills
that
do
not
accept
municipal
wastes
(see
63
FR
70189;
December
18,
1998).
Similarly,
EPA
utilized
the
SPLP
in
screening
low
hazard
wastes
as
part
of
its
1989
Bevill
determination
(see
54
FR
36592;
September
1,
1989).
In
the
context
of
EPA's
more
recent
mineral
processing
sector
actions,
we
considered
the
relative
merits
of
both
the
TCLP
and
the
SPLP
for
various
wastes
in
the
mineral
processing
industries;
EPA
decided
to
continue
to
rely
on
the
TCLP
for
defining
characteristically
hazardous
Bevill
wastes,
in
part
because
we
found
that
disposal
in
municipal
landfills
did
occur
for
some
sectors.
See
the
Land
Disposal
Restrictions
Phase
IV
Final
Rule
at
63
FR
28598
(May
26,
1998).
For
today's
rule,
however,
we
have
specific
data
showing
that
some
wastes
do
not
go
to
municipal
landfills
and
are
unlikely
to
be
disposed
of
in
municipal
landfills.
We
used
the
SPLP
sampling
results
for
wastes
that
were
not
likely
to
go
to
municipal
landfills,
and
we
used
the
TCLP
results
for
wastes
going
to
municipal
landfills.
3.
How
Were
Wastes
Screened
To
Determine
If
Further
Assessment
Was
Needed?
We
used
a
number
of
approaches
to
eliminate
from
further
consideration
those
wastes
that
could
not
plausibly
pose
unacceptable
risks.
This
served
to
identify
those
wastes
and
chemical
constituents
that
required
further
assessment.
Different
screening
approaches
were
used
depending
on
the
type
of
waste
management
practices
employed
in
the
industry
and,
in
some
instances,
the
waste
volume
and
the
location
of
the
waste
management
units.
For
wastes
that
are
managed
in
landfills,
groundwater
contamination
is
the
primary
source
of
human
exposures,
particularly
for
certain
metals
and
other
inorganic
compounds
that
are
nonvolatile,
such
as
those
present
in
the
wastes
that
are
the
subject
of
today's
rule.
We
compared
leachate
concentrations
derived
from
the
TCLP
or
SPLP
test
measurements
to
levels
in
drinking
water
that
are
protective
of
human
health.
These
levels,
referred
to
as
health
based
levels
(HBLs),
are
designed
to
be
protective
of
both
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
8
Details
on
how
HBLs
are
derived
may
be
found
in
the
risk
assessment
background
document
for
today's
proposal,
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August
2000).
9
We
used
professional
judgment
to
screen
out
constituents
with
concentrations
within
a
factor
of
two
of
the
HBLs.
Historically,
our
models
have
suggested
that
the
dilution
and
attenuation
of
constituents
in
the
subsurface
will
generally
result
in
dilution
and
attenuation
factors
(DAFs)
of
2
or
greater.
(See,
for
example,
the
DAFs
estimated
for
the
petroleum
refining
listing
determination,
63
FR
42110,
and
the
docket
for
today's
rulemaking
for
DAFs
calculated
to
support
today's
proposal.)
If
our
consideration
of
site
specific
factors
had
indicated
that
a
very
low
DAF
were
likely
for
actual
exposure
(e.
g.
known
drinking
water
wells
placed
very
close
to
the
management
until
boundary),
we
would
have
modeled
that
waste
rather
than
screening
it
out
using
professional
judgment.
10
Different
statistics
may
be
used
for
characterizing
background
levels
depending
on
the
data
available.
The
mathematical
properties
of
the
arithmetic
mean
allow
it
to
be
used
when
only
average
values
rather
than
the
original
data
are
available.
However,
if
the
original
data
are
available,
the
data
can
be
pooled
and
a
geometric
mean
can
be
calculated.
If
the
data
are
positively
skewed,
as
is
often
the
case,
the
arithmetic
mean
will
be
higher
than
the
geometric
mean.
We
consider
either
statistic
to
be
a
central
tendency
measure
of
background
levels.
However,
background
levels
are
highly
variable
and
may
be
considerably
higher
or
lower
than
the
national
average
at
any
given
location.
See,
for
example,
the
U.
S.
Geological
Survey
paper
``
Elemental
Concentrations
in
Soils
and
Other
Surficial
Materials
in
the
Conterminous
United
States,
''
paper
1270,
U.
S.
Government
Printing
Office,
1984.
11
See
U.
S.
EPA,
``
Revised
Risk
Assessment
for
the
Air
Characteristic
Study,
''
Office
of
Solid
Waste,
EPA
530±
R±
99±
019,
November
1999.
children
and
adults.
Health
based
levels
(HBLs)
are
levels
in
environmental
media
that
would
not
exceed
EPA's
risk
thresholds
given
conservative
assumptions
regarding
exposure
(e.
g.,
a
level
in
drinking
water
that
would
not
exceed
a
risk
threshold
for
an
individual
whose
drinking
water
intake
was
at
the
high
end
of
the
distribution
for
the
general
population).
8
Although
an
HBLs
represents
a
concentration
level
at
the
point
of
exposure,
we
conservatively
assumed
direct
contact
with
the
wastes
(i.
e.,
no
dilution)
for
the
purpose
of
screening
out
wastes
and
chemical
constituents
that
could
not
pose
unacceptable
risks
and,
therefore,
do
not
merit
further
analysis.
As
explained
previously,
we
used
SPLP
measurements
for
wastes
that
are
managed
in
landfills
containing
only
industrial
wastes
and
TCLP
measurements
for
wastes
that
are
managed
in
landfills
which
also
contain
municipal
wastes.
For
wastewaters
that
are
managed
in
surface
impoundments,
we
used
the
concentration
in
the
filtered
liquid
(i.
e.,
the
SPLP
filtrate)
because
the
filtrate
is
more
representative
of
the
fraction
of
the
waste
that
could
infiltrate
into
the
subsurface
environment.
Regardless
of
the
type
of
measurement,
if
the
result
of
the
chemical
analysis
for
a
particular
compound
was
below
the
limit
of
detection
but
the
compound
was
detected
in
the
waste,
then
we
used
1
¤2
the
value
reported
by
the
laboratory
as
the
limit
of
detection
for
that
compound.
Any
chemical
contaminant
in
a
waste
that
did
not
screen
out
against
HBLs
(i.
e.,
the
waste
concentration
was
a
factor
of
2
or
less
times
the
HBLs
9
)
we
identified
as
a
constituent
of
concern
(CoC)
requiring
further
assessment.
However,
very
low
volume
wastes
were
subject
to
further
screening,
as
described
below.
For
very
low
volume
wastes
that
did
not
screen
out
against
HBLs,
we
performed
an
additional
conservative
screen
to
determine
if
the
waste
could
plausibly
pose
a
risk
to
human
health
when
disposed
of
in
a
landfill.
Typically
wastes
generated
in
volumes
of
less
than
1
or
2
metric
tons
per
year
were
considered
as
candidates
for
this
de
minimis
analysis.
This
analysis
assumed
that
the
entire
mass
of
the
chemical
contaminant
in
a
volume
of
waste
that
is
generated
in
a
year's
time
would
leach
out
of
the
waste
and
infiltrate
into
groundwater
in
the
same
year.
The
only
dilution
that
was
assumed
to
occur
was
with
the
volume
of
water
that
infiltrated
into
the
landfill.
To
minimize
the
amount
of
dilution
we
chose
a
conservative
infiltration
rate
based
on
the
infiltration
that
could
occur
for
a
relatively
low
permeability
soil
underlying
a
relatively
small
landfill
(corresponding
to
the
10th
percentile
of
the
distribution
of
municipal
landfill
areas
nationwide).
However,
in
some
cases
the
resulting
infiltration
was
less
than
the
amount
of
water
that
would
be
withdrawn
from
a
well
by
a
household
for
domestic
usage.
In
these
instances,
we
diluted
the
infiltrate
into
the
minimum
volume
of
water
needed
to
support
a
household
well,
which
we
estimated
from
data
on
U.
S.
per
capita
water
consumption
assuming
a
family
of
four.
The
concentration
derived
using
this
procedure
was
then
compared
to
the
HBLs.
Any
chemical
contaminant
that
did
not
screen
out
as
a
result
of
this
analysis
we
identified
as
a
constituent
of
concern
(CoC)
requiring
further
assessment.
While
we
do
expect
the
de
minimis
screen
to
be
conservative
overall,
the
degree
to
which
it
is
conservative
depends
on
many
waste
and
site
specific
factors.
(For
example,
our
sampling
and
analysis
data
indicate
that
in
some
cases
essentially
all
of
the
chemical
constituent
leached
out
of
the
sample
over
the
duration
of
the
leach
test.)
For
wastes
managed
in
waste
piles
and
landfills,
we
performed
a
multilevel
screening
analysis
to
determine
if
further
assessment
of
the
air
pathway
was
needed.
Wind
blown
dust
from
wastes
managed
in
piles
is
a
potential
source
of
human
exposures.
This
pathway
is
also
possible
for
landfills,
but
likely
to
result
in
much
lower
releases
due
to
the
common
usage
of
daily
and
longer
term
cover
at
landfills.
In
the
first
level
screen
we
compared
the
waste
contaminant
total
concentrations
to
background
levels
in
soils.
Background
soil
levels
were
taken
from
published
compilations
of
levels
in
native
soils
nationwide
and
were
generally
characterized
using
a
geometric
mean
or
(in
a
few
instances)
an
arithmetic
mean
concentration
of
the
available
data.
10
If
the
waste
concentrations
exceeded
background
levels
in
soils,
we
performed
a
second
level
screen
by
comparing
the
waste
concentrations
with
soil
ingestion
HBLs.
Soil
ingestion
HBLs
assume
direct
contact
with
the
waste
and,
therefore,
are
more
conservative
than
HBLs
based
on
inhalation
exposures.
In
those
instances
when
the
waste
concentrations
exceeded
both
background
levels
and
soil
ingestion
HBLs,
we
performed
a
third
level
screen
using
the
results
of
EPA's
air
characteristics
study.
This
study
developed
levels
of
chemical
contaminants
in
wastes
that
are
protective
of
human
health
with
respect
to
inhalation
exposures
when
managed
in
a
variety
of
ways.
11
In
particular,
air
characteristic
levels
were
developed
for
waste
piles
at
several
different
distances
from
a
potential
receptor.
We
used
the
air
characteristic
levels
corresponding
to
a
downwind
distance
of
25
or
150
meters
(80
or
500
feet).
Because
the
air
characteristic
levels
include
the
effect
of
atmospheric
dilution,
they
are
significantly
higher
than
soil
ingestion
HBLs.
In
most
cases
waste
concentrations
are
either
below
background
or
below
soil
ingestion
HBLs
for
the
wastes
EPA
evaluated.
Moreover,
we
found
no
instances
in
which
air
characteristic
levels
are
exceeded.
In
the
cases
where
waste
concentrations
exceeded
the
soil
ingestion
levels,
the
exceedence
was
typically
less
than
a
factor
of
2
to
3.
We
believe
it
is
highly
unlikely
that
off
site
exceedences
due
to
windblown
dust
from
piles
or
landfills
would
actually
exceed
the
soil
ingestion
levels
given
this
low
level
of
exceedence
in
the
waste.
Therefore,
we
conclude
that
risks
associated
with
particulates
from
piles
and
landfills
transported
by
an
air
pathway
are
not
significant
and
no
further
assessment
is
needed.
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
12
See
the
risk
assessment
background
document
for
today's
proposal,
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wasters''
(August
2000).
13
See
EPA's
``
Exposure
Factors
Handbook''
(EPA/
600/
P±
95/
002Fa),
August
1997,
for
additional
details
on
human
exposure
factors.
14
We
relied
upon
the
probabilistic
risk
estimates
for
today's
proposal.
However,
both
deterministic
and
probabilistic
approaches
are
presented
in
the
risk
assessment
background
document.
15
See
HWIR
proposal
at
64
FR
63429,
November
19,
1999,
and
the
final
rule
for
the
recent
listing
of
wastes
from
petroleum
refining
at
63
FR
42157,
August
6,
1998.
EPA
derived
HBLs
for
chemical
contaminants
from
toxicity
benchmarks
and
a
set
of
exposure
assumptions
that
differ
depending
on
the
type
of
health
effect
and
exposure
pathway.
For
carcinogenic
effects,
HBLs
were
derived
from
a
cancer
slope
factor
(CSF)
for
the
oral
route
of
exposure.
For
non
cancer
effects,
HBLs
were
derived
from
EPA's
oral
reference
dose
(RfD)
for
the
compound.
Risk
thresholds
were
as
described
previously.
Drinking
water
and
soil
ingestion
HBLs
for
individual
chemical
contaminants
are
presented
elsewhere.
12
The
exposure
assumptions
we
used
for
deriving
the
HBLs
are
described
as
follows.
For
drinking
water
exposures,
we
derived
HBLs
for
carcinogenic
effects
for
an
adult
exposed
for
30
years
and
having
a
tap
water
intake
of
1.4
liters
per
day.
This
represents
21
milliliters
per
day
on
a
per
kilogram
body
weight
basis,
which
is
the
mean
tap
water
intake
for
adults.
A
duration
of
exposure
of
30
years
represents
the
95th
percentile
of
the
distribution
of
residential
occupancy
periods
for
adults
nationwide.
We
derived
HBLs
for
noncancer
effects
for
a
child
having
a
tap
water
intake
of
1.3
liters
per
day.
This
represents
64
milliliters
per
day
on
a
per
kilogram
body
weight
basis
and
corresponds
to
the
90th
percentile
of
the
distribution
of
tap
water
intakes
in
children
that
are
1
to
10
years
of
age.
13
Because
the
drinking
water
HBLs
incorporate
conservative
exposure
assumptions,
we
consider
them
to
be
appropriate
for
screening
purposes.
Soil
ingestion
HBLs
were
derived
from
either
the
CSF
or
the
RfD
assuming
a
soil
ingestion
rate
of
200
milligrams
per
day
and
an
exposure
duration
of
8
years.
A
soil
ingestion
rate
of
200
milligrams
per
day
(about
3/
100th
of
a
teaspoon)
is
a
conservative
estimate
of
the
mean
intake
rates
for
children
in
the
age
range
of
1
to
7.
An
exposure
duration
of
8
years
is
an
estimate
of
the
mean
residential
occupancy
period
for
a
6
year
old
child.
In
selecting
these
values
for
use
in
deriving
soil
ingestion
HBLs,
we
considered
the
likelihood
that
children
would
actually
come
into
direct
contact
with
the
wastes.
In
cases
where
wastes
are
known
to
be
managed
in
on
site
landfills
or
surface
impoundments
that
are
located
adjacent
to
or
in
close
proximity
to
surface
waters,
we
used
additional
screening
criteria
to
identify
wastes
that
could
have
the
potential
to
adversely
impact
surface
waters
before
eliminating
the
wastes
from
further
consideration.
We
used
EPA's
national
water
quality
criteria
for
this
purpose.
Specifically,
we
compared
waste
concentrations
(i.
e.,
SPLP
measurements
for
wastes
managed
in
on
site
landfills
and
SPLP
filtrate
measurements
for
wastes
managed
in
surface
impoundments)
directly
to
ambient
water
quality
criteria
that
have
been
established
for
the
protection
of
both
human
health
and
aquatic
life.
Any
chemical
contaminant
in
a
waste
managed
under
these
circumstances
that
did
not
screen
out
against
ambient
water
quality
criteria
(within
a
factor
of
2)
we
identified
as
a
constituent
of
concern
(CoC)
requiring
further
assessment.
EPA
recently
republished
ambient
water
quality
criteria
for
a
large
number
of
chemical
contaminants
(see
63
FR
68354;
December
10,
1998).
Separate
criteria
for
the
protection
of
aquatic
life
have
been
established
for
fresh
water
and
salt
water.
In
a
number
of
instances
waste
management
units
are
located
adjacent
to
estuarine
environments.
In
these
cases,
for
screening
purposes,
we
used
the
lower
of
the
fresh
water
and
salt
water
criteria.
4.
How
Was
the
Groundwater
Pathway
Evaluated?
We
conducted
modeling
analyses
to
assess
possible
risks
to
human
health
from
wastes
managed
in
land
based
units
such
as
landfills
and
surface
impoundments.
We
used
fate
and
transport
models
to
estimate
contaminant
concentrations
that
might
occur
in
a
residential
drinking
water
well
from
migration
of
uncontrolled
releases
of
leachate
from
a
waste
management
unit
through
the
subsurface
environment.
We
assessed
human
exposures
to
these
contaminants
from
information
on
the
amount
of
tap
water
an
individual
drinks
and
the
length
of
time
an
individual
might
reside
at
a
residence
and
utilize
water
from
a
residential
well.
We
then
assessed
what
the
human
health
risks
would
be
as
a
consequence
of
such
exposures.
We
took
a
probabilistic
approach
to
the
assessment
of
human
exposures.
In
this
approach,
we
used
Monte
Carlo
simulation
techniques
to
determine
the
distribution
of
groundwater
concentrations
to
which
an
individual
could
be
exposed
and
combined
this
with
distributional
data
for
the
general
population
on
the
intake
rates
of
tap
water
and
the
duration
of
exposure.
We
then
assessed
the
risks
to
human
health
from
both
the
middle
(central
tendency)
and
upper
(high
end)
portions
of
the
distribution
of
human
exposures.
EPA
defines
high
end
as
the
90th
percentile
and
greater
of
the
distribution
of
exposures
in
the
population.
Central
tendency
generally
refers
to
the
mean
or
50th
percentile
of
the
distribution.
Central
tendency
and
high
end
estimates
may
be
generated
using
either
probabilistic
or
deterministic
approaches.
14
We
evaluated
potential
groundwater
exposures
over
a
10,000
year
time
period.
Evaluating
peak
doses
over
this
time
horizon
allows
the
model
to
capture
the
slow
movement
of
some
chemicals
through
the
subsurface.
While
exposure
assumptions
(e.
g.,
land
use
patterns,
climate,
environmental
and
other
exposure
assumptions)
are
expected
to
change
over
10,000
years,
such
changes
are
difficult
to
predict.
We
believe
such
a
time
period
is
appropriate
to
ensure
human
health
is
protected.
Even
with
long
time
periods,
we
are
still
concerned
with
the
risk
that
would
result
once
contamination
reaches
potential
drinking
water
wells.
Given
that
the
metals
of
concern
do
not
degrade
in
the
environment,
we
believe
a
long
modeling
time
period
is
necessary.
Further,
there
is
uncertainty
in
when
peak
concentrations
at
the
receptor
well
may
occur,
and
using
the
10,000
year
time
frame
makes
it
more
likely
that
we
will
capture
the
peak
risk
in
our
evaluation.
EPA
has
used
similar
time
horizons
for
groundwater
modeling
in
past
hazardous
waste
rules.
15
For
modeling
chemical
concentrations
in
ground
water,
many
input
parameters
were
varied.
These
included
waste
characterization
data
(e.
g.,
chemical
concentrations
and
waste
volumes),
waste
management
practices
(e.
g.,
waste
management
unit
size
and
infiltration
rates),
hydrogeological
parameters
(e.
g.,
depth
to
water
table,
hydraulic
conductivity,
and
aquifer
thickness),
and
chemical
parameters
(e.
g.,
soilwater
partition
coefficient).
We
conducted
extensive
sensitivity
analyses
to
determine
which
of
these
parameters
had
the
greatest
influence
on
the
risk
results.
For
a
detailed
discussion
of
the
ground
water
analysis,
including
parameter
distributions,
input
assumptions,
and
sensitivity
analyses,
see
the
risk
assessment
background
document
for
today's
proposal,
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August
2000).
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
16
A
log
uniform
distribution
is
a
distribution
that
has
equal
probabilities
at
all
percentiles
when
the
parameter
is
transformed
into
logarithms.
For
these
chemical
constituents,
we
used
a
log
uniform
distribution
that
was
centered
on
the
geometric
mean
of
the
available
data
and
had
a
width
of
3
logs.
This
was
done
to
better
account
for
the
variability
normally
seen
in
measurements
of
Kd.
17
U.
S.
Environmental
Protection
Agency,
``
Draft
National
Survey
of
Solid
Waste
(Municipal)
Landfill
Facilities,
''
Office
of
Solid
Waste,
Washington,
D.
C.,
1988
(EPA/
530±
SW±
88±
034).
18
See
assumptions
made
for
the
recent
proposed
hazardous
waste
identification
rule
at
64
FR
63382;
November
19,
1999.
In
assessing
groundwater
exposures
for
wastes
managed
in
off
site
landfills,
we
considered
the
locations
of
every
industrial
and
municipal
landfill
known
to
receive
the
wastes
and
the
volume
of
wastes
managed
at
each
of
these
sites.
In
so
doing,
we
considered
only
that
volume
of
waste
that
is
currently
not
being
managed
as
hazardous
waste.
For
wastes
managed
on
site
by
multiple
facilities,
we
generally
considered
only
those
facilities
where
groundwater
exposures
are
expected
to
be
the
highest.
These
locations
were
identified
by
considering
the
concentration
levels
of
chemical
constituents
in
the
waste
managed
at
the
site
and
the
proximity
of
on
site
waste
management
units,
namely
landfills
and
surface
impoundments,
to
potential
off
site
receptors.
Our
rationale
for
selecting
particular
locations
for
conducting
modeling
analyses
is
discussed
in
section
III.
F
for
the
specific
inorganic
sectors.
a.
How
were
contaminant
concentrations
in
groundwater
modeled?
For
modeling
fate
and
transport
in
the
subsurface
environment,
we
used
the
groundwater
model
EPACMTP
(EPA's
Composite
Model
for
Leachate
Migration
with
Transformation
Products).
The
model
consists
of
two
coupled
modules:
(1)
A
one
dimensional
module
that
simulates
infiltration
and
dissolved
contaminant
transport
through
the
unsaturated
zone,
and
(2)
a
three
dimensional
saturated
zone
flow
and
transport
module.
Fate
and
transport
processes
accounted
for
in
the
model
are
advection,
hydrodynamic
dispersion,
sorption
equilibria,
hydrolysis,
and
dilution
from
recharge
to
the
saturated
zone.
The
model
assumes
that
the
soil
and
aquifer
are
uniform
porous
media.
EPACMTP
(as
used
in
this
analysis)
does
not
account
for
heterogeneity
of
the
aquifer
or
for
preferential
migration
pathways
such
as
fractures
and
macro
pores
or
for
colloidal
transport,
any
or
all
of
which
could
be
important
at
a
particular
site.
Although
EPACMTP
simulates
steadystate
groundwater
flow
in
both
the
unsaturated
zone
and
the
saturated
zone,
the
model
(as
used
in
this
analysis)
simulates
contaminant
transport
from
a
finite
source
and
predicts
the
peak
contaminant
concentration
arriving
at
a
downgradient
groundwater
well.
Only
migration
of
chemical
contaminants
within
the
surficial
aquifer
is
modeled
by
EPACMTP.
We
did
not
model
migration
of
contaminants
to
deeper
aquifers
but,
instead,
based
our
assessment
on
exposures
that
might
occur
from
groundwater
withdrawn
from
the
uppermost
aquifer
where
contaminant
concentrations
are
expected
to
be
the
highest.
Equilibrium
sorption
of
chemical
contaminants
onto
soil
and
aquifer
materials
is
parameterized
in
the
EPACMTP
model
using
a
soil
water
partition
coefficient
(Kd).
For
today's
proposed
rule,
we
used
values
for
Kd
that
have
been
derived
from
field
studies
and
have
been
published
in
the
scientific
literature.
An
empirical
distribution
was
used
to
characterize
the
variability
of
Kd
for
chemical
contaminants
for
which
sufficient
published
data
were
available.
However,
for
several
chemical
contaminants
having
relatively
few
published
values
(e.
g.,
antimony
and
thallium),
a
log
uniform
distribution
was
used.
16
Our
use
of
empirically
derived
partition
coefficients
assumes
that
sorption
is
linear
with
respect
to
groundwater
concentration
(i.
e.,
the
Kd
isotherm
is
linear).
However,
sorption
is
not
unlimited
and
will
tend
to
level
off
as
groundwater
concentrations
increase
beyond
the
linear
range
(i.
e.,
the
Kd
isotherm
becomes
non
linear).
This
condition
is
most
likely
to
occur
in
the
unsaturated
zone
where
dilution
is
limited,
if
leachate
concentrations
are
sufficiently
high.
EPA
has
sometimes
used
the
MINTEQA2
equilibrium
speciation
model
to
estimate
Kd's
for
a
variety
of
metals
rather
than
relying
solely
on
field
measurements.
However,
recently
a
number
of
technical
issues
have
been
raised
concerning
the
model
and
its
application.
EPA
is
in
the
process
of
evaluating
the
model
to
address
those
issues.
Therefore,
we
have
decided
not
to
use
MINTEQA2
for
today's
proposed
rule.
Once
the
evaluation
is
completed
and
the
issues
are
satisfactorily
resolved,
EPA
may
again
choose
to
use
the
model
in
an
appropriate
form
in
future
rulemakings.
Infiltration
of
leachate
from
landfills
into
the
subsurface
is
modeled
using
the
HELP
model
(Hydrologic
Evaluation
for
Landfill
Performance),
a
quasi
twodimensional
hydrologic
model
used
to
compute
water
balances
for
landfills.
We
assumed
that
landfills
have
a
final
earthen
cover
but
no
liner
or
leachate
collection
system.
The
net
infiltration
rate
that
is
calculated
by
the
model
considers,
among
other
factors,
precipitation,
evapotranspiration,
and
surface
runoff
and
depends
on
the
type
of
soil
and
the
climate
where
the
landfill
is
located.
For
surface
impoundments,
the
infiltration
rate
is
estimated
from
the
liquid
depth
in
the
impoundment
and
from
the
hydraulic
conductivities
and
thicknesses
of
the
sediments
and
the
underlying
soil.
We
assumed
that
surface
impoundments
have
no
liner
or
leachate
collection
system.
Unconsolidated
or
loose
sediments
are
treated
as
free
liquid
so
that
the
pressure
head
on
the
underlying,
consolidated
sediments
is
determined
by
the
depth
of
the
liquid
in
the
impoundment
and
the
depth
of
the
unconsolidated
sediments.
As
sediment
accumulates
at
the
base
of
the
impoundment,
the
weight
of
the
liquid
and
upper
sediments
acts
to
compress
(or
consolidate)
the
lower
sediments.
The
result
is
the
formation
of
a
consolidated
sediment
layer
having
a
hydraulic
conductivity
that
is
much
lower
than
the
previously
unconsolidated
sediment.
We
assumed
that
landfills
have
an
operational
life
of
30
years.
17
In
landfills,
leaching
of
contaminants
from
the
waste
leads
to
an
exponential
decrease
in
the
leachate
concentration
with
time.
The
rate
at
which
this
occurs
depends
on
the
volume
of
waste
disposed
of
in
the
landfill
and
the
total
concentration
of
chemical
contaminants
in
the
waste.
We
used
the
measured
TCLP
concentration
(for
disposal
in
a
municipal
landfill)
or
SPLP
concentration
(for
disposal
in
an
industrial
landfill)
as
the
initial
leachate
concentration
for
modeling.
In
contrast,
we
assumed
that
surface
impoundments
have
an
operational
life
of
50
years.
18
Many
surface
impoundments
are
periodically
dredged
and,
therefore,
can
be
maintained
in
service
for
longer
periods
of
time.
With
surface
impoundments,
leachate
concentrations
are
not
expected
to
decrease
over
time
and,
therefore,
leachate
concentrations
are
assumed
to
remain
constant
during
their
operational
life.
We
used
the
total
concentration
of
chemical
contaminant
measured
in
the
wastewater
or
(for
wastewaters
with
high
levels
of
solids)
the
concentration
measured
in
the
SPLP
filtrate
as
the
leachate
concentration
for
modeling.
The
fate
and
transport
simulation
modules
in
EPACMTP
are
linked
to
a
Monte
Carlo
module
to
allow
quantitative
consideration
of
variability
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
19
Ibid.
20
U.
S.
Environmental
Protection
Agency,
``
Exposure
Factors
handbook'',
Volumes
I
and
III,
Office
of
Research
and
Development,
National
Center
for
Enironmental
Assessment,
Washington,
DC.,
August
1997
(EPA/
600/
P±
95/
002Fa
and
c).
and
uncertainty
in
groundwater
concentrations
due
to
variability
and
uncertainty
in
model
input
parameters.
We
use
a
regional
site
based
methodology
to
associate
the
appropriate
regional
climatic
and
hydrogeologic
conditions
to
the
location
of
actual
waste
management
sites.
This
methodology
accommodates
dependencies
between
the
various
model
input
parameters.
In
this
approach,
a
site
location
is
assigned
to
one
of
13
hydrogeologic
regions
and
one
of
97
climatic
regions
that
are
linked
to
databases
of
climatic
and
hydrogeologic
parameters.
A
climatic
data
set
provides
infiltration
and
recharge
values
for
three
soil
textures
at
each
of
97
climatic
centers
in
the
contiguous
United
States.
The
soil
textures
are
based
on
a
Soil
Conservation
Service
soil
mapping
database
and
U.
S.
Department
of
Agriculture
definitions
of
coarse,
medium,
and
fine
soil
textures.
(These
textures
are
represented
in
EPACMTP
by
sandy
loam,
silt
loam,
and
silty
clay
loam,
respectively.)
Infiltration
rates
for
the
waste
management
unit
and
the
recharge
rate
for
the
surrounding
region
were
determined
for
each
soil
type
and
climatic
center
using
the
HELP
model.
A
site
location
is
generally
assigned
to
the
climatic
center
that
is
geographically
closest
to
the
site.
Each
site
location
is
also
located
on
a
groundwater
resource
map
(from
a
U.
S.
Geological
Survey
inventory
of
State
groundwater
resource
maps)
and
a
hydrogeologic
region
is
assigned
to
the
site
based
on
the
primary
aquifer
type
at
that
location.
A
hydrogeologic
database
provides
a
distribution
of
values
for
depth
to
groundwater,
aquifer
thickness,
hydraulic
gradient,
and
hydraulic
conductivity
for
each
of
13
hydrogeologic
regions.
The
hydrogeologic
data
base
(HGDB)
was
developed
from
a
survey
of
hydrogeologic
parameters
for
approximately
400
hazardous
waste
sites
nationwide.
These
site
specific
data
were
then
regrouped
according
to
hydrogeologic
classifications,
and
a
distribution
of
parameter
values
was
generated
for
each
of
the
13
hydrogeologic
regions
(made
up
of
12
specific
hydrogeologic
environments
and
one
miscellaneous
category).
In
the
analysis
for
today's
rule,
we
modified
the
above
approach
for
on
site
waste
management
units
to
enable
available
site
specific
information
on
depth
to
groundwater
to
be
used
in
place
of
the
values
found
in
the
database.
We
also
used
a
regional
site
based
methodology
to
associate
the
appropriate
soil
characteristics
to
a
given
site
location.
In
this
approach,
a
distribution
of
soil
textures
at
a
site
is
determined
by
associating
the
site
location
with
a
soils
classification
region.
We
defined
soil
classification
regions
from
information
on
the
soil
types
found
within
a
100
mile
radius
of
the
site
location.
The
distribution
of
soil
textures
for
the
region
was
determined
by
identifying
the
soil
texture
classifications
from
data
contained
in
the
U.
S.
Department
of
Agriculture
(Natural
Resources
Conservation
Service)
STATSGO
(State
Soil
Geographic)
data
base.
The
predominant
soil
textures
within
each
mapping
unit
(which
represents
a
collection
of
soils)
were
identified
and
the
fraction
of
the
three
soil
textures
used
in
the
EPACMTP
model
were
determined
(i.
e,
sandy
loam,
silt
loam,
and
silty
clay
loam).
These
soil
classification
regions
were
used
for
modeling
off
site
municipal
and
industrial
landfill
sites.
A
similar
approach
was
taken
for
on
site
landfills
and
surface
impoundments
except
that
the
predominate
soil
textures
from
mapping
units
that
correspond
to
the
site
location
itself
were
identified.
These
were
compared
for
consistency
with
other
soils
information
available
for
the
site.
Once
the
fraction
of
the
three
soils
textures
is
determined
for
a
given
site
location,
a
distribution
of
soil
parameter
values
is
generated
from
information
on
the
distribution
of
soil
parameter
values
for
the
three
soil
textures
and
the
fraction
of
each
soil
texture
for
the
site.
These
parameters
are
used
for
modeling
groundwater
flow
and
contaminant
transport
in
the
unsaturated
zone
and
include
saturated
conductivity,
moisture
retention
properties,
water
content,
and
organic
matter
content.
A
full
description
of
the
groundwater
modeling
analyses
conducted
for
today's
proposed
rule
may
be
found
in
the
background
document,
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August,
2000).
b.
How
were
human
exposures
assessed?
Our
assessment
of
human
exposures
to
contaminated
ground
water
is
based
on
a
residential
drinking
water
scenario.
A
different
approach
was
used
for
determining
the
location
of
exposure
depending
on
whether
the
wastes
are
managed
on
site
or
are
shipped
off
site
for
disposal.
For
waste
shipped
to
off
site
municipal
landfills,
we
used
EPA's
National
Survey
of
Municipal
Landfills
19
to
determine
the
distance
from
the
landfill
to
the
receptor
well.
We
also
used
these
same
data
for
off
site
industrial
landfills.
For
wastes
managed
on
site
in
either
landfills
or
surface
impoundments,
we
attempted
to
determine
the
closest
point
at
which
a
residential
well
could
be
located
and,
therefore,
the
point
at
which
human
exposures
could
plausibly
occur.
We
considered
the
location
of
the
facility
property
boundary,
the
type
of
land
use
adjacent
to
the
property
boundary,
the
presence
of
surface
waters
that
could
intercept
ground
water
flow,
utilization
of
ground
water
for
residential
or
agriculture
uses,
and
the
existence
of
residential
drinking
water
wells
in
the
direction
of
ground
water
flow.
For
both
on
site
and
off
site
waste
management,
we
assumed
the
receptor
well
was
located
down
gradient
from
the
waste
management
unit
and
that
ground
water
is
withdrawn
from
the
top
ten
meters
of
the
aquifer
and
within
the
lateral
extent
of
the
contaminant
plume.
Exposures
were
further
assumed
to
occur
out
to
a
distance
of
a
mile
from
the
waste
management
unit.
Our
assessment
of
human
exposures
did
not
consider
naturally
occurring
background
levels
in
ground
water.
Background
levels
in
ground
water
are
not
a
significant
source
of
human
exposure
for
several
of
the
more
important
chemical
constituents
in
the
wastes
that
are
the
subject
of
today's
proposal
(e.
g.,
antimony
and
thallium).
However,
for
manganese,
dietary
exposures
are
a
significant
source
of
background
exposures.
We
did
not
attempt
to
quantify
the
cumulative
risks
from
both
dietary
and
drinking
water
exposures
combined
and,
therefore,
this
is
a
source
of
uncertainty
in
our
assessment
of
risks
from
manganese
in
these
wastes.
Human
exposures
were
characterized
in
terms
of
lifetime
average
daily
dose
(LADD)
and
average
daily
dose
(ADD)
for
both
children
and
adults.
We
used
the
LADD
for
assessing
cancer
risks
and
the
ADD
for
assessing
risks
from
noncancer
effects
(including
reproductive,
developmental,
neurological,
cardiovascular,
hematologic,
metabolic,
and
a
wide
variety
of
other
physiologic
effects).
Exposures
to
children
of
age
one
to
six
years
and
adults
of
age
20
to
64
years
were
assessed.
We
used
information
from
EPA's
Exposure
Factors
Handbook
20
to
characterize
tap
water
intake
rates
for
individuals
and
residential
occupancy
periods
of
households
(and,
therefore,
the
length
of
time
an
individual
could
be
exposed
to
contaminated
ground
water).
Distributional
data
on
tap
water
intake
rates
for
individuals
and
residential
occupancy
periods
for
households
were
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
21
Industrial
wastewater
discharges
that
are
regulated
under
the
National
Pollutant
Discharge
Elimination
System
(NPDES)
Permit
Program
are
specifically
excluded
from
regulation
as
hazardous
wastes
under
40
CFR
261.4(
a)(
2).
22
EPA
guidance
provides
a
simple
rule
of
thumb
for
estimating
the
30Q5
from
the
7Q10
depending
on
the
size
of
the
river.
For
smaller
rivers
(defined
as
those
with
a
low
flow
of
50
cfs
or
less),
the
30Q5
is
1.1
times
the
7Q10.
For
larger
rivers
(low
flow
of
600
cfs
or
greater),
the
30Q5
is
1.4
times
the
7Q10.
See
``
Technical
Support
Document
for
Water
Quality
Based
Toxics
Control,
''
EPA/
505/
2±
90±
001,
March
1991.
23
The
harmonic
mean
is
defind
as
the
inverse
of
the
average
of
the
sum
of
the
inverses
of
the
recorded
flows.
used
to
generate
both
the
ADD
and
LADD
exposure
estimates.
For
assessing
lifetime
exposures,
we
averaged
the
well
water
concentrations
over
the
duration
of
exposure
(i.
e.,
the
residential
occupancy
period).
We
also
averaged
the
tap
water
intake
rates
over
the
duration
of
exposure
to
account
for
the
changes
in
tap
water
intake
rates
with
age
that
are
seen
among
children.
For
estimating
the
ADD,
we
used
the
peak
9
year
average
well
water
concentration
but
did
not
further
average
the
estimated
exposure
(which
we
believe
would
be
inappropriate
given
the
range
of
possible
health
effects
we
want
to
protect
against).
Previous
work
with
the
EPACMTP
ground
water
model
has
shown
that
the
peak
9
year
concentration
and
the
maximum
predicted
concentration
are
nearly
identical.
A
full
description
of
the
methods
and
data
used
in
the
exposure
assessment
for
today's
proposed
rule
may
be
found
in
the
background
document,
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August,
2000).
5.
How
Was
the
Surface
Water
Pathway
Evaluated?
A
number
of
facilities
that
generate
wastes
covered
by
today's
proposed
rule
are
located
adjacent
to
rivers
or
bays.
As
a
consequence,
the
potential
exists
for
subsurface
releases
of
chemical
contaminants
from
on
site
management
of
the
wastes
to
enter
these
river
and
bay
systems
through
ground
water
inflow.
In
instances
where
no
direct
contact
with
ground
water
is
likely
to
occur
(as
there
would
otherwise
be
if,
for
example,
ground
water
was
being
used
for
residential
drinking
water),
it
becomes
important
to
evaluate
the
potential
water
quality
impacts
of
these
releases
on
surface
waters
in
the
context
of
hazardous
waste
listings.
However,
we
wish
to
emphasize
that
the
surface
water
impacts
considered
in
today's
proposed
rule
are
due
to
subsurface
releases
to
ground
water
only.
Direct
discharges
to
surface
waters
are
already
regulated
by
the
Clean
Water
Act
under
the
NPDES
permit
system
and
are
not
considered
further
in
today's
proposal.
21
We
conducted
a
screening
level
analysis
to
evaluate
potential
surface
water
impacts.
In
this
analysis,
we
estimated
the
volume
of
leachate
that
would
infiltrate
into
ground
water
and
assumed
that
this
entire
volume
would
be
intercepted
by
surface
water.
Because
this
is
a
screening
analysis,
we
made
conservative
assumptions
that
are
likely
to
overstate
the
infiltration
of
leachate
and,
therefore,
the
potential
release
to
surface
water.
For
example,
for
on
site
landfills,
we
assumed
a
soil
type
(sandy
loam)
that
is
likely
to
overstate
the
infiltration
rate
even
in
the
absence
of
liners
or
leachate
collection
systems.
Similarly,
for
surface
impoundments
we
assumed
a
sludge
thickness
(8
inches)
and
soil
type
(sandy
loam)
that
is
likely
to
overstate
the
infiltration
rate.
In
addition,
we
assumed
no
retardation
in
the
migration
of
chemical
contaminants
in
ground
water
due
to
sorption
or
other
processes.
Due
to
the
nature
of
these
releases,
which
are
likely
to
occur
over
a
wide
area,
we
assumed
that
the
inflow
of
contaminated
ground
water
was
rapidly
diluted
into
surface
water
and
that
there
was
little
or
no
mixing
zone.
We
followed
EPA's
Office
of
Water
guidance
for
determining
the
design
flows
for
rivers
as
regards
water
quality
criteria.
The
appropriate
design
flow
depends
on
the
particular
water
quality
impact
being
evaluated.
For
assessing
potential
impacts
on
aquatic
life,
we
used
the
``
7Q10''
as
the
design
flow.
The
7Q10
is
the
seven
day
low
flow
with
a
return
frequency
of
once
every
10
years
and
is
the
recommended
design
flow
for
use
with
chronic
water
quality
criteria
for
the
protection
of
aquatic
life.
We
believe
that
chronic
water
quality
criteria
are
the
appropriate
criteria
for
evaluating
the
potential
impact
of
continuing
steady
releases,
such
as
those
that
would
result
from
subsurface
discharge
of
contaminated
ground
water.
On
the
other
hand,
EPA
generally
uses
the
``
30Q5''
as
the
design
flow
for
assessing
potential
impacts
on
human
health.
The
30Q5
is
the
thirty
day
low
flow
with
a
return
frequency
of
once
every
5
years
and
is
the
recommended
design
flow
for
use
with
water
quality
criteria
for
the
protection
of
human
health
as
regards
non
cancer
effects.
However,
a
30Q5
design
flow
was
not
available
in
all
cases.
In
these
instances,
we
estimated
the
30Q5
based
on
the
7Q10
design
flow.
22
For
carcinogens
(e.
g.,
arsenic),
lifetime
exposures
are
the
primary
concern
and
a
design
flow
that
corresponds
to
a
longer
averaging
time
is
appropriate.
For
this
reason,
EPA
recommends
the
long
term
harmonic
mean
be
used
as
the
design
flow.
23
The
harmonic
mean
is
always
less
than
the
arithmetic
mean
and
is
used
in
place
of
it
because
low
flow
conditions
drive
long
term
average
water
quality.
However,
because
this
flow
statistic
was
not
available,
we
estimated
the
harmonic
mean
flow
from
the
arithmetic
mean
flow
and
the
7Q10.
As
a
result
of
the
screening
level
analysis,
all
wastes
screened
out
for
which
the
ground
water
to
surface
water
pathway
was
a
concern.
Therefore,
no
additional
analysis
of
this
pathway
was
conducted.
6.
What
Are
the
Limitations
and
Uncertainties
of
the
Assessment?
Our
assessment
of
exposures
and
risks
is
subject
to
a
variety
of
limitations
and
uncertainties.
These
are
discussed
in
some
detail
in
the
background
document
for
today's
proposed
rule.
A
number
of
these
are
highlighted
here.
We
assumed
our
sampling
and
analysis
data
are
fully
representative
of
the
range
of
wastes
generated
in
the
effected
industries.
However,
our
own
data
show
that
there
are
significant
variations
in
waste
concentrations
across
facilities
in
a
given
industry.
Variability
in
waste
concentration
that
is
unaccounted
for
could
lead
to
an
over
or
under
estimation
of
risks.
However,
any
tendency
toward
underestimation
is
likely
to
be
mitigated
to
some
extent
by
our
selection
of
wastes
and
exposure
scenarios
that
are
intended
to
capture
the
highest
risks.
We
also
assumed
that
our
methods
for
measuring
the
leaching
behavior
of
wastes
(i.
e.,
the
TCLP
and
SPLP
test
procedures)
are
both
representative
of
the
range
of
leaching
conditions
that
exist
under
real
world
conditions
and
accurately
quantify
the
concentrations
of
contaminants
that
leach
into
the
subsurface
environment
from
a
given
waste
management
unit.
However,
we
know
that
many
metals
exhibit
varying
(or
amphoteric)
behavior
with
respect
to
pH
and
that
any
one
test
procedure
is
capable
of
characterizing
leaching
behavior
only
under
a
particular
set
of
conditions.
The
ground
water
model
we
used
in
our
analysis
(i.
e.,
EPACMTP)
is
designed
to
characterize
dilution
and
attenuation
in
the
subsurface
environment
under
homogeneous
conditions.
The
model
does
not
account
for
subsurface
heterogeneities,
nor
does
it
account
for
fractured
flow
or
colloidal
transport.
These
conditions,
if
present
at
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Vol.
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179
/
Thursday,
September
14,
2000
/
Proposed
Rules
a
site,
can
lead
to
less
dilution
and
attenuation
of
contaminant
levels
than
predicted
by
the
model,
causing
ground
water
concentrations
to
be
under
estimated.
In
addition,
sorption
of
metal
species
onto
soil
and
aquifer
materials
exhibits
considerable
variability
depending
on
geochemical
conditions
and
the
total
concentration
of
the
metal
present
at
a
given
location.
Although
our
use
of
empirically
derived
Kd
values
captures
some
of
this
variability,
the
available
published
data
are
fairly
limited
for
certain
metals
(e.
g.,
antimony).
We
have
accounted
for
the
uncertainty
associated
with
the
small
number
of
data
points
explicitly
for
these
metals
by
expanding
the
range
of
Kd
values
used
for
modeling
(to
three
orders
of
magnitude).
Even
for
metals
that
have
abundant
data
(e.
g.,
arsenic),
it
is
unlikely
that
the
range
of
variability
apparent
in
the
data
could
exist
at
a
given
site.
Uncertainty
associated
with
the
specification
of
Kd
as
noted
above
could
lead
to
an
over
or
under
estimation
of
risk.
However,
a
tendency
toward
overestimation
is
likely
to
be
mitigated
by
the
fact
that
under
near
steady
state
conditions
(when
ground
water
impacts
are
the
greatest),
concentrations
in
ground
water
are
little
influenced
by
Kd.
Under
non
steady
conditions,
any
tendency
toward
over
or
underestimation
is
limited
by
the
variability
inherent
in
the
empirical
distributions
of
Kd
used
in
the
analysis,
which
include
both
relatively
high
and
relatively
low
values
of
Kd.
Nevertheless,
in
general
the
risk
estimates
are
sensitive
to
the
specification
of
Kd
and,
therefore,
this
is
an
important
source
of
uncertainty
in
our
analysis.
As
indicated
previously,
for
wastes
managed
on
site
we
based
our
assessment
of
human
exposures
on
the
plausibility
of
ground
water
being
used
for
drinking
water.
While
some
information
was
available
on
utilization
of
ground
water
for
drinking
water,
very
limited
information
was
available
from
which
to
determine
the
location
of
exposure
at
a
given
site.
For
wastes
managed
off
site
we
assumed
that
ground
water
is
used
for
drinking
water
(or
will
be
in
the
future)
and
we
used
national
data
on
the
distribution
of
distances
to
residential
wells
to
assess
human
exposures
and
risk.
Our
analysis
did
not
consider
possible
changes
in
the
location
of
on
site
waste
management
operations
in
the
future.
These
exposure
assumptions
(about
which
there
is
considerable
uncertainty)
may
have
an
impact
on
the
estimated
risks
and,
therefore,
the
outcome
of
the
risk
assessment.
Other
important
uncertainties
include
those
related
to
the
health
effects
of
chemical
contaminants
in
humans
(hazard
identification),
absorption
and
metabolism
of
ingested
contaminates
(pharmacokinetics),
and
biological
response
(dose
response
relationships).
These
and
other
limitations
and
uncertainties
are
discussed
in
the
background
document,
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August,
2000).
F.
Sector
Specific
Listing
Determination
Rationales
We
seek
comments
on
all
proposed
listing
decisions
in
this
section,
and
the
underlying
rationales
used
to
support
our
proposals.
1.
Antimony
Oxide
a.
Summary.
We
have
evaluated
antimony
oxide
production
wastes
and
propose
to
list
two
wastes
from
this
process
as
hazardous:
(1)
Baghouse
filters
and
(2)
slag
that
is
disposed
of
or
speculatively
accumulated.
We
propose
to
list
the
baghouse
filter
waste
under
the
criterion
in
40
CFR
261.11(
a)(
1)
because
it
routinely
exhibits
one
or
more
of
the
characteristics
of
hazardous
waste,
but
the
waste
is
not
consistently
managed
in
compliance
with
Subtitle
C
regulations.
We
propose
to
list
the
slag
under
the
criteria
in
40
CFR
261.11(
a)(
3)
because
of
risks
associated
with
land
disposal.
K176
Baghouse
filters
from
the
production
of
antimony
oxide.
(E)
K177
Slag
from
the
production
of
antimony
oxide
that
is
disposed
of
or
speculatively
accumulated
(T).
Other
wastes
generated
by
the
antimony
oxide
industry
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
a
waste
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
threat
to
human
health
or
the
environment.
We
identified
no
risks
of
concern
associated
with
the
current
management
of
these
other
wastes.
b.
Description
of
the
antimony
oxide
industry.
Antimony
oxide
was
produced
by
four
facilities
in
the
United
States
in
1998.
Antimony
oxide
is
used
as
a
flame
retardant
in
plastics
and
textiles,
a
smoke
suppressant,
a
stabilizer
for
plastics,
an
opacifier
in
glass,
ceramics
and
vitreous
enamels,
and
a
coating
for
titanium
dioxide
pigments
and
chromate
pigment.
The
manufacturers
use
two
different
processes
to
produce
antimony
oxide.
In
the
first
process,
antimony
metal
is
roasted
in
the
presence
of
air.
The
antimony
oxide
forms
as
a
fume,
cools
and
condenses
in
a
baghouse.
In
the
second
process,
crude
(low
grade)
antimony
oxide
is
roasted
in
the
presence
of
air
to
produce
higher
grade
antimony
oxide.
The
antimony
oxide
cools
and
condenses
in
a
baghouse.
The
crude
antimony
oxide
comes
either
from
off
site
or
is
recycled
from
within
the
facility.
c.
How
does
the
Bevill
Exclusion
apply
to
wastes
from
the
antimony
oxide
manufacturing
processes?
Antimony
oxide
producers
use
a
range
of
raw
materials
to
produce
antimony
oxide,
including
antimony
metal
ingots,
sodium
antimonate,
and
antimony
ore
concentrate,
and
some
facilities
have
claimed
that
wastes
generated
from
the
production
of
antimony
oxide
are
Bevill
exempt.
Wastes
generated
from
processes
using
either
antimony
ingots
or
sodium
antimonate
(both
of
which
are
saleable
mineral
products)
are
considered
chemical
manufacturing
wastes
rather
than
mineral
processing
wastes
and
are
not
eligible
for
the
Bevill
exemption.
The
September
1,
1989
Bevill
final
rule
states
at
54
FR
36620±
21
that
chemical
manufacturing
begins
if
there
is
any
further
processing
of
mineral
product.
Two
of
the
facilities
also
purchase
an
antimony
ore
concentrate
as
a
raw
material
and
place
this
material
in
kilns
to
produce
antimony
oxide.
The
smelting
of
a
ore
concentrate
above
the
fusion
point
is
defined
as
mineral
processing
(See
54
FR
36618).
At
these
antimony
oxide
facilities,
since
mineral
processing
has
begun,
wastes
from
the
process
are
not
eligible
for
the
Bevill
exemption
as
beneficiation
wastes
(See
40
CFR
261.4(
b)(
7)(
i)).
In
addition,
although
there
is
a
Bevill
exemption
for
20
specific
mineral
processing
wastes
form
various
mineral
processing
sectors,
the
wastes
generated
from
antimony
oxide
mineral
processing
are
not
included
as
one
of
these
20
wastes
and
are
not
excluded.
(See
40
CFR
261.4(
b)(
7)(
ii)).
Thus
there
are
no
antimony
oxide
wastes
that
qualify
for
the
Bevill
exemption.
d.
Wastes
generated
by
these
processes.
Table
III±
1
summarizes
our
information
about
the
wastes
generated
from
the
production
of
antimony
oxide:
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
24
``
United
States
Antimony
Corp.
Stibnite
Hill
Mine
Project
Operating
Permit
00045'',
6th
review
draft,
January
1999.
This
draft
permit
is
issued
under
the
Metal
Mine
Reclamation
Act,
82±
4±
301
MCA.
It
was
prepared
by
the
facility,
approved
by
the
State
of
Montana
on
August
12,
1999
(with
a
number
of
stipulations),
and
subsequently
approved
by
the
Forest
Service.
25
``
Above
Ground
Land
Emplacement
Facilities,
N.
J.
Law,
''
Letter
to
Honorable
James
J.
Florio,
Chairman,
Subcommittee
on
Commerce,
Transportation,
and
Tourism,
Committee
on
Energy
and
Commerce,
House
of
Representatives,
from
J.
Winston
Porter,
Administrator,
EPA,
dated
March
26,
1986.
TABLE
III±
1.Ð
ANTIMONY
OXIDE
PRODUCTION
WASTES
Waste
category
Number
of
reported
generators
1998
volume
(MT)
Reported
waste
hazard
codes
Management
practices
Antimony
slag
not
recycled
in
process
........
3
113
D008
.........................
Sent
to
lead
smelters
for
lead
and/
or
antimony
recovery;
or
on
site
drum
storage
prior
to
future
on
site
land
disposal.
Baghouse
filters
...........................................
4
9
No
code
reported
.....
In
process
antimony
recovery;
off
site
antimony
recovery;
industrial
Subtitle
D
landfill;
or
non
hazardous
waste
incinerator
Empty
supersacks
........................................
1
15
No
code
reported
.....
Disposal
in
off
site
Subtitle
D
landfill
or
recycled
In
addition
to
these
wastes,
there
are
other
materials
produced
that
are
reused
in
the
antimony
oxide
production
process.
Antimony
oxide
and
antimony
slag
are
captured
at
various
points
in
the
facility
and
reinserted
into
a
furnace
to
produce
antimony
oxide,
either
on
site
or
off
site.
Because
these
materials
are
managed
prior
to
reuse
in
ways
that
present
low
potential
for
release,
and
because
we
evaluated
process
waste
generated
after
the
secondary
materials
are
reinserted
into
the
process,
we
do
not
believe
that
these
secondary
materials
present
significant
risks.
e.
Agency
evaluation.
(1)
Antimony
slag
not
recycled
in
antimony
oxide
process.
How
Are
These
Wastes
Currently
Managed?
Three
facilities
produced
antimony
slag
that
is
not
recycled
in
the
antimony
oxide
process.
Two
of
these
facilities
send
the
slag
to
lead
smelters.
One
of
the
two
facilities
reported
its
slag
to
be
TC
hazardous
because
of
its
lead
content
(D008).
The
third
facility,
however,
has
historically
stored
a
portion
of
its
slag
on
site
in
drums,
reporting
that
they
plan
to
reclaim
antimony
when
antimony
prices
are
more
favorable.
Recent
revisions
to
the
facility's
Operating
Permit,
24
however,
require
that
the
slag
be
placed
in
an
on
site
engineered
``
slag
storage
pit''
to
be
constructed
in
the
next
two
to
three
years.
We
assessed
the
on
site
disposal
scenario,
reflecting
the
projected
management
practice
for
this
waste.
For
a
number
of
years,
the
facility
has
been
placing
approximately
20
MT/
yr
in
steel
drums
on
pallets
on
the
ground.
The
facility
reported
that
they
intend
to
reclaim
the
antimony
from
this
slag
when
antimony
prices
are
favorable.
We
consider
storage
on
site
for
more
than
one
year
to
be
speculative
accumulation
and
consider
these
materials
to
be
solid
wastes.
We
believe
that
the
length
of
time
secondary
materials
are
accumulated
before
being
recycled
is
an
important
indicator
of
whether
or
not
they
are
wastes.
This
is
supported
by
the
large
number
of
recycling
damage
cases
where
secondary
materials
that
were
overaccumulated
over
time
caused
extensive
harm.
(See
50
FR
614)
``
Under
RCRA
and
the
implementing
regulations,
permanent
placement
of
hazardous
waste,
including
perpetual
``
storage''
falls
into
the
regulatory
category
of
land
disposal.
''
25
(See
also
American
Petroleum
Institute
v.
EPA,
216
F.
3d
50
(D.
C.
Cir.
2000).)
Since
the
Operating
Permit
requires
the
facility
to
build
and
use
an
on
site,
land
based
unit
for
this
waste,
we
assessed
the
onsite
landfill
scenario
for
this
waste.
How
Was
This
Waste
Category
Characterized?
We
selected
two
of
the
three
facilities
for
sampling
and
analysis.
At
the
site
which
stores
the
slag
indefinitely,
we
collected
one
sample
of
``
reduction
furnace
slag''
that
was
designated
as
containing
less
than
5
percent
antimony
(AC±
1±
AO±
01)
and
one
sample
of
``
reduction
furnace
slag''
that
was
designated
as
containing
between
5
and
10
percent
antimony
(AC±
1±
AO±
06).
Based
on
characterization
information
provided
by
the
facility
in
its
RCRA
Section
3007
Survey
response,
we
believe
these
samples
are
representative
of
all
of
the
slags
generated
at
the
facility.
We
conducted
total,
TCLP
and
SPLP
analyses
of
these
slags.
The
analytical
results
for
the
constituents
found
to
be
present
in
the
leachates
at
levels
exceeding
the
HBLs
are
presented
in
Table
III±
2.
We
collected
a
third
sample
(LI±
1±
AO±
01)
at
a
facility
that
reclaims
its
slag
for
lead.
This
sample
failed
the
TC
for
lead,
as
the
facility
reported
in
its
RCRA
Section
3007
Survey
response.
The
results
are
available
in
``
Waste
Characterization
Report,
Laurel
Industries
Inc.,
La
Porte,
Texas''
in
the
docket
for
today's
proposal.
TABLE
III±
2.Ð
CHARACTERIZATION
OF
SPECULATIVELY
ACCUMULATED
ANTIMONY
SLAG
Constituent
of
concern
AC±
1±
AC±
01
AC±
1±
AO±
06
HBL
mg/
L
Total
mg/
kg
TCLP
mg/
L
SPLP
mg/
L
Total
mg/
kg
TCLP
mg/
L
SPLP
mg/
L
Antimony
..........................................
11,500
55.8
114
127,000
110
211
0.006
Arsenic
.............................................
301
2.0
2.9
478
3.1
3.
8
0.0007
Boron
................................................
<500
9.8
9.3
<2,500
8.5
8.
1
1.4
Selenium
..........................................
<50
0.6
0.6
<250
0.6
0.
3
0.08
Vanadium
.........................................
<50
1.3
1.1
<250
0.6
1.
0
0.14
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
We
modeled
the
annual
volume
reported
to
be
stored
on
site
indefinitely
(20
MT).
(The
facility
reports
that
it
processes
sodium
antimonate
from
two
facilities
and
returns
the
resultant
slag
to
the
process
for
further
processing.
We
did
not
include
these
recycled
slag
volumes
in
our
modeling.)
We
used
the
total
and
SPLP
results
as
model
inputs,
reflecting
the
industrial
nature
of
the
on
site
unit.
We
used
only
the
analytical
results
for
the
facility
that
stores
the
slag
indefinitely.
Both
of
the
samples
for
this
facility
are
relevant
because
they
represent
the
material
stored
on
site
and
destined
for
the
onsite
slag
pit.
We
did
not
model
the
sample
from
the
other
sampled
facility
because
they
acknowledged
that
their
waste
exhibited
the
TC.
Both
this
facility
and
the
facility
that
was
not
sampled
reclaim
these
wastes
in
a
manner
that
is
excluded
from
regulation
under
Subtitle
C.
We
believe
that
it
is
reasonable
to
assume
that
they
will
continue
to
manage
their
slags
in
ways
that
do
not
violate
Subtitle
C
regulations.
Also,
in
this
case,
the
SPLP
results
are
higher
than
the
TCLP
results,
making
the
industrial
landfill
the
worst
case
scenario.
We
examined
records
available
from
the
State
where
the
slag
is
stored
to
determine
the
appropriate
distance
towell
to
model.
We
identified
four
residential
wells
within
several
miles
of
the
facility.
These
data
demonstrate
that
groundwater
is
a
viable
and
actively
used
resource
in
this
area.
One
well
is
located
1.4
miles
directly
downgradient.
Based
on
local
topography
and
groundwater
information,
we
do
not
believe
the
other
identified
wells
could
be
affected
by
releases
to
groundwater
from
the
facility.
We
modeled
potential
releases
to
a
downgradient
residential
well.
Given
that
our
groundwater
model
is
not
configured
at
this
time
to
model
releases
further
than
one
mile,
we
did
not
assess
the
full
distance
to
the
known
well.
In
our
probabilistic
analysis,
we
varied
the
well
distance
from
the
closest
property
boundary
that
appeared
to
be
potentially
downgradient
to
the
limit
of
the
model
(one
mile).
Our
results
therefore
are
conservative
with
respect
to
this
particular
well,
but
otherwise
reflect
the
fact
that
future
residences
and
wells
may
be
placed
closer
to
the
facility
and
any
potential
groundwater
plumes
associated
with
its
operation.
Specifically,
we
modeled
potential
distances
to
wells
from
the
facility's
southern
boundary
to
one
mile.
We
used
a
regional
site
based
approach
in
modeling
this
unit,
as
described
in
section
III.
E.
4.
We
modified
this
to
enable
us
to
use
available
depth
to
groundwater
information
at
this
particular
site.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
Where
these
slags
are
reused
and
present
no
exposure
route
of
concern,
we
did
not
evaluate
these
secondary
materials
further.
The
results
of
the
risk
assessment
for
the
on
site
disposal
scenario
for
boron,
selenium,
and
vanadium
were
very
low.
In
the
90th
to
the
95th
percentile
range,
the
highest
hazard
quotient
for
these
three
constituents
was
in
the
range
of
0.001.
For
this
reason,
the
full
results
for
these
three
constituents
are
not
presented
here.
The
results
of
the
risk
assessment
for
the
on
site
disposal
scenario
for
antimony
and
arsenic
are
presented
in
Table
III±
3:
TABLE
III±
3.Ð
PROBABILISTIC
RISK
ASSESSMENT
RESULTS
FOR
SPECULATIVELY
ACCUMULATED
ANTIMONY
SLAG
Percentile
Adult
risk
Child
risk
Adult
risk
Child
risk
1
Antimony
hazard
quotient
1
ArsenicÐ
cancer
risk
90
th
%
............................................................................................................................
2.2
4.6
4
E±
07
3
E±
07
95
th
%
............................................................................................................................
4.5
9.4
1
E±
06
9
E±
07
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
(August
2000)
in
the
docket
for
today's
proposal.
In
our
modeling
results,
the
dilution
and
attenuation
factors
(DAFs)
were
relatively
high.
For
example,
high
end
antimony
DAFs
were
as
high
as
8,000.
This
is
the
result
of
the
hydrogeological
setting
of
the
site
evaluated.
Due
to
the
high
hydraulic
conductivity
we
used
in
modeling,
the
landfill
leachate
is
readily
diluted
into
a
large
volume
of
groundwater.
Given
the
uncertainty
about
the
actual
ultimate
management
practice
and
the
site
specific
nature
of
the
modeling,
DAFs
could
be
considerably
lower
in
other
disposal
scenarios,
resulting
in
much
higher
hazard
quotients
and,
therefore,
higher
potential
risks.
Our
modeling
approach
assumes
that
the
slag
will
be
placed
in
an
unlined
unit.
Information
from
the
facility,
however,
indicates
that
they
plan
to
place
the
waste
in
an
on
site
lined
storage
pit,
upon
completion
of
construction,
that
will
be
governed
by
a
state
mining
permit.
We
considered
whether
our
decisionmaking
should
account
for
the
added
protection
provided
by
a
liner
system.
Our
first
consideration
is
the
current
uncertainty
regarding
this
waste's
disposition.
While
the
facility
has
stated
its
intended
placement
of
this
waste
in
a
lined
unit,
our
most
recent
information
indicates
that
construction
had
not
yet
begun.
The
facility
may
in
fact
choose
to
place
this
waste
in
an
off
site
commercial
landfill
that
would
not
necessarily
be
lined.
This
uncertainty
is
greater
than
in
most
waste
management
scenarios
that
we
have
assessed
in
this
rulemaking,
where
there
is
a
long
term
history
of
management
in
a
particular
type
of
management
unit
(e.
g.,
an
operating
onsite
landfill,
a
local
off
site
landfill).
Because
of
this
uncertainty,
we
are
hesitant
to
give
much
weight
to
a
liner
system
that
may
be
constructed
in
the
future.
More
generally,
we
considered
the
efficacy
of
landfills
(and
any
liners)
over
the
modeled
risk
assessment
period,
which
covers
10,000
years.
Landfills
are
used
actively
until
their
capacity
is
reached
(our
models
assume
an
active
life
of
30
years),
and
at
the
end
of
their
active
life,
we
assume
landfills
are
closed
and
the
wastes
remain
in
the
unit
indefinitely.
The
effectiveness
of
liner
systems
depends
on
how
they
are
designed.
Composite
and
double
liners
that
combine
two
or
more
layers
of
liner
material
with
leachate
collection
and
leak
detection
will
no
doubt
minimize
leakage
to
the
subsurface
during
the
period
when
the
leachate
collection
system
is
actively
managed.
However,
depending
on
the
regulatory
controls
relevant
for
a
particular
unit,
monitoring
would
continue
for
a
limited
postclosure
period.
There
is
also
uncertainty
associated
with
liner
performance,
in
the
near
term
as
well
as
in
the
long
term.
There
are
a
variety
of
factors
that
may
influence
longevity
and
performance,
such
as
poor
construction,
installation
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
26
A
material
is
not
accumulatively
speculatively,
however,
if
the
person
accumulating
it
can
show
that
the
material
is
potentially
recyclable
and
has
a
feasible
means
of
being
recycled
and
thatÐ
during
the
calendar
year
(commencing
on
January
1)Ð
the
amount
of
material
that
is
recycled
or
transferred
to
a
different
site
for
recycling
equals
at
least
75
percent
by
weight
or
volume
of
the
amount
of
that
material
accumulated
at
the
beginning
of
the
period.
(40
CFR
261.1(
c)(
8))
or
facility
operation,
or
geologic
movement
below
the
liner
that
can
cause
holes,
tears
or
larger
failures.
Some
defects
may
have
a
significant
effect.
Because
of
our
uncertainty
regarding
the
efficacy
of
the
liner
system
over
long
periods
of
time,
and
the
uncertainty
over
the
ultimate
disposal
for
this
waste,
we
believe
our
use
of
the
modeling
results
for
an
unlined
landfill
is
appropriate.
In
deciding
whether
to
list
this
waste
as
hazardous,
we
also
considered
other
factors
in
addition
to
the
risk
results
noted
above.
First,
we
considered
the
very
high
levels
of
toxic
constituents
present
in
the
waste
and
in
test
leachate
(which
is
one
of
the
criterion
cited
in
261.11(
a)(
3)(
ii)).
The
levels
of
antimony
and
arsenic
are
quite
high.
The
antimony
level
exceeds
10%
in
the
waste
(up
to
127,000
mg/
kg),
and
the
SPLP
antimony
concentration
exceeds
the
drinking
water
HBL
by
a
factor
of
>35,000.
Another
key
factor
is
the
lack
of
any
appreciable
degradation
expected
for
these
metals
(a
constituent's
degradation
or
persistence
is
also
a
criterion
for
listing
given
in
261.11(
a)(
3)).
Unlike
some
organic
compounds,
metals
such
as
antimony
will
not
degrade
over
time.
Thus,
even
if
the
loss
in
effectiveness
of
a
liner
system
only
occurs
over
the
very
long
term,
the
metals
would
still
be
present
for
leaching.
It
is
difficult
to
assess
the
impact
of
the
long
term
effectiveness
of
the
liner
system
in
question
for
today's
proposal.
However,
we
note
that
the
effectiveness
of
the
liner
system
would
have
to
be
sufficient
to
reduce
the
antimony
concentration
at
the
well
by
close
to
90%
in
order
to
keep
the
risks
below
an
HQ
of
1.
Therefore,
given
the
reasons
cited
above,
we
propose
to
list
these
slags
as
hazardous:
K177
Slag
from
the
production
of
antimony
oxide
that
is
disposed
of
or
speculatively
accumulated.
It
is
important
to
note
that
this
listing
has
been
developed
to
capture
only
those
wastes
that
are
not
recycled.
Thus,
this
listing,
as
proposed,
would
not
apply
to
generators
that
recycle
or
reclaim
this
material
as
long
as
it
is
not
speculatively
accumulated.
If
slags
have
been
speculatively
accumulated
(i.
e.,
held
for
more
than
a
calendar
year
without
recycling)
at
the
time
of
the
effective
date
of
this
final
rule,
these
slags
would
meet
the
listing
immediately.
26
We
also
propose
to
add
antimony
to
Appendix
VII
to
Part
261,
which
designates
the
hazardous
constituents
for
which
K177
would
be
listed.
(2)
Baghouse
filters.
How
Are
These
Wastes
Currently
Managed?
These
filters
capture
product
or
offspecification
product.
Two
facilities
place
antimony
laden
baghouse
filters
in
their
on
site
production
furnaces.
One
of
these
facilities
also
sends
a
portion
of
its
baghouse
filters
to
Mexico
for
antimony
recovery.
Two
other
facilities
dispose
of
these
wastes
in
a
nonhazardous
waste
incinerator
and
an
industrial
Subtitle
D
landfill.
None
of
these
wastes
are
handled
as
hazardous,
although
our
sampling
efforts
showed
this
waste
to
exhibit
the
toxicity
characteristic
for
lead
and
arsenic.
How
Was
This
Waste
Category
Characterized?
We
collected
a
total
of
three
samples
of
this
waste
category
from
two
facilities.
At
one
facility
we
collected
one
sample
of
the
``
oxidation
furnace''
baghouse
filters
(AC±
1±
AO±
03)
and
one
sample
of
the
``
reduction
furnace''
baghouse
filters
(AC±
1±
AO±
07).
At
the
other
facility,
we
collected
a
sample
of
the
baghouse
associated
with
its
kiln
(LI±
1±
AO±
03).
Because
the
facilities
sampled
represented
the
range
of
production
practices
within
the
industry,
we
believe
these
samples
are
representative
of
all
of
the
baghouse
filters
generated
by
this
industry.
We
conducted
total,
TCLP
and
SPLP
analyses
of
these
baghouse
filters.
The
analytical
results
for
the
constituents
found
to
be
present
in
the
leachates
at
levels
exceeding
the
HBLs
are
presented
in
Table
III±
4.
Two
of
the
three
samples
of
the
waste,
one
from
each
facility
that
generate
this
waste,
exceed
the
toxicity
characteristic
for
either
lead
or
arsenic.
(The
third
sample
exhibits
TCLP
lead
levels
close
to
the
TC
standard).
TABLE
III±
4.Ð
CHARACTERIZATION
OF
BAGHOUSE
FILTERS
FROM
ANTIMONY
OXIDE
PRODUCTION
(MG/
KG
OR
MG/
L)
Constituent
of
Concern
LI±
1±
AO±
03
AC±
1±
AC±
03
AC±
1±
AO±
07
HBL
TC
Total
TCLP
SPLP
Total
TCLP
SPLP
Total
TCLP
SPLP
Limit
Antimony
.....................................................
91,400
9.3
6.2
150,000
9.9
4.3
145,000
68.7
287
0.006
..............
Arsenic
........................................................
114
<0.5
0.6
<250
<0.5
0.09
<250
1
6.9
6.9
0.0007
5.0
Boron
...........................................................
24.0
6.5
1.0
<2500
<2
0.2
<2500
<2
0.7
1.4
..............
Cadmium
.....................................................
5.3
0.3
0.5
<250
0.3
0.3
411
<0.05
0.9
0.0078
1.0
Lead
............................................................
3.1
1
8.5
16.9
<2500
2.8
1.0
<250
<0.5
<0.05
0.015
5.0
Mercury
.......................................................
0.9
<0.002
0.001
0.1
<0.002
<0.0002
95.2
0.03
0.4
0.0047
0.2
Thallium
.......................................................
<2
<2
0.06
<1000
<2
0.06
<1000
<2
0.1
0.0013
..............
1
Exceeds
Toxicity
Characteristic
level.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
to
list
the
baghouse
filters
waste
because
our
data
show
it
routinely
exhibits
one
or
more
of
the
characteristics
of
hazardous
waste
(i.
e.,
TC
lead
or
arsenic),
yet
the
generators
do
not
identify
their
wastes
as
exhibiting
the
toxicity
characteristic
and
the
generators
that
dispose
of
this
waste
do
not
comply
with
Subtitle
C
regulations.
We
propose
to
list
this
waste
under
the
261.11(
a)(
1)
criteria:
K176
Baghouse
filters
from
the
production
of
antimony
oxide
(E).
Because
we
believe
we
have
sufficient
reason
to
list
this
waste
under
261.11(
a)(
1)
based
on
the
TC
exceedences
and
lack
of
compliance
with
hazardous
waste
regulation,
we
chose
to
conserve
our
time
and
resources
and
did
not
conduct
formal
risk
assessment
modeling
of
the
off
site
landfill
scenario,
as
we
would
traditionally
do
to
support
a
261.11(
a)(
3)
listing.
Such
modeling
would
reflect
reported
management
practices.
Antimony
is
not
a
TC
constituent
and,
therefore,
was
not
considered
in
the
261.11(
a)(
1)
listing
decision.
However,
antimony
levels
are
high
and
would
likely
result
in
risk
if
modeled.
Leach
results
for
the
waste
exceed
the
HBLs
by
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
27
As
noted
above,
these
filters
capture
product
materials.
EPA
does
not
regulate
reclamation
of
these
products.
See
50
FR
14216,
April
11,
1985:
``
Under
the
final
rules,
commercial
chemical
products
and
intermediates,
off
specification
variants,
spill
residues,
and
container
residues
listed
in
40
CFR
261.33
are
not
considered
solid
wastes
when
recycled
except
when
they
are
recycled
in
ways
that
differ
from
their
normal
useÐ
namely,
when
they
are
burned
for
energy
recovery
or
used
to
produce
a
fuel''
28
Since,
as
explained
below,
we
find
no
significant
risks
from
the
larger
volume
wastes
we
assessed,
we
conclude
that
any
low
volume
wastes
from
this
third
facility
also
would
not
pose
any
risks
warranting
listing.
a
wide
margin,
e.
g.,
the
SPLP
results
for
antimony
are
up
to
48,000
times
the
HBL.
The
high
levels
of
antimony
in
the
waste
(up
to
15%)
would
provide
a
long
term
source
of
the
metal
for
leaching
into
the
groundwater.
Thus,
we
expect
that
modeling
an
off
site
Subtitle
D
scenario
would
yield
significant
drinking
water
risk.
Note
that,
when
facilities
process
the
antimony
oxide
product
captured
in
these
filters
by
reinserting
the
productcontaining
filters
back
into
the
furnace
where
the
antimony
oxide
originated,
without
reclamation,
these
materials
would
not
be
solid
wastes.
27
We
also
propose
to
add
arsenic
and
lead
to
Appendix
VII
to
Part
261,
which
designates
the
hazardous
constituents
for
which
K176
would
be
listed.
The
``
mixture''
rule
for
listed
wastes
currently
provides
an
exemption
for
wastes
listed
solely
because
they
exhibit
characteristics
(see
40
CFR
261.3(
a)(
2)(
iii)).
Mixtures
of
such
listed
wastes
lose
their
listed
waste
status
when
they
cease
to
exhibit
characteristics
for
which
they
were
listed.
(However,
they
would
still
need
to
comply
with
Land
Disposal
Restriction
requirements.)
In
the
both
of
the
last
two
Hazardous
Waste
Identification
Rule
(HWIR)
proposals
(60
FR
66344,
December
21,
1995)
and
(64
FR
63382,
November
19,
1999),
we
proposed
to
narrow
the
exemption
to
only
include
wastes
listed
for
ignitability,
corrosivity,
and
reactivity.
This
narrowing
would
make
any
waste
listed
for
the
toxicity
characteristic
(TC)
(including
the
waste
proposed
today
for
listing
under
the
(a)(
1)
criteria)
ineligible
for
the
current
exemption.
In
other
words,
under
current
mixture
rule
regulations,
mixtures
containing
these
baghouse
filters
would
become
nonhazardous
wastes
once
they
ceased
exhibiting
the
characteristic.
Under
the
HWIR
proposal,
however,
such
mixtures
would
remain
hazardous
wastes
even
after
they
cease
to
exhibit
the
TC.
As
we
state
in
the
TC
rule,
chemicals
can
still
pose
hazardous
at
levels
below
the
TC
(see
55
FR
11799,
March
29,
1990).
Under
an
amended
consent
decree
(Environmental
Technology
Council
v.
Browner,
C.
A.
No.
94±
2119
(TFH),
April
11,
1997),
EPA
is
required
to
sign
a
notice
taking
final
action
with
respect
to
the
proposed
revisions
to
the
mixture
rule
by
April
30,
2001.
(3)
Empty
supersacks.
One
facility
ships
crude
antimony
oxide
in
supersacks
and
then
reuses
them
to
store
intermediate
materials
until
they
wear
out.
The
facility
then
sends
these
empty
supersacks
either
to
an
off
site
industrial
Subtitle
D
landfill
or
to
an
offsite
plastic
recycler.
The
facility
claims
that
the
supersacks
are
empty
and
would
meet
the
standard
in
40
CFR
261.7
(which
exempts
``
empty''
containers
formerly
used
to
manage
hazardous
waste).
Although
40
CFR
261.7
does
not
literally
apply
to
these
sacks,
we
think
it
is
reasonable
to
take
a
similar
approach
here.
We
believe
that
the
levels
of
crude
antimony
oxide
in
worn
out
supersacks
would
be
low
because
the
material
is
the
primary
feedstock
(raw
material)
used
in
this
process.
We
do
not
believe
it
follows
that
these
supersacks
should
be
regulated,
when
other
similarly
empty
containers
would
be
exempt.
Therefore,
we
propose
not
to
list
this
waste
as
hazardous.
2.
Barium
Carbonate
a.
Summary.
We
have
evaluated
the
wastes,
waste
management
practices,
and
potential
risk
exposure
pathways
associated
with
the
barium
carbonate
production
processes
and
propose
not
to
list
any
wastes
from
this
industry
as
hazardous
under
Subtitle
C
of
RCRA.
Some
wastes
in
this
industry
are
D002
or
D005
characteristic
hazardous
wastes,
which
are
both
currently
subject
to
RCRA
Subtitle
C
regulation
and
managed
in
compliance
with
those
regulations.
For
other
wastes,
not
identified
as
characteristic
hazardous
wastes,
we
have
identified
no
risks
of
concern
associated
with
the
current
management
of
these
wastes
that
would
warrant
listing.
These
wastes
do
not
meet
the
criteria
listed
under
40
CFR
261.11(
a)(
3)
for
listing
a
waste
as
hazardous.
b.
How
is
barium
carbonate
produced?
There
are
two
facilities
in
the
United
States
that
produce
significant
quantities
of
barium
carbonate.
A
Georgia
facility
produces
barium
carbonate
for
commercial
sale.
A
Pennsylvania
facility
produces
barium
carbonate
only
for
use
as
a
feedstock
in
its
own
internal
manufacturing
processes.
A
third
facility
is
a
specialty
manufacturer
that
produces
extremely
small
amounts
of
barium
carbonate
(approximately
10
kg
in
1998).
28
For
more
detailed
information
concerning
this
industry,
see
``
Barium
Carbonate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
Barium
carbonate
(BaCO3)
has
a
wide
range
of
uses,
including
feedstock
for
production
of
other
barium
chemicals,
an
additive
in
various
glasses,
ceramics,
bricks,
and
other
construction
materials,
an
additive
in
oil
drilling
suspensions,
and
a
brine
purification
chemical
in
the
chlor
alkali
industry.
The
two
primary
barium
carbonate
production
facilities
use
different
manufacturing
processes
to
make
barium
carbonate.
The
Georgia
facility
uses
locally
mined
barite
ore,
containing
barium
in
the
form
of
barium
sulfate,
as
the
primary
feedstock.
The
ore
is
crushed
and
milled,
thermally
reduced
in
a
roasting
kiln,
and
leached
with
water
to
dissolve
the
barium.
The
resulting
barium
sulfide
solution
is
filtered
and
reacted
with
carbon
dioxide
gas
to
produce
a
barium
carbonate
precipitate.
This
precipitate
is
then
dried,
and
sized
for
sale.
The
Pennsylvania
facility
uses
a
commercially
purchased
high
purity
barium
chloride
solid
as
the
primary
feedstock.
The
facility
dissolves
the
barium
chloride
in
water,
heats
and
filters
the
resulting
solution,
and
precipitates
barium
carbonate
by
reacting
the
barium
chloride
solution
with
ammonium
bicarbonate.
The
resulting
barium
carbonate
precipitate
is
washed,
filtered,
dried
and
sized
before
the
facility
utilizes
it
as
a
feedstock
in
other
manufacturing
processes
on
site.
c.
What
wastes
are
generated?
Table
III±
5
below
briefly
lists
the
facilityreported
residuals
from
the
barium
carbonate
manufacturing
processes,
residual
volumes
generated
in
1998,
reported
RCRA
hazard
codes,
and
residual
management
practices.
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
29
Note
that
primary
barite
ore
has
wide
use
in
drilling
muds
for
the
petroleum
industry
and
numerous
other
industrial
uses,
including
use
as
feedstock
for
barium
chemicals;
see
``
Barite''
U.
S.
Geological
SurveyÐ
Minerals
Information,
1997,
http://
minerals.
usgs.
gov/
minerals/
pubs/
commodity/
barite/
index.
htm.
TABLE
III±
5.Ð
BARIUM
CARBONATE
PRODUCTION
WASTES
Waste
category
1998
volume
(MT)
Reported
RCRA
hazard
codes
Sequential
residual
management
practices
Barite
Ore
Feedstock
ProcessÐ
Georgia
Facility
Treated
barium
wastes
(D005
barium
wastes
include
barite
ore
leaching
waste,
barium
sulfide
filtration
sludge,
and
barium
carbonate
production
area
cleaning
and
maintenance
wastes).
18,300
...................
None
(D005
prior
to
treatment).
Disposal
in
local,
captive,
industrial
Subtitle
D
landfill
(after
treatment
of
D005
wastes
in
onsite
Subtitle
C
treatment
unit).
Wastewater
from
BaCO
3
precipitate
dewatering
..
313,000
.................
None
......................
Treatment
in
on
site,
tank
based
WWTP
prior
to
NPDES
discharge
to
Etowah
River.
WWTP
sludge
.......................................................
11,000
...................
None
......................
(1)
Dewatered;
(2)
Treated
on
site;
(3)
Disposal
in
local,
captive,
industrial
Subtitle
D
landfill.
Spent
polypropylene
and
nylon
filter
media
and
baghouse
dust
collector
bags.
3
(filter
media)
.......
~1.5
(baghouse
bags).
None
......................
(1)
Washed
and
washwaters
re
inserted
to
barium
carbonate
production
process.
Solids
managed
as
barium
carbonate
production
area
cleaning
and
maintenance
wastes.
(2)
Treated
materials
disposed
in
off
site
municipal
Subtitle
D
landfill.
High
Purity
Barium
Chloride
Feedstock
ProcessÐ
Pennsylvania
Facility
Ammonia
vapor
scrubber
water
and
ammonia
reclamation
unit
wastewaters.
Not
reported
..........
D002
......................
Treatment
in
on
site,
tank
based
WWTP.
Barium
carbonate
precipitate
washwater
..............
1,600
.....................
None
......................
Treatment
in
on
site,
tank
based
WWTP
prior
to
NPDES
discharge
to
Susquehanna
River.
WWTP
sludge
.......................................................
8,200
.....................
None
......................
(1)
Stored
in
roll
off
bin;
(2)
Disposal
in
off
site
municipal
Subtitle
D
landfill
Ammoniated
spent
process
solution
storage
tank
solids.
1
............................
None
......................
Disposal
in
off
site
municipal
Subtitle
D
landfill.
Sludge
and
spent
filter
media
from
filtration
of
barium
chloride
solution
and
BaCO3
drying
and
sizing
unit
dusts.
<1.23
.....................
D005
......................
(1)
Stored
in
closed
container;
(2)
Sent
to
off
site
Subtitle
C
facility
for
treatment
and
disposal.
In
addition
to
these
wastes,
the
two
barium
carbonate
manufacturing
facilities
also
produce
other
materials
which
are
either
piped
directly
back
to
the
production
process
or
are
used
for
other
purposes.
Residues
from
the
barite
ore
feedstock
production
process,
ore
crusher/
grinder,
kiln,
barium
carbonate
drier,
granulation
and
packaging
processes
are
directly
returned
to
their
unit
of
origin
with
no
significant
pathways
for
exposure
of
these
materials
to
the
environment
prior
to
reuse.
Barium
carbonate
production
area
cleaning
and
maintenance
wastewaters
are
also
re
inserted
to
the
barium
carbonate
production
process
with
no
significant
pathways
for
exposure
of
these
materials
to
the
environment
prior
to
reuse.
Because
these
materials
are
managed
prior
to
reuse
in
ways
that
present
low
potential
for
release,
and
because
we
evaluated
all
wastes
generated
after
they
are
reinserted
into
the
process,
we
do
not
believe
that
these
secondary
materials
present
significant
threats.
The
barite
ore
feedstock
facility
also
produces
molten
sulfur
or
sodium
hyposulfate
from
hydrogen
sulfide
gas
piped
from
the
barium
carbonate
manufacturing
process.
Because
the
material
is
a
gas
from
a
production
unit,
rather
than
from
a
waste
management
unit,
and
is
conveyed
to
its
destination
through
piping,
the
gas
is
not
a
solid
waste.
RCRA
Section
1004(
27)
excludes
non
contained
gases
from
the
definition
of
solid
waste,
and
therefore
they
cannot
be
considered
a
hazardous
waste
(see
54
FR
50973).
The
facility
using
barium
chloride
as
its
feedstock
reclaims
ammonia
in
the
form
of
ammonium
hydroxide
from
barium
carbonate
production
wastes
and
uses
this
material
throughout
the
facility
as
a
feedstock
and
reagent.
Spent
ammoniated
process
solution
is
piped
from
the
process
unit
where
it
forms
to
a
storage
tank
where
it
is
commingled
with
ammoniated
spent
process
solutions
from
several
other
on
site
manufacturing
processes.
The
ammoniated
spent
process
solutions
from
these
other
manufacturing
processes
are
beyond
the
scope
of
this
listing
determination.
From
the
storage
tank,
the
facility
pipes
the
commingled
ammoniated
spent
process
solutions
to
an
ammonia
reclamation
unit
which
reclaims
the
ammonia
in
the
form
of
ammonium
hydroxide.
Ammonium
hydroxide
is
used
on
site
in
various
manufacturing
processes,
including
the
production
of
ammonium
bicarbonate
solution
for
use
in
the
barium
carbonate
production
process.
Because
the
spent
solution
is
piped
to
the
reclamation
unit
with
no
significant
potential
for
exposure
to
the
environment,
we
did
not
evaluate
the
solution
further.
Both
facilities
produce
barium
carbonate
from
a
saleable
mineral
product.
29
Under
the
Bevill
exemption
(54
FR
36620±
21),
chemical
manufacturing
begins
if
there
is
any
further
processing
of
a
saleable
mineral
product.
Since
these
facilities
use
saleable
mineral
products
as
feedstock,
their
processes
are
chemical
manufacturing,
and
are
not
classified
as
mineral
processing.
Therefore
none
of
the
wastestreams
generated
by
these
facilities
during
the
production
of
barium
carbonate
are
Bevill
exempt.
See
the
``
Barium
Carbonate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
more
details
on
these
residuals.
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/
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/
Proposed
Rules
d.
Waste
characterization
and
Agency
evaluation.
Barium
is
the
primary
constituent
of
potential
concern
in
the
wastes
from
both
facilities.
Barium
occurs
in
several
production
wastes
at
high
levels,
in
some
cases
exceeding
the
TC
level
(100
mg/
L)
in
TCLP
leachate
samples.
These
TC
wastes
are
coded
and
treated
as
hazardous
(D005).
The
Georgia
facility
holds
a
hazardous
waste
treatment
permit
to
allow
on
site
stabilization
of
barium,
and
the
Pennsylvania
facility
sends
all
of
their
D005
wastes
off
site
for
treatment
and
disposal
at
a
hazardous
waste
treatment
and
disposal
facility.
We
decided
not
to
do
characterization
sampling
for
wastes
from
either
facility
because
both
facilities
submitted
information
to
us
on
the
nature
of
their
wastes.
We
also
received
some
additional
analytical
data
from
the
State
of
Georgia
for
the
Georgia
facility.
These
data
provided
information
on
the
concentrations
(or
absence)
of
the
metal
constituents
of
potential
concern
in
the
wastes
and
in
test
leachates
from
the
wastes.
We
believe
the
available
information
is
sufficient
to
adequately
characterize
the
wastes
and
to
allow
us
to
evaluate
their
risk
potential
for
the
purposes
of
a
listing
decision.
``
Barium
Carbonate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
summarizes
the
analytical
data
and
other
information
available
for
these
wastes.
We
propose
not
to
list
any
of
the
wastes
from
the
barium
carbonate
manufacturing
industry.
Many
wastes
from
this
industry
are
characteristically
hazardous
and
managed
as
hazardous
wastes
either
on
site
or
at
permitted
Subtitle
C
treatment
facilities
off
site.
Other
wastes
did
not
exhibit
constituents
at
levels
of
concern
for
purposes
of
a
listing
given
the
nature
of
their
management
and
disposal.
Several
groups
of
wastes
from
each
of
the
facilities
are
disposed
of
in
a
treated
form,
rather
than
an
as
generated
form.
In
general,
therefore,
we
focused
our
evaluation
on
the
treated
form
of
the
wastes.
The
paragraphs
below
describe
how
the
wastes
are
generated
and
managed
for
the
two
processes
and
our
rationale
for
proposing
not
to
list
the
wastes.
We
solicit
comments
on
the
proposed
listing
decisions
described
below.
(1)
Wastes
from
the
production
of
barium
carbonate
from
barite
ore
feedstock.
(a)
Treated
barium
wastes.
The
waste
category,
``
treated
barium
wastes,
''
is
the
treatment
residue
from
the
commingling
and
treatment
of
several
barium
wastes
in
an
on
site
hazardous
waste
treatment
unit.
The
barium
wastes,
which
are
consistently
characteristically
hazardous
for
barium
(D005)
before
treatment
(or
are
consistently
assumed
by
the
facility
to
be
D005
wastes),
include:
ÐBarite
ore
leaching
waste,
which
is
solids
from
the
filtration
of
the
liquid
product
stream
from
the
barite
ore
roasting
and
leaching
units,
ÐBarium
sulfide
sludge,
which
is
from
polishing
filtration
of
liquid
barium
sulfide,
and,
ÐWastes
from
cleaning
and
maintenance
of
the
barium
carbonate
production
area.
A
RCRA
Subtitle
C
hazardous
waste
treatment
facility
permit
governs
the
onsite
treatment
process
for
these
barium
wastes.
The
three
wastes
are
sent
directly
to
the
treatment
unit,
or
they
are
stored
prior
to
treatment
for
short
time
periods
in
Subtitle
C
closed
containers.
The
treatment
process
is
a
stabilization
process
for
barium
using
gypsum
(primarily
calcium
sulfate)
to
precipitate
soluble
barium
as
less
soluble
barium
sulfate.
According
to
RCRA
Subtitle
C
regulations,
the
treated
barium
waste
must
meet
the
LDR
UTS.
Treatment
takes
place
in
concrete
mixer
type
trucks.
Once
treatment
is
complete,
the
treatment
trucks
immediately
transport
the
waste
to
the
facility's
captive
Subtitle
D
landfill
for
disposal,
located
approximately
2
miles
from
the
production
facility
on
facilityowned
property.
State
and
facility
information
indicate
that
the
treated
barium
wastes
no
longer
exceed
the
TC
level
for
barium
(100
mg/
L
from
TCLP
analysis)
and
typically
leach
less
than
1
mg/
L
barium,
according
to
both
SPLP
and
TCLP
analyses.
In
addition,
according
to
data
the
facility
and
the
state
of
Georgia
submitted
to
EPA
from
sampling
events
conducted
during
the
past
two
years
at
the
facility,
the
waste
meets
the
LDR
UTS
for
all
regulated
constituents.
The
treated
barium
wastes
are
disposed
of
in
the
landfill
without
daily
cover.
However,
the
waste
has
a
relatively
high
moisture
content
(approximately
50%)
when
placed
in
the
landfill
and,
according
to
the
facility,
hardens
over
time
and
does
not
create
dust.
In
addition,
the
waste
does
not
contain
any
known
volatile
constituents
of
concern.
To
assess
the
potential
for
groundwater
releases
from
the
captive,
industrial
landfill,
we
compared
the
SPLP
leaching
data
from
the
facility
and
the
state
of
Georgia
to
existing
HBLs
for
ingestion
of
groundwater.
SPLP
data
are
appropriate
for
evaluating
this
waste
because
it
is
placed
in
a
Subtitle
D
industrial
landfill.
We
did
not
find
any
constituents
in
the
available
SPLP
data
that
exceeded
the
health
based
levels
by
more
than
a
factor
of
2
(see
section
III.
E.
3
for
a
discussion
of
this
riskscreening
criterion).
See
the
``
Barium
Carbonate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
further
details
on
the
available
data.
In
addition,
we
found
only
one
exceedence
of
AWQC
standards
among
the
SPLP
leaching
data
for
treated
barium
wastes.
Selenium
was
found
at
a
level
of
0.04±
0.06
mg/
L,
which
exceeds
the
AWQC
standard
(0.0050
mg/
L)
by
a
factor
of
8
to
12.
However,
the
landfill
in
which
the
treated
barium
wastes
are
placed
is
1,700
feet
from
the
nearest
downgradient
water
body,
the
Etowah
River,
and
also
lies
beyond
the
river's
100
year
flood
plain.
In
recent
years,
the
Etowah
River
in
the
vicinity
of
the
landfill
has
had
a
flow
rate
varying
between
9.9
to
230
m
3
per
second
on
a
daily
basis.
Given
the
distance
over
which
leachate
from
the
treated
barium
wastes
would
need
to
travel
before
reaching
the
river,
dilution
and
attenuation
during
transport
in
local
groundwater,
and
further
dilution
in
the
Etowah
River,
we
believe
the
levels
of
selenium
in
the
leachate
would
decrease
to
a
level
which
would
no
longer
pose
a
risk
to
the
environment.
We
do
not
believe
it
is
necessary
to
assess
other
management
practices
for
the
treated
barium
wastes.
The
facility
has
treated
and
disposed
of
their
treatment
residues
in
a
similar
manner
for
over
15
years.
The
production
facility
itself
relies
on
a
local
source
of
barite
ore,
has
operated
from
its
current
location
since
1942
and
is
therefore
not
likely
to
change
its
location
in
the
near
future.
The
dedicated
landfill
has
a
remaining
life
of
nearly
20
years
and
is
located
approximately
2
miles
from
the
production
facility.
Given
the
dedicated
nature
of
the
landfill,
its
proximity
to
the
production
facility,
and
the
significant
remaining
capacity,
we
believe
it
is
unlikely
that
the
Georgia
facility
will
dispose
of
their
wastes
in
any
other
unit
in
the
near
future.
Thus
there
is
no
need
to
assess
additional
management
scenarios
for
this
wastestream.
Given
the
facility's
Subtitle
C
waste
treatment
permit,
we
believe
that
the
facility's
untreated
D005
wastes
are
adequately
managed
with
respect
to
this
rulemaking.
In
addition,
we
have
found
no
potential
for
releases
to
air,
groundwater,
or
surface
water
at
levels
of
concern
from
the
treated
wastes.
Therefore
we
propose
not
to
list
these
wastes.
(b)
Wastewater
from
barium
carbonate
precipitate
dewatering.
The
facility
filters
barium
carbonate
precipitate
from
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/
Thursday,
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14,
2000
/
Proposed
Rules
residual
process
solutions
and
sends
this
filtrate
to
the
facility's
tank
based
wastewater
treatment
plant
(WWTP)
for
treatment.
According
to
the
facility's
RCRA
Section
3007
Survey
response,
the
wastewater
does
not
exceed
the
TC
level
for
any
constituent.
Wastewater
from
the
barium
carbonate
production
process
commingle
in
the
WWTP
with
wastewaters
from
other
facility
processes
beyond
the
scope
of
this
rulemaking
and
comprise
approximately
17%
of
the
total
WWTP
flow
through.
The
wastewater
treatment
is
an
oxidation
process.
Treatment
of
the
wastewaters
occurs
in
tanks
equipped
with
secondary
containment.
Given
the
controlled
manner
in
which
the
wastewater
is
managed
in
tanks,
the
lack
of
any
volatile
constituents
of
concern,
and
NPDES
regulation
of
the
WWTP
effluent,
we
propose
not
to
list
this
wastewater.
(c)
Treated
wastewater
treatment
plant
sludge.
The
facility's
WWTP
generates
a
treatment
sludge
from
the
commingling
and
treatment
of
wastewaters
discussed
above
in
the
preceding
section.
The
resulting
sludge
is
dewatered
to
25%
solids
content
in
an
uncovered
tank.
None
of
the
information
the
facility
provided
on
this
waste
indicates
the
presence
of
volatile
constituents
of
concern.
The
facility
places
the
dewatered
WWTP
sludge
directly
from
the
WWTP
unit
into
a
treatment
unit
consisting
of
a
concrete
mixer
type
truck
containing
gypsum
(primarily
calcium
sulfate).
The
truck
mixes
the
wastewater
treatment
sludge
with
the
gypsum
to
convert
soluble
barium
to
a
less
soluble
barium
sulfate
prior
to
transporting
the
waste
to
the
facility's
off
site,
captive,
Subtitle
D
landfill.
We
found
low
potential
for
releases
from
either
the
dewatering
tank
or
the
treatment
unit.
Analytical
data
from
the
state
shows
that
the
treatment
process
reduced
leachable
barium
in
the
sludge,
according
to
SPLP
analysis,
from
53
mg/
L
to
0.03
mg/
L.
SPLP
analytical
data
from
the
State
also
show
no
potential
constituents
of
concern
in
treated
WWTP
sludge
samples
at
concentrations
above
HBLs
or
above
AWQCs.
Therefore,
this
waste
screened
out
from
any
further
risk
evaluation
for
groundwater
or
surface
water.
The
SPLP
data
are
appropriate
for
evaluating
this
waste
because
it
is
placed
in
a
Subtitle
D
industrial
landfill.
Similar
to
the
treated
barium
wastes
described
above
in
section
(a),
the
waste
has
a
high
moisture
content
when
placed
in
the
landfill
and
is
reported
by
the
facility
to
harden
over
time.
Therefore,
we
do
not
believe
this
waste
poses
a
significant
risk
through
releases
of
airborne
dust.
In
addition,
the
waste
does
not
contain
any
known
volatile
constituents
of
concern.
We
do
not
believe
it
is
necessary
to
assess
other
management
practices
for
this
waste.
The
facility
has
treated
and
disposed
of
their
wastewater
treatment
plant
sludge
in
a
similar
manner
for
over
15
years.
Given
the
dedicated
nature
of
the
landfill,
its
proximity
to
the
production
facility,
and
the
significant
remaining
capacity,
we
believe
it
is
unlikely
that
the
facility
will
dispose
of
their
wastes
in
any
other
facility
in
the
foreseeable
future.
Based
on
our
knowledge
of
the
current
nature
of
the
management
of
the
treated
wastewater
treatment
plant
sludge
and
of
the
low
level
of
constituents
of
concern
it
contains,
including
volatile
constituents,
we
propose
not
to
list
the
treated
wastewater
treatment
plant
sludge.
(d)
Spent
polypropylene
and
nylon
filter
media
and
baghouse
dust
collector
bags.
Baghouse
dust
collector
bags
and
polypropylene
and
nylon
filter
media
fabric
at
the
Georgia
facility
deteriorate
over
time
and
must
be
replaced
periodically.
The
facility
washes
the
bags
and
filters
with
water
and
then
soaks
them
in
sulfate
solution
to
stabilize
any
remaining
barium.
The
facility
then
disposes
of
the
bags
and
filter
fabric
in
a
local
municipal
Subtitle
D
landfill.
Wastewaters
from
the
washing
of
the
filters
and
bags
are
returned
to
the
production
process.
Solids
from
the
washing
of
the
filters
and
bags
become
part
of
the
cleaning
and
maintenance
wastes
that
are
treated
as
discussed
above
in
section
(a).
The
facility
did
not
provide
chemical
composition
analyses
for
these
wastes.
However,
we
do
not
expect
either
baghouse
bags
or
nylon
and
polypropylene
filter
fabrics,
which
are
used
primarily
for
physical
separation
of
solids
from
liquids
in
the
barium
carbonate
production
process,
to
contain
notable
levels
of
any
potential
constituent
of
concern
besides
barium.
According
to
the
facility,
neither
the
bags
nor
the
filters
exceed
the
TC
level
for
any
constituent.
In
addition,
the
facility
treats
the
materials
to
stabilize
any
remaining
barium
before
disposing
of
them
in
a
Subtitle
D
municipal
solid
waste
landfill.
The
facility
does
not
produce
a
large
volume
of
these
wastes;
approximately
3
metric
tons
per
year
of
filters
and
approximately
1.5
metric
tons
per
year
of
baghouse
bags.
Because
barium
is
not
volatile,
and
because
we
do
not
expect
the
filter
media
and
bags
to
contain
any
other
volatile
constituents,
we
do
not
believe
these
residuals
pose
any
risk
through
airborne
pathways.
Given
the
relatively
small
volume
of
these
wastes,
the
inert
nature
of
the
filters
and
bags
themselves,
and
the
facility's
washing
and
stabilization
of
barium
prior
to
disposal,
we
believe
these
treated
bag
wastes
do
not
warrant
listing
as
hazardous
wastes.
(2)
Wastes
from
the
production
of
barium
carbonate
from
high
purity
barium
chloride
feedstock.
(a)
Barium
carbonate
production
wastewaters
and
wastewater
treatment
plant
sludge.
The
Pennsylvania
facility
commingles
and
treats
wastewaters
from
several
manufacturing
processes
at
their
facility
in
an
on
site,
tank
based
WWTP.
Wastewaters
from
the
barium
carbonate
production
process
are
piped
directly
to
the
WWTP
and
comprise
less
than
1%
of
total
WWTP
flow
through;
the
remainder
of
the
wastewaters
entering
the
WWTP
are
from
manufacturing
processes
not
within
the
scope
of
this
listing
determination.
Wastewaters
from
the
barium
carbonate
production
process
include:
ÐAmmonia
vapor
scrubber
waters
and
ammonia
reclamation
unit
wastewater.
ÐBarium
carbonate
precipitate
washwater.
A
scrubber
captures
ammonia
vapor
from
the
mixing
of
ammonium
bicarbonate
solution
with
the
barium
chloride
solution
to
precipitate
barium
carbonate.
Water,
sodium
hydroxide,
and
emissions
from
other
manufacturing
processes
in
the
facility
mix
with
the
ammonia
vapor
in
the
scrubber
to
produce
this
wastestream.
An
ammonia
reclamation
unit
recovers
ammonia
from
ammoniated
spent
process
solutions
from
multiple
manufacturing
processes,
including
the
barium
carbonate
manufacturing
process,
in
the
form
of
28%
ammonium
hydroxide
solution.
The
unit
also
produces
a
wastewater.
Approximately
1%
of
the
total
ammonia
reclamation
unit
inflow
derives
from
the
barium
carbonate
production
process.
Therefore,
a
small
percentage
of
the
unit's
wastewater
derives
from
barium
carbonate
production.
The
facility
also
produces
a
wastewater
from
the
washing
of
barium
carbonate
precipitate
with
deionized
water
in
order
to
remove
any
process
solution
remaining
on
the
precipitate.
The
only
possible
release
route
of
concern
from
the
tank
based
system
for
the
wastewaters
would
be
through
air
releases.
This
pathway
is
highly
unlikely
for
the
nonvolatile
metals
that
are
the
potential
constituents
of
concern
in
these
wastes.
Given
the
controlled
manner
in
which
the
wastewaters
are
managed
and
the
regulation
of
the
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Proposed
Rules
30
The
Agency
has
previously
evaluated
the
Bevill
status
of
wastestreams
at
the
Searles
Lake
facility;
see
memos
dated
February
14,
1992
and
June
30,
1993
in
Appendix
E
of
the
``
Boric
Acid
Background
Continued
treatment
unit's
discharge
under
the
NPDES
program,
we
propose
not
to
list
these
wastewaters.
Treatment
of
the
commingled
wastewaters
consists
of
neutralization
followed
by
filtration.
The
treatment
generates
a
sludge.
According
to
the
facility's
RCRA
Section
3007
Survey
response,
the
sludge
does
not
exceed
the
TC
level
for
any
constituent.
The
facility
disposes
of
the
sludge
in
a
local
Subtitle
D
municipal
solid
waste
landfill.
We
do
note
the
presence
of
some
potential
constituents
of
concern
in
the
WWTP
sludge.
These
constituents
include
vanadium,
nickel,
and
antimony.
However,
we
do
not
believe
that
these
constituents
derive
from
the
barium
carbonate
manufacturing
process.
Because
the
barium
carbonate
production
process
wastewaters
contribute
less
than
1%
of
the
total
input
to
the
on
site
WWTP,
any
constituents
in
the
barium
carbonate
production
wastewaters
sent
to
the
WWTP
also
make
a
minimal
contribution
to
the
total
level
of
constituents
in
the
combined
wastewater
in
the
WWTP
and
the
resulting
sludge.
In
addition,
the
process
uses
high
purity
barium
chloride
dissolved
in
deionized
water
as
its
primary
feedstock
and
reclaims
much
of
the
residual
ammonia
from
its
ammonium
bicarbonate
feedstock.
Therefore,
the
likelihood
that
the
constituents
of
concern
in
the
sludge
might
arise
from
the
barium
carbonate
production
process
is
very
low.
Moreover,
the
facility
has
provided
information
to
us
indicating
that
the
barium
carbonate
process
is
not
the
source
of
these
potential
constituents
of
concern
and
that
they
derive
instead
from
on
site
manufacturing
processes
beyond
the
scope
of
today's
listing
proposal
(see
``
Barium
Carbonate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
further
details).
Given
the
minimal
potential
for
contribution
of
constituents
of
concern
by
the
barium
carbonate
process
wastewaters
to
the
WWTP
sludge,
we
propose
not
to
list
this
sludge
under
this
rulemaking
effort.
(b)
Ammoniated
spent
process
solution
storage
tank
solids.
The
facility
pipes
residual
process
solution
containing
ammonia
directly
from
the
barium
carbonate
precipitate
settling
unit
to
covered
storage
tanks
prior
to
routing
it
through
an
on
site
ammonia
reclamation
unit.
The
barium
carbonate
process
wastewater
is
one
of
many
ammoniated
residual
process
solutions
the
facility
routes
to
the
storage
tanks
and
constitutes
approximately
1%
of
the
unit's
total
input.
The
ammoniated
spent
process
solution
storage
tank
accumulates
solids
which
the
facility
removes
and
disposes
of
in
a
local
Subtitle
D
municipal
solid
waste
landfill
on
a
yearly
basis.
The
tank
solids
are
a
small
volume
waste
of
1
MT/
yr.
According
to
analytical
data
provided
by
the
facility,
the
solids
do
not
exceed
the
TC
level
for
any
constituent,
though
they
do
contain
vanadium,
nickel,
and
antimony
at
levels
of
potential
concern.
However,
as
noted
for
the
wastewater
treatment
plant
sludge,
the
constituents
of
concern
in
the
solids
are
unlikely
to
arise
from
the
barium
carbonate
production
process
because
the
barium
carbonate
production
process
contributes
only
1%
of
the
total
wastewaters
in
the
storage
tanks.
In
addition,
information
the
facility
provided
indicates
that
the
nickel,
vanadium
and
antimony
found
in
the
sludge
derive
from
other
manufacturing
processes
that
are
beyond
the
scope
of
this
listing
determination.
Thus,
given
the
solids'
small
volume
and
the
low
likelihood
that
the
barium
carbonate
process
wastewater
contributes
any
constituents
of
concern,
we
propose
not
to
list
the
ammoniated
spent
process
solution
tank
solids
in
this
listing
determination.
(c)
Sludge
and
spent
filter
media
from
filtration
of
barium
chloride
solution
and
barium
carbonate
drying
and
sizing
unit
air
pollution
control
residues.
Both
the
air
pollution
control
dusts
from
the
barium
carbonate
drying
and
sizing
unit
and
sludge
and
the
spent
filter
materials
from
barium
chloride
solution
filtration
exceed
the
TC
regulatory
level
for
barium
(100
mg/
L).
The
facility
codes
the
waste
as
characteristic
hazardous
waste
(D005).
The
facility
stores
these
small
volume
wastes
in
closed
containers
on
site
before
sending
them
to
a
RCRA
Subtitle
C
hazardous
waste
treatment
and
disposal
facility
for
treatment
and
disposal.
We
believe
that
the
containers
present
no
significant
potential
for
release
to
the
environment.
We
believe
that
regulations
applying
to
characteristic
wastes
adequately
protect
against
mismanagement.
Furthermore,
these
wastes
comprise
a
very
small
volume
(<
1.23
metric
tons
per
year).
Thus,
we
propose
not
to
list
these
wastes.
3.
Boric
Acid
a.
Summary.
We
have
evaluated
the
wastes
from
the
production
of
boric
acid
and
propose
not
to
list
any
wastes
from
this
process
as
hazardous
under
RCRA.
These
wastes
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
wastes
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
threat
to
human
health
or
the
environment.
We
have
identified
no
risks
of
concern
associated
with
the
current
management
of
the
wastes.
b.
Description
of
the
boric
acid
industry.
Boric
acid
was
produced
by
two
facilities
in
the
United
States
in
1998.
These
two
facilities
are
both
located
in
the
Mojave
Desert
in
California,
one
of
the
few
areas
where
borate
minerals
can
be
mined
in
the
United
States.
The
two
facilities
mine
borates
from
different
sources
to
produce
boric
acid.
The
first
recovers
borate
from
brines
pumped
from
beneath
Searles
Dry
Lake,
California.
The
second
facility
mines
sodium
borate
ores
near
Boron,
California.
The
first
facility
extracts
highly
mineralized
brine
and
uses
a
liquidliquid
extraction
process
to
remove
the
borates
from
the
brine.
During
the
first
production
step,
called
the
``
loading
section,
''
the
facility
mixes
the
brine
with
a
chelating
agent
in
a
kerosene
solution
that
causes
most
of
the
boron
and
some
of
the
sodium
and
potassium
compounds
in
the
brine
to
bind
to
the
extractant.
The
loaded
extractant
is
sent
through
strippers
where
it
is
mixed
with
dilute
sulfuric
acid
to
strip
the
boron,
sodium
and
potassium
from
the
extractant
to
form
boric
acid,
sodium
sulfate
and
potassium
sulfate.
The
solution
is
then
sent
to
a
solution
settler
from
which
the
liquor
goes
to
boric
acid
recovery
using
crystallization
and
evaporation
techniques.
The
second
facility
mines
sodium
borate
kernite
ore
to
produce
boric
acid
through
a
process
of
dissolution,
classification,
thickening,
filtration
and
crystallization.
Because
the
facilities
use
such
different
sources
and
production
processes,
their
resulting
wastes
are
very
different
and
are
discussed
separately.
For
more
detailed
information
concerning
this
industry,
see
the
``
Boric
Acid
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
c.
Agency
evaluation
of
wastes
generated
by
the
brine
recovery
process.
Are
There
Any
Wastes
in
This
Process
That
Fall
Under
the
Bevill
Exemption?
The
depleted
brine
from
the
loading
section
of
the
brine
recovery
process
is
exempt
as
a
mineral
processing
beneficiation
waste
under
40
CFR
261.4(
b)(
7)(
i).
30
This
waste
from
the
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket.
extraction/
beneficiation
of
ores
and
minerals
is
thus
outside
the
scope
of
the
consent
decree.
The
facility
reported
generating
4,600,000
MT
in
1998.
This
Bevill
exempt
waste
is
commingled
with
wastes
which
do
not
qualify
for
the
Bevill
exclusion
later
in
the
process.
The
portion
of
the
waste
which
does
not
qualify
for
the
Bevill
exclusion
is
within
the
scope
of
the
consent
decree
and
is
discussed
below.
As
discussed
in
the
Agency's
prior
Bevill
evaluations
for
this
facility,
mineral
processing
begins
at
the
liquidliquid
extraction
step
where
sulfuric
acid
is
added
to
the
loaded
extractant
to
produce
sodium
sulfate
and
boric
acid.
Wastes
generated
before
this
step,
including
spent
brine,
are
beneficiation
wastes
and
retain
their
Bevill
exemption.
All
wastes
generated
after
the
beginning
of
mineral
processing
are
non
exempt
solid
wastes.
Therefore,
all
of
the
wastes
at
this
facility
which
are
generated
from
the
liquid
extraction
step
to
the
end
of
the
process
are
all
non'exempt
solid
wastes.
See
the
``
Boric
Acid
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
more
information
on
the
Bevill
exemption
for
wastes
at
this
facility.
What
Kinds
of
Wastes
Are
Generated
by
the
Brine
Recovery
Process?
The
Bevill
exempt
depleted
brine
from
the
loading
section
is
sent
through
an
API
settler
and
Wemco
floatation
cells
designed
to
separate
organic
compounds
from
the
brine.
The
organic
emulsions
generated
in
these
units
and
in
the
process
settlers
are
sent
to
an
onsite
``
crud''
treatment
facility
which
breaks
down
the
emulsion
into
aqueous
and
organic
components.
This
treatment
process
generates
a
non
exempt
hydrocarbon
waste
(fuel
oil)
that
is
sent
off
site
to
a
used
oil
refinery.
The
Bevill
exempt
brine
is
sent
to
the
``
Trona
skimmer''
where
it
is
combined
with
other
non
exempt
wastewaters
generated
during
the
process.
The
Trona
skimmer
acts
as
a
settling
pond
promoting
phase
separation
of
remaining
organic
materials
in
the
brine.
The
Bevill
exempt
brine
is
then
returned
to
the
dry
lake
for
recharging
as
required
by
the
facility's
Bureau
of
Land
Management
permit.
Because
the
non
exempt
wastewaters
are
commingled
with
the
Bevill
exempt
brine
in
the
Trona
skimmer,
the
nonexempt
wastewaters
are
also
returned
to
the
dry
lake
as
a
small
percentage
of
the
overall
volume.
The
non
exempt
organic
waste
removed
at
the
Trona
skimmer
is
stored
on
site
in
a
tank
until
it
is
shipped
off
site
to
a
commercial
blender
and
subsequently
burned
for
energy
recovery.
Additional
wastes
generated
by
the
brine
recovery
process
that
are
not
Bevill
exempt
include:
ÐPetroleum
contaminated
sludges
from
containment
areas
around
the
API
settler,
Wemco
floatation
cells,
loading
section
and
liquid
liquid
extraction
(LLX)
strippers
ÐSpent
activated
carbon
collected
from
the
carbon
filter
system
used
to
purify
the
borate
liquor
before
it
goes
into
the
crystallization
units
In
addition
to
the
above
wastes,
the
facility
also
produces
other
materials
during
the
production
of
boric
acid
that
are
either
piped
directly
back
to
the
production
process
or
used
for
other
purposes.
These
materials
include
aqueous
residuals
and
kerosene
recovered
from
the
crud
treatment
process,
off
specification
product,
scrubber
water
and
condensate
that
are
returned
to
on
site
production
units
for
use.
Because
these
materials
are
reused
on
site
in
production
units
and
there
is
no
significant
potential
for
exposure
of
these
materials
to
the
environment
prior
to
reuse,
we
found
that
they
present
no
significant
threat.
Also,
off
specification
product,
when
reinserted
without
reclamation
into
the
process
where
it
originated,
is
not
a
solid
waste.
How
Are
the
Wastes
From
the
Brine
Recovery
Process
Currently
Managed?
Table
III±
6
summarizes
our
information
about
the
wastes
from
this
process:
TABLE
III.±
6.Ð
BORIC
ACID:
BRINE
RECOVERY
PROCESS
WASTES
Waste
category
1998
volume
(MT)
Sequential
management
practices
Fuel
oil
from
crud
treatment
facility
....................
690
...................................................................
(1)
Stored
in
covered
tank;
(2)
Sent
off
site
to
a
Subtitle
C
permitted
used
oil
refinery.
Miscellaneous
wastewaters
................................
194,040
(The
Bevill
exempt
partially
depleted
brine
volume
is
4.6
million
MT).
(1)
Combined
wastewaters;
discharged
to
Trona
skimmer
with
the
Bevill
exempt
partially
depleted
brine;
(2)
Removal
of
organics
in
skimmer
unit;
(3)
Commingled
partially
depleted
brine
and
process
wastewaters
are
returned
to
Searles
Dry
Lake
for
recharging.
Organics
from
Trona
skimmer
............................
10
.....................................................................
(1)
Stored
in
covered
tank;
(2)
Sent
to
off
site
Subtitle
C
blender;
(3)
Burned
for
energy
recovery.
Sludges
from
containment
areas
.......................
20
.....................................................................
(1)
Drum
storage;
(2)
20
cubic
yard
roll
off
bins;
(3)
Transported
with
manifest
off
site
to
Subtitle
C
landfill
as
California
only
hazardous
waste.
Spent
activated
carbon
......................................
43
.....................................................................
(1)
Washed;
(2)
Reclaimed
in
an
on
site
furnace;
(3)
Reused
in
the
process.
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
31
Based
on
the
RfD
in
IRIS
(2E±
1
mg/
kg
day)
and
a
90th
percentile
drinking
water
intake
rate
in
children
(64
mL/
Kg/
day).
What
Is
EPA's
Decision
About
Whether
to
List
These
Wastes
as
Hazardous?
We
propose
not
to
list
any
wastes
from
the
brine
recovery
process
for
the
production
of
boric
acid.
Our
rationale
for
each
waste
is
presented
below.
(1)
Fuel
oil
from
the
crud
treatment
facility.
We
propose
not
to
list
the
fuel
oil
generated
at
the
crud
treatment
facility.
The
facility
characterized
the
fuel
oil
as
100
percent
hydrocarbons.
The
fuel
oil
is
stored
on
site
in
a
covered
tank
prior
to
being
shipped
offsite
to
a
Subtitle
C
permitted
used
oil
refinery.
For
those
scenarios
where
wastes
are
managed
in
a
tank,
the
impervious
nature
of
the
construction
materials
(concrete,
fiberglass,
or
steel)
of
tanks
is
unlikely
to
result
in
releases
to
groundwater
in
all
but
the
most
catastrophic
scenarios.
We
also
are
not
concerned
with
potential
air
releases
because
the
tank
is
covered.
The
subsequent
treatment
at
the
permitted
used
oil
refinery
is
already
regulated
under
Subtitle
C
and
the
used
oil
regulations.
Therefore,
we
propose
not
to
list
this
waste.
(2)
Miscellaneous
wastewaters.
We
propose
not
to
list
the
miscellaneous
wastewaters.
We
evaluated
the
potential
for
an
exposure
pathway
via
groundwater
ingestion
and
determined
that
no
such
pathway
exists.
The
facility
producing
boric
acid
by
recovering
borates
mined
from
Searles
Dry
Lake
is
located
in
California's
Mojave
Desert.
The
process
and
associated
wastewaters
are
tied
to
the
Mojave
Desert
location
because
it
is
the
source
of
the
borate
rich
brine.
The
environment
is
arid
with
only
4
inches
of
precipitation
annually.
The
groundwater
under
the
facility
has
total
dissolved
solids
(TDS)
levels
as
high
as
450,000
ppm.
All
wastewaters,
including
the
Bevill
exempt
depleted
brine,
are
co
managed
and
ultimately
returned
to
the
dry
lake
resource.
Due
to
the
extremely
high
TDS
levels
in
the
area,
the
water
is
non
potable.
The
surrounding
communities
have
drinking
water
piped
in
from
25
miles
away.
Therefore,
no
groundwater
exposure
pathway
exists.
Furthermore,
the
total
volume
of
the
miscellaneous
wastewaters
is
4
percent
of
the
volume
of
the
depleted
brine;
any
contaminants
in
these
wastewaters
would
therefore
be
diluted
by
a
factor
of
25
prior
to
return
to
the
dry
lakebed.
Most
of
the
miscellaneous
wastewaters
are
generated
in
the
later
part
of
the
process
and
thus
we
do
not
expect
they
will
contain
constituents
of
concern
at
significant
levels.
There
is
one
wastewater
that
contains
organic
constituents
not
found
in
the
influent
brine
(formaldehyde
and
fuel
hydrocarbons).
This
wastewater
is
generated
at
the
carbon
column.
However,
it
only
represents
0.03
percent
of
the
total
volume
that
is
returned
to
the
dry
lake.
Also,
the
reported
level
of
formaldehyde
in
the
waste
would
be
well
below
the
HBL
for
this
chemical
(3
mg/
L)
31
after
mixing
with
other
wastewaters.
We
are
not
concerned
with
potential
air
releases
because
the
Trona
skimmer,
where
the
wastes
are
mixed,
is
covered.
The
facility
also
mixes
a
characteristic
(D002)
HCl
acid
waste
stream
with
the
Bevill
exempt
depleted
brine
prior
to
reaching
the
Trona
skimmer.
The
resultant
mixture
is
not
characteristic
and
the
mixing
takes
place
within
a
pipeline
where
there
is
no
opportunity
for
exposure
to
the
characteristic
waste
before
or
during
the
mixing.
Given
the
factors
listed
above,
particularly
the
lack
of
an
exposure
pathway,
we
propose
not
to
list
the
miscellaneous
wastewaters.
(3)
Organics
from
the
Trona
skimmer.
We
propose
not
to
list
the
organics
(chlorinated
hydrocarbons)
recovered
from
the
Trona
skimmer.
The
organics
are
stored
in
a
covered
tank
before
being
shipped
off
site.
For
those
scenarios
where
wastes
are
managed
in
a
tank,
the
impervious
nature
of
the
construction
materials
(concrete,
fiberglass,
or
steel)
of
tanks
is
unlikely
to
result
in
releases
to
groundwater
in
all
but
the
most
catastrophic
scenarios.
We
also
are
not
concerned
with
potential
air
releases
because
both
the
Trona
skimmer
and
tank
are
covered.
The
waste
is
shipped
off
site
to
a
Subtitle
C
permitted
blender
prior
to
being
burned
for
energy
recovery
in
cement
kilns.
Burning
by
cement
kilns
is
regulated
under
MACT
standards
for
cement
kilns
(64
FR
31989,
June
14,
1999
and
64
FR
52827,
September
30,
1999).
Therefore,
we
did
not
further
evaluate
potential
risks
from
burning
the
organics
under
this
listing.
The
facility
reported
a
California
only
hazardous
waste
code
CA343
(organic
liquids,
unspecified)
for
the
waste
but
did
not
report
any
federal
characteristic
codes.
The
facility
manifests
the
waste
using
the
California
code
when
they
send
it
to
the
blender.
Because
this
waste
has
significant
BTU
value
and
also
carries
a
state
hazardous
waste
code,
we
expect
this
management
practice
to
continue;
we
do
not
believe
there
would
be
any
significant
benefit
to
the
environment
by
listing
this
waste.
(4)
Sludges
from
containment
areas.
We
propose
not
to
list
the
sludges
collected
from
containment
areas
around
the
process
tanks,
the
loading
section,
LLX
strippers,
Wemco
flotation
cells
and
API
settlers.
The
facility
reported
a
California
only
hazardous
waste
code
CA611
(petroleum
contaminated
soils)
for
the
waste
but
did
not
report
any
federal
characteristic
codes.
The
facility
stores
the
waste
onsite
in
drums,
transfers
to
it
to
20
cubic
yard
roll
off
bins
and
mixes
the
sludge
with
soil,
and
then
ships
the
waste
offsite
with
a
manifest
as
a
California
only
hazardous
waste
to
a
Subtitle
C
landfill.
The
facility
is
tied
to
its
location
in
California
so
we
believe
it
is
plausible
that
the
waste
will
always
be
treated
as
a
California
only
hazardous
waste.
We
do
not
believe
there
would
be
any
significant
benefit
to
the
environment
by
listing
this
waste.
(5)
Spent
activated
carbon.
We
propose
not
to
list
the
carbon
that
is
regenerated
on
site.
The
carbon
is
regenerated
in
an
on
site
furnace.
The
carbon
filtration
process
occurs
later
in
the
process
after
much
of
the
organic
additives
have
settled
out
of
the
borate
liquor.
Consequently,
we
expect
that
the
filters
will
not
collect
high
concentrations
of
constituents
of
concern,
except
perhaps
kerosene
related
organics.
We
expect
any
such
constituents
that
are
filtered
out
using
carbon
adsorption
to
be
combustible.
There
is
no
potential
for
exposure
prior
to
the
regeneration
process
or
during
the
return
of
the
activated
carbon
to
the
carbon
filter.
The
furnace
is
permitted
by
the
State
of
California
Air
Control
Board.
Although
the
permit
does
not
contain
any
requirements
for
emission
controls,
it
does
require
annual
reporting.
We
reviewed
the
emissions
data
and
do
not
believe
that
the
emissions
from
the
furnace
are
of
concern.
The
reported
emission
levels
are
significantly
below
the
MACT
standards
for
permitted
hazardous
waste
incinerators
(64
FR
52827,
September
30,
1999).
We
expect
the
use
of
this
furnace
to
continue
because
it
is
expedient
to
regenerate
the
carbon
onsite
and
the
facility
is
unlikely
to
relocate
given
the
proximity
of
the
mineralized
brine
source.
Therefore,
we
propose
not
to
list
this
waste.
d.
Agency
evaluation
of
wastes
generated
by
the
kernite
ore
process.
What
Kinds
of
Wastes
Are
Generated
by
the
Kernite
ore
Process?
The
facility
generates
two
primary
wastestreams:
Tailings
and
gangue.
The
tailings
include
the
wastewaters
and
fine
insolubles
from
ore
processing
and
boric
acid
production.
The
tailings
are
managed
in
tanks
and
then
pumped
to
on
site
evaporation
ponds/
surface
impoundments.
The
boric
acid
gangue
which
includes
clay,
sand
and
other
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
32
California
Water
Quality
Control
Plan
for
the
Lathontan
Regions,
revised
1991
(p.
4.6±
1)
33
Source:
California
Regional
Water
Quality
Control
Board
permit,
board
order
6±
93±
17.
course
insolubles,
is
produced
during
the
separation
of
solids
from
the
borate
liquor,
a
step
the
facility
calls
``
classification.
''
The
gangue
is
placed
on
a
slab
for
drainage
and
then
managed
in
on
site
waste
piles
with
gangue
produced
from
the
other
production
process
at
the
facility.
The
drainage
from
the
slab
is
sent
to
the
tailings
ponds.
The
remaining
wastestream
is
comprised
of
the
filters
from
the
filtration
of
the
borate
liquor
to
remove
any
remaining
insoluble
ore
material
prior
to
crystallization.
The
filter
aid
is
washed
off
weekly
and
managed
with
the
tailings.
The
spent
filters
are
transferred
to
a
solid
waste
bin
in
preparation
for
on
site
disposal
in
a
industrial
Subtitle
D
landfill.
In
addition
to
the
above
wastes,
the
facility
also
produces
off
specification
product
that
is
put
directly
back
to
the
production
process.
Because
the
material
is
reused
on
site
in
production
units
in
ways
that
present
low
potential
for
release,
and
because
we
evaluated
process
waste
generated
after
the
secondary
material
is
reinserted
into
the
process,
we
do
not
believe
that
the
offspecification
product
presents
significant
risks.
Note
that,
when
facilities
process
off
specification
product
by
reinserting
the
offspecification
product
back
into
the
process
where
it
originated,
without
reclamation,
the
off
specification
product
would
not
be
a
solid
waste.
The
facility
made
beneficiation
exemption
claims
under
the
Bevill
amendments
for
the
tailings
and
gangue
wastes.
Because
we
propose
not
to
list
these
wastes,
we
did
not
review
the
facility's
Bevill
exemption
claims.
How
Are
the
Wastes
From
the
Kernite
Ore
Process
Currently
Managed?
Table
III±
7
summarizes
our
information
about
these
wastes:
TABLE
III±
7.Ð
BORIC
ACID:
KERNITE
ORE
PROCESS
WASTES
Waste
category
1998
volume
Sequential
management
practices
Tailings
...............................................................
Up
to
750,000
gallons/
day
1
.............................
(1)
Stored
in
tank;
(2)
Pumped
to
evaporation
ponds/
surface
impoundments
Gangue
...............................................................
Portion
of
900,000
MT
2
....................................
(1)
Placed
on
slab
for
drainage;
(2)
Trucked
to
on
site
waste
piles.
Spent
filters
........................................................
3
.......................................................................
(1)
Stored
in
solid
waste
bin;
(2)
On
site
industrial
Subtitle
D
landfill.
1
Capacity
volume
for
boric
acid
surface
impoundments.
Current
daily
quantity
is
lower.
Source:
California
Regional
Water
Quality
Control
Board
permit,
board
order
6±
93±
17.
2
The
boric
acid
coarse
gangue
is
co
mingled
with
gangue
from
the
other
production
process
at
the
facility.
That
process
is
outside
the
scope
of
the
consent
decree.
The
boric
acid
gangue
represents
only
a
minor
proportion
of
the
total
900,000
tons
of
gangue
typically
deposited
annually
on
the
waste
piles.
Source:
California
Regional
Water
Quality
Control
Board
permit,
board
order
6±
93±
17.
What
Is
EPA's
Decision
About
Whether
To
List
These
Wastes
as
Hazardous?
For
the
reasons
set
out
below,
we
propose
not
to
list
any
wastes
from
the
kernite
ore
process
for
the
production
of
boric
acid.
(1)
Tailings.
We
propose
not
to
list
the
tailings
from
boric
acid
production.
The
tailings
are
managed
in
a
tank
and
then
pumped
to
evaporation
ponds.
The
facility
provided
TCLP
data
for
the
tailings.
Those
data
show
waste
contains
arsenic
and
antimony
above
health
based
drinking
water
levels.
The
Agency
also
assumed
that
boron
was
present
in
significant
levels
due
to
the
nature
of
the
ore.
The
facility
provided
total
levels
for
the
boron
concentration
in
the
waste.
We
conducted
an
in
depth
review
of
the
groundwater
conditions
at
the
site
and
have
concluded
that
a
groundwater
exposure
pathway
does
not
exist.
No
one
is
currently
living
near
the
facility
boundary
closest
to
the
waste
management
unit
areas
and
it
is
unlikely
that
future
development
will
occur.
The
closest
existing
drinking
water
well
is
two
miles
away
from
the
waste
management
units.
It
is
a
community
well
and
is
subject
to
all
applicable
drinking
water
standards.
In
addition,
there
are
several
factors
described
below
which
make
contamination
of
this
well
from
a
potential
release
from
the
facility's
evaporation
ponds
unlikely.
The
groundwater
under
the
off
site
area
of
land
closest
to
the
waste
management
units
is
not
suitable
for
use
as
drinking
water.
The
ore
body,
which
is
the
raw
material
for
the
process,
has
a
localized
impact
on
the
groundwater
in
its
vicinity.
Monitoring
wells
in
the
area
show
that
the
groundwater
in
the
geologic
strata
underneath
the
off
site
area
adjacent
to
the
waste
management
units
has
total
dissolved
solids
(TDS)
levels
in
excess
of
three
times
the
maximum
level
for
an
aquifer
to
be
considered
a
drinking
water
source
in
California.
32
Additional
factors
such
as
low
flow
rate
and
high
treatment
cost
make
the
potential
for
a
private
well
in
that
area
highly
unlikely.
Municipalities
can
tap
into
an
alternative
water
source
through
a
regional
pipeline
and
need
not
rely
on
groundwater.
The
geology
of
the
area
has
several
characteristics
that
reduce
the
potential
for
releases
from
the
impoundments
from
reaching
known
drinking
water
sources.
The
transport
time
to
groundwater
for
the
constituents
of
concern
appears
to
be
significant
given
the
depth
to
groundwater
under
the
waste
management
units
(170±
220
feet)
and
the
affinity
of
these
constituents
to
bind
with
soil.
33
The
area
under
the
facility
has
several
geologic
faults
that
act
as
groundwater
barriers.
The
South
Borax
fault
is
likely
to
prevent
any
potential
release
from
the
waste
management
units
from
reaching
the
drinking
water
source
for
the
existing
community
well.
The
fault
is
located
just
south
of
the
waste
management
units,
between
the
units
and
the
well.
In
addition,
the
groundwater
underlying
the
waste
management
units
is
contained
in
the
tertiary
soil
layer
whereas
the
community
well
draws
from
the
quaternary
layer.
We
believe
that
migration
between
these
two
layers
would
be
limited.
(The
facility
submitted
a
detailed
summary
of
the
geologic
conditions
at
the
site.
This
information
has
been
placed
in
the
docket
for
this
rulemaking.
See
``
Summary
of
Boron
Operations
Hydrogeology,
Potential
Groundwater
Receptors
and
BAP
Waste
Management
Parameters'').
Finally,
we
note
that
the
impoundments
in
question
are
designed
with
a
triple
liner
and
leachate
collection
system,
making
any
significant
release
less
likely
over
the
active
life
of
the
units.
Based
on
these
factors,
we
do
not
believe
there
is
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/
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14,
2000
/
Proposed
Rules
groundwater
exposure
pathway
from
the
tailings.
We
also
assessed
the
potential
for
air
releases
from
the
tailings
ponds.
Because
the
constituents
of
concern
from
this
process
are
nonvolatile
metals,
we
are
not
concerned
with
releases
through
volatilization.
Although
the
surface
impoundments
are
evaporation
ponds,
the
facility
claims
that
there
is
still
some
level
of
moisture
in
the
ponds
at
all
times,
thereby
minimizing
release
of
particulates
to
the
air.
The
particulates
would
not
likely
be
subject
to
wind
blown
erosion
due
to
the
moisture
level
of
the
waste.
Furthermore,
the
closest
off
site
receptors
are
at
least
two
miles
away
from
the
unit.
Due
to
dispersion,
it
is
unlikely
that
any
particulate
releases
would
reach
such
receptors
at
significant
levels.
The
facility
also
provided
a
risk
assessment
which
assessed
the
air
risks
from
the
tailings
ponds.
Their
assessment
did
not
show
any
air
risks
from
the
tailings
ponds
even
when
they
assumed
a
conservative
dry
down
process
for
the
unit.
(The
facility's
air
risk
assessment
is
available
in
the
RCRA
docket
for
today's
proposal).
In
summary,
there
are
several
site
specific
factors
that
need
to
be
taken
into
account
when
evaluating
risks
from
this
waste.
This
is
the
only
facility
in
the
country
producing
boric
acid
from
ore.
The
facility
is
tied
to
its
location
because
it
is
the
source
of
the
ore.
The
hydrogeology
of
the
site
is
such
that
local
groundwater
is
not
suitable
for
drinking
water
use,
and
any
potential
releases
from
the
unit
would
be
unlikely
to
migrate
to
any
drinking
water
source.
Furthermore,
the
facility
is
remote
with
the
nearest
receptors
two
miles
away.
Based
on
all
of
these
facts,
we
propose
not
to
list
the
tailings
from
the
kernite
ore
process
for
the
production
of
boric
acid.
(2)
Gangue.
We
propose
not
to
list
the
gangue
generated
during
the
boric
acid
process.
Initially,
the
gangue
is
placed
on
a
slab
to
drain.
The
drainage
from
the
gangue
is
collected
and
managed
with
the
tailings
(we
assessed
the
drainage
as
part
of
the
tailings
wastestream;
see
section
(1)
above
for
our
listing
recommendation).
The
drained
gangue
is
trucked
to
on
site
waste
piles.
The
gangue
is
wet
when
transported
to
the
waste
pile
but
most
of
the
moisture
evaporates
quickly
in
the
dry
desert
environment.
The
same
geological
conditions
apply
to
the
gangue
waste
unit
as
described
above
for
the
tailings
waste
unit.
The
gangue
is
ultimately
managed
as
a
dry
waste
pile
and
there
is
virtually
no
precipitation
to
cause
leaching.
We
assumed
a
greater
risk
to
groundwater
would
come
from
the
tailings
because
there
is
any
liquid
associated
with
the
gangue
would
evaporate
before
leaching
into
the
subsurface.
Based
on
our
decision
regarding
the
tailings,
we
did
not
further
evaluate
the
risks
to
groundwater
from
the
gangue.
We
did
assess
in
more
detail
the
potential
for
air
releases
from
the
waste
pile.
We
do
not
expect
releases
of
the
nonvolatile
metals
from
this
waste.
The
moist
gangue
solids
are
trucked
to
onsite
waste
piles.
The
gangue
contains
enough
sodium
sulfate
to
cause
the
gangue
piles
to
set
up
like
cement
when
it
dries,
helping
prevent
erosion
and
air
release
of
particulates
from
the
pile.
As
a
further
check
of
potential
air
releases,
we
examined
the
potential
for
release
of
the
constituent
of
most
concern,
arsenic.
According
to
data
provided
by
the
facility,
the
total
levels
of
arsenic
in
the
gangue
vary
between
25
and
78
mg/
kg.
We
compared
these
total
concentrations
to
one
of
the
levels
calculated
as
part
of
the
EPA's
Air
Characteristic
Study
(530±
R±
99±
019b,
Aug
1999,
Table
4±
3).
The
Study
evaluated
different
waste
management
and
receptor
scenarios
to
determine
waste
concentrations
that
would
remain
below
a
specific
target
risk.
Using
the
waste
pile
scenario
at
a
receptor
distance
of
150
meters,
the
study
showed
that
arsenic
levels
of
6,000
ppm
did
not
cause
exceedences
of
the
target
risk
levels.
The
concentration
levels
in
the
gangue
are
well
below
this
number.
In
addition,
the
location
of
the
facility
is
remote
with
the
closest
residence
two
miles
away,
which
is
significantly
beyond
the
150
meter
range.
The
Air
Characteristics
Study
only
evaluated
direct
risks
from
inhalation,
not
indirect
risks.
However,
due
to
the
desert
environment
where
the
facility
is
located,
risks
related
to
consumption
of
soil,
plants
or
animals
are
highly
unlikely
to
arise.
Based
on
these
factors,
we
believe
that
the
arsenic
levels
in
the
gangue
do
not
present
unacceptable
risks
via
the
air
pathway.
In
addition
to
arsenic,
boron
and
antimony
are
the
two
other
constituents
of
concern
present
in
the
gangue.
Based
on
data
provided
by
the
facility,
antimony
is
found
at
total
concentrations
ranging
from
36
mg/
kg
to
84
mg/
kg
in
the
gangue.
The
facility
estimated
the
boron
total
concentration
levels
to
be
25,000
ppm
based
on
average
daily
sampling
of
the
gangue.
Arsenic
is
the
most
toxic
of
the
three
constituents.
Because
the
particulate
releases
and
exposure
scenario
would
likely
be
the
same
for
all
three
constituents
and
because,
as
discussed
above,
we
do
not
believe
arsenic
poses
a
concern,
we
also
believe
there
are
no
unacceptable
levels
of
risk
from
the
antimony
and
boron
in
the
gangue.
After
assessing
possible
risks
from
arsenic,
we
compared
the
ratios
of
the
waste
concentrations
for
the
three
constituents
to
the
ingestion
health
based
level
for
each
constituent.
This
ratio
for
arsenic
was
an
order
of
magnitude
higher
than
the
ratios
for
antimony
and
boron,
indicating
that
the
highest
potential
risk
from
ingestion
would
arise
from
the
arsenic.
Thus,
based
on
the
lack
of
significant
risk
for
arsenic
in
this
waste,
the
Agency
concluded
that
neither
antimony
nor
boron
pose
a
significant
air
risk
at
this
site.
In
addition,
as
mentioned
above
in
the
tailings
section,
the
facility
has
conducted
an
air
risk
assessment.
The
document
shows
no
significant
risk
from
the
management
practices
for
the
gangue
waste
pile.
The
facility's
risk
assessment
is
available
in
the
docket
for
today's
proposal.
Therefore,
based
on
all
of
these
factors,
we
propose
not
to
list
the
gangue
from
the
production
of
boric
acid
using
the
kernite
ore
process.
(3)
Spent
filters.
We
propose
not
to
list
the
spent
filters
generated
during
the
filtration
step
of
the
boric
acid
production
process.
The
spent
filters
are
stored
in
a
solid
waste
bin
and
then
managed
in
an
on
site
industrial
Subtitle
D
landfill.
The
filtration
step
occurs
late
in
the
process,
so
we
expect
minimal
contamination.
In
addition,
because
the
filters
are
washed
weekly,
the
vast
majority
of
any
contaminants
filtered
out
at
this
stage
would
be
captured
by
the
wash
process
and
managed
with
the
tailings
(see
section
(1)
above
for
listing
determination
on
the
tailings).
The
facility
applies
a
daily
cover
at
the
landfill
which
protects
against
residual
particulates
from
being
released
into
the
air.
Furthermore,
the
quantity
of
spent
filters
is
relatively
small
(3
MT),
making
it
unlikely
to
present
a
significant
risk
in
the
landfill.
Finally,
the
location
of
the
facility
is
remote
with
the
closest
residence
being
two
miles
away.
Therefore,
we
propose
not
to
list
the
spent
filters
from
the
kernite
ore
process
for
the
production
of
boric
acid.
4.
Cadmium
Pigments
a.
Summary.
We
propose
not
to
list
any
wastes
from
the
production
of
cadmium
pigments.
All
of
the
nonwastewater
residuals
consistently
exhibit
the
toxicity
characteristic
for
barium,
cadmium,
and
selenium.
There
is
only
one
producer,
and
over
the
past
seven
years
the
producer
has
drummed
and
shipped
with
manifests
all
its
nonwastewater
residuals
to
an
off
site
Subtitle
C
facility
for
treatment
to
applicable
LDR
standards.
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/
Thursday,
September
14,
2000
/
Proposed
Rules
34
USGS
Minerals
Information,
Mineral
Commodity
Summary,
1996
(see
http://
minerals.
usgs.
gov/
minerals/
pubs/
commodity/
cadmium/
140396.
txt)
wastewaters
are
pretreated
on
site
in
closed
tanks
prior
to
discharge
to
a
POTW,
which
is
regulated
under
the
Clean
Water
Act.
We
conclude
that
the
existing
regulatory
controls
adequately
reduce
risks,
and
there
are
no
exposure
pathways
of
concern.
These
wastes
do
not
pose
a
substantial
present
or
potential
hazard,
and
thus
do
not
meet
the
criteria
for
listing
set
out
in
40
CFR
261.11(
a)(
3).
b.
Description
of
the
cadmium
pigments
industry.
One
facility
produced
cadmium
pigments
in
the
United
States
in
1998
and
1999.
Cadmium
pigments
are
cadmium
sulfides
of
variable
composition,
usually
produced
as
powders
but
also
available
in
other
forms
such
as
pastes
and
liquids.
Cadmium
pigments
are
used
to
provide
shades
of
bright
yellow,
orange,
red,
and
maroon.
The
shades
depend
on
the
ratio
of
cadmium
and
zinc
to
sulfides
and
selenium.
Current
uses
of
cadmium
pigments
include
decorative
and
protective
coatings
for
plastics,
glass,
ceramics,
rubber
and
other
materials.
The
coatings
provide
heat
resistance
to
surfaces
and
a
barrier
to
chemical
and
sunlight
exposures.
Cadmium
pigments
are
produced
by
digesting
cadmium
metal
in
sulfuric
acid,
nitric
acid,
and
water
to
produce
a
cadmium
sulfate
solution
(liquor).
Chemical
reagents
are
added
to
the
liquor
to
selectively
precipitate
out
metals
which
are
present
as
impurities.
Sodium
sulfide
and
metals
(e.
g.,
zinc,
selenium)
are
added
to
the
purified
liquor
to
yield
a
slurry
which,
after
filtration,
is
the
``
greencake'',
the
first
intermediate
product
from
the
cadmium
pigments
production.
The
greencakes
are
then
washed,
sized,
and
calcined.
The
calcined
materials
are
ground,
rewashed,
filtered,
dried,
milled,
and
blended
to
make
different
shades.
The
use
of
cadmium
pigments
is
declining.
34
Growth
in
the
overall
demand
for
cadmium
pigments
is
limited
to
the
manufacturing
areas
requiring
use
of
cadmium
pigments,
such
as
the
plastics
industry,
where
no
substitute
is
adequate.
Our
RCRA
Section
3007
Survey
results
show
that
six
out
of
seven
facilities
ceased
production
of
cadmium
pigments
in
recent
years.
The
domestic
demand
for
cadmium
pigments
in
the
next
few
years
is
likely
to
remain
stable.
A
more
complete
discussion
of
this
process
and
the
industry
is
provided
in
the
``
Cadmium
Pigments
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
b.
What
kinds
of
wastes
are
generated
by
this
process?.
Using
the
facility's
survey
response,
we
divided
the
wastes
into
two
broad
categories:
Wastewaters
and
non
wastewaters.
Table
III±
8
summarizes
the
types
of
wastes
in
each
category,
the
characteristics
of
each
waste,
waste
volume,
and
current
management
practices:
TABLE
III±
8.Ð
CADMIUM
PIGMENT
PRODUCTION
WASTES
Waste
category
Reported
waste
codes
1998
waste
volume
(MT)
Management
practice
Non
wastewaters
Miscellaneous
solid
wastes,
including
materials
from
dust
collectors,
plant
cleanup,
filtered
pigments
from
the
presses,
and
from
the
on
site
wastewater
pretreatment
process.
D005
D006
D010
33.5
..................
Each
waste
is
drummed
(separately
or
sometimes
combined)
and
shipped
to
a
commercial
off
site
hazardous
waste
treatment
facility
to
be
treated
and
decharacterized
before
placing
in
a
Subtitle
D
landfill
Note:
D005Ð
barium
D006Ð
cadmium
D010Ð
selenium
Contaminated
paper
and
cloth,
including
filter
bags,
filter
cloths,
filter
cartridges,
and
dust
collector
bags.
D005
D006
D010
9.3
Contaminated
gaskets
generated
from
the
red
and
yellow
calciners.
D005
D006
D010
0.3
Iron
press
residue
generated
from
digestion
of
cadmium
metal.
D005
D006
D010
4.5
Wastewaters
Gas
scrubber
wastewater
(spent
caustic
from
scrubbing
vapors
generated
from
calcination
process).
Not
reported
.....
pH
adjusted,
treated
to
remove
zinc
and
cadmium
The
resulting
sludge
is
a
part
of
the
miscellaneous
solid
wastes.
All
these
wastewaters
are
then
combined
and
further
treated
in
on
site
closed
tanks
for
pH
adjustment
2
step
filtration
monitoring
for
turbidity
prior
to
discharge
to
a
POTW.
Process
wastewater
from
filtering
the
greencake
........
Not
reported
.....
pH
adjusted,
treated
to
recover
cadmium.
Process
wastewaters
from
wet
washing
system
.........
Not
reported.
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
35
Quarterly
leachate
monitoring
data
from
March
95
to
September
98,
provided
by
Michigan's
Department
of
Environment,
Wayne
County
District
Office
and
Local
Office.
c.
Agency
evaluation.
After
evaluating
the
characteristics
and
current
management
practices
of
all
the
waste
residuals,
we
determined
that:
(1)
all
the
non
wastewater
wastes
are
being
properly
treated
and
managed
as
hazardous
wastes
under
RCRA
regulations,
and
(2)
all
the
wastewaters
are
being
treated
on
site
in
closed
tanks
and
discharged
to
a
permitted
POTW,
where
they
are
subject
to
the
Clean
Water
Act.
Therefore,
we
did
not
pursue
risk
assessment
modeling
for
any
of
these
wastes.
The
following
are
the
details
of
our
evaluation:
(1)
Non
wastewaters.
In
its
RCRA
Section
3007
Survey,
the
facility
classified
all
four
wastes
of
this
category
as
characteristic
hazardous,
as
generated,
for
barium,
cadmium,
and
selenium.
The
facility
also
provided
data
characterizing
each
non
wastewater
residual
for
total
and
TCLP
concentrations
of
eight
TC
metals.
Except
for
chromium
(which
was
detected
in
the
TCLP
leachate
of
one
waste
below
its
health
based
level),
no
other
hazardous
constituents
were
reported.
The
total
volume
of
these
four
wastes
was
47.6
metric
tons
in
1998.
Over
the
past
seven
years
the
generator
has
managed
all
its
nonwastewater
wastes
generated
from
the
production
of
cadmium
pigments
as
TC
hazardous
wastes.
These
wastes
are
drummed
and
shipped
with
manifests
to
a
commercial
off
site
Subtitle
C
facility
for
treatment.
The
off
site
treatment
includes
mixing
and
treating
the
wastes
with
other
solid
wastes
and
the
addition
of
lime
and
fly
ash
to
meet
the
current
LDR
treatment
standards
(via
stabilization).
The
resultant
mixture
forms
a
concrete
like
residue,
which
no
longer
exhibits
a
characteristic
and
is
managed
in
a
Subtitle
D
landfill.
We
believe
this
management,
which
complies
with
existing
Subtitle
C
regulations,
adequately
protects
human
health
and
the
environment.
Although
we
generally
believe
that
Subtitle
C
regulations
for
characteristic
wastes
adequately
prevent
mismanagement,
we
have
additional
data
that
help
confirm
our
conclusion
for
this
waste.
The
landfill
information
and
leachate
data
provided
by
the
local
and
state
governments
(per
our
request)
indicate
that
the
landfill
has
a
liner
with
a
leachate
collection
system.
The
landfill
leachate
data
35
we
have
to
date
demonstrate
that
constituents
detected
in
the
landfill
leachates
are
not
attributable
to
the
cadmium
pigments
production
wastes.
The
landfill
information
and
leachate
data
are
provided
in
the
``
Cadmium
Pigments
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
We
recognize
that
the
residues
from
commercial
treatment
facilities
represent
the
commingling
of
wastes
from
a
variety
of
facilities
and
wastes.
Therefore,
information
on
the
landfill
leachate
from
treated
material
is
of
limited
use.
However,
the
data
available
indicate
that
the
cadmium
pigment
wastes
do
not
present
a
substantial
hazard
when
disposed.
Given
that
the
generating
facility
has
followed
the
reported
management
practice
for
seven
years,
we
believe
use
of
this
or
comparable
treatment
and
disposal
will
continue.
What
Is
EPA's
Listing
Rationale
for
These
Wastes?
We
propose
not
to
list
any
of
the
four
wastes
in
this
category
as
hazardous
because
they
are
already
managed
in
compliance
with
existing
hazardous
waste
regulations,
including
full
compliance
with
the
BDAT
requirements
for
treatment
prior
to
land
disposal.
We
conclude
that
available
data
on
the
specific
cadmium
pigment
manufacturing
wastes
do
not
support
a
decision
to
list
the
wastes
as
hazardous.
(2)
Wastewaters.
We
propose
not
to
list
the
wastewaters
as
hazardous
because
the
gas
scrubber
and
the
process
wastewaters
are
pretreated
onsite
in
closed
tanks
prior
to
discharge
to
a
POTW.
The
wastewater
treatment
tanks
provide
sufficient
structural
integrity
to
minimize
potential
releases
to
groundwater.
We
are
unlikely
to
find
potential
air
releases
from
these
tanks
as
neither
volatile
contaminants
nor
airborne
particulates
are
likely
to
be
present
in
these
wastewaters.
During
treatment,
the
closed
tanks
present
no
significant
threat
of
release
to
the
environment.
After
treatment,
the
wastewaters
are
subject
to
the
Clean
Water
Act
program.
We
conclude
that
the
wastewaters
do
not
warrant
listing.
We
assessed
solids
from
the
on
site
treatment
as
miscellaneous
wastes
discussed
above
in
section
(1).
5.
Inorganic
Hydrogen
Cyanide
a.
Summary.
We
propose
not
to
list
any
wastes
from
the
production
of
inorganic
hydrogen
cyanide
(HCN)
as
hazardous
under
Subtitle
C
of
RCRA.
These
wastes
are
managed
in
on
site
wastewater
treatment
processes,
industrial
landfills,
municipal
landfills,
hazardous
waste
incinerators,
hazardous
waste
landfills,
and
hazardous
waste
injection
wells.
After
analysis
of
these
waste
management
practices
and
potential
exposure
pathways,
we
concluded
that
there
are
no
risk
pathways
of
concern.
These
wastes
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
hazard
to
human
health
or
the
environment.
b.
Description
of
the
inorganic
hydrogen
cyanide
industry.
Hydrogen
cyanide
(HCN)
is
used
in
the
manufacture
of
a
number
of
important
chemicals
including:
adiponitrile
to
produce
nylon,
methyl
methacrylate
to
produce
clear
acrylic
plastics,
sodium
cyanide
for
the
recovery
of
gold,
triazines
for
agricultural
herbicides,
methionine
for
animal
food
supplements,
and
chelating
agents
for
water
treatment.
HCN
is
manufactured
via
two
primary
inorganic
synthesis
processes:
Andrussow
and
Blausa
¨
ure
MethanAmmoniak
(BMA).
The
Andrussow
process
involves
the
reaction
of
ammonia,
methane
(natural
gas)
and
air
over
a
platinum
catalyst;
the
BMA
process
is
similar
except
the
reaction
occurs
in
the
absence
of
air.
The
reaction
products
are
quenched
with
water.
Excess
ammonia
reactant
is
recovered
for
reuse
in
the
reaction
or
converted
to
an
ammonium
salt.
The
aqueous
HCN
product
is
purified
and
concentrated
for
use
as
a
liquid
feedstock
for
manufacturing
of
one
or
more
of
the
final
products
mentioned
above.
Two
of
the
Andrussow
process
manufacturers
do
not
produce
a
liquid
hydrogen
cyanide
intermediate
product
but
immediately
convert
the
hydrogen
cyanide
in
the
reactor
gases
in
a
sodium
hydroxide
contactor
to
produce
liquid
sodium
cyanide.
There
are
ten
manufacturers
of
hydrogen
cyanide
in
the
United
States
who
use
the
Andrussow
or
the
BMA
process.
Of
these
ten
manufacturers,
only
one
uses
the
BMA
process.
Two
of
the
nine
Andrussow
manufacturers
use
an
abbreviated
version
of
the
Andrussow
process
to
produce
sodium
cyanide.
Manufacture
of
sodium
cyanide
as
a
final
product
results
in
fewer
wastes
and
significantly
lower
wastewater
volumes.
The
inorganic
hydrogen
cyanide
industry
subject
to
this
rulemaking
is
composed
only
of
the
facilities
that
produce
hydrogen
cyanide
as
an
intermediate
product
or
feedstock
to
manufacture
a
variety
of
commercial
chemicals
using
the
Andrussow
and
BMA
processes.
This
proposal
specifically
does
not
cover
wastes
from
the
manufacturing
of
HCN
as
a
byproduct
in
the
manufacture
of
acrylonitrile
by
the
ammoxidation
of
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/
Vol.
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
propylene
(Sohio
process).
The
Sohio
process
is
inherently
an
organic
chemical
manufacturing
process,
and
is
not
within
the
scope
of
the
inorganic
chemicals
manufacturing
industry
or
the
consent
decree.
Furthermore,
we
have
already
evaluated
wastes
for
acrylonitrile
manufacturing,
and
the
cyanide
wastes
associated
with
the
Sohio
process
(K011,
K013,
and
K014)
are
subject
to
Subtitle
C
regulation.
c.
What
kinds
of
wastes
are
generated
by
this
process?
How
Did
We
Categorize
the
Wastes?
Wastes
generated
from
the
production
of
hydrogen
cyanide
consist
of
various
types
of
wastewater,
various
types
of
spent
filter
media,
spent
catalyst,
biological
solids
from
wastewater
treatment,
and
ammonium
salts.
Based
on
an
assessment
of
the
wastes
reported
in
the
survey,
the
wastes
were
categorized
as
follows:
ÐCommingled
wastewaters.
This
waste
includes
continuously
generated
wastewaters
such
as
HCN
purification
wastewater
and
ammonia
purification
wastewater.
ÐAmmonia
recycle
cartridge
and
spent
carbon
filters.
This
waste
consists
of
spent
filter
material
and
filter
solids
that
are
generated
during
the
filtration
of
the
recycled
unreacted
ammonia
stream
prior
to
being
reused
as
process
feedstock.
ÐBiological
wastewater
treatment
solids.
The
biosolids
are
generated
from
the
biological
treatment
of
process
and
non
process
wastewaters
to
remove
residual
cyanide
and
organonitrile
contaminants.
ÐFeed
gas
cartridge
and
spent
carbon
filters.
This
waste
consists
of
spent
filter
material
and
filter
solids
that
are
generated
during
the
filtration
of
natural
gas
prior
to
being
used
as
process
feedstock.
ÐProcess
air
cartridge
filters.
This
waste
consists
of
spent
filter
material
and
filter
solids
that
are
generated
during
the
filtration
of
ambient
air
that
is
used
in
the
reaction.
ÐAcid
spray
cartridge
filters.
The
waste
consists
of
spent
filter
cartridges
and
filter
solids
from
acid
spray
filters
used
in
the
hydrogen
cyanide
stripper.
ÐSpent
catalyst.
This
waste
consists
of
metal
gauze
panels
that
contain
the
precious
metal
catalyst
used
to
catalyze
the
synthesis
reaction.
The
catalyst
activity
diminishes
with
time
and
needs
to
be
replaced
with
fresh
catalyst
periodically.
ÐAmmonium
sulfate
and
ammonium
phosphate.
The
ammonium
wastes
are
generated
from
the
neutralization
of
excess
ammonia
in
the
process
using
sulfuric
or
phosphoric
acid.
ÐMiscellaneous
wastewaters.
These
numerous
wastewaters
are
generated
during
plant
upsets
or
shutdowns
for
maintenance
and
are
reported
in
detail
in
the
``
Inorganic
Hydrogen
Cyanide
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination.
''
ÐHCN
polymer
and
sump
wastes.
These
wastes
are
generated
in
process
vessels,
tanks,
and
wastewater
collection
sumps
and
removed
during
periodic
plant
maintenance
operations.
ÐSludge
from
wastewater
collection
tank.
This
waste
is
generated
from
the
settling
of
suspended
solids
in
wastewater
tanks
and
removed
during
periodic
plant
maintenance
operations.
ÐHCN
storage
tank
solids.
These
solids
settle
out
of
the
HCN
product.
The
solids
are
generated
during
manual
tank
cleaning
after
thorough
washing.
ÐWastewater
filters.
These
are
generated
from
the
filtration
of
process
wastewater
prior
to
deep
well
injection.
ÐAmmonium
sulfate
filters.
This
waste
is
from
the
filtration
of
the
ammonium
sulfate
solution
from
the
neutralization
of
excess
ammonia
by
sulfuric
acid.
The
filtered
ammonium
sulfate
solution
is
then
crystallized
into
solid
form
prior
to
sale
as
fertilizer.
ÐSpent
ammonium
phosphate.
Ammonium
phosphate
solution
is
used
to
scrub
the
off
gas
from
the
reactor
to
assist
in
ammonium
recovery.
ÐOrganic
layer
from
wastewater
collection
tank.
This
is
generated
from
the
treatment
of
commingled
HCN
wastewater
and
predominantly
nonHCN
process
wastewater.
In
addition
to
these
wastes,
other
residuals
are
produced
by
some
of
the
facilities
that
are
recycled
back
to
the
production
process.
These
materials
consist
of
process
water
and
recovered
ammonia.
These
residuals
are
reused
on
site
via
enclosed
piping
systems
and
tanks,
minimizing
the
potential
for
environmental
releases.
Also,
we
evaluated
all
wastes
generated
after
these
secondary
materials
are
reinserted
or
reused;
we
do
not
believe
that
these
secondary
materials
present
significant
risks.
Consequently,
we
did
not
evaluate
them
further.
How
Are
These
Wastes
Currently
Being
Managed?
Table
III±
9
summarizes
the
major
waste
categories,
waste
characteristics,
waste
volumes,
and
their
current
management
practices:
TABLE
III±
9.Ð
INORGANIC
HYDROGEN
CYANIDE
PRODUCTION
WASTES
Waste
Category
(Number
of
facilities)
Reported
Waste
Codes
1
1998
volume
(MT)
Management
practices
Commingled
wastewaters
(8)
............................................................................
D002
........
5,600,000
On
site
wastewater
treatment
in
tanks
or
surface
impoundments,
discharge
to
NPDES
outfall
or
POTW.
Ammonia
recycle
cartridge
and
spent
carbon
filters
(5)
...................................
none
.........
73
Off
site
municipal
D
landfill;
off
site
industrial
D
landfill;
on
site
Subtitle
C
landfill;
on
site
Subtitle
C
incineration
Biological
wastewater
treatment
solids
(4)
........................................................
none;
F039
3
.
45,397
Off
site
industrial
Subtitle
D
landfill;
off
site
municipal
Subtitle
D
landfill;
on
site
Subtitle
C
landfill.
Feed
gas
cartridge
and
spent
carbon
filters
(9)
................................................
none
........
9.7
Off
site
municipal
D
landfill;
off
site
industrial
D
landfill;
on
site
Subtitle
C
landfill
as
non
hazardous
waste;
offsite
recycle/
reuse
via
return
to
manufacturer
Process
air
cartridge
filters
(8)
..........................................................................
none
........
7.5
Off
site
municipal
D
landfill;
off
site
industrial
D
landfill;
reclamation.
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Federal
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
III±
9.Ð
INORGANIC
HYDROGEN
CYANIDE
PRODUCTION
WASTESÐ
Continued
Waste
Category
(Number
of
facilities)
Reported
Waste
Codes
1
1998
volume
(MT)
Management
practices
Acid
spray
cartridge
filters
(1)
...........................................................................
none
.........
1.1
On
site
Subtitle
C
landfill
as
nonhazardous
waste.
Spent
catalyst
(10)
.............................................................................................
none
........
4.06
Off
site
reclamation.
Ammonium
sulfate
and
ammonium
phosphate
(3)
...........................................
none
........
27,425
Off
site
use
as
fertilizer.
Miscellaneous
wastewaters
(4)
.........................................................................
none
.........
209,000
Managed
with
commingled
wastewaters
described
above.
HCN
polymer
and
sump
wastes
(1)
..................................................................
none
........
0.7
Off
site
industrial
D
landfill
Sludge
from
wastewater
collection
tank
(2)
......................................................
D001;
D018
2
3.9
Stabilization/
off
site
Subtitle
C
landfill;
off
site
Subtitle
C
incineration.
HCN
storage
tank
solids
(1)
..............................................................................
none
........
0.3
Off
site
municipal
D
landfill
Wastewater
filters
(1)
.........................................................................................
none
........
450
Captive
off
site
Subtitle
C
incineration.
Ammonium
sulfate
filters
(1)
..............................................................................
none
........
1.1
Off
site
industrial
D
landfill
Spent
Ammonium
Phosphate
(1)
......................................................................
none
........
230
On
site
reuse
as
biological
treatment
system
nutrient
source
or
on
site
nonhazardous
waste
incineration
Organic
layer
from
wastewater
collection
tank
(1)
............................................
D001
........
43.3
(1993)
Off
site
Subtitle
C
incineration
1
D001
(ignitability),
D002
(corrosivity),
D018
(benzene).
2
Includes
2.1
MT
reported
for
1993.
3
One
facility
commingles
wastewater
to
generate
a
hazardous
waste
derived
from
F039
wastewater.
d.
Agency
evaluation.
We
selected
three
facilities
in
Alabama,
Tennessee,
and
Texas
to
collect
record
samples
of
wastes
for
the
listing
determination.
These
facilities
were
selected
based
on
the
survey
information
for
the
entire
industry
sector
and
collectively
represent
all
the
wastes
generated
and
all
of
the
waste
management
practices
used
by
the
manufacturing
sector.
(1)
Commingled
wastewaters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Eight
of
the
ten
facilities
generated
commingled
wastewaters
from
the
inorganic
hydrogen
cyanide
process.
The
total
volume
of
commingled
wastewaters
reported
by
these
facilities
was
5.5
million
MT
in
1998.
Six
of
these
eight
facilities
treat
the
commingled
wastewaters
using
one
or
more
of
the
following
operations
in
their
on
site
wastewater
treatment
processes:
(a)
steam
stripping
to
remove
cyanide
and
ammonia,
with
off
gasses
vented
to
flares,
scrubbers
or
incinerators;
(b)
pH
adjustment;
(c)
aerated
or
non
aerated
biological
treatment
in
tanks
or
lined/
unlined
surface
impoundments;
(d)
ozone
treatment
in
tanks;
(e)
oxychlorination
in
surface
impoundments;
(f)
settling
in
surface
impoundments;
and
NPDES
outfalls,
or
POTWs.
In
addition
to
commingling
of
the
hydrogen
cyanide
process
wastewaters,
some
facilities
also
commingle
these
wastewaters
with
wastewaters
from
other
non
HCN
processes
generated
in
the
same
chemical
manufacturing
complex.
The
remaining
two
facilities
manage
their
commingled
wastewaters
by
filtration
and
disposal
via
deepwell
injection.
What
Management
Scenarios
Were
Assessed?
Based
on
the
reported
management
practices,
we
assessed
the
potential
for
releases
from
tanks
and
surface
impoundments.
We
decided
that
risks
from
the
ultimate
discharges
to
NPDES
outfalls
and
POTWs
are
adequately
controlled
by
the
Clean
Water
Act.
Risks
from
discharges
to
Class
I
injection
wells
with
RCRA
``
no
migration''
variances
are
adequately
regulated
under
the
Safe
Drinking
Water
Act
and
RCRA
(see
section
III.
D.
3).
Potential
releases
to
groundwater.
We
assessed
both
the
tank
and
surface
impoundment
scenarios
for
potential
releases
to
groundwater
and
determined
that
the
unlined
surface
impoundment
scenario
poses
a
more
significant
potential
risk
to
groundwater
than
the
tank
scenario.
We
focused
on
the
surface
impoundment
pathway
because
several
of
the
reported
surface
impoundments
are
unlined,
posing
a
potential
direct
release
pathway
to
groundwater.
We
take
the
position
that
tanks,
by
the
impervious
nature
of
the
construction
materials
(concrete,
fiberglass,
or
steel)
are
not
likely
to
result
in
significant
releases
to
groundwater.
We
conducted
sampling
and
analysis
of
these
wastewaters
at
the
three
facilities
located
in
Alabama,
Tennessee,
and
Texas
currently
using
surface
impoundment
based
wastewater
treatment
systems.
We
assessed
each
site
individually,
because
we
believe
it
is
reasonable
to
assume
that
large
volume
wastewaters
managed
in
impoundments
in
question
would
not
be
moved
off
site
or
to
different
locations.
Our
decision
on
what
scenario
to
assess
was
based
on
review
of
our
analytical
data
and
the
characteristics
of
the
surface
impoundments
used
at
the
three
facilities.
We
evaluated
the
potential
for
groundwater
releases
to
drinking
water
wells
at
the
Alabama
site,
and
potential
surface
water
impacts
at
the
Tennessee
facility.
The
analytical
data
for
the
wastewater
managed
in
the
surface
impoundment
at
the
Texas
facility
showed
that
all
levels
of
the
toxicants
of
concern
are
below
healthbased
levels,
or
are
associated
with
other
commingled
on
site
production
processes
and
are
not
due
to
HCN
production.
The
Alabama
facility
manages
wastewater
in
a
series
of
surface
impoundments
and
tanks
that
provide
equalization,
oxidation,
maturation,
rock
reed
filtration,
and
mixing.
In
addition,
the
facility
has
an
emergency
holding
basin
which
has
also
been
used
for
HCN
process
wastewaters.
The
surface
impoundments
are
equipped
with
double
synthetic
liners
with
leachate
detection
and
collection
systems.
The
oxidation
basin
is
a
concrete
lined
structure
with
an
additional
synthetic
liner.
Our
analytical
data
indicates
that
concentrations
at
the
inlet
to
the
impoundments
would
exceed
the
HBLs
for
one
constituent
of
concern
(acetonitrile).
A
study
of
existing
wells
near
the
facility
indicates
the
presence
of
private
water
wells
within
a
one
mile
radius
of
the
property
boundary.
We
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/
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14,
2000
/
Proposed
Rules
36
The
``
Inorganic
Hydrogen
Cyanide
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination,
''
available
in
the
docket
for
today's
proposal,
provides
all
analytical
data
we
developed,
as
well
as
split
samples
collected
by
industry,
where
available.
therefore
assessed
these
units
further
for
potential
releases
to
groundwater.
The
Tennessee
facility
manages
the
wastewater
in
unlined
surface
impoundments
and
some
of
the
toxicants
of
concern
were
above
the
health
based
levels
and
water
quality
criteria,
thus,
we
assessed
this
facility's
impoundments
for
potential
releases
to
groundwater.
As
described
below,
the
Tennessee
facility
and
its
surface
impoundments
are
sited
on
the
banks
of
the
Loosahatchie
River,
with
no
off
site
downgradient
wells.
However,
we
did
assess
the
impact
from
potential
releases
to
groundwater
to
the
nearby
river
at
this
site.
Potential
releases
to
air.
We
also
examined
the
air
exposure
pathway
for
the
wastewater
treatment
impoundments
and
tanks
because
of
the
potential
release
of
volatile
organic
compounds
and
hydrogen
cyanide
from
the
wastewater
treatment
units.
EPA
is
developing
maximum
achievable
control
technology
(MACT)
standards
for
cyanide
manufacturing
under
the
Clean
Air
Act
(CAA),
which
may
address
these
emissions.
Although
this
rule
will
be
technology
based,
the
CAA
ultimately
requires
EPA
to
regulate
significant
risks
remaining
after
the
imposition
of
technology
based
controls.
EPA
has
also
proposed
regulations
under
the
CAA
for
volatile
organic
compound
(VOC)
emissions
from
wastewater
at
Synthetic
Organic
Chemical
Manufacturing
Industry
(SOCMI)
facilities,
which
would
cover
the
HCN
manufacturers
(see
proposal
at
60
FR
46780,
September
12,
1994).
Therefore,
we
are
deferring
control
of
any
air
releases
to
the
MACT
and
SOCMI
standards
and
did
not
assess
this
pathway
further
in
today's
proposal.
How
Was
This
Waste
Category
Characterized?
We
conducted
sampling
and
analysis
of
these
wastewaters
at
the
three
facilities
currently
using
surface
impoundment
based
wastewater
treatment
systems.
We
collected
samples
at
various
places
in
the
process,
including
prior
to
commingling,
so
that
we
could
assess
the
risks
of
the
wastestream
at
issue
here.
Today's
proposal
is
based
primarily
on
samples
of
the
commingled
wastewaters
collected
in
the
wastewater
treatment
plants.
36
For
assessing
the
groundwaterto
drinking
water
pathway
at
the
Alabama
facility,
we
used
the
sample
collected
at
the
HCN
wastewater
collection
tank
where
the
HCN
wastewaters
are
collected
prior
to
mixing
with
other
non
HCN
wastewaters
in
the
equalization
impoundment.
We
estimated
the
concentration
of
the
constituents
of
concern
in
the
equalization
impoundment
by
applying
the
dilution
factor
in
the
impoundment
(e.
g.,
36
to
1
total
wastewaters
to
HCN
wastewaters),
and
we
assessed
these
concentrations
in
our
modeling
for
this
pathway.
For
the
groundwater
tosurface
water
pathway
at
the
Tennessee
facility,
we
used
the
sample
collected
at
the
exit
from
the
surface
impoundments.
We
used
the
sample
from
wastewater
exiting
the
unit,
rather
than
at
the
inlet,
because
treatment
occurs
in
the
impoundment.
However,
the
inlet
data
are
similar,
and
even
using
the
inlet
data
would
not
significantly
increase
the
surface
water
screening
results.
We
analyzed
the
waste
for
both
amenable
and
total
cyanide,
as
well
as
a
number
of
volatile
organics
and
metals.
We
used
the
amenable
cyanide
results
as
our
cyanide
risk
assessment
inputs
because
we
believe
that
amenable
cyanide
most
closely
represents
the
fraction
of
cyanide
likely
to
be
mobile
in
a
groundwater
scenario
and
the
``
free
cyanide''
assessed
in
our
health
based
level
(HBL).
However,
this
had
no
impact
on
our
risk
results,
because
our
data
show
that
amenable
and
total
cyanide
results
for
this
waste
are
the
same.
We
sampled
the
wastewater
at
the
Alabama
facility
in
August,
1999.
The
analytical
data
for
the
commingled
HCN
wastewaters
(DG±
1±
HC±
07)
represent
waste
concentrations
prior
to
commingling
with
other
non
HCN
wastewaters.
Our
results
for
a
key
chemical,
acetonitrile,
are
qualified
as
``
estimated''
for
this
sample
as
a
result
of
problems
during
sampling
and
analyses
at
this
site
as
described
further
in
Waste
Characterization
Report,
Degussa
Huls;
February
25,
2000,
available
in
the
docket
for
today's
proposal.
The
facility's
split
samples
were
more
problematic,
because
the
analytical
instruments
were
not
calibrated
for
key
constituents
being
analyzed;
thus,
the
split
sample
results
appear
even
more
uncertain.
Despite
the
estimated
nature
of
the
results
for
acetonitrile
in
this
waste
sample,
the
data
clearly
indicate
that
acetonitrile
is
likely
to
be
present
in
the
waste.
Acetonitrile,
also
commonly
referred
to
as
methyl
cyanide,
is
a
likely
by
product
from
the
main
reaction
between
methane
and
ammonia
to
form
hydrogen
cyanide.
In
addition,
samples
we
collected
at
the
Tennessee
facility
show
that
significant
levels
of
acetonitrile
are
present
in
the
wastewater,
albeit
at
somewhat
lower
levels
than
we
found
at
the
Alabama
site.
We
initially
sampled
at
the
Tennessee
facility
in
August
of
1999
(sample
DM±
1±
HC±
08).
We
used
the
analytical
results
for
this
sample
as
input
to
the
risk
assessment
(described
further
below).
However,
because
our
analytical
results
for
amenable
cyanide
were
qualified
due
to
holding
time
exceedences,
we
sampled
at
this
facility
a
second
time
in
October
of
1999
to
better
understand
the
potential
impact
of
this
waste
on
the
environment
(DM±
2±
HC±
08).
All
of
the
analytical
data
for
these
samples
are
available
in
``
Inorganic
Hydrogen
Cyanide
Listing
Background
Document
for
the
Inorganic
Chemicals
Listing
Determination''
in
the
docket
for
today's
proposal.
The
second
round
of
sampling
showed
lower
levels
of
the
key
constituent
of
potential
concern
than
found
in
the
first
round
of
sampling.
Due
to
time
constraints,
we
did
not
re
run
the
risk
assessment
model
for
this
pathway
to
incorporate
the
second
round
of
analytical
data.
However,
this
would
result
in
somewhat
lower
risks,
and
thus
would
have
had
not
impacted
our
proposed
decision.
The
critical
analytical
results
for
the
commingled
wastewaters
for
the
Tennessee
and
Alabama
surface
impoundments
are
presented
below
in
Table
III±
10.
These
represent
the
constituents
found
to
be
present
in
the
wastewaters
at
level
exceeding
the
HBLs
or
AWQC.
(Several
other
constituents
were
marginally
above
the
AWQC
and
were
not
important
in
the
surface
water
screening.)
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Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
37
The
facility
reported
that
the
cover
on
the
equalization
unit
was
installed
to
ensure
compliance
with
expected
new
regulations
to
control
volatile
organic
carbon
emissions
from
wastewater
sources
for
the
Synthetic
Organic
Chemical
Manufacturing
Industry
(SOCMI)
(proposal,
59
FR
46780,
September
9,
1994).
38
U.
S.
EPA
Phase
II
RFI
Workplan,
Potentiometric
Surface
Plan,
March
3
&
4,
1999.
TABLE
III±
10.Ð
CHARACTERIZATION
OF
COMMINGLED
WASTEWATERS
FROM
INORGANIC
HCN
PRODUCTION
(MG/
L)
Constituent
of
concern
Sample
DM±
1±
HC±
08
Sample
DM±
2±
HC±
08
2nd
Rnd
Sample
DG±
1±
HC±
07
1
HBL
AWQC
Amenable
CN
..............................................................................
0.638
<0.01
0.509
0.3
0.005
Nitrite
as
N
..................................................................................
11.5
no
analysis
<2.5
2
1
Vinyl
chloride
...............................................................................
0.029
3
0.0066
L
<0.001
0.0009
(0.1)
0.002
Acetonitrile
...................................................................................
4
50
K
28
L
190
0.09
(0.045)
2
N/
A
Acrylonitrile
..................................................................................
0.013
<0.001
<0.0005
0.002
(0.03)
5.9E±
05
1
HBL
in
parenthesis
based
on
inhalation
pathway
from
residential
use
of
water
(
e.
g.,
showering).
2
N/
A:
Not
Applicable.
3
L:
Qualified
result
with
a
low
bias
for
positive
result.
4
K:
Qualified
result
with
a
high
bias
for
positive
result.
How
Was
the
Groundwater
To
Drinking
Water
Risk
Assessment
Established?
The
Alabama
facility's
surface
impoundments
are
located
in
the
center
of
an
industrial
park
on
the
west
side
of
Mobile
Bay.
The
wastewater
treatment
impoundments
are
located
near
the
eastern
property
boundary
of
the
facility
and
approximately
4,000
feet
south
of
the
State
of
Alabama
barge
canal.
We
chose
to
assess
surface
water
risks
at
the
Tennessee
facility,
which
is
closer
to
a
surface
water
body.
However,
given
the
use
of
groundwater
in
the
area
around
the
Alabama
facility,
we
assessed
the
possible
impact
on
drinking
water
wells.
We
selected
the
equalization
basin
as
the
unit
for
quantitative
modeling.
This
is
the
first
surface
impoundment
in
the
series
and
is
likely
to
hold
the
highest
level
of
constituents
of
concern.
We
elected
not
to
assess
the
emergency
holding
pond,
which
is
used
primarily
during
high
stormwater
events.
Due
to
the
intermittent
use
of
the
holding
pond,
we
expect
the
potential
for
significant
groundwater
releases
to
be
greater
for
the
equalization
pond.
In
addition,
the
equalization
pond
is
covered
with
a
floating
synthetic
membrane,
while
the
holding
pond
is
not.
37
Our
modeling
of
the
covered
equalization
pond
did
not
assume
any
loss
of
the
volatile
constituents
of
concern,
thus
allowing
more
of
the
constituents
to
infiltrate
to
the
groundwater
rather
than
volatilize
to
the
air.
Based
on
information
available
in
a
corrective
action
plan
related
to
a
product
spill
on
site
(Risk
Based
Corrective
Action
Plan
for
the
Sodium
Cyanide
Production
Unit
at
Degussa
Corporation
Alabama
Facility,
Theodore,
Alabama;
March
19,
1998),
the
most
likely
direction
of
groundwater
flow
is
to
the
low
lying
areas
to
the
north
northeast
of
the
surface
impoundments.
We
found
there
are
drinking
water
wells
located
due
east
of
the
equalization
surface
impoundment.
Although
the
wells
are
located
east
of
the
surface
impoundment
instead
of
the
estimated
north
northeast
groundwater
flow
direction,
they
are
at
somewhat
lower
ground
elevation
than
the
surface
impoundment.
Given
the
uncertainty
in
the
direction
of
the
groundwater
flow,
we
assumed
that
contaminated
groundwater
from
the
surface
impoundment
could
migrate
to
the
east
and
reach
these
wells.
Based
on
the
available
land
use
and
groundwater
use
information
for
this
area,
we
performed
risk
modeling
for
potential
releases
to
drinking
water
wells
located
between
3,100
and
5,280
feet
east
of
the
surface
impoundment.
The
minimum
distance
of
3,100
feet
is
based
on
the
distance
from
the
impoundment
to
the
eastern
boundary
of
the
industrial
area
controlled
by
the
facility.
The
maximum
distance
of
5,280
is
the
distance
east
from
the
impoundment
to
the
closest
known
well.
This
drinking
water
well
appears
to
be
located
just
inside
the
eastern
boundary
of
the
state
property,
which
lies
to
the
east
of
the
industrial
park
where
the
facility
is
located.
We
also
assumed
that
a
future
well
may
be
placed
in
the
same
State
property
directly
east
of
the
facility's
undeveloped
tract
at
approximately
3,100
feet
from
the
surface
impoundment.
The
details
of
this
assessment
are
presented
in
the
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
today's
proposal.
The
results
of
the
risk
modeling
for
the
only
drinking
water
constituent
of
concern
are
presented
in
Table
III±
11
below.
TABLE
III±
11.Ð
GROUNDWATER
RISK
RESULTS
FOR
COMMINGLED
WASTEWATERS
FROM
THE
PRODUCTION
OF
INORGANIC
HYDROGEN
CYANIDE
Percentile
Acetonitrile
hazard
quotient
(HQ)
1
90th
%
......................................
0.3
95th
%
......................................
0.5
1
Risk
from
inhalation
scenario
during
showering
included
exposure
factors
for
both
adult
and
child
in
the
analysis.
How
Was
The
Groundwater
To
Surface
Water
Risk
Assessment
Established?
The
Tennessee
facility
and
its
surface
impoundments
are
sited
on
the
banks
of
the
Loosahatchie
River.
The
surface
impoundments
are
located
approximately
800
feet
from
the
river.
Based
on
information
available
in
the
Remedial
Facility
Investigation
(RFI),
38
the
direction
of
the
groundwater
flow
is
documented
to
be
south
towards
the
Loosahatchie
River.
The
possibility
of
a
public
water
supply
well
or
private
well
being
located
downgradient
of
the
Tennessee
surface
impoundments
is
unlikely
because
the
facility
boundary
extends
to
the
river
to
the
south.
Hence,
based
on
the
geologic
setting
of
the
facility
as
detailed
above,
we
believe
it
is
highly
unlikely
that
these
impoundments
could
impact
drinking
water
wells
via
migration
of
a
contaminated
groundwater
plume.
Based
on
these
facts
we
did
not
assess
the
groundwater
to
drinking
water
well
pathway
further
at
this
site.
We
did,
however,
conduct
a
screening
analysis
of
potential
releases
of
groundwater
to
surface
water
and
subsequent
exposure
via
ingestion
because
of
the
proximity
of
the
unit
to
the
river.
We
calculated
the
concentrations
in
the
river
that
would
result
from
discharge
of
contaminated
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
groundwater
by
estimating
the
infiltration
rate
for
the
unlined
impoundment
and
diluting
the
resulting
leachate
volume
into
the
river
under
various
flow
conditions.
The
results
of
this
screening
level
analysis
suggest
that
concentrations
of
the
constituents
of
concern
in
the
river
would
be
well
below
the
aquatic
life
AWQC
and
HBLs
for
drinking
water.
The
details
of
the
screening
analysis
are
presented
in
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
today's
proposal.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
Our
risk
assessment
results
for
the
surface
impoundment
scenario,
summarized
above
for
drinking
water
in
Table
III±
11,
suggest
that
the
only
constituent
of
concern
that
required
modeling
(acetonitrile)
does
not
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
The
HQ
was
below
one
at
both
the
90th
and
95th
percentile
in
the
probabilistic
risk
distribution.
The
results
of
our
risk
analysis
also
show
that
hypothetical
releases
to
the
adjacent
river
would
not
result
in
exceedences
of
risk
thresholds.
Our
analysis
was
conducted
at
a
screening
level
and
thus
is
based
on
a
number
of
conservative
assumptions
that
may
overstate
actual
risk.
We
did
not
account
for
dilution
of
the
potential
plume
in
groundwater
flowing
under
the
surface
impoundment
that
would
result
in
yet
lower
river
concentrations.
We
did
not
account
for
the
likelihood
that
river
water
would
be
pretreated
prior
to
use
for
drinking
and
showering.
We
did
not
account
for
volatilization,
biodegradation,
or
hydrolysis
of
the
cyanide
and
other
constituents
prior
to
exposure.
Even
if
we
used
the
surface
impoundment
influent
concentrations,
rather
than
the
exit
concentrations,
as
input
to
the
analysis,
this
waste
would
not
exceed
risk
thresholds
in
the
adjacent
river.
For
these
reasons,
we
propose
not
to
list
this
waste
category
as
hazardous.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determination
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposal.
(2)
Ammonia
recycle
cartridge
and
spent
carbon
filters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Five
facilities
reported
generating
73
MT/
year
of
filter
media
and
waste
solids
in
1998
from
the
removal
of
organonitrile
polymers
from
the
ammonia
recycle
stream.
The
management
methods
reported
by
the
industry
were
off
site
municipal
Subtitle
D
landfill,
off
site
industrial
Subtitle
D
landfill,
on
site
Subtitle
C
incineration,
and
on
site
Subtitle
C
landfill.
What
Management
Scenarios
Were
Assessed?
We
conducted
risk
assessment
modeling
for
off
site
disposal
in
both
a
municipal
and
an
industrial
landfill,
using
only
those
two
waste
volumes
reported
to
be
managed
in
off
site
Subtitle
D
landfills;
volumes
managed
as
hazardous
wastes
were
not
included
in
this
array.
No
significant
volatile
constituents
were
detected
in
this
waste
(only
non
volatile
metals
were
detected;
see
following
section),
thus
volatilization
from
landfills
to
the
air
was
not
a
pathway
of
concern.
We
did
not
conduct
risk
assessment
of
the
voluntary
Subtitle
C
landfill
and
incineration
practices
because
we
assumed
that
listing
would
not
significantly
increase
regulatory
control
for
these
wastes.
Note
that
these
on
site
captive
units
have
sufficient
capacity
and
flexibility
to
accept
these
relatively
small
volume
non
hazardous
wastes.
How
Was
This
Waste
Category
Characterized?
Two
samples
were
collected
at
different
facilities.
We
sampled
again
at
both
facilities
because
of
problems
with
the
cyanide
analyses
for
the
first
set
of
analyses
and
elevated
detection
limits
for
certain
metals
in
the
Tennessee
sample.
Due
to
the
schedule
constraints
of
this
determination,
we
initiated
the
risk
analyses
using
the
first
round
of
samples.
The
risk
analysis
and
second
round
of
sampling
and
analysis
were
conducted
in
parallel.
HBLs
are
shown
in
Table
III±
12.
TABLE
III±
12.Ð
CHARACTERIZATION
OF
AMMONIA
RECYCLE
FILTERS
[mg/
L]
Parameter
RH±
1±
HC±
05
(1st
data
set)
RH±
2±
HC±
05
(2nd
data
set)
DM±
1±
HC±
04
(1st
data
set)
DM±
02±
HC±
04
(2nd
data
set)
HBL
TCLP
SPLP
TCLP
SPLP
TCLP
SPLP
TCLP
SPLP
Antimony
......................................
1
0.55
J
0.59
<0.5
0.237
<0.5
<0.5
0.8
0.08
0.006
Arsenic
.........................................
2
0.045
L
0.039
<0.5
0.0137
<0.5
<0.05
<0.5
0.0112
0.0007
Nickel
...........................................
0.50
J
0.61
<0.2
0.303
<0.2
0.0654
<0.2
0.0178
0.31
Total
CN
................................
N/
A
2.4
L
0.230
0.243
0.218
0.187
L
3
0.222
0.303
4
0.31
1
J:
Estimated
result,
due
to
poor
field
duplication.
2
L:
Qualified
result
with
a
low
bias
for
positive
result.
3
Average
of
duplicate
sample
results.
4
HBL
for
hydrogen
cyanide.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
We
assessed
the
off
site
landfill
scenario
for
the
ammonia
recycle
filter
cartridges,
reflecting
the
types
of
management
reported
for
this
waste.
We
assessed
the
groundwater
ingestion
pathway
for
these
landfills.
Our
model
inputs
included
different
hydrogeologic
settings
reflecting
the
two
regions
where
the
wastes
are
reported
to
be
managed.
As
noted
in
section
III.
C.,
we
used
the
TCLP
results
for
the
municipal
landfill
scenario
and
the
SPLP
for
the
industrial
landfill
scenario.
As
described
above,
we
had
some
initial
concerns
about
our
analytical
data
and
determined
that
re
analysis
would
serve
to
demonstrate
the
validity
of
these
data.
Due
to
the
time
constraints
of
this
listing
determination,
we
could
not
delay
the
risk
assessment
modeling
until
the
validated
results
of
the
second
round
of
analyses
became
available,
and
thus
used
the
first
round
of
samples
for
the
Texas
facility
as
model
input.
Subsequently,
having
reviewed
all
the
analytical
data,
we
believe
that
the
modeled
data
set
appropriately
characterizes
the
risks
of
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Federal
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
all
constituents
included
in
the
first
sampling
round,
and
that
re
running
the
model
with
the
second
round
of
analytical
data
would
not
increase
the
predicted
risk.
The
only
additional
constituent
of
concern
found
in
the
second
analysis
was
cadmium.
We
modeled
this
constituent
using
the
same
two
scenarios
and
found
no
significant
risk.
What
is
EPA's
Listing
Rationale
for
This
Waste?
The
results
of
our
probabilistic
risk
assessment
are
provided
in
Table
III±
13
below
(we
also
completed
deterministic
risk
modeling
and
the
results
were
comparable;
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
for
details).
At
the
90th
and
95th
percentile
cumulative
risk
level,
we
found
no
cancer
risk
in
excess
of
1E±
07,
nor
did
we
find
any
hazard
quotients
that
exceeded
one.
As
a
matter
of
policy,
we
generally
do
not
consider
listing
wastes
with
predicted
cancer
risks
of
less
than
1E±
06
or
hazard
quotients
of
less
than
1.0.
We
see
no
special
concerns
warranting
an
exception
to
this
policy.
Based
on
these
results
we
conclude
that
this
waste
does
not
pose
risk
to
human
health
and
the
environment
at
levels
that
warrant
listing.
We
therefore
are
proposing
not
to
list
ammonia
recycle
filters
from
inorganic
hydrogen
cyanide
production.
TABLE
III±
13.Ð
GROUNDWATER
RISK
RESULTS
FOR
AMMONIA
RECYCLE
FILTERS
1
Percentile
Antimony
Arsenic
Cadmium
Adult
HQ
Child
HQ
Adult
cancer
risk
Child
cancer
risk
Adult
HQ
Child
HQ
Industrial
Landfill:
90th
...........................................................................
7.9E±
02
1.6E±
01
3.8E±
08
2.8E±
08
3.6E±
04
7.7E±
04
95th
...........................................................................
1.9E±
01
3.9E±
01
1.6E±
07
1.2E±
07
1.6E±
03
3.4E±
03
Municipal
Landfill:
90th
...........................................................................
8.7E±
02
1.8E±
01
3.9E±
08
3.1E±
08
4.0E±
04
8.5E±
04
95th
...........................................................................
2.0E±
01
4.2E±
01
1.8E±
07
1.3E±
07
1.7E±
03
3.7E±
03
1
Modeling
for
two
other
constituents
(nickel
and
cyanide)
yielded
HQs
that
were
extremely
small
(<
1E±
16)
even
at
the
95th%.
(3)
Biological
wastewater
treatment
solids.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Four
facilities
reported
a
total
volume
of
45,397
MT/
year
for
this
waste.
The
management
methods
reported
are
offsite
municipal
and
industrial
Subtitle
D
landfills,
on
site
Subtitle
C
landfill,
and
off
site
use
as
agricultural
liming
agent
(volume
not
reported).
What
Management
Scenarios
Were
Assessed?
We
evaluated
the
Subtitle
D
landfill
and
the
agricultural
liming
agent
scenario
reflecting
the
reported
management
practices.
We
assessed
the
landfill
scenario
using
our
TCLP
and
SPLP
results
for
the
wastes
reported
managed
in
such
landfills.
We
assessed
the
agricultural
use
scenario
by
comparing
total
constituent
concentrations
to
the
soil
screening
levels
(see
section
III.
C.
3).
How
Was
This
Waste
Category
Characterized?
We
collected
two
samples
of
this
waste
at
two
different
facilities.
We
conducted
total
and
leaching
analyses
of
these
samples.
To
evaluate
the
industrial
landfill
disposal
scenario
we
compared
the
SPLP
leaching
results
to
constituent
HBLs,
and
for
the
municipal
landfill
scenario
we
compared
TCLP
leaching
results
to
the
HBLs.
In
all
cases
the
SPLP
and
TCLP
levels
corresponding
to
the
management
practice
were
below
the
HBLs.
For
the
agricultural
liming
scenario,
we
compared
the
total
concentrations
in
the
waste
to
the
soil
screening
levels;
no
constituents
exceeded
these
screening
levels,
i.
e.,
all
constituents
were
below
background
or
direct
soil
ingestion
levels.
The
full
analyses
are
summarized
in
the
``
Inorganic
Hydrogen
Cyanide
Listing
Background
Document
for
the
Inorganic
Chemicals
Listing
Determination''
and
the
analytical
results
are
reported
in
detail
in
the
Waste
Characterization
Reports
for
this
sector;
these
documents
are
available
in
the
docket
for
today's
proposal.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste
as
hazardous
because
the
levels
of
toxicant
constituents
found
in
the
waste
are
below
the
levels
of
concern.
(4)
Feed
gas
cartridge
and
spent
carbon
filters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Nine
facilities
reported
a
total
volume
of
9.7
MT/
year
for
this
waste.
The
management
methods
reported
are
offsite
manufacturer
refurbishing
for
reuse,
off
site
municipal
D
landfill,
off
site
industrial
D
landfill,
and
on
site
C
hazardous
landfill.
The
facility
using
the
hazardous
C
landfill
for
disposal
of
the
filters
is
managing
the
filters
as
nonhazardous
waste
in
a
captive
on
site
C
landfill.
What
Management
Scenarios
Were
Assessed?
We
assessed
the
municipal
and
industrial
Subtitle
D
landfill
scenarios
using
our
TCLP
and
SPLP
results,
respectively.
No
volatile
constituents
were
detected
in
this
waste
(only
nonvolatile
metals
were
detected;
see
following
section),
thus
volatilization
from
landfills
to
the
air
was
not
a
pathway
of
concern.
We
did
not
assess
the
voluntary
Subtitle
C
landfill
scenario
because
we
assumed
that
listing
would
not
significantly
increase
regulatory
control.
Note
that
the
on
site
unit
has
sufficient
capacity
to
continue
to
accept
this
small
volume
waste.
How
Was
This
Waste
Category
Characterized?
We
collected
one
sample
of
this
waste.
The
analytical
results
showed
that
SPLP
levels
for
all
constituents
are
below
drinking
water
HBLs.
The
TCLP
results
showed
levels
that
exceeded
HBLs
for
the
constituents
summarized
below
in
Table
III±
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Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
III±
14.Ð
CHARACTERIZATION
OF
FEED
GAS
FILTERS
FROM
INORGANIC
HCN
PRODUCTION
[mg/
kg
or
mg/
L]
Constituent
Total
TCLP
SPLP
HBL
Boron
...............................................................................................................................
17,900
7.4
<0.5
1.4
Lead
.................................................................................................................................
18.5
1
0.03
1
0.003
0.015
Nickel
...............................................................................................................................
91.0
0.4
<0.05
0.31
Zinc
..................................................................................................................................
1,060
13
<0.5
5
1
Results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection
limits.
Split
sample
results
provided
by
the
facility
were
comparable.
We
did
not
find
cyanide
in
these
wastes.
The
full
analytical
results
are
summarized
in
the
``
Inorganic
Hydrogen
Cyanide
Listing
Background
Document
for
the
Inorganic
Chemicals
Listing
Determination''
and
are
reported
in
detail
in
the
Waste
Characterization
Reports
for
this
sector;
these
documents
are
available
in
the
docket
for
today's
proposal.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
We
assessed
the
groundwater
ingestion
pathway
for
the
off
site
landfill
scenario
for
this
waste,
reflecting
the
types
of
management
reported.
As
noted
in
section
III.
E.,
we
used
the
TCLP
results
for
the
municipal
landfill
scenario
and
the
SPLP
for
the
industrial
landfill
scenario.
We
found
that
the
industrial
Subtitle
D
landfill
scenario
screened
out
because
all
constituents
in
the
SPLP
analysis
were
below
their
respective
HBLs.
The
constituents
of
concern
that
exceeded
their
respective
HBLs
in
the
TCLP
results
were
boron,
lead,
nickel,
and
zinc.
We
evaluated
these
constituents
using
the
de
minimis
volume
screening
analysis,
as
described
in
section
III.
E.
3
of
today's
proposal.
The
analysis
suggests
that
lead,
nickel
and
zinc
are
not
of
concern.
We
modeled
the
remaining
constituent,
boron,
using
our
standard
groundwater
model
for
the
municipal
landfill
scenario.
We
modeled
the
municipal
landfill
scenario,
using
a
hydrogeologic
setting
reflecting
the
region
where
the
waste
was
reported
to
be
managed.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
As
noted
above,
the
industrial
landfill
scenario
screened
out.
For
the
municipal
landfill
scenario,
the
results
in
Table
III±
15
show
that
the
HQs
are
well
below
one
at
both
the
90th
and
95th%
for
the
constituent
of
concern.
Thus,
our
risk
assessment
results
suggest
that
the
only
constituent
of
concern
that
required
modeling
(boron)
does
not
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes'
in
the
docket.
Thus,
we
propose
not
to
list
this
waste
as
hazardous.
TABLE
III±
15.Ð
GROUNDWATER
RISK
RESULTS
FOR
FEED
GAS
FILTERS
FOR
BORON
Percentile
Adult
HQ
Child
HQ
90th
.......................................
0.007
0.01
95th
.......................................
0.01
0.05
(5)
Process
air
cartridge
filters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Eight
facilities
reported
a
total
volume
of
7.5
MT/
year
for
this
waste.
The
management
methods
reported
are
offsite
industrial
D
landfill,
off
site
manufacturer
refurbishing
for
reuse,
offsite
municipal
D
landfill,
and
on
site
industrial
D
landfill.
Most
facilities
reported
the
practice
of
filtering
the
air
that
they
feed
to
the
reactors.
Very
small
volumes
of
spent
filters
are
generated
periodically.
We
did
not
assess
these
wastes
beyond
the
characterization
provided
in
the
RCRA
Section
3007
Survey
results
because
no
wastes
were
available
to
sample
when
we
conducted
our
sampling.
The
level
of
toxic
constituents
is
expected
to
be
low
because
the
filters
are
only
used
to
remove
airborne
solids
from
the
ambient
air
used
in
the
process.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste
as
hazardous
because
we
do
not
believe
that
the
level
of
any
toxic
constituents
in
these
small
waste
volumes
would
exceed
levels
of
concern
that
would
pose
a
risk
based
on
management
in
Subtitle
D
landfills.
(6)
Acid
spray
cartridge
filters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
One
facility
reported
a
total
volume
of
1.1
MT/
year
for
this
waste.
The
management
method
reported
was
onsite
Subtitle
C
disposal
as
a
nonhazardous
waste.
The
cartridge
type
filter
elements
are
used
in
the
process
to
prevent
clogging
of
spray
nozzles
used
to
inject
the
hydrogen
cyanide
intermediate
product
into
the
HCN
stripper.
The
filters
remove
process
particulates,
including
rust,
from
the
hydrogen
cyanide
intermediate
product.
The
waste
is
generated
when
the
spent
filter
elements
are
replaced
weekly.
While
this
waste
is
classified
as
nonhazardous,
the
generator
disposes
of
it
in
the
facility's
on
site
Subtitle
C
landfill.
How
Was
This
Waste
Category
Characterized?
No
sample
of
this
waste
was
collected
because
of
unavailability
during
the
sampling
time
frame
and
because
the
level
of
toxic
constituents
is
expected
to
be
low.
The
filters
are
used
to
remove
inert
impurities
such
as
pipe
scale.
The
facility
washes
the
filters
prior
to
removal
of
the
filters
from
the
process.
We
expect
that
any
hydrogen
cyanide
contamination
is
removed
during
this
washing.
The
facility
reported
in
its
RCRA
Section
3007
Survey
that
the
waste
contains
a
total
concentration
of
cyanide
of
one
ppm.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste
as
hazardous
because
the
level
of
toxic
constituents
found
in
this
waste
are
expected
to
be
below
levels
of
concern.
While
we
do
not
have
any
leaching
test
data,
we
can
conservatively
estimate
that
any
leachable
level
of
cyanide
would
be
at
least
20
fold
less
than
the
1
ppm
total
level
reported,
i.
e,
less
than
0.05
mg/
L.
This
is
well
below
the
HBL
for
amenable
cyanide
(0.3
mg/
L).
Furthermore,
this
small
volume
waste
is
already
managed
in
a
Subtitle
C
landfill.
(7)
Spent
catalyst.
All
ten
facilities
reported
generation
of
this
waste,
with
a
combined
total
volume
of
4.1
MT/
year.
The
management
method
reported
was
off
site
metals
reclamation
or
regeneration.
These
catalysts
gradually
lose
their
effectiveness
over
time
and
are
periodically
reclaimed.
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to
the
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/
Vol.
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179
/
Thursday,
September
14,
2000
/
Proposed
Rules
39
Note
that
the
SPLP/
HBL
groundwater
screen
for
this
scenario
is
likely
to
be
a
worse
case
screening,
because
the
fertilizer
application
scenario
isn
ot
analogous
to
a
landfill
scenario,
particularly
with
respect
to
application
rates.
high
value
of
these
precious
metal
materials,
generators
maintain
close
control
over
these
materials.
The
spent
material
is
an
impermeable
metal
gauze
that
undergoes
thorough
cleaning
and
decontamination
to
eliminate
cyanide
concentrations
prior
to
removal
from
the
reactor.
We
have
chosen
not
to
evaluate
these
materials
further
because
management
practices
for
these
materials
prior
to
reuse
minimize
the
potential
for
environmental
releases.
Therefore,
we
propose
not
to
list
this
waste
as
hazardous
because
there
are
no
significant
known
exposure
pathways
that
would
present
risk.
(8)
Ammonium
sulfate
and
ammonium
phosphate.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Three
facilities
reported
a
total
volume
of
27,425
MT/
year
for
this
waste.
The
management
method
reported
was
off
site
use
as
fertilizer.
What
Management
Scenarios
Were
Assessed?
We
assessed
the
agricultural
end
use
of
this
waste
by
comparing
the
total
constituent
results
to
the
soil
screening
levels.
In
this
case
we
evaluated
the
material,
because
it
is
land
applied.
How
Was
This
Waste
Category
Characterized?
One
sample
of
this
by
product
was
collected
from
the
Alabama
site.
The
analytical
data
results
show
that
the
detected
constituents
of
concern
in
the
total
analyses
are
below
the
soil
screening
levels.
In
addition,
we
compared
the
SPLP
leaching
results
to
the
HBLs
as
a
screen
of
potential
groundwater
exposure.
39
The
detected
SPLP
results
are
below
the
HBLs.
The
analytical
results
showing
the
level
of
toxic
constituents
are
included
in
the
``
Inorganic
Hydrogen
Cyanide
Listing
Background
Document
for
the
Inorganic
Chemicals
Listing
Determination.
''
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste
as
hazardous
because
the
levels
of
toxic
constituents
found
in
the
waste
are
below
levels
of
concern.
(9)
Miscellaneous
wastewaters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Four
facilities
reported
a
total
volume
of
209,000
MT/
year
for
this
waste
category;
the
total
volume
represents
twenty
two
different
miscellaneous
wastestreams
that
are
generated
on
an
intermittent
or
periodic
basis.
The
management
method
reported
was
commingling
with
other
major
process
wastewater
streams
described
above
as
the
``
commingled
wastewaters''
category.
What
Management
Scenarios
Were
Assessed?
We
did
not
assess
these
numerous
wastewater
streams
individually.
The
wastewaters
were
assessed
indirectly
within
the
commingled
wastewater
category
discussed
earlier.
The
volume
and
constituents
represented
by
these
miscellaneous
wastewaters
are
represented
in
the
total
commingled
major
and
miscellaneous
wastewater
streams.
How
Was
This
Waste
Category
Characterized?
We
did
not
collect
samples
of
these
miscellaneous
wastewater
streams.
The
levels
of
toxic
contaminants
in
these
wastewaters
are
reflected
in
the
contaminant
concentrations
of
the
total
commingled
wastewater
streams
at
each
facility.
See
the
commingled
wastewater
category
discussed
earlier
in
this
section
for
a
discussion
on
how
the
commingled
major
and
miscellaneous
wastewater
streams
were
characterized.
Two
of
the
miscellaneous
wastewaters
were
reported
to
contain
potentially
high
concentrations
of
hydrogen
cyanide
when
generated.
What
Is
EPA's
Listing
Rationale
for
This
Waste
Category?
We
propose
not
to
list
this
waste
category
as
hazardous.
There
is
no
direct
exposure
pathway
into
the
environment
from
these
individual
wastes,
because
they
are
treated
and
commingled
with
the
other
wastewaters
generated
at
each
facility.
Although
high
concentrations
of
hydrogen
cyanide
in
the
wastewaters
are
possible
for
some
of
these
wastes,
the
risk
is
reduced
by
the
high
dilution
that
occurs
when
these
wastewaters
are
mixed
with
other
large
volume
wastewaters
in
the
facility
wide
wastewater
collection
system.
These
miscellaneous
wastewaters
are
generated
intermittently
and
infrequently.
Thus,
any
potential
releases
from
land
based
management
of
the
wastes
after
dilution
in
with
other
wastewaters
would
be
short
lived,
and
unlikely
to
result
in
any
significant
long
term
risk.
In
addition,
the
hydrogen
cyanide
contaminant
is
readily
and
rapidly
treated
in
the
wastewater
treatment
systems,
so
that
any
risk
is
minimized.
For
example,
the
tank
farm
scrubber
water
from
the
Tennessee
facility
is
treated
through
oxychlorination,
which
rapidly
destroys
the
hydrogen
cyanide.
As
noted
earlier,
potential
hydrogen
cyanide
releases
via
the
air
pathway
would
be
covered
by
the
Hydrogen
Cyanide
MACT
rule.
(10)
HCN
polymer
and
HCN
sump
wastes.
One
facility
reported
a
total
volume
of
0.7
MT/
year
(0.3
MT/
yr
polymer
and
0.4
MT/
year
sump
wastes)
for
these
two
wastes.
The
physical
description
of
the
wastes
was
reported
as
dirt,
debris
and
inert
polymer
solids.
The
wastes
are
disposed
of
in
an
off
site
industrial
Subtitle
D
landfill.
Very
small
volumes
of
these
wastes
are
generated
periodically.
We
did
not
assess
these
wastes
beyond
the
characterization
provided
in
the
RCRA
Section
3007
Survey
results
because
of
the
unavailability
under
the
sample
schedule
and
because
of
the
low
concentrations
of
toxic
constituents
expected
to
be
present
in
this
waste.
In
the
RCRA
Section
3007
Survey,
the
one
generator
reported
that
total
levels
of
cyanide
were
50
mg/
kg
for
the
HCN
polymer
and
5
mg/
kg
for
the
sump
wastes.
These
levels
are
unlikely
to
pose
a
risk
in
a
landfill
scenario
for
these
very
small
waste
volumes.
In
support
of
this,
we
note
here,
as
we
did
above
for
the
acid
spray
filter
cartridge
waste
category,
leaching
test
results
would
be
at
least
20
fold
less
than
the
total
levels.
This
would
mean
any
leaching
from
sump
waste
would
be
below
the
HBL
for
cyanide.
While
this
20
fold
factor
would
leave
the
HCN
polymer
somewhat
above
the
HBL
at
2.5
ppm
cyanide,
we
note
that
groundwater
modeling
for
cyanide
for
the
ammonia
recycle
filters
indicates
similar
levels
of
cyanide
in
a
larger
waste
volume
presents
very
low
levels
of
risk
in
a
landfill
scenario.
Therefore,
we
propose
not
to
list
HCN
polymer
and
HCN
sump
wastes.
(11)
Sludge
from
wastewater
collection
tank.
One
facility
reported
a
volume
of
2.1
MT
over
a
seven
year
period,
or
approximately
0.3
MT/
year
for
this
waste.
The
waste
was
coded
as
hazardous
(D001),
stabilized
on
site
and
disposed
of
in
an
off
site
Subtitle
C
landfill.
The
waste
is
generated
approximately
every
ten
years;
the
volume
reported
was
for
1993
with
no
generation
of
that
waste
since
that
date.
This
waste
results
from
sedimentation
in
a
wastewater
collection
tank.
HCN
wastewaters
managed
in
this
tank
only
account
for
ten
percent
of
throughput;
the
sediment
thus
is
only
marginally
associated
with
HCN
production.
One
other
facility
reported
generating
1.8
MT
of
this
waste,
and
also
codes
it
as
characteristically
hazardous
waste
(in
this
case
as
D018
for
benzene).
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Vol.
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/
Thursday,
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14,
2000
/
Proposed
Rules
second
facility
sends
the
waste
off
site
to
a
Subtitle
C
incinerator;
the
facility
reported
that
the
benzene
was
derived
from
other
on
site
processes.
We
propose
not
to
list
these
wastes
because
they
are
very
small
volume
wastes
that
are
already
managed
as
characteristically
hazardous
wastes
in
full
compliance
with
the
Subtitle
C
regulations.
In
addition,
the
wastes
are
generated
from
the
treatment
of
predominantly
non
HCN
wastewater
from
unrelated
petrochemical
processes
at
the
facilities.
(12)
HCN
storage
tank
solids.
One
facility
reported
a
volume
of
0.3
MT/
year
for
this
waste.
During
periodic
shutdowns
of
this
product
tank
for
cleaning,
solids
are
removed
after
rigorous
washing
of
the
tank
interior
to
remove
soluble
cyanide.
The
waste
consists
of
polymer
and
tank
scale.
The
waste
is
disposed
of
in
an
off
site
municipal
Subtitle
D
landfill.
A
sample
of
this
waste
was
not
collected
because
of
unavailability
during
the
sampling
time
frame.
However,
the
waste
description
provided
by
the
facility
indicates
the
waste
is
similar
in
composition
to
the
ammonia
recycle
filters,
which
we
have
proposed
not
to
list.
Given
the
much
smaller
volume
here,
this
waste
is
not
expected
to
present
significant
risk.
Therefore,
we
are
proposing
not
to
list
this
waste
as
hazardous.
(13)
Wastewater
filters.
One
facility
reported
a
volume
of
450
MT/
year
for
this
waste.
The
waste
is
managed
in
a
captive,
off
site
Subtitle
C
incinerator
as
characteristically
hazardous
waste.
The
waste
is
spent
filters
from
the
filtration
of
commingled
wastewaters
from
various
on
site
processes
prior
to
on
site
deepwell
injection
and
is
generated
periodically.
A
sample
of
this
waste
was
not
available
during
the
sampling
time
frame.
However,
the
one
generator
reported
that
the
waste
is
characteristically
hazardous
due
to
benzene,
and
the
facility
manages
the
waste
as
D018.
The
source
of
the
benzene
is
the
waste
from
other
nonHCN
process
wastewaters
at
the
facility.
We
propose
not
to
list
this
waste
because
it
is
already
managed
as
a
hazardous
waste
in
accordance
with
Subtitle
C
regulations.
(14)
Ammonium
sulfate
filters.
One
facility
reported
a
volume
of
1.1
MT/
year
for
this
waste.
The
waste
is
managed
in
an
off
site
industrial
landfill.
The
waste
is
generated
periodically.
We
did
not
assess
this
waste
beyond
the
characterization
provided
in
the
RCRA
Section
3007
Survey
results
because
of
the
unavailability
of
samples
under
the
sample
schedule.
However,
the
facility
reported
concentrations
of
cyanide
(1
mg/
kg)
and
ammonium
sulfate
(5,000
mg/
kg).
This
concentration
of
cyanide
is
considered
to
be
very
small
and
is
not
expected
to
be
of
concern
(see
discussion
of
cyanide
for
acid
spray
cartridge
filters).
In
addition,
we
collected
a
sample
of
the
ammonium
sulfate
by
product
(i.
e.,
the
material
being
filtered
to
generate
this
waste)
and
did
not
find
any
constituents
of
concern.
See
discussions
for
ammonium
sulfate
and
ammonium
phosphate.
Therefore,
we
propose
not
to
list
this
waste
as
hazardous
because
we
do
not
believe
that
there
are
any
significant
levels
of
toxic
constituents
in
the
waste.
(15)
Spent
ammonium
phosphate.
One
facility
reported
a
volume
of
230
MT/
year
for
this
waste.
The
waste
is
reused
on
site
as
a
nutrient
source
in
the
biological
treatment
unit
or
incinerated
on
site
in
a
nonhazardous
waste
incinerator.
The
waste
is
generated
in
batches
one
or
two
times
per
year.
The
waste
is
generated
from
the
scrubbing
of
the
reactor
off
gas
stream
using
aqueous
monoammonium
phosphate
solution
in
the
ammonia
recovery
process.
The
resulting
diammonium
phosphate
solution
is
then
purified
to
recover
the
ammonia
and
the
resulting
spent
ammonium
phosphate
solution
is
stored
in
tanks
prior
to
final
management.
We
did
not
assess
this
waste
beyond
the
characterization
provided
in
the
§
3007
Survey
results
because
of
the
unavailability
of
samples
under
the
sample
schedule;
the
characterization
indicates
the
presence
of
organonitrile
compounds
in
the
waste.
However,
the
preferred
management
method
is
to
reuse
the
waste
as
a
nutrient
source
in
the
biotreatment
system,
with
incineration
only
when
this
is
not
possible
due
to
the
solution
becoming
spent
or
when
the
concentrations
of
phosphate
and
ammonia
are
incompatible
with
the
wastewater
treatment
system.
We
believe
the
levels
of
organonitrile
compounds
do
not
pose
a
risk
under
either
management
scenario.
The
wastewater
treatment
scenario
results
in
the
destruction
of
the
compounds
via
biodegradation
and
the
incineration
scenario
would
also
result
in
destruction
of
the
volatile
organonitriles.
Additionally,
emissions
from
the
on
site
incinerator
would
be
regulated
under
the
Hydrogen
Cyanide
MACT
standards
which
will
be
proposed
in
2000.
Therefore,
we
propose
not
to
list
this
waste
as
hazardous.
(16)
Organic
layer
from
wastewater
collection
tank.
One
facility
reported
a
volume
of
43.3
MT/
year
for
this
waste.
The
waste
is
coded
as
D001
and
sent
offsite
Subtitle
C
incineration.
This
waste
is
generated
approximately
every
ten
years;
the
volume
reported
was
for
1993
with
no
generation
of
the
waste
since
that
date.
Thus,
on
an
annualized
basis
the
waste
quantity
generated
would
be
approximately
4
MT/
yr.
We
did
not
assess
these
wastes
beyond
the
characterization
provided
in
the
RCRA
Section
3007
Survey
results
because
of
the
unavailability
of
samples
under
the
sample
schedule.
We
propose
not
to
list
this
waste
as
hazardous
because
the
waste
is
managed
as
characteristically
hazardous
in
accordance
with
all
applicable
Subtitle
C
standards,
which
adequately
protect
against
mismanagement.
Further,
the
waste
is
generated
from
the
treatment
of
predominantly
non
HCN
wastewater
from
other
unrelated
petrochemical
processes
at
the
facility.
Only
ten
percent
of
the
wastewater
throughput
in
the
tank
generating
this
waste
is
associated
with
HCN
production;
the
percentage
contribution
from
the
HCN
process
to
this
oily
layer
is
likely
to
be
much
lower,
because
other
petrochemical
processes
on
site
are
likely
sources
of
the
organic
material.
6.
Phenyl
Mercuric
Acetate
a.
Summary.
We
propose
not
to
list
any
wastes
from
the
production
of
phenyl
mercuric
acetate
(PMA)
as
hazardous
under
Subtitle
C
of
RCRA.
PMA
currently
is
not
manufactured
in
the
United
States,
and
it
is
extremely
unlikely
that
it
will
be
manufactured
in
the
United
States
in
the
future.
Therefore,
there
are
no
wastes
being
generated
that
could
be
subject
to
a
listing
determination.
b.
Description
of
the
phenyl
mercuric
acetate
industry.
PMA
(C8H8Hg
O2)
is
an
organic
mercury
compound,
a
white
to
creamy
white
odorless
crystalline
powder
or
clear
solution.
Prior
to
1990
it
was
the
predominant
fungicide
used
in
the
latex
paint
industry.
In
1990,
EPA
banned
the
use
of
PMA
in
interior
paint
(55
FR
26754,
June
29,
1990)
and
subsequently,
the
paint
industry
ceased
using
PMA
in
paint
production.
PMA
is
still
used
for
other
limited
purposes
(e.
g.,
slimicide
in
paper
mills;
selective
herbicide
for
crabgrass;
fungicide
for
diseases
of
turf
on
golf
greens
and
tees;
fungicidal
seed
dressing
for
seed
and
soil
borne
diseases
of
cereals,
sorghum,
and
groundnuts).
Based
on
our
research
and
the
results
of
our
RCRA
Section
3007
Survey,
we
conclude
that
there
is
no
domestic
production
of
PMA.
Any
domestic
demand
is
met
by
imports
from
other
countries.
See
the
``
Phenyl
Mercuric
Acetate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
details.
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/
Thursday,
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14,
2000
/
Proposed
Rules
40
One
facility
has
shut
down
their
phosphoric
acid
process
and
reported
few
wastes
generated
in
1998.
This
facility's
wastes
therefore
are
not
included
in
the
following
overview,
but
were
evaluated
to
determine
their
potential
threat
to
human
health
or
the
environment.
The
details
of
this
facility's
waste
generation
and
management
practices
are
included
in
the
``
Phosphoric
Acid
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''.
c.
Agency
evaluation.
PMA
is
not
produced
within
the
United
States
and
is
not
widely
used
in
domestic
manufacturing
processes.
Therefore,
we
have
no
reason
to
believe
that
wastes
from
the
production
of
PMA
are
generated
within
the
U.
S.
Given
the
compound's
limited
market
within
the
U.
S.,
it
is
highly
unlikely
that
new
production
of
PMA
will
occur
within
the
U.
S.
in
the
future.
As
a
result
of
these
market
conditions,
there
are
no
wastes
that
can
be
assessed
for
this
sector.
Therefore,
we
propose
not
to
list
any
PMA
production
wastes
as
hazardous.
7.
Phosphoric
Acid
From
the
Dry
Process
a.
Summary.
We
have
evaluated
the
wastes
from
the
production
of
phosphoric
acid
manufactured
via
the
dry
process,
and
propose
not
to
list
any
wastes
from
this
process
as
hazardous
wastes.
These
wastestreams
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
wastes
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
threat
to
human
health
or
the
environment.
We
have
identified
no
risks
of
concern
associated
with
the
current
management
of
these
wastes.
b.
Description
of
the
phosphoric
acid
industry.
Phosphoric
acid
was
produced
by
the
dry
process
by
eight
facilities
in
the
United
States
in
1998.
The
majority
of
phosphoric
acid
is
consumed
in
the
manufacture
of
phosphate
salts.
These
phosphorus
containing
compounds
are
used
in
detergents,
animal
feed
supplements,
dentifrices,
fertilizers,
metal
treating,
water
softening,
leavening
agents,
and
flame
and
fire
retardants.
In
the
dry
process,
elemental
phosphorous
is
burned
in
excess
air
generating
phosphorous
pentoxide
(P2O5).
The
resulting
phosphorus
pentoxide
is
hydrated
with
a
spray
of
recycled
phosphoric
acid
and
water,
forming
phosphoric
acid
that
is
collected
as
product.
Scrubbers
are
employed
for
the
hydrator
off
gases
to
absorb
as
much
phosphoric
acid
mist
as
possible
from
the
excess
air.
The
strong
phosphoric
acid
stream
from
the
hydrator
is
purified
with
hydrogen
sulfide
to
precipitate
out
arsenic
trisulfide.
This
sludge
is
removed
by
filtration.
In
some
cases,
offspecification
product
is
filtered
and
recycled
into
the
process.
The
product
may
also
be
filtered
after
it
leaves
the
storage
tank
and
prior
to
loading
in
truck
and
railcars.
c.
Description
of
wastes
generated
by
the
phosphoric
acid
process.
We
have
identified
fourteen
waste
categories
from
the
production
of
phosphoric
acid
(via
the
dry
process)
that
required
assessment.
These
waste
categories
are
described
briefly
and
in
more
detail
in
the
following
subsections.
40
ÐArsenic
filter
cake
is
the
result
of
filtering
the
phosphoric
acid
after
the
addition
of
sodium
hydrosulfide
or
hydrogen
sulfide
gas
and
a
filter
aid.
The
precipitate
consists
of
arsenic
trisulfide
and
other
heavy
metal
sulfides
which
are
essentially
insoluble
in
strong
acid.
ÐCombustion
chamber
slag
(infrequently
generated)
is
the
result
of
residue
buildup
on
the
walls
of
the
chamber.
ÐOff
specification
phosphoric
acid
is
generated
when
the
product
does
not
meet
color
or
concentration
specifications.
ÐSpent
filters
(from
purification)
are
generated
from
the
units
that
are
used
to
remove
arsenic
from
the
phosphoric
acid.
ÐCaustic
scrubber
water
is
generated
when
air
used
to
remove
hydrogen
sulfide
gas
at
the
acid
purification
step
is
scrubbed.
This
scrubbing
operation
controls
odor
and
acid
mist
before
the
air
is
discharged
to
the
atmosphere.
ÐPhosphoric
acid
spills
occur
around
the
process
or
storage
tanks
area.
These
materials
are
collected
in
contained
areas
and
pumped
to
management
units.
ÐClean
up
and
washdown
water
from
across
the
units
is
collected
in
a
sump
and
discharged
to
the
wastewater
treatment
system.
ÐProcess
acid
leaks
occur
when
piping
and
coupling
break,
or
during
equipment
maintenance.
These
materials
are
collected
in
contained
areas
and
pumped
to
management
units.
ÐSpent
mist
eliminator
packing
(filters)
are
used
in
the
scrubber
system
to
remove
gas
and
acid
particulates
from
the
phosphoric
acid.
The
filter
packing
material
is
reported
to
consist
of
polyester
fibers,
stainless
steel,
steel
wool
or
fiberglass.
The
filters
are
periodically
replaced
and
the
spent
packing
is
washed
prior
to
disposal.
ÐRubber
liners
of
product
storage
tanks
are
periodically
replaced.
ÐSpent
filters
for
product
are
generated
when
product
is
filtered
prior
to
loading
into
tank
cars
and
trucks
to
remove
settled
solids.
The
filters
are
changed
periodically
and
rinsed
with
water
prior
to
disposal.
ÐSpent
activated
carbon
for
offspecification
product
is
generated
when
carbon
is
used
to
remove
traces
of
contaminants
from
the
offspecification
product.
ÐSpent
filters
for
off
specification
product
is
generated
when
filters
are
used
to
remove
solids
from
the
offspecification
product.
ÐWastewater
treatment
sludges
are
generated
when
wastewaters
from
the
phosphoric
acid
and
other
processes
are
treated.
These
sludges
are
only
marginally
derived
from
phosphoric
acid
wastewaters
due
to
commingling
with
large
volumes
of
other
nonphosphoric
acid
wastewaters.
The
solids
that
are
removed
by
filtration
are
landfilled
or
sold.
Three
facilities
reported
that
they
collect
phosphoric
acid
in
air
pollution
control
devices
(i.
e.,
vent
scrubbers,
absorbers,
mist
eliminator).
Each
site
reported
that
they
then
recycle
these
acids
into
the
production
process.
This
material
is
continuously
reused
in
the
production
process.
Based
on
our
site
visits,
the
material
is
piped
from
the
generating
unit
to
the
production
process,
minimizing
the
potential
for
releases
to
the
environment
prior
to
reuse.
We
evaluated
all
wastes
generated
after
the
materials
are
reused
and
concluded
that
none
merited
listing.
Consequently,
we
do
not
believe
that
these
materials
present
significant
threats.
At
two
of
the
facilities,
the
caustic
scrubber
water,
generated
from
scrubbing
the
air
to
remove
hydrogen
sulfide
gas,
is
returned
as
makeup
solution
to
the
purification
process.
Based
on
information
from
one
of
the
facilities
and
our
site
visit,
the
material
is
piped
from
the
generating
unit
to
the
production
process,
and
there
is
no
significant
potential
for
exposure.
Also,
process
acid
leaks
are
collected
in
tanks
at
one
facility
and
piped
back
to
the
acid
process,
with
no
significant
exposure
route
for
this
material.
As
stated
above,
we
evaluated
all
wastes
generated
after
the
materials
are
reused
and
concluded
that
none
merited
listing.
Consequently,
we
do
not
believe
that
these
materials
present
significant
threats.
We
have
organized
our
discussion
of
these
wastes
in
terms
of
how
they
are
currently
managed:
characteristic
wastes,
wastewaters,
and
noncharacteristic
solid
wastes.
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Federal
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
d.
Agency
evaluation.
(1)
Characteristic
wastes.
The
RCRA
Section
3007
Surveys
show
that
a
number
of
wastes
are
managed
as
RCRA
characteristic
wastes
at
all
times.
These
wastes
are
hazardous
wastes
because
they
exhibit
the
characteristics
of
corrosivity
or
toxicity
for
arsenic.
We
believe
that
these
wastes
are
managed
according
to
the
applicable
RCRA
Subtitle
C
regulations,
including
LDR
standards.
The
LDR
restrictions
apply
prior
to
land
disposal.
Furthermore,
these
wastes
are
managed
or
disposed
in
Subtitle
C
management
units.
Table
III±
16
summarizes
our
information
regarding
the
generation
and
management
of
these
wastes.
TABLE
III±
16.Ð
CHARACTERISTIC
WASTES
FROM
PHOSPHORIC
ACID
PRODUCTION
DISPOSED
IN
SUBTITLE
C
UNITS
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Final
management
practices
Arsenic
filter
cake
...........................
7
614
D002,
D004
....................................
Subtitle
C
landfill
Combustion
chamber
slag
..............
1
0.1
D002
...............................................
Subtitle
C
incineration
Off
specification
phosphoric
acid
...
1
0.71
D002
...............................................
Subtitle
C
landfill
Spent
filters
(from
purification)
.......
2
4.6
D004
...............................................
Subtitle
C
incineration
or
Subtitle
C
landfill
We
propose
not
to
list
these
four
waste
categories
as
hazardous
wastes
under
RCRA.
All
generators
of
these
wastes
already
report
managing
these
materials
as
hazardous
from
the
point
of
generation
through
disposal,
because
they
exhibit
one
or
more
of
the
hazardous
waste
characteristics.
We
believe
that
the
rules
applying
to
characteristic
wastes
adequately
protect
against
mismanagement.
(2)
Other
characteristic
waste.
TABLE
III±
17.Ð
OTHER
CHARACTERISTIC
WASTES
FROM
THE
PRODUCTION
OF
PHOSPHORIC
ACID
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Phosphoric
acid
spills
.....................
2
2.2
D002
...............................................
(1)
Neutralized,
(2)
roll
off
bin,
(3)
Subtitle
D
landfill;
(1)
Tanks,
(2)
neutralized
in
surface
impoundment,
(3)
NPDES
We
assessed
the
specific
management
practices
employed
for
this
wastestream,
as
summarized
in
Table
III±
17,
and
determined
that
no
exposure
scenarios
of
concern
exist.
One
facility
reported
that
the
wastestream
is
managed
as
hazardous
(D002),
neutralized,
and
disposed
of
in
a
Subtitle
D
landfill.
These
product
spills
are
expected
to
be
mostly
phosphoric
acid,
which
is
hazardous
because
it
is
corrosive.
The
facility
effectively
treats
and
neutralizes
these
wastes
prior
to
disposal.
There
is
no
significant
risk
expected
from
the
disposal
of
the
small
volume
(0.5
MT/
yr)
of
treated
spills
to
the
landfill.
The
second
facility
reported
placing
the
untreated
spills
into
its
wastewater
treatment
system,
which
includes
both
tanks
and
impoundments.
Again,
we
expect
that
this
waste
presents
hazards
because
of
its
corrosivity,
not
because
it
contains
hazardous
constituents.
We
do
not
expect
releases
to
groundwater
from
tanks
because
we
assume
that
they
function
effectively.
With
regard
to
the
surface
impoundment,
we
note
that
the
facility
has
estimated
that
these
small
volume
spills
make
up
less
than
0.001%
of
the
total
wastewater
volumes.
We
expect
that
dilution
of
this
magnitude
would
effectively
treat
the
spills
rapidly.
Further,
the
facility
reported
that
the
wastewaters
in
the
impoundment
are
neutralized.
Consequently,
we
do
not
anticipate
that
any
potential
releases
from
the
surface
impoundment
would
pose
a
significant
threat
to
groundwater.
Ultimately,
the
spills
are
discharged,
along
with
the
much
larger
volume
of
wastewaters
generated
on
site,
to
surface
waters
under
a
NPDES
permit,
which
provides
effective
control
and
an
exemption
from
RCRA
regulations.
We
also
note
that
we
expect
no
release
of
constituents
of
concern
to
the
air
from
either
the
tank
or
the
impoundments,
because
the
waste
contains
no
volatile
constituents.
(3)
Wastewaters.
Wastewaters
are
generated
at
various
points
in
the
process
as
a
result
of
scrubbing
operations,
equipment
cleanup,
and
management
of
leaks
and
spills.
As
reported
by
the
facilities,
the
primary
constituents
of
concern
in
these
wastewaters
are
phosphoric
acid
and
traces
of
hydrogen
sulfide,
which
are
readily
treated
and
controlled
via
neutralization.
Phosphoric
acid,
when
neutralized,
forms
various
phosphate
salts,
none
of
which
are
known
to
pose
a
significant
risk
to
human
health
and
the
environment.
Similarly,
hydrogen
sulfide
is
neutralized
to
form
nonvolatile
salts.
All
facilities
report
that
these
wastewaters
comprise
very
small
portions
of
the
overall
wastewater
treatment
throughput,
which
contains
wastewaters
from
other
unrelated
onsite
processes.
Table
III±
18
summarizes
our
information
on
these
wastewaters.
TABLE
III±
18.Ð
WASTEWATERS
FROM
PHOSPHORIC
ACID
PRODUCTION
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Caustic
scrubber
water
.................................
1
36
none
.................
(1)
pretreatment
in
covered
tanks,
(2)
POTW
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14,
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/
Proposed
Rules
TABLE
III±
18.Ð
WASTEWATERS
FROM
PHOSPHORIC
ACID
PRODUCTIONÐ
Continued
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Cleanup
water
...............................................
1
small
volume
(volume
not
reported)
none
.................
(1)
pretreatment
in
covered
tanks,
(2)
POTW
Process
acid
leaks
........................................
1
25
1
none
.................
(1)
pretreatment
in
covered
tanks,
(2)
NPDES
1
The
25
tons
include
leaks
from
eight
processes,
of
which
one
is
phosphoric
acid
production.
The
individual
volume
of
leaks
from
phosphoric
acid
production
is
unknown.
We
have
assessed
the
management
practices
employed
for
these
wastes
and
determined
that
no
exposure
pathway
of
concern
exists.
We
believe
these
wastewaters
will
continue
to
be
managed
in
existing
tank
based
treatment
systems.
We
believe
the
manufacturers
have
made
a
considerable
investment
in
wastewater
treatment
systems
using
tanks
and
will
continue
to
use
them.
Further,
we
assumed
that
wastewater
treatment
tanks
retain
sufficient
structural
integrity
to
prevent
wastewater
releases
to
the
subsurface
(and
therefore
to
groundwater),
and
that
overflow
and
spill
controls
prevent
significant
wastewater
releases.
Thus,
based
on
the
lack
of
any
significant
likelihood
of
release
of
the
constituents
to
groundwater,
we
did
not
project
significant
risks
to
groundwater
from
these
wastes
in
the
tank
based
wastewater
treatment
scenario.
Furthermore,
discharges
to
POTWs
and
surface
waters
under
NPDES
are
regulated
under
the
Clean
Water
Act
and
are
exempt
from
RCRA
Subtitle
C
regulation
and
thus
were
not
assessed.
We
also
considered
the
possibility
of
air
releases
from
tanks.
The
only
potential
volatile
constituent
of
concern
in
these
wastes
is
hydrogen
sulfide.
The
treatment
processes
employed
are
designed
to
neutralize
this
compound,
reducing
the
potential
for
volatilization.
In
addition,
the
facilities
have
installed
tank
covers,
further
reducing
the
likelihood
of
release
to
the
air.
As
a
result,
we
did
not
model
releases
to
air
from
tanks
from
the
production
of
phosphoric
acid.
Thus,
we
propose
not
to
list
these
wastewaters
as
hazardous
wastes
under
RCRA.
(4)
Non
characteristic
solid
wastes.
The
phosphoric
acid
sector
reported
six
waste
categories
that
do
not
routinely
exhibit
any
of
the
hazardous
waste
characteristics
and
that
are
often
managed
in
Subtitle
D
landfills,
as
summarized
in
Table
III±
19:
TABLE
III±
19.Ð
NON
CHARACTERISTIC
SOLID
WASTES
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Spent
mist
eliminator
packing
.......................
5
28.4
None
.................
(1)
storage
in
containers,
(2)
treatment
to
control
acid
(washing,
neutralization,
or
off
site
stabilization
by
one
facility),
(3)
recycling
or
disposal
in
Subtitle
C
or
D
landfills
Rubber
liners
.................................................
2
19.8
None
.................
(1)
storage
in
containers,
(2)
Subtitle
C
incineration
or
neutralization
before
Subtitle
D
landfill.
Spent
filters
for
product
.................................
1
0.5
None
.................
(1)
storage
in
containers,
(2)
off
site
stabilization
(3)
Subtitle
D
landfill.
Spent
activated
carbon
for
off
specification
product.
1
1
3
None
.................
(1)
storage
in
containers,
(2)
off
site
stabilization
(3)
Subtitle
D
landfill.
Spent
filters
for
off
specification
product
.......
1
0.5
None
.................
(1)
storage
in
containers,
(2)
off
site
stabilization
(3)
Subtitle
D
landfill.
Wastewater
treatment
sludges
......................
3
2
0.005
None
.................
(1)
storage
in
containers,
(2)
Subtitle
D
landfill.
1
1996
volume;
none
generated
in
1997
or
1998.
2
Two
facilities
did
not
report
volumes
due
to
very
small
input
of
phosphoric
acid
production
wastes
to
the
WWT
system;
one
facility
estimated
that
0.0001%
of
4,640
MT
sludge
generated
(or
0.005
MT)
was
from
phosphoric
acid
production.
The
spent
mist
filters
collect
phosphoric
acid
mist
before
arsenic
trisulfide
is
precipitated
out.
The
material
which
condenses
in
the
filters
is
expected
to
be
corrosive
and
may
contain
some
arsenic.
However,
the
material
used
for
filter
packing
in
the
mist
eliminators
is
typically
polyester,
fiberglass,
or
steel
wool.
The
filter
packing
provides
surface
area
for
condensation,
not
absorption,
and
is
not
expected
to
accumulate
waste
or
constituents.
Thus,
arsenic
is
not
expected
to
adhere
to
the
filters
as
condensate
drops
back
into
process.
The
generators
treat
the
spent
filters
prior
to
disposal
to
remove
or
immobilize
any
low
levels
of
constituents
that
may
remain.
The
rubber
liners
and
spent
filters
for
product
are
associated
with
food
grade
products.
We
expect
any
contaminant
levels
to
be
extremely
low
due
to
purity
requirements.
Consequently,
we
believe
it
is
unlikely
that
they
contain
any
constituent
at
levels
of
concern
(i.
e.,
above
health
based
limits
for
ingestion).
We
also
note
that
both
wastes
are
treated
prior
to
disposal
in
landfills.
Similarly,
we
do
not
expect
the
spent
carbon
or
spent
filters
associated
with
off
specification
product
to
contain
significant
levels
of
constituents
of
concern.
Product
is
classified
as
``
offspecification
due
to
color
and
concentration
of
acid,
rather
than
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/
Proposed
Rules
because
of
the
presence
of
any
contaminants.
We
note
again
that
these
wastes
undergo
treatment
prior
to
placement
in
landfills.
In
addition,
both
the
activated
carbon,
which
is
infrequently
generated,
and
the
offspecification
filters
are
very
low
volume
wastes
(on
an
annualized
basis,
the
spent
carbon
totals
about
1
MT
and
the
spent
off
specification
filters
equal
0.5
MT).
As
stated
in
the
wastewater
rationale,
the
wastewater
contribution
from
the
phosphoric
acid
process
is
insignificant.
Therefore,
the
volumes
of
treatment
sludge
(and
any
constituents
of
potential
concern)
attributable
to
the
phosphoric
acid
process
are
small
and
unlikely
to
present
any
significant
risk.
We
do
not
believe
any
of
these
materials
contain
significant
concentrations
of
any
contaminants
of
concern.
Therefore,
we
propose
not
to
list
these
wastes
as
listed
hazardous
wastes
under
RCRA.
8.
Phosphorus
Pentasulfide
a.
Summary.
We
have
evaluated
the
wastes
from
the
production
of
phosphorus
pentasulfide
and
propose
not
to
list
any
wastes
from
this
process
as
hazardous.
These
wastestreams
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
a
waste
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
threat
to
human
health
or
the
environment.
We
have
identified
no
risks
of
concern
associated
with
the
current
management
of
these
wastes.
b.
Description
of
the
phosphorus
pentasulfide
industry.
Phosphorus
pentasulfide
was
produced
by
three
facilities
in
the
United
States
in
1998.
Phosphorus
pentasulfide
is
used
in
the
manufacture
of
lubricating
oil
additives,
insecticides,
ore
flotation
agents
and
specialty
chemicals.
The
production
of
phosphorus
pentasulfide
begins
by
feeding
liquid
phosphorus
and
liquid
sulfur
into
a
reactor.
The
reaction
is
carefully
controlled
because
phosphorus
pentasulfide
reacts
violently
with
air
forming
phosphorus
pentoxide
and
sulfur
dioxide
and
because
toxic
hydrogen
sulfide
gas
forms
when
phosphorus
pentasulfide
combines
with
moisture
on
exposure
to
air.
To
reduce
this
hazard,
the
process
equipment
is
continuously
purged
with
nitrogen.
The
phosphorus
pentasulfide
vapors
are
distilled
and
the
liquid
from
the
process
is
solidified,
milled
and
packaged.
One
facility
operates
its
entire
process
under
nitrogen
blanket.
The
blanketed
vessels,
packaging
area
and
tote
bin
wash
systems
are
all
vented
to
a
caustic
scrubber.
A
second
facility
vents
the
reactor
to
a
caustic
scrubber
that
removes
the
sulfur
dioxide
and
hydrogen
sulfide
and
generates
a
blowdown
wastestream.
The
facility
has
other
scrubbers
that
remove
phosphorus
pentoxide
from
the
exhaust
stream
and
reacts
it
with
water
to
produce
a
dilute
phosphoric
acid
that
is
routed
to
their
acid
plant.
The
third
facility
fills
the
reactor,
condenser
and
packaging
equipment
with
nitrogen
to
prevent
oxidation.
This
nitrogen
stream
is
scrubbed
with
recirculating
water
to
remove
phosphorus
pentasulfide
dust.
The
scrubber
liquor
is
treated
and
discharged.
c.
Description
of
wastes
generated
by
the
phosphorus
pentasulfide
process.
We
have
identified
nine
waste
categories
from
the
production
of
phosphorus
pentasulfide
that
required
assessment.
These
waste
categories
are
described
briefly
and
in
more
detail
in
the
following
subsections.
ÐStill
residue/
reactor
waste
is
the
result
of
impurities
being
left
behind
when
the
phosphorus
pentasulfide
is
distilled
to
remove
undesirables
(high
boilers).
This
residue
consists
of
glassy
phosphates,
carbon,
and
iron
sulfide
compounds
and
is
removed
from
the
reactor
during
unit
turnaround
ÐPhosphorus
pentasulfide
scrap
waste
is
occasionally
generated
during
certain
maintenance
operations
or
equipment
failure.
This
waste
can
also
consist
of
commercial
offspecification
material
and
fugitive
dust
from
the
packaging
operation.
ÐAbsorbents
contaminated
with
phosphorus
pentasulfide
and
Therminol
(benzylated
ethyl
benzene)
are
generated
from
cleaning
up
leaks
during
maintenance
operations.
The
absorbent
material
may
be
in
the
form
of
floor
dry
(a
granular
material)
or
an
absorbent
pillow.
ÐWaste
Therminol
is
a
spent
heat
transfer
product
used
for
the
vessels
and
pipes
to
prevent
freeze
up
of
the
liquid
phosphorus
pentasulfide.
ÐScrubber
water
is
generated
as
a
result
of
a
nitrogen
stream
being
scrubbed
to
remove
phosphorus
pentasulfide
dust.
The
packaging
equipment
is
filled
with
nitrogen
to
prevent
oxidation.
ÐCaustic
scrubber
water
is
the
result
of
the
reactor,
packing
and
tote
bin
wash
system
being
vented
to
the
scrubber
to
remove
sulfur
dioxide
and
residual
hydrogen
sulfide.
ÐTote
bin
wash
water
results
from
cleaning
the
shipping
containers
that
hold
the
product.
The
phosphorus
pentasulfide
residue
is
washed
from
the
returned
containers
with
water
and
caustic.
ÐScrap
sulfur
is
occasionally
generated
when
making
or
breaking
couplings
to
hoses
where
sulfur
comes
into
the
reaction.
One
facility
reported
that
they
filter
elemental
phosphorus
before
feeding
it
to
the
reactor.
The
filter
solids,
called
phosphorus
impurities,
are
managed
in
tanks
and
then
are
piped
to
that
facility's
phosphoric
acid
production
furnace
for
phosphorus
reclamation.
Because
there
is
low
potential
for
significant
exposure
from
on
site
storage
prior
to
entry
in
the
furnace,
we
did
not
evaluate
this
material
further
under
this
sector.
Note
that
wastes
generated
from
the
production
of
phosphoric
acid
via
the
dry
process,
including
this
facility's
phosphoric
acid
furnace,
are
addressed
in
section
III.
F.
7
of
today's
proposal.
We
have
organized
our
discussion
of
these
wastes
in
terms
of
how
they
are
currently
managed:
characteristic
wastes,
wastewaters,
and
scrap
sulfur.
d.
Agency
evaluation.
(1)
Characteristic
wastes.
The
RCRA
Section
3007
Surveys
show
that
a
number
of
the
phosphorus
pentasulfide
wastes
categories
are
managed
as
RCRA
hazardous
wastes
at
all
times.
These
wastes
are
hazardous
because
they
exhibit
the
characteristics
of
ignitability,
reactivity
or
toxicity
for
chromium
or
benzene.
The
facility
that
generates
the
largest
volume
waste,
phosphorus
pentasulfide
scrap
waste,
considers
it
to
be
a
listed
hazardous
waste
(U189).
The
surveys
also
show
that
these
wastes
are
managed
as
hazardous
wastes,
with
final
disposition
by
incinerated
in
Subtitle
C
units.
Table
III±
20
summarizes
our
information
about
these
wastes.
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Proposed
Rules
41
One
facility
discontinued
production
as
of
November
1999
and
has
no
future
plans
to
resume
production
of
phosphorus
trichloride.
This
facility's
wastes
therefore
are
not
included
in
the
following
overview,
but
were
evaluated
to
determine
their
potential
threat
to
human
health
or
the
environment.
The
details
of
this
facility's
waste
generation
and
management
practices
are
included
in
the
``
Phosphoric
Acid
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination.
''
TABLE
III±
20.Ð
CHARACTERISTIC
WASTES
FROM
PHOSPHORUS
PENTASULFIDE
PRODUCTION
DISPOSED
IN
SUBTITLE
C
UNITS
Waste
category
Number
of
reported
generators
1998
volume
(MT)
Reported
hazard
codes
Final
management
practices
Still
residue/
reactor
waste
.............................
2
4.6
D003,
D007
......
Subtitle
C
incineration.
Phosphorus
pentasulfide
scrap
waste
..........
3
67.75
D001,
D003,
U189.
Subtitle
C
incineration.
Contaminated
absorbent
...............................
1
1.2
(1996)
D003
.................
Subtitle
C
incineration.
Waste
Therminol
...........................................
1
1.4
D018
.................
Subtitle
C
incineration.
We
propose
not
to
list
these
four
waste
categories
as
hazardous
wastes
under
RCRA.
All
generators
of
these
wastes
already
report
managing
these
materials
as
hazardous
from
the
point
of
generation
through
incineration
because
they
exhibited
one
or
more
of
the
hazardous
waste
characteristics.
Again,
the
rules
applying
to
characteristic
wastes
adequately
protect
against
mismanagement.
Furthermore,
ninety
percent
of
the
waste
are
already
listed
as
commercial
chemical
product
(U189).
Therefore,
we
propose
not
to
list
these
wastes.
(2)
Wastewaters.
Wastewaters
are
generated
at
various
points
in
the
process
as
a
result
of
scrubbing
operations
and
tote
bin
washing.
As
identified
by
the
facilities,
the
primary
constituents
of
concern
in
these
wastewaters
are
phosphoric
acid
and
hydrogen
sulfide
which
are
readily
controlled
via
neutralization.
The
management
practices
for
these
wastewaters
do
not
allow
for
the
release
of
phosphoric
acid
and
hydrogen
sulfide
to
the
environment
in
an
undiluted
or
unneutralized
state.
Table
III±
21
summarizes
our
information
on
these
wastewaters:
TABLE
III±
21.Ð
WASTEWATERS
FROM
PHOSPHORUS
PENTASULFIDE
PRODUCTION
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Process
scrubber
water
................................
1
77,377
none
.................
(1)
Sewer,
(2)
POTW
Caustic
scrubber
water
.................................
2
2,177
none
.................
(1)
Covered
tanks,
(2)
off
site
treatment,
(3)
NPDES;
(1)
Treatment
in
covered
tanks,
(2)
POTW.
Tote
bin
wash
water
......................................
2
188
(1)
D003
...........
(2)
none
............
(1)
Covered
tanks,
(2)
off
site
treatment,
(3)
NPDES;
(1)
Treatment
in
covered
tanks,
(2)
POTW.
We
assessed
the
management
practices
for
these
wastes
and
determined
that
no
exposure
pathway
of
concern
exists.
Thus,
we
propose
not
to
list
these
wastes
as
listed
hazardous
wastes
under
RCRA.
The
covered
tanks
employed
minimize
potential
for
releases
to
groundwater
and
air.
Discharges
to
surface
waters
under
NPDES
are
exempt
from
RCRA
regulation.
Discharges
to
POTWs
via
the
facility's
common
sewage
line
are
excluded
from
RCRA
(40
CFR
261.4(
a)(
1)(
ii)).
(3)
Scrap
sulfur.
One
facility
reported
generation
of
scrap
sulfur
that
occasionally
exhibits
the
characteristic
of
TC
for
lead.
This
sulfur
is
managed
as
hazardous
in
a
Subtitle
C
incinerator.
The
1998
waste
volume
was
0.12
MT.
We
do
not
believe
this
material
warrants
listing
as
hazardous
waste
and,
therefore,
propose
not
to
list
this
waste
as
hazardous
under
RCRA.
While
this
waste
category
was
reported
to
periodically
exhibit
a
characteristic,
the
generator
always
manages
the
waste
in
a
Subtitle
C
incinerator.
We
believe
this
management
practice
is
likely
to
continue
because
the
cost
to
treat
it
as
hazardous
is
low
for
such
a
small
volume
wastes,
and
because
the
waste
may
be
TC
hazardous
as
generated.
This
waste
is
also
small
volume
and
highly
unlikely
to
present
a
significant
risk.
9.
Phosphorus
Trichloride
a.
Summary.
We
have
evaluated
the
wastes
from
the
production
of
phosphorus
trichloride
and
propose
not
to
list
any
wastes
from
this
process
as
hazardous
wastes.
These
wastes
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
a
waste
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
threat
to
human
health
or
the
environment.
We
have
identified
no
risks
of
concern
associated
with
the
current
management
of
these
wastes.
b.
Description
of
the
phosphorus
trichloride
industry.
Six
facilities
in
the
United
States
reported
producing
phosphorus
trichloride
in
1997
or
1998.
We
are
assessing
wastes
from
the
five
facilities
that
still
produce
this
product.
41
Phosphorus
trichloride
is
used
as
an
intermediate
in
the
production
of
a
variety
of
chemicals.
These
chemicals
are
used
to
make
pesticides,
herbicides,
antiscaling
additives,
corrosion
inhibitors
for
cooling
towers
and
heat
exchangers,
surfactants,
sequestrants,
and
textile
treating
agents.
Phosphorus
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/
Proposed
Rules
trichloride
is
used
as
a
raw
material
in
the
production
of
chemicals
that
are
used
extensively
as
lubricating
oil
additives
to
control
corrosion
and
as
antioxidants
and
flame
retardants
in
plastics.
Phosphorus
trichloride
(PCl3)
is
a
clear,
volatile
liquid
with
a
pungent,
irritating
odor.
Phosphorus
trichloride
is
produced
by
one
basic
process.
Liquid
phosphorus
and
chlorine
gas
are
continuously
introduced
into
a
reaction
vessel.
The
phosphorus
trichloride
vapor
phase
is
purified
in
a
packed
column
and
then
liquified
in
a
condenser.
Most
raw
material
impurities
remain
in
the
reactor
and
are
removed
as
solid
waste
periodically
during
unit
turnaround.
Some
facilities
filter
the
product
before
shipment
to
ensure
there
is
no
dirt
or
other
particles
in
the
final
product.
A
scrubber
is
used
to
collect
materials
from
various
points
in
the
process.
For
example,
hydrochloric
acid
and
phosphorus
acid
(H3PO3),
the
hydrolysis
products
of
phosphorus
trichloride
vapors
are
vented
to
the
scrubber
from
the
reactor.
Also,
phosphorus
trichloride
vapor
generated
during
transfer
of
the
product
into
shipping
containers
is
collected
and
vented
to
the
same
scrubber.
The
wastewater
generated
from
the
scrubber(
s)
is
commingled
with
miscellaneous
wastewaters
(e.
g.,
reactor
washout,
spent
filter
wash,
process
area
wash
water)
and
sent
for
treatment.
Some
facilities
generate
a
wastewater
treatment
sludge
from
the
cleanout
of
treatment
tanks.
All
of
these
facilities
produce
a
variety
of
other
products
that
are
outside
the
scope
of
today's
rule,
and
they
commingle
the
wastewaters
from
PCl3
production
with
wastewaters
from
other
processes.
c.
What
kinds
of
wastes
are
generated
by
this
process?.
We
have
organized
our
discussion
of
these
wastes
in
terms
of
how
they
are
currently
managed:
characteristic
wastes,
wastewaters,
recycled
phosphorus,
and
noncharacteristic
non
wastewaters.
The
wastes
generated
by
this
process
include:
ÐReactor
cleanout
sludge
consists
of
impurities
from
the
elemental
phosphorus
and
chlorine
raw
materials,
including
high
boiling
impurities
such
as
arsenic
trichloride
that
are
retained
in
the
reactor.
These
materials
are
sent
to
Subtitle
C
incinerators.
ÐInitial
washout
water
from
reactor
is
generated
as
a
result
of
rinsing
out
the
reactor
after
sludge
removal.
In
one
case,
the
reactor
is
cleaned
with
hot
water
only
and
there
is
no
initial
sludge
removal
step.
These
materials
are
treated
and
discharged
to
an
POTW
and
under
a
NPDES
permit.
ÐProduct
storage
tank
cleanout
with
nonreactive
phosphate
ester
is
the
rinsate
generated
from
cleaning
the
storage
tank
or
equipment.
When
this
rinse
is
done,
the
rinsate
is
drummed
for
off
site
disposal
as
a
hazardous
waste.
ÐProduct
storage
tank
cleanout
with
water
is
generated
as
a
result
of
additional
rinsing
that
follows
phosphate
ester
rinsing.
This
potentially
acidic
rinse
water
is
sent
to
wastewater
treatment
for
neutralization.
ÐSpent
filter
washwater
for
product
is
generated
as
the
result
of
washing
the
spent
filters
used
to
remove
dirt
and
particles
from
the
product.
This
wash
water
is
mixed
with
other
wastewaters
and
sent
to
wastewater
pretreatment.
ÐProcess
area
wash
water
consists
of
pad
washdown/
rain
water
and
any
spilled
material
collected
in
contained
areas.
This
wash
water
is
mixed
with
other
wastewaters
and
sent
to
wastewater
pretreatment.
ÐFinal
washout
water
from
reactor
is
the
rinsate
from
additional
reactor
washing
after
sludge
removal.
The
one
facility
reporting
this
rinsate
commingles
it
with
other
wastewaters
prior
to
wastewater
pretreatment.
ÐCaustic
scrubber
water
consists
of
small
amounts
of
sodium
salts
and
residual
caustic.
Phosphorus
trichloride,
acid
vapors,
traces
of
chlorine
and
carbon
dioxide
are
vented
from
various
points
of
the
process.
The
vent
releases
mixed
with
air
are
scrubbed
before
the
air
is
released
to
the
atmosphere.
The
spent
scrubber
charge
is
sent
along
with
other
wastewaters
to
wastewater
pretreatment.
ÐProcess
scrubber
water
consists
of
a
weak
acidic
solution
from
scrubbing
residual
gases
from
distillation
and
from
various
storage
tank
vents.
ÐSpent
filters
for
product
are
generated
due
to
filtering
dirt
and
other
particles
from
the
product
before
shipment.
The
filters
are
washed
and
dried
before
disposal.
ÐWastewater
treatment
sludges
are
generated
when
wastewaters
from
the
phosphorus
trichloride
and
other
processes
are
biologically
treated.
These
sludges
are
only
marginally
derived
from
phosphorus
trichloride
wastewaters
due
to
commingling
with
large
volumes
of
other
nonphosphorus
trichloride
wastewaters.
The
solids
that
are
removed
by
filtration
are
landfilled.
One
facility
reported
recycling
three
secondary
materials:
phosphorous
storage
tank
sediment;
phosphorous
transfer
water;
and
absorber
residual.
The
phosphorous
storage
tank
sediment
is
generated
periodically
when
the
phosphorus
storage
tanks
are
cleaned.
Because
the
material
is
stored
in
containers
prior
to
being
sent
off
site
for
recovery
of
phosphorus
we
found
low
potential
for
significant
exposure
from
on
site
storage.
The
phosphorous
recovery
process
is
outside
the
scope
of
the
consent
decree
so
we
did
not
evaluate
its
wastes.
At
this
same
facility,
raw
material
phosphorous
is
unloaded
from
rail
cars
and
conveyed
through
the
facility
using
a
closed
pressurized
piping
system
that
uses
water
to
push
the
phosphorous
in
the
piping
system.
To
unload
the
phosphorous
from
each
rail
car,
water
is
pumped
into
the
rail
car
to
push
the
phosphorous
out.
Because
the
phosphorous/
water
filled
rail
cars
are
then
returned
to
the
phosphorous
manufacturers,
where
the
phosphorous
is
then
recovered,
we
found
no
potential
for
significant
exposure,
and
did
not
evaluate
this
material
further.
The
third
instance
of
recycling
at
this
facility,
gases
vented
from
the
product
check,
storage
tanks,
and
reflux
separator
are
collected
in
an
absorber.
The
vapors
from
the
absorber
are
captured
in
a
caustic
scrubber
and
sent
to
wastewater
treatment
(see
wastewaters
in
section
d(
2)
below).
According
to
the
facility,
the
non
vapor
phosphorous
trichloride
residual
from
the
absorber
is
collected
and
piped
to
a
non
consent
decree
production
process
where
the
phosphorous
trichloride
is
incorporated
into
the
non
consent
decree
product.
Because
this
material
is
piped
from
the
phosphorous
trichloride
process
to
the
non
consent
decree
process,
and
there
is
no
significant
potential
for
exposure,
we
did
not
evaluate
this
residual
further.
d.
Agency
evaluation.
We
have
organized
our
discussion
of
these
wastes
in
terms
of
how
they
are
currently
managed:
characteristic
wastes,
noncharacteristic
wastewaters,
and
noncharacteristic
solid
wastes.
(1)
Wastes
that
are
characteristically
hazardous
wastes.
Many
of
the
phosphorus
trichloride
producers
stated
that
a
number
of
their
wastes
exhibit
RCRA
characteristics.
These
wastes
are
hazardous
wastes
because
they
exhibit
the
characteristics
of
ignitability,
corrosivity,
reactivity
or
toxicity.
The
Toxicity
Characteristic
was
reported
for
arsenic,
cadmium,
chromium,
lead,
mercury,
selenium
or
silver.
These
characteristic
wastes
are
subject
to
the
applicable
LDR
standards.
Furthermore,
these
wastes
are
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Vol.
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179
/
Thursday,
September
14,
2000
/
Proposed
Rules
ultimately
disposed
in
Subtitle
C
management
units
or
as
discharges
regulated
under
the
Clean
Water
Act.
We
believe
that
the
applicable
Subtitle
C
and
Clean
Water
Act
regulations
adequately
protect
against
mismanagement.
Table
III±
22
summarizes
our
information
about
these
wastes.
TABLE
III±
22.Ð
CHARACTERISTIC
WASTES
FROM
PHOSPHORUS
TRICHLORIDE
PRODUCTION
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Reactor
cleanout
sludge
...............................
4
1
66
D001±
004,
D006±
009,
D010,
D011.
(1)
container
(2)
Subtitle
C
incineration
Initial
washout
water
from
reactor
.................
4
1
478
(1)
D002,
D004,
D006,
D007.
(2)
D002,
D004
(3)
D004,
D007
(1)
off
site
pretreatment,
(2)
POTW;
(1)
neutralized
in
tanks,
(2)
surface
impoundment,
(3)
biotreat
in
tank,
(4)
NPDES;
(1)
tank,
(2)
off
site
biotreatment,
(3)
NPDES
Product
storage
tank
cleanout
with
nonreactive
phosphate
ester.
1
10
D002,
D003
......
(1)
container
(2)
Subtitle
C
incineration
Product
storage
tank
cleanout
with
water
.....
1
15
D002
.................
(1)
neutralized
in
tanks,
(2)
NPDES
Spent
filter
wash
for
product
.........................
1
15
D002
.................
(1)
pretreatment
in
tanks,
(2)
NPDES
Process
area
wash
water
..............................
1
1,400
D002
.................
(1)
tanks,
(2)
NPDES
1
Volumes
from
1996
or
1997
are
included
in
the
totals
when
the
wastes
were
not
generated
by
a
facility
in
1998.
For
all
but
one
of
the
wastes
in
the
above
table,
the
generators
report
managing
these
materials
as
hazardous
from
the
point
of
generation
through
disposal
(or
the
point
at
which
they
become
discharges
to
surface
water
regulated
under
NPDES
or
POTW
regulations).
We
believe
these
wastes
are
sufficiently
regulated
such
that
mismanagement
is
unlikely.
Thus,
we
propose
not
to
list
these
seven
waste
categories.
One
facility
appears
to
treat
initial
washout
reactor
water
in
tanks
and
then
pass
it
through
a
nonhazardous
waste
surface
impoundment.
(All
other
units
used
to
manage
this
waste
have
RCRA
permits
or
are
exempt
from
permitting.)
While
we
have
no
analytical
data
on
the
treated
waste
that
enters
the
impoundment,
we
do
not
believe
this
waste
is
likely
to
pose
significant
risk.
The
waste
is
generated
infrequently
(once
a
year)
and
combined
with
wastewaters
from
other
processes.
Based
on
information
supplied
by
the
facility,
we
estimated
that
the
washout
water
would
be
diluted
at
least
a
hundred
fold
by
the
daily
throughput
to
the
wastewater
treatment
system.
Any
potential
releases
from
the
impoundment
after
dilution
with
other
wastewaters
would
be
unlikely
to
result
in
any
significant
long
term
risk.
Therefore,
we
believe
that
this
specific
waste
also
does
not
pose
significant
threats
to
human
health
or
the
environment.
(2)
Non
characteristic
wastewaters.
Wastewaters
are
generated
at
various
points
in
the
process
as
a
result
of
scrubbing
operations,
equipment
cleanup,
and
washing
the
process
area.
According
to
the
data
submitted
by
the
facility,
the
primary
constituents
of
concern
in
these
wastewaters
are
hydrochloric
acid
and
phosphorous
acid,
which
are
readily
controlled
via
neutralization.
The
management
practices
for
these
wastewaters
minimize
opportunities
for
the
release
of
hydrochloric
acid
or
phosphorous
acid
to
the
environment
in
an
undiluted
or
unneutralized
state.
Table
III±
23
summarizes
our
information
on
these
wastewaters.
TABLE
III±
23.Ð
WASTEWATERS
FROM
PHOSPHORUS
TRICHLORIDE
PRODUCTION
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Sequential
management
practices
Final
washout
water
from
reactor
.................
1
not
reported
none
.................
(1)
pretreatment
in
tanks,
(2)
POTW.
Caustic
scrubber
water
.................................
3
4,236
1
none
.................
(1)
pretreatment
in
tanks,
(2)
POTW
or
NPDES.
Process
scrubber
water
................................
3
12,528
1
D002
(one
facility
(1)
pretreatment
or
neutralized
in
tanks,
(2)
POTW
or
NPDES.
1
Volumes
from
1996
or
1997
are
included
in
the
totals
when
the
wastes
were
not
generated
by
a
facility
in
1998.
We
have
assessed
the
management
practices
employed
for
these
wastes
and
determined
that
no
exposure
pathway
of
concern
exists
that
warrants
listing.
We
have
determined
that
plausible
management
would
be
continued
management
in
existing
tank
based
treatment
systems.
We
believe
the
manufacturers
have
made
a
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Proposed
Rules
considerable
investment
in
wastewater
treatment
systems
using
tanks
and
will
continue
to
use
them.
Further,
we
assumed
that
wastewater
treatment
tanks
retain
sufficient
structural
integrity
to
prevent
wastewater
releases
to
the
subsurface
(and
therefore
to
groundwater),
and
that
overflow
and
spill
controls
prevent
significant
wastewater
releases.
Thus,
based
on
the
lack
of
any
significant
likelihood
of
release
of
the
constituents
to
groundwater,
we
did
not
project
significant
risks
to
groundwater
from
these
wastes
in
the
tank
based
wastewater
treatment
scenario.
Furthermore,
discharges
to
POTWs
and
surface
waters
under
NPDES
are
regulated
under
the
Clean
Water
Act
and
are
exempt
from
RCRA
Subtitle
C
regulation
and
thus
were
not
assessed.
We
also
considered
the
possibility
of
air
releases
from
tanks.
For
most
wastes,
the
constituents
of
concern
are
nonvolatile
metals,
making
volatilization
a
very
unlikely
pathway
of
release
from
tanks.
In
addition,
the
facilities
have
installed
tank
covers,
further
reducing
the
likelihood
of
release
to
the
air.
As
a
result,
we
did
not
model
releases
to
air
from
tanks
from
the
production
of
phosphorus
trichloride.
Thus,
we
propose
not
to
list
these
wastewaters
as
hazardous
wastes
under
RCRA.
(3)
Non
characteristic
nonwastewaters
The
phosphorus
trichloride
sector
reported
two
waste
categories
that
do
not
routinely
exhibit
any
characteristic
and
that
are
often
managed
in
Subtitle
D
landfills;
these
wastes
are
summarized
in
Table
III±
24.
TABLE
III±
24.Ð
NON
CHARACTERISTIC
SOLID
WASTES
Waste
category
Number
of
reported
generators
1998
Volume
(MT)
Reported
hazard
codes
Management
practices
Spent
filters
for
product
.................................
1
0.1
none
.................
industrial
Subtitle
D
landfill.
Wastewater
treatment
sludges
......................
4
1
1,100
none
2
...............
Subtitle
D
landfill
or
Subtitle
C
landfill.
1
Volumes
from
1997
are
included
in
the
totals
when
the
wastes
were
not
generated
by
a
facility
in
1998.
2
One
facility
reported
that
this
wastewater
treatment
sludge
is
occasionally
characteristically
hazardous
for
D028
(dichloroethane),
and
the
waste
is
then
sent
to
a
Subtitle
C
landfill.
The
dichloroethane
is
used
in
a
process
unrelated
to
the
phosphorus
trichloride
process
of
interest
in
today's
proposal.
The
phosphorus
trichloride
product
is
filtered
to
remove
PCl4
and
PCl5.
These
compounds
produce
a
slime
on
the
product
and
are
more
viscous
than
the
product.
The
facility
washes
the
filters
before
sending
them
to
disposal.
The
contaminants
are
easily
washed
off
because
of
their
ready
solubility
in
water.
The
spent
filters
are
generated
in
very
small
volumes.
We
are
proposing
not
to
list
them
because
we
do
not
expect
the
washed
filters
to
contain
significant
levels
of
contaminants
of
concern.
All
four
of
the
facilities
that
generate
wastewater
treatment
sludges
commingle
wastewaters
from
PCl3
production
with
wastewaters
from
other
processes.
The
wastewater
contribution
from
the
phosphorus
trichloride
process
is
very
small
compared
to
volumes
of
wastewaters
from
the
other
processes.
Therefore,
the
phosphorus
trichloride
process
does
not
contribute
significant
amounts
of
constituents
to
this
sludge.
We
do
not
believe
any
of
these
materials
warrant
listing
as
hazardous
wastes
from
the
production
of
phosphorus
trichloride.
Therefore,
we
propose
not
to
list
these
wastes
as
hazardous
wastes
under
RCRA
in
this
rulemaking.
10.
Potassium
Dichromate
a.
Summary.
We
evaluated
the
wastes
from
the
production
of
potassium
dichromate
and
propose
not
to
list
any
wastes
from
this
process
as
hazardous
wastes
under
RCRA.
These
wastes
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
hazard
to
human
health
or
the
environment.
b.
Description
of
the
potassium
dichromate
industry.
Potassium
dichromate,
which
has
a
wide
variety
of
industrial
uses,
was
produced
by
a
single
facility
in
the
United
States
in
1998.
The
U.
S.
demand
for
this
chemical
is
very
limited
and
has
mostly
been
replaced
by
sodium
dichromate
for
industrial
use.
Any
demand
not
met
by
the
U.
S.
facility
is
met
by
imports
to
U.
S.
distributors.
Potassium
dichromate
is
produced
by
reacting
chromium
trioxide
with
potassium
hydroxide.
The
reactants
are
mixed
in
a
reactor
along
with
a
crystal
modifier.
The
potassium
dichromate
is
crystallized,
sent
through
a
centrifuge
to
remove
any
remaining
mother
liquor,
dried
and
packaged
for
sale.
The
single
waste
is
filtered
out
from
the
mother
liquor.
The
mother
liquor
is
recycled
back
into
the
process.
c.
What
kinds
of
wastes
are
generated
by
this
process?
There
is
one
waste
category
generated
from
this
process:
filter
solids
and
spent
filter
media.
According
to
data
submitted
by
the
facility,
this
waste
typically
contains
12.5
percent
chromium.
The
facility
reports
the
waste
as
hazardous
for
chromium
and
manages
it
as
hazardous
(D007).
The
reported
waste
volume
for
1998
was
0.6
MT.
The
waste
is
stored
on
site
in
drums
and
is
shipped
off
site
to
a
commercial
Subtitle
C
facility
for
stabilization
to
meet
the
land
disposal
restrictions
(40
CFR
268.40
and
268.48)
and
final
disposal
in
a
Subtitle
C
landfill.
Because
the
total
chromium
levels
are
so
high,
we
believe
this
waste
will
always
exhibit
the
toxicity
characteristic.
d.
Agency
evaluation.
We
propose
not
to
list
this
waste
as
hazardous
under
Subtitle
C
of
RCRA.
This
waste
is
currently
managed
as
hazardous
from
the
point
of
generation
through
ultimate
disposal
because
it
is
characteristically
hazardous.
The
composition
of
the
waste
is
such
that
it
is
likely
to
always
be
characteristic
for
chromium.
The
rules
applying
to
characteristic
wastes
adequately
protect
against
mismanagement.
11.
Sodium
Chlorate
a.
Summary.
We
propose
not
to
list
any
wastes
from
the
production
of
sodium
chlorate
(NaClO3)
as
hazardous
under
Subtitle
C
of
RCRA.
Process
sludges,
spent
filters,
wastewaters
and
hydrogen
gas
are
generated
from
the
production
of
sodium
chlorate.
These
wastes
and
materials
are
managed
in
a
variety
of
ways.
After
analysis
of
the
management
practices
and
potential
exposure
pathways
of
these
wastes
and
materials,
we
concluded
that
there
are
no
risk
pathways
of
concern.
These
wastes
and
materials
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
hazard
to
human
health
or
the
environment.
b.
Description
of
the
sodium
chlorate
industry.
There
were
ten
facilities
producing
sodium
chlorate
in
1999.
This
industry
manufactures
sodium
chlorate
crystals
and
solutions
from
electrolysis
of
a
sodium
chloride
brine.
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Proposed
Rules
Sodium
chlorate
is
the
raw
material
used
for
the
production
of
chlorine
dioxide,
which
is
replacing
chlorine
and
sodium
hypochlorite
to
be
used
as
an
oxidizing
bleaching
agent
by
the
pulp
and
paper
industry.
The
replacement
of
elemental
chlorine
with
chlorine
dioxide
reduces
effluent
emissions
of
dioxin
formed
in
the
bleaching
process
of
paper
and
pulp.
Approximately
ninety
eight
percent
of
sodium
chlorate
is
used
to
generate
chlorine
dioxide.
The
other
important
use
of
sodium
chlorate
is
as
an
intermediate
in
the
production
of
other
chlorates,
perchlorates,
and
chlorites.
All
ten
facilities
use
a
similar
process
in
producing
sodium
chlorate.
These
facilities
dissolve
sodium
chloride
salt
in
water
to
create
a
liquid
brine.
The
brine
is
treated
to
remove
impurities,
such
as
calcium
carbonate
and
magnesium
hydroxide.
The
treated
brine
is
filtered
and
pumped
into
electrolytic
cells.
In
the
cells,
sodium
chloride
is
converted
to
chlorine
and
sodium
hydroxide
which
further
react
to
form
sodium
chlorate
and
hydrogen
gas.
This
reaction
is
catalyzed
by
sodium
dichromate.
Sodium
chlorate
is
then
treated
with
heat
and
urea
to
remove
residual
sodium
hypochlorite.
Sodium
chlorate
is
then
processed
further
for
crystallization,
centrifuging,
drying,
and
packaging.
A
more
complete
discussion
of
this
process
and
the
industry
can
be
found
in
``
Sodium
Chlorate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
c.
What
kinds
of
wastes
are
generated
by
this
process?
Wastes
generated
from
the
production
of
sodium
chlorate
consist
of
process
sludges,
spent
filters
and
wastewaters.
Based
on
an
evaluation
of
survey
responses
from
the
ten
sodium
chlorate
producers,
we
divided
the
wastes
further
into
six
general
waste
categories
based
on
the
presence
or
absence
of
chromium
and
lead.
The
sodium
chlorate
industry
in
general
characterizes
wastes
that
have
been
in
contact
with
chromium
or
lead
as
hazardous
(D007
or
D008).
Chromium
is
introduced
into
the
process
by
the
addition
of
sodium
dichromate
into
electrolytic
cells
to
protect
electrodes
from
corrosion
and
to
improve
product
yields.
The
presence
of
lead
in
the
wastes
results
from
the
deterioration
of
anodes
that
can
be
used
in
the
electrolytic
cells.
The
six
waste
categories
are:
ÐProcess
sludges
with
chromium
or
lead.
These
include
electrolytic
cells
sludge,
product
filter
press
sludge,
and
those
brine
treatment
sludges
generated
from
purification
where
brine
is
formed
by
mixing
salts
with
chrome
laden
wastewaters
recycled
from
various
steps
of
the
process.
ÐProcess
sludges
without
chromium
and
lead.
These
wastes
include
filter
press
sludge
or
drum
sludge
from
treatment
of
brine,
when
recycled
chrome
laden
wastewater
is
not
used
in
the
brine
dissolution
step.
ÐSpent
filters
with
chromium
or
lead.
The
filters
are
generated
at
several
points
in
the
production
process,
but
most
are
generated
after
the
electrolysis
of
the
brine
solution
when
the
mother
liquor
is
filtered
to
remove
impurities.
ÐSpent
filters
without
chromium
and
lead.
Examples
include
disposable
cartridge
and
sock
filters
from
treatment
of
brine,
when
recycled
chrome
laden
wastewater
is
not
used
in
the
brine
dissolution
step.
ÐWastewaters
with
chromium
that
are
not
recycled
back
to
the
process.
ÐOther
wastewaters
that
do
not
contain
chromium
or
lead
and
are
not
recycled
(condensate,
cooling
water,
and
ion
exchange
wastewater).
In
addition
to
these
wastes,
other
materials
are
produced
by
all
ten
facilities
during
the
production
of
sodium
chlorate
that
are
piped
directly
back
to
the
production
process.
Scrubber
waters
and
filtrates
are
piped
to
on
site
sodium
chlorate
production
units
for
use.
Because
these
materials
are
managed
prior
to
reuse
in
ways
that
present
low
potential
for
releases
to
the
environment,
and
because
we
evaluated
process
wastes
generated
after
they
are
reused,
we
do
not
believe
that
these
secondary
materials
present
significant
threats.
At
all
ten
facilities,
hydrogen
gas
is
produced
by
the
electrolysis
units
and
is
either
piped
to
on
site
boilers,
vented,
or
in
one
case,
piped
to
a
compression
plant
where
it
is
compressed
and
sold.
Because
the
material
is
a
gas
produced
from
a
production
unit
rather
than
a
waste
management
unit
and
is
conveyed
to
its
destination
via
piping,
the
gas
is
not
a
solid
waste.
RCRA
Section
1004(
27)
excludes
non
contained
gases
from
the
definition
of
solid
waste
and
thus
they
cannot
be
considered
a
hazardous
waste.
(See
54
FR
50973)
Because
the
gaseous
materials
are
not
solid
wastes
when
produced,
we
did
not
evaluate
them
further
for
purposes
of
listing.
One
facility
reports
generating
a
wastewater
(sulfate
solution)
from
brine
treatment.
The
wastewater
is
transported
to
an
off
site
facility
and
used
in
their
black
liquor
pulping
process.
The
sulfate
solution
is
added
to
black
liquor
for
use
in
a
wood
digester.
The
process
in
the
digester
is
outside
the
scope
of
the
consent
decree
and
we
have
not
evaluated
risks
from
wastes
that
it
produces.
We
note,
however,
that
the
reuse
of
black
liquor
is
excluded
from
regulation
(40
CFR
261.4(
a)(
6)).
The
sulfate
solution
is
stored
in
tanks
prior
to
use
in
the
pulping
process,
which
minimizes
the
potential
for
releases.
How
Are
These
Wastes
Currently
Being
Managed?
Table
III±
25
summarizes
the
six
waste
categories,
waste
characteristics,
waste
volumes,
and
their
current
management
practices:
TABLE
III±
25.Ð
WASTE
FROM
SODIUM
CHLORATE
PRODUCTION
Waste
category
(number
of
facilities)
Reported
Waste
Codes
1
1998
Volume
(MT)
Management
practices
Process
sludges
with
chromium
or
lead
(10).
D001,
D002,
D007,
D008
........................
28,547
Nine
facilities
store
the
waste
on
site
in
containers
and
then
send
it
to
Subtitle
C
landfills
or
incinerators;
one
facility
decharacterizes
the
waste
in
tanks
before
managing
it
in
on
site
surface
impoundments
Two
facilities
did
not
report
hazard
codes.
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Proposed
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TABLE
III±
25.Ð
WASTE
FROM
SODIUM
CHLORATE
PRODUCTIONÐ
Continued
Waste
category
(number
of
facilities)
Reported
Waste
Codes
1
1998
Volume
(MT)
Management
practices
Process
sludges
without
chromium
and
lead
(5
2
).
none
reported
..........................................
1,886
Three
facilities
store
the
waste
on
site
in
containers
and
then
send
it
off
site
to
municipal
Subtitle
D
landfills;
one
facility
stores
the
waste
on
a
concrete
pad
with
secondary
containment
before
applying
it
to
an
on
site
land
farm;
one
facility
stores
the
waste
on
site
in
containers
and
then
sends
it
off
site
to
an
industrial
Subtitle
D
landfill;
one
facility
stores
the
waste
on
site
in
containers
before
sending
it
off
site
for
recycling.
Spent
filters
with
chromium
or
lead
(7)
...
D001,
D007,
D008
..................................
82.9
All
seven
facilities
classify
the
waste
as
hazardous;
six
send
the
waste
to
Subtitle
C
landfills
or
incinerators;
one
facility
decharacterizes
the
waste
on
site
in
tanks,
stores
it
in
a
closed
compactor
then
ships
the
waste
off
site
to
an
industrial
Subtitle
D
landfill.
Spent
filters
without
chromium
and
lead
(4).
none
reported
..........................................
3.52
Three
facilities
store
the
waste
on
site
in
containers
and
send
it
off
site
to
Subtitle
D
landfills.
One
facility
stores
the
waste
with
process
sludge
in
on
site
containers
and
then
sends
it
off
site
to
a
Subtitle
C
facility
for
stabilization
prior
to
disposal
in
a
Subtitle
C
landfill.
Wastewaters
with
chromium
that
are
not
recycled
back
to
the
process
(2).
D002,
D007
.............................................
26,736
One
facility
sends
the
wastewater
to
an
off
site
Subtitle
C
facility
for
treatment
and
disposal.
One
facility
combines
and
treats
the
wastewater
with
other
process
wastewaters
in
tanks
prior
to
discharge
to
on
site
surface
impoundments
Other
wastewaters
that
do
not
contain
chromium
or
lead
and
are
not
recycled
(condensate,
cooling
water,
ion
exchange
wastewater).
none
reported
..........................................
10,744
3
Discharged
via
NPDES
permit
or
to
a
POTW.
1
D001
(ignitability);
D002
(corrosivity);
D007
(chromium);
D008
(lead).
2
One
facility
contributes
more
than
one
residuals
to
this
waste
group.
3
Two
facilities
did
not
report
volumes
of
this
wastewater.
d.
Agency
evaluation.
We
selected
wastes
from
three
facilities
for
sampling.
As
described
in
detail
in
``
Sodium
Chlorate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal,
we
selected
these
facilities
and
wastes
because
based
on
the
survey
information
collected,
we
believe
that
the
wastes
generated
by
these
three
facilities
are
fully
representative
of
the
wastes
generated
by
this
industry
and
their
management
practices.
We
evaluated
the
characteristics
and
current
management
practices
of
each
of
the
six
waste
categories.
The
details
of
our
evaluation
follow.
(1)
Process
sludge
with
chromium
or
lead.
How
Is
This
Waste
Managed?
The
predominant
source
of
process
sludge
with
chromium
or
lead
is
from
the
periodic
cleanout
of
electrolytic
cells
used
to
convert
the
brine
solution
to
sodium
chlorate.
All
ten
facilities
generate
this
waste.
Seven
facilities
classify
their
wastes
as
characteristic
and
send
it
off
site
to
Subtitle
C
landfills
or
incinerators.
Two
facilities
do
not
classify
their
wastes
as
characteristic
but
nevertheless
send
their
wastes
to
Subtitle
C
landfills.
The
tenth
facility,
located
in
Hamilton,
Mississippi,
reports
this
waste
to
be
characteristic
and
treats
it
in
tanks
to
reduce
hexavalent
chromium
to
the
relatively
stable
trivalent
state.
The
facility
commingles
this
sludge
with
wastes
from
the
production
of
titanium
dioxide
(TiO2)
in
these
tanks.
The
treated
mixture
is
subsequently
managed
in
a
series
of
four
surface
impoundments,
three
of
which
are
lined
with
leachate
collection
systems.
Today's
proposal
separately
addresses
the
titanium
dioxide
wastes
that
are
commingled
with
this
sodium
chlorate
sludge
(see
section
III.
F.
14.
c.(
14)).
How
Was
This
Waste
Characterized?
We
collected
a
total
of
six
samples
to
assess
this
waste
categories.
Three
samples
of
the
sludge
from
electrolytic
cells
were
collected
at
two
facilities
where
the
wastes
were
destined
for
Subtitle
C
treatment
and
disposal.
These
two
facilities
generate
and
manage
this
waste
as
characteristically
hazardous.
These
samples
were
part
of
the
record
characterizing
this
waste
category,
but
were
not
used
for
risk
assessment.
We
collected
another
three
samples
from
the
Hamilton,
Mississippi
facility
that
classifies
this
waste
as
characteristically
hazardous
and
treats
it
in
tanks
to
remove
the
characteristic
prior
to
pumping
the
effluent
to
on
site
surface
impoundments.
One
sample
(KM±
SC±
01)
reflects
the
untreated
sodium
chlorate
sludge
collected
from
a
dedicated
sump
prior
to
commingling
with
the
titanium
dioxide
wastewaters.
The
second
sample
(KM±
SI±
01)
is
the
treated
combined
wastes
collected
at
the
inlet
to
the
surface
impoundments.
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/
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/
Proposed
Rules
third
sample
(KM±
SI±
04)
is
the
treated
commingled
sludge
collected
from
one
of
the
on
site
surface
impoundments.
Table
III±
26,
below,
represents
the
analytical
results
for
the
Hamilton,
Mississippi
samples
for
total
and
hexavalent
chromium,
the
primary
constituent
of
concern.
Total
constituent
analyses
were
conducted
for
the
untreated
waste.
No
other
toxicants
in
the
untreated
wastewater
sample
(KM±
SC±
01)
exceed
the
health
based
levels.
For
the
treated
waste
and
the
sludge
collected
from
the
impoundment,
total
and
leaching
analyses
were
conducted
to
allow
us
to
assess
potential
releases
to
the
environment.
Our
analytical
data
shows
that
total
hexavalent
chromium
level
in
the
treated
sample
(KM±
SI±
01)
is
below
the
HBL
for
hexavalent
chromium,
demonstrating
the
effectiveness
of
the
treatment
process.
We
assessed
the
treated
commingled
sludge
settled
in
the
impoundments
and
found
that
the
chromium
levels
did
not
exceed
the
HBLs.
TABLE
III±
26.Ð
ANALYTICAL
DATA
FOR
SODIUM
CHLORATE
Constituents
of
concern
KM±
SC±
01
(Untreated
NaC1O3
wastes
only)
KM±
SI±
01
(Treated
commingled
NaC1O3
and
TiO2
wastes)
KM±
SI±
04
(Treated
commingled
NaC1O3
and
TiO2
sludge
in
impoundment)
HBL
Total
(mg/
1)
Total
(mg/
kg)
SPLP
(mg/
l)
Total
(mg/
kg)
SPLP
(mg/
l)
Chromium
.........................................................................
0.99
31.1
<0.05
1,140
0.05
23
Hexavalent
Chromium
.....................................................
0.85
L
<0.02
<0.02
<0.8
0.03
0.05
L:
Concentration
reported
from
analysis
performed
outside
method
recommended
holding
time.
Value
should
be
considered
biased
low.
The
total
chromium
concentration
in
the
treated
waste
is
higher
than
the
untreated
waste
due
to
commingling
with
other
wastes
from
the
titanium
dioxide
production
process.
There
are
other
constituents
detected
in
the
treated
commingled
waste
sample
(KM±
SI±
01)
that
are
attributable
to
the
titanium
dioxide
production
process;
these
constituents
are
assessed
in
section
III.
F.
14.
c.(
14)
of
today's
proposal.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste
category.
Seven
facilities
consider
wastes
in
this
category
to
be
characteristically
hazardous
(for
D001,
D002,
D007
or
D008)
and
manage
the
wastes
under
Subtitle
C
regulations.
We
believe
that
these
regulations
adequately
protect
against
mismanagement.
Two
facilities
do
not
classify
their
wastes
as
characteristic
but
send
them
to
Subtitle
C
landfills.
We
also
believe
that
this
practice
adequately
prevents
mismanagement.
The
remaining
facility
(which
does
not
identify
its
sludges
as
characteristic
hazardous
wastes)
treats
the
sludge
in
tanks
to
reduce
hexavalent
chromium
to
trivalent
chromium
prior
to
placement
in
on
site
surface
impoundments.
We
found
that
the
waste
did
not
pose
risks
during
treatment
because
there
are
no
exposure
pathways
of
concern
for
the
on
site
treatment
tanks.
The
wastes
are
treated
in
concrete
tanks
with
secondary
containment
which
minimize
potential
releases
to
groundwater.
We
also
are
not
concerned
with
potential
air
releases
from
these
tanks
as
neither
volatile
contaminants
nor
airborne
particulates
are
likely
to
be
present
in
the
wastes.
As
discussed
above,
the
primary
constituent
of
concern
in
this
waste
is
hexavalent
chromium,
which
is
treated
to
form
relatively
stable
trivalent
chromium.
The
physical
form
of
the
wastes
(i.
e.,
sludge
with
high
water
content)
eliminates
the
potential
for
a
significant
release
of
airborne
particulates.
Furthermore,
our
analytical
data
show
that
the
waste,
after
treatment,
does
not
contain
any
constituents
of
concern
at
levels
exceeding
health
based
levels.
(2)
Process
sludge
without
chromium
and
lead.
How
Is
This
Waste
Managed?
This
sludge
is
produced
as
part
of
the
initial
purification
of
the
brine
solution.
Five
facilities
report
generating
this
type
of
waste
and
managing
it
as
nonhazardous.
Four
facilities
manage
the
waste
in
an
on
site
land
farm,
offsite
municipal
Subtitle
D
landfills,
and
an
industrial
Subtitle
D
landfill.
One
facility
ships
their
waste
off
site
for
recycling.
We
collected
a
total
of
four
samples
of
this
waste
category
from
two
facilities.
Two
of
the
four
samples
(HT±
SN±
01
and
EC±
SN±
03)
are
representative
of
wastes
that
are
land
disposed.
The
other
two
samples
(EC±
SN±
01
and
EC±
SN±
02)
are
representative
of
wastes
that
are
generally
recycled
and
occasionally
also
landfilled.
Table
III±
27
identifies
the
constituents
of
concern
that
we
found
to
be
present
in
the
waste
at
levels
exceeding
their
respective
HBLs
and/
or
soil
screening
levels.
TABLE
III±
27.Ð
ANALYTICAL
RESULTS
FOR
SODIUM
CHLORATE
PROCESS
SLUDGE
WITHOUT
CHROMIUM
AND
LEAD
(PPM)
Parameter
HT±
SN±
01
EC±
SN±
03
EC±
SN±
01
EC±
SN±
02
HBL
1
SSL
Total
TCLP
SPLP
Total
TCLP
SPLP
Total
TCLP
SPLP
Total
TCLP
SPLP
Arsenic
..............................................
14.3
2
0.03
<0.05
<5
<0.005
<0.05
<5
<0.005
<0.05
<5
<0.005
<0.05
0.0007
5.2
Cadmium
...........................................
27.4
<0.05
<0.05
<5
<0.05
<0.05
<5
<0.05
<0.05
<5
<0.05
<0.05
0.0078
4.3
Chromium
.........................................
57.3
<0.05
<0.05
15.3
<0.05
<0.05
<5
<0.05
<0.05
10.1
<0.05
<0.05
23
37
Copper
..............................................
17.2
<0.25
<0.05
15.3
<0.05
<0.05
<5
<0.25
<0.05
5.3
<0.25
<0.05
1.3
17
Lead
..................................................
14.8
0.024
<0.03
139
<0.03
<0.03
19.3
0.12
E
0.001
34.9
0.05
E
0.002
E
0.015
400*
Manganese
.......................................
69.2
0.08
<0.05
238
4.5
<0.05
125
0.5
<0.05
51.9
0.7
<0.05
0.73
330
Mercury
.............................................
0.5
L
<0.002
<0.0002
<0.1
<0.002
<0.0002
<0.1
<0.002
<0.0002
<0.1
<0.002
<0.0002
0.0047
24*
Nickel
................................................
7.4
<0.2
<0.05
12.1
0.4
<0.05
<5
<0.2
<0.05
<5
<0.2
<0.05
0.31
13
Silver
.................................................
1.1
<0.1
<0.01
<1
<0.1
<0.01
<1
<0.1
<0.01
<1
<0.1
<0.01
0.078
400*
Zinc
...................................................
111
<2
<0.5
279
10.6
<0.5
<50
<2
<0.5
<50
<2
<0.5
4.7
48
1
SSL:
Soil
Screening
Level
based
on
geometric
mean
background
concentration
(mg/
kg)
in
soils
in
conterminous
U.
S.
or
soil
ingestion
HBL
(marked
*).
2
Results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection
limit.
E:
Analysis
performed
outside
recommended
holding
time.
Reported
value
should
be
considered
as
estimated.
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
What
Management
Scenarios
Did
We
Aassess?
We
evaluated
wastes
managed
under
the
four
identified
management
scenarios:
on
site
land
farm,
municipal
Subtitle
D
landfill,
industrial
Subtitle
D
landfill,
and
recycling.
Land
farm
scenario.
One
facility
reports
managing
37
MT/
year
of
this
waste
in
an
on
site
permitted
land
farm.
EPA
previously
assessed
this
same
land
farm
as
part
of
the
chlorinated
aliphatics
listing
determinations
(see
proposed
rule
at
64
FR
46475,
August
25,
1999).
Today's
assessment
of
sodium
chlorate
waste
placed
in
the
same
unit
is
based
on
our
earlier
modeling
of
this
unit
for
a
waste
from
the
production
of
chlorinated
aliphatics
(EDC/
VCM
sludges).
In
assessing
this
management
scenario,
we
first
compared
the
total
constituent
concentrations
of
all
four
record
samples
to
background
soil
concentrations.
The
following
metals
exceeded
this
screening
criteria:
arsenic,
cadmium,
chromium,
copper,
lead,
mercury,
silver,
and
zinc.
We
then
used
the
metal
modeling
results
generated
from
the
chlorinated
aliphatics
listing
determination
to
calculate
the
proportional
sodium
chlorate
risk.
The
calculated
modeling
results
of
arsenic,
cadmium,
hexavalent
chromium,
and
zinc
for
the
same
land
farm
are
all
below
a
hazard
quotient
(HQ)
of
1
and
10
´6
risk
thresholds
for
the
land
treatment
scenario.
Finally,
we
compared
the
total
concentrations
of
copper,
lead,
mercury,
and
silver
of
all
samples
to
the
soil
ingestion
HBL
because
these
constituents
were
not
assessed
in
the
chlorinated
aliphatics
risk
analyses.
The
maximum
total
concentrations
of
lead,
mercury,
and
silver
are
well
below
the
soil
ingestion
HBL,
and
the
maximum
total
concentration
of
copper
in
this
waste
(i.
e.,
17.2
mg/
kg)
is
very
close
to
the
soil
ingestion
HBL
(i.
e.,
17
mg/
kg).
We
believe
that
after
mixing
with
soil
in
the
land
application
unit,
the
copper
concentration
in
the
unit
will
be
even
lower.
We
do
not
believe
this
waste
poses
risk
via
volatilization
to
the
air
pathway
because
it
does
not
contain
any
significant
toxic
volatile
chemicals.
In
addition,
the
comparison
described
above
for
this
unit,
where
we
determined
that
the
detected
waste
constituents
are
present
in
the
waste
at
levels
below
or
very
close
to
the
soil
ingestion
levels,
suggests
that
any
wind
blown
dust
from
the
unit
should
not
pose
risk
at
levels
of
concern.
Based
on
our
analysis,
we
conclude
that
the
waste
does
not
present
a
substantial
risk
to
human
health
or
the
environment
when
land
applied.
Landfill
scenarios.
Three
facilities
manage
their
wastes
in
municipal
Subtitle
D
landfills
and
one
facility
manages
its
waste
in
an
industrial
Subtitle
D
landfill.
We
used
the
SPLP
results
of
all
four
relevant
samples
to
evaluate
the
industrial
Subtitle
D
landfill
management
scenario.
We
found
that
the
waste
poses
no
substantial
present
or
potential
hazard
to
human
health
and
the
environment
when
managed
in
an
industrial
Subtitle
D
landfill
because
the
SPLP
leachate
concentration
of
all
constituents
of
the
four
samples
of
this
waste
category
are
below
their
respective
HBLs.
We
used
the
TCLP
results
of
all
four
relevant
samples
to
assess
the
municipal
Subtitle
D
landfill
scenario.
We
modeled
all
three
volumes
reported
being
sent
to
municipal
Subtitle
D
landfills.
We
focused
our
assessment
on
the
geological
regions
in
the
northwestern
and
southeastern
areas
of
the
country
because
of
the
locations
of
the
facilities
and
the
landfills
currently
being
used.
The
constituents
we
modeled
are
arsenic,
lead,
manganese,
nickel,
and
zinc.
The
details
regarding
our
modeling
inputs
and
assumptions
are
provided
in
``
Sodium
Chlorate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
and
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes'
in
the
docket
for
today's
proposal.
The
results
of
our
risk
assessment
are
summarized
below
in
Table
III±
28.
TABLE
III±
28.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
PROCESS
SLUDGE
WITHOUT
CHROMIUM
AND
LEAD
Percentile
Arsenic
Manganese
Nickel
Zinc
Adult
cancer
risk
Child
cancer
risk
Adult
HQ
Child
HQ
Adult
HQ
Child
HQ
Adult
HQ
Child
HQ
90th
..................................................
3E±
08
......
2E±
08
......
2E±
04
......
4E±
04
......
2E±
06
......
3E±
06
......
5E±
08
......
1E±
07
95th
..................................................
2E±
07
......
2E±
07
......
6E±
04
......
1E±
03
......
2E±
05
......
3E±
05
......
5E±
06
......
1E±
05
Based
on
these
risk
assessment
results,
we
conclude
that
process
sludge
without
chromium
and
lead
does
not
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment
when
managed
in
municipal
Subtitle
D
landfills.
We
calculated
hazard
quotients
for
noncarcinogenic
compounds
(lead,
manganese,
nickel,
and
zinc),
and
all
of
these
were
well
below
a
value
of
one.
We
found
no
adult
or
child
cancer
risk
for
arsenic
in
excess
of
1E±
06
at
the
95th
percentile.
Based
on
these
results
we
conclude
that
this
waste
does
not
pose
risk
to
human
health
and
the
environment.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposal.
Recycling
scenario.Ð
One
facility
ships
their
wastes
to
an
off
site
facility
for
reuse.
The
material
is
added
to
mined
gypsum
used
to
retard
the
setting
of
concrete.
We
assessed
this
use
because
it
involves
land
placement,
with
higher
likelihood
of
releases
to
the
environment.
Two
samples
of
this
waste
category
were
collected
from
the
facility
that
produces
and
manages
this
waste
in
such
a
fashion.
We
compared
this
use
to
a
less
protective
landfarming
scenario,
which
we
modeled,
and
found
no
risk
of
concern.
The
volume
of
the
waste
is
quite
small
(<
1%)
when
compared
to
the
volume
of
mined
gypsum
used
by
the
off
site
facility.
We
believe
that
the
constituent
concentrations
in
the
final
cement
product
would
be
even
lower
due
to
mixing
with
other
materials.
What
Is
EPA's
Listing
Rationale
For
This
Waste?
Based
on
our
assessments
of
the
four
management
scenarios
(on
site
land
farm,
municipal
Subtitle
D
landfill,
industrial
Subtitle
D
landfill,
and
recycling),
we
found
that
the
wastes
do
not
present
a
substantial
risk
to
human
health
or
the
environment.
Therefore,
we
propose
not
to
list
these
wastes.
(3)
Spent
filters
with
chromium
or
lead.
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Federal
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/
Vol.
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
How
Is
This
Waste
Managed?
Spent
filters
are
generated
at
several
points
in
the
production
process
but
most
are
generated
after
the
electrolysis
of
the
brine
solution.
Seven
facilities
report
generating
this
waste.
Six
of
the
seven
facilities
report
this
waste
to
be
characteristic
and
ship
it
to
off
site
Subtitle
C
landfills
or
incinerators.
The
seventh
facility
generates
a
very
small
volume
of
D007
waste
that
is
acidwashed
and
decharacterized
(to
meet
UTS)
before
being
landfilled
at
an
offsite
industrial
Subtitle
D
landfill.
How
Was
This
Waste
Characterized?
We
collected
one
sample
of
the
spent
filter
that
was
decharacterized
prior
to
being
sent
to
an
industrial
Subtitle
D
landfill.
We
did
not
sample
any
of
the
six
facilities
that
already
adequately
managed
the
waste
under
Subtitle
C
regulations.
Table
III±
29
presents
the
analytical
results
for
the
total
and
leaching
analyses
of
the
decharacterized
spent
filter
sample
(KM±
FB±
01)
for
arsenic,
lead,
total
chromium,
and
hexavalent
chromium.
Chromium
and
lead
are
the
two
primary
constituents
of
concern
in
wastes
of
this
category.
The
sample
was
not
collected
from
the
facility
that
uses
anodes
with
lead
coating,
thus
lead
was
not
present
in
this
sample.
Arsenic
was
the
only
constituent
detected
in
the
SPLP
analysis
of
this
sample
at
levels
exceeding
the
HBL.
TABLE
III±
29.Ð
ANALYTICAL
RESULTS
FOR
SPENT
FILTERS
WITH
CHROMIUM
(KM±
FB±
01)
Parameter
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
Drinking
water
HBLs
(mg/
l)
Arsenic
.............................................................................................................
<0.5
<0.5
1
0.005
0.0007
Chromium
........................................................................................................
41.0
<0.05
<0.05
20
Hexavalent
Chromium
.....................................................................................
16.8
2
NA
2
<0.022
0.05
Lead
.................................................................................................................
<5
<0.5
<0.03
0.015
1
Results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection.
2
NA
Not
applicable.
Typical
TCLP
leaching
solution
is
not
suitable
for
leachable
hexavalent
chromium
because
most
(or
all)
hexavalent
chromium
in
TCLP
waste
leachates
were
converted
to
trivalent
chromium.
The
leach
test
for
hexavalent
chromium
was
modified
by
replacing
the
typical
(TCLP/
SPLP)
solution
with
deionized
water.
What
Is
EPA's
Listing
Rationale
For
This
Waste?
As
previously
noted,
six
of
the
seven
generators
of
this
waste
report
managing
their
wastes
in
Subtitle
C
facilities
as
characteristically
hazardous
from
the
point
of
generation
through
ultimate
disposal.
We
did
not
conduct
risk
assessment
on
wastes
identified
as
hazardous
wastes
and
managed
in
Subtitle
C
facilities
because
listing
would
not
provide
any
significant
incremental
control
of
wastes
already
managed
under
Subtitle
C.
We
evaluated
the
small
volume
waste
(i.
e.,
2.3
MT/
yr)
generated
by
the
seventh
facility
that
decharacterizes
its
waste
before
landfilling
in
an
industrial
Subtitle
D
landfill.
Because
the
volume
of
this
waste
is
relatively
small,
we
used
a
screening
analysis
(described
in
section
III.
E.
3)
to
screen
the
potential
risk
to
groundwater
associated
with
landfilling
this
waste.
We
found
that
the
SPLP
data
for
arsenic
screens
out
because
the
volume
of
the
waste
generated
by
the
facility
is
insufficient
to
release
arsenic
at
levels
of
concern.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposal.
Our
analytical
data
demonstrate
that
the
waste
is
effectively
decharacterized
and
does
not
pose
risks
warranting
listing
for
chromium,
the
primary
constituent
of
concern
in
this
waste.
The
result
of
the
screening
analysis
for
arsenic,
the
only
constituent
present
in
the
waste's
leachate
at
levels
exceeding
the
HBL,
shows
that
the
arsenic
in
this
waste
does
not
pose
risk
to
human
health
and
the
environment.
Therefore,
we
propose
not
to
list
spent
filters
with
chromium.
(4)
Spent
filters
without
chromium
and
lead.
How
Is
This
Waste
Managed?
This
residual
is
usually
generated
as
part
of
the
initial
brine
purification
steps,
where
impurities
are
removed
from
the
brine
solution,
and
from
filtering
of
product
during
packaging.
Four
facilities
report
generating
this
type
of
waste.
Two
of
these
four
facilities
manage
their
wastes
as
nonhazardous
in
municipal
Subtitle
D
landfills.
One
facility
manages
its
waste
as
nonhazardous
in
an
industrial
Subtitle
D
landfill.
One
facility
sends
their
spent
filters
along
with
process
sludge
off
site
to
a
Subtitle
C
facility
for
stabilization
prior
to
disposal
in
a
Subtitle
C
landfill.
These
wastes
are
generated
in
very
small
volumes.
How
Was
This
Waste
Characterized?
We
collected
two
samples
(HT±
FB±
01
and
HT±
FB±
02)
from
one
facility.
These
two
samples
are
representative
of
wastes
in
this
category
that
are
land
disposed.
We
found
that
antimony,
arsenic,
boron,
hexavalent
chromium,
and
lead
in
the
TCLP
or
SPLP
waste
leachates
exceeded
their
HBLs.
We
also
found
that
cadmium
was
not
detected
in
the
leachates
at
a
detection
level
of
six
times
higher
than
its
HBL.
The
detection
limit
was
high
due
to
dilution
to
minimize
sample
matrix
interferences.
Information
on
constituents
of
concern
is
summarized
in
Table
III±
30.
TABLE
III±
30.Ð
ANALYTICAL
RESULTS
FOR
SPENT
FILTERS
WITHOUT
CHROMIUM
OR
LEAD
Parameter
HT±
FB±
01
HT±
FB±
02
HBL
(mg/
l)
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
Antimony
......................
34.1
0.018
<0.005
<5
0.012
<0.005
0.006
Arsenic
.........................
7.3
0.014
0.003
5.3
<0.005
<0.005
0.0007
Boron
............................
<50
6.1
<0.05
<50
0.67
<0.5
1.4
Cadmium
......................
22.5
<0.05
<0.05
<5
<0.05
<0.05
0.008
Cr,
+6
...........................
<0.8
NA
<0.02
2.8
L
NA
0.19
L
0.05
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
III±
30.Ð
ANALYTICAL
RESULTS
FOR
SPENT
FILTERS
WITHOUT
CHROMIUM
OR
LEADÐ
Continued
Parameter
HT±
FB±
01
HT±
FB±
02
HBL
(mg/
l)
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
Lead
.............................
8.7
0.024
0.06
7.1
0.020
0.012
0.015
L:
Concentration
reported
from
analysis
performed
outside
required
holding
time.
Value
should
be
considered
biased
low.
What
Management
Scenarios
Were
Assessed?
We
modeled
both
the
industrial
(0.6
MT/
year)
and
municipal
(2.8
MT/
year)
landfill
scenarios,
based
on
the
reported
management
practices.
We
used
the
SPLP
leachate
concentrations
to
evaluate
the
industrial
landfill
scenario.
The
constituents
of
concern
that
exceeded
their
respective
HBLs
in
the
SPLP
results
were
arsenic,
hexavalent
chromium,
and
lead.
We
evaluated
these
constituents
using
the
de
minimis
volume
screening
analysis,
as
described
in
section
III.
E.
3
of
today's
proposal.
The
analysis
suggests
that
hexavalent
chromium
and
lead
are
not
of
concern.
We
then
modeled
arsenic
using
our
standard
groundwater
model
for
the
industrial
landfill
scenario.
We
used
the
TCLP
leachate
concentrations
to
evaluate
the
municipal
landfill
scenario.
Using
the
de
minimis
volume
analysis,
we
screened
out
boron,
hexavalent
chromium,
and
lead.
We
then
conducted
full
groundwater
modeling
for
the
municipal
scenario
for
antimony,
arsenic,
and
cadmium.
What
Are
the
Results
of
EPA's
Risk
Assessment
for
This
Waste
When
Managed
in
an
Industrial
Subtitle
D
Landfill?
Our
risk
assessment
results
for
the
industrial
landfill
scenario,
summarized
below
in
Table
III±
31,
suggest
that
the
only
constituent
of
concern
that
required
modeling
(arsenic)
does
not
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
We
found
no
arsenic
cancer
risk
in
excess
of
1E±
08
at
the
95th
percentile
for
either
adult
or
child
exposure
scenarios.
Therefore,
we
believe
that
this
waste
when
managed
in
industrial
Subtitle
D
landfills
clearly
does
not
warrant
listing.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposal.
TABLE
III±
31.Ð
RISK
RESULTS
FOR
FILTERS
WITHOUT
CHROMIUM
AND
LEADÐ
INDUSTRIAL
SUBTITLE
D
LANDFILL
SCENARIO
Percentile
Arsenic
Adult
cancer
risk
Child
cancer
risk
90th
.......................
1E±
09
8E±
10
95th
.......................
5E±
09
4E±
09
What
Are
the
Results
of
EPA's
Risk
Assessment
for
This
Waste
When
Managed
in
Municipal
Subtitle
D
Landfills?
Our
risk
assessment
results
for
the
municipal
landfill
scenario,
summarized
below
in
Table
III±
32,
suggest
that
the
three
constituents
of
concern
(antimony,
arsenic,
and
cadmium)
do
not
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
The
hazard
quotients,
for
both
the
adult
and
child
exposure
scenarios,
of
antimony
are
less
than
0.01
at
the
95th
percentile,
and
of
cadmium,
are
less
than
0.001
at
the
95th
percentile.
We
found
no
arsenic
cancer
risk
in
excess
of
1E±
08
at
the
95th
percentile
for
either
adult
or
child
exposure
scenarios.
Therefore,
we
believe
that
this
waste
when
managed
in
municipal
Subtitle
D
landfills
does
not
warrant
listing.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposal.
TABLE
III±
32.
RISK
RESULTS
FOR
FILTERS
WITHOUT
CHROMIUM
AND
LEAD
MUNICIPAL
SUBTITLE
D
LANDFILL
SCENARIO
Percentile
Antimony
Arsenic
Cadmium
Adult
HQ
Child
HQ
Adult
cancer
risk
Child
cancer
risk
Adult
HQ
Child
HQ
90th
..............................................................................................
5E±
04
1E±
03
5E±
10
4E±
10
3E±
05
6E±
05
95th
..............................................................................................
2E±
03
4E±
03
5E±
09
4E±
09
1E±
04
3E±
04
(5)
Wastewaters
with
chromium
that
are
not
recycled
back
to
the
process.
How
Is
This
Waste
Managed
and
How
Is
It
Characterized?
Two
facilities
report
generating
this
wastewater
and
characterize
it
as
hazardous
(D002
and
D007).
One
facility
generates
11
MT
per
year
of
this
wastewater
from
its
on
site
laboratory
testings
of
the
electrolyte
in
the
electrolytic
cells,
the
excess
caustic
from
the
hydrogen
purification
step,
and
the
wastewater
from
the
production
of
sodium
chlorate
crystals.
The
facility
stores
the
wastewater
on
site
in
closed
tanks
before
sending
it
off
site
to
a
hazardous
waste
facility
for
treatment
and
disposal.
The
other
facility
generates
26,725
MT
per
year
of
this
wastewater
from
acid
washing
filters
and
anodes
to
remove
buildup
of
trace
metals
on
the
surface.
The
facility
combines
the
wastewaters
with
the
wastewaters
from
its
titanium
dioxide
production
process
and
treats
the
commingled
wastewaters
in
tanks.
The
treated
wastewater
is
then
discharged
to
on
site
surface
impoundments.
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
What
Is
EPA's
Listing
Rationale
for
This
Waste?
One
facility
identifies
the
waste
as
hazardous
and
manages
it
in
accordance
with
Subtitle
C
regulations.
We
believe
that
applicable
Subtitle
C
regulations
adequately
protect
against
mismanagement,
and
we
did
not
investigate
it
further.
For
the
other
facility,
in
Hamilton,
Mississippi,
we
evaluated
its
combined
wastewaters
and
solids
as
described
above
in
the
``
process
sludges
with
chromium
or
lead''
category.
Today's
proposal
separately
addresses
the
titanium
dioxide
wastes
that
are
commingled
with
this
sodium
chlorate
waste.
We
propose
not
to
list
these
wastes.
(6)
Other
wastewaters
that
do
not
contain
chromium
or
lead
and
are
not
recycled.
How
Is
This
Waste
Managed?
There
are
other
wastewaters
generated
from
several
points
of
the
process,
including
process
condensate,
cooling
waters,
and
ion
exchange
wastewater.
Four
facilities
reported
generating
these
wastewaters.
Two
facilities
generate
process
condensates
from
condensing
water
vapor
from
their
crystalizers,
steam
jets,
or
pad
water
evaporator.
Both
facilities
store
their
process
condensates
in
closed
tanks.
One
facility
neutralizes
the
condensate
prior
to
discharging
it
to
an
NPDES
permitted
outfall.
The
other
facility
does
not
treat
the
condensate,
but
tests
to
ensure
it
meets
its
State
Pollutant
Discharge
Elimination
System
permit
prior
to
discharge
to
a
river.
One
facility
generates
wastewater
from
regeneration
of
the
ion
exchange
unit
that
is
used
for
purification
of
the
brine.
The
wastewater
is
collected
in
a
tank
for
pH
neutralization
before
it
is
discharged
to
a
POTW.
One
facility
generates
wastewater
from
cooling
tower
blowdown,
chemical
storage
tank
scrubber
pad,
hydrogen
scrubber
pad,
and
water
demineralization
area.
These
wastewaters
are
piped
to
its
on
site
NPDES
facility
to
be
processed
and
discharged.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
these
wastewaters
as
hazardous.
We
evaluated
these
wastewaters
that
are
stored
and
treated
in
tanks
or
in
a
NPDES
permitted
facility.
We
found
that
these
wastewaters
do
not
pose
risks
warranting
regulation
during
treatment
because
there
are
no
exposure
pathways
of
concern.
The
wastewater
treatment
tanks
and
the
wastewater
treatment
facility
provide
sufficient
structural
integrity
and
have
secondary
containment
areas
to
minimize
potential
releases
to
groundwater.
We
are
unlikely
to
find
potential
air
releases
from
these
tanks
or
the
permitted
facility
as
neither
volatile
contaminants
nor
airborne
particulates
are
likely
to
be
present
in
these
wastewaters.
12.
Sodium
Dichromate
a.
Summary.
We
have
evaluated
the
wastes,
waste
management
practices,
and
potential
risk
exposure
pathways
associated
with
the
sodium
dichromate
production
processes
and
propose
not
to
list
any
wastes
from
this
industry
as
hazardous
wastes
under
Subtitle
C
of
RCRA.
These
wastes
do
not
meet
the
criteria
listed
under
40
CFR
261.11(
a)(
3)
for
listing
a
waste
as
hazardous.
They
do
not
pose
a
substantial
present
or
potential
threat
to
human
health
or
the
environment.
We
have
identified
no
risks
of
concern
associated
with
the
current
management
of
these
wastes.
Note
that
certain
wastes
from
this
sector
are
exempt
mineral
processing
wastes
which
are
not
within
the
scope
of
today's
listing
proposal.
b.
Description
of
the
sodium
dichromate
industry.
Two
facilities
in
the
United
States
produce
sodium
dichromate;
one
in
North
Carolina
and
one
in
Texas.
Both
facilities
sell
their
product
on
the
open
market
in
addition
to
using
the
material
as
a
feedstock
for
various
manufacturing
processes
onsite
The
majority
of
sodium
dichromate
is
used
as
a
feedstock
for
the
production
of
chromic
acid.
It
is
also
used
in
a
wide
variety
of
other
uses.
For
more
detailed
information
concerning
this
industry,
see
``
Sodium
Dichromate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
The
two
sodium
dichromate
production
facilities
use
somewhat
different
manufacturing
processes
and
generate
somewhat
different
wastes.
Both
facilities
use
imported
chromite
ore
as
their
primary
feedstock.
They
dry
and
grind
the
ore
and
feed
it
into
a
roasting
kiln
or
hearth
with
other
materials
such
as
soda
ash,
lime,
and
sodium
hydroxide.
The
facilities
roast,
then
quench
and
leach
the
ore
with
water,
producing
sodium
chromate
solution
and
solid
ore
residues.
Both
facilities
return
the
ore
residues
to
the
manufacturing
process
for
further
roasting
and
leaching.
The
facilities
purify
the
resulting
sodium
chromate
solution
product
stream
by
adjusting
its
pH,
treating
it
with
sodium
carbonate,
and,
at
the
Texas
facility,
sodium
dichromate,
and
filtering
out
the
resulting
solid
impurities.
The
two
facilities'
processes
diverge
significantly
at
this
point.
At
the
Texas
facility,
the
sodium
chromate
solution
is
either
crystallized
and
sold
or
processed
electrolytically
to
convert
the
sodium
chromate
to
sodium
dichromate.
The
electrolytic
cell
system
also
produces
sodium
hydroxide
solution
which,
the
facility
reports,
they
sell.
The
North
Carolina
facility
converts
the
sodium
chromate
solution
to
sodium
dichromate
through
acidification,
and
the
sodium
dichromate
is
then
partially
evaporated.
The
acidification
process
also
produces
sodium
sulfate
and
lower
purity
sodium
sulfate
``
saltcake,
''
both
of
which
the
facility
sells.
The
sodium
dichromate
is
then
either
used
in
liquid
form
or
further
evaporated
to
produce
a
crystalline
product.
c.
How
does
the
Bevill
Exclusion
apply
to
wastes
from
the
sodium
dichromate
manufacturing
processes?
The
sodium
dichromate
manufacturing
facilities
produce
two
types
of
residuals
which
are
eligible
for
the
Bevill
exemption
once
disposed:
beneficiation
wastes
(See
40
CFR
261.4(
b)(
7)(
i))
and
mineral
processing
wastes
referred
to
as
treated
residue
from
roasting/
leaching
of
chromium
ore
(see
40
CFR
261.4(
b)(
7)(
ii)(
N)).
Under
the
Bevill
exemption,
any
wastes
generated
from
beneficiation
of
ores,
such
as
crushing,
mixing,
and
milling,
are
Bevill
exempt.
Both
facilities
beneficiate
ore
by
drying
and
grinding
chromite
ore
and
mixing
the
ore
with
other
ingredients
prior
to
placement
in
the
roasting
kiln
and
generate
air
pollution
control
dusts
from
these
processes.
However,
the
residuals
from
these
processes,
which
would
be
Bevill
exempt,
are
not
disposed
of
but
rather
captured
and
returned
to
the
process
from
which
they
originated
for
chromium
recovery.
In
terms
of
when
beneficiation
stops
and
mineral
processing
starts,
EPA
determined
in
1989
that
the
roasting/
leaching
of
chromium
ore
to
produce
sodium
chromate
is
mineral
processing
rather
than
beneficiation.
54
FR
36592
(September
1,
1989)
stated:
``
A
specific
exception
to
the
above
categorization
system
applies
when
the
roasting/
leaching
sequence
produces
a
final
or
intermediate
product
that
does
not
undergo
further
beneficiation
or
processing
steps
(e.
g.,
the
leach
liquor
serves
as
an
input
to
inorganic
chemical
manufacturing).
In
this
type
of
situation,
the
Agency
believes
that
the
operation
is
most
appropriately
considered
a
processing,
rather
than
a
beneficiation,
operation.
In
the
context
of
this
rulemaking,
one
candidate
Bevill
waste
(roast/
leach
ore
residue
from
primary
chrome
ore
processing)
is
affected
by
this
distinction;
EPA
believes
that
this
material
is
clearly
a
waste
from
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Vol.
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179
/
Thursday,
September
14,
2000
/
Proposed
Rules
processing,
rather
than
beneficiation,
of
an
ore
or
mineral.
''
The
wastes
generated
after
mineral
processing
begins
are
not
Bevill
exempt
unless
and
until
they
become
treated
residue
from
the
roasting/
leaching
of
chromium
ore
as
specified
in
40
CFR
261.4(
b)(
7)(
ii)(
N).
The
wastes
eligible
for
the
exclusion,
once
they
are
treated,
are
referred
to
later
in
this
preamble
and
associated
background
documents
as
spent
post
leach,
spent
postneutralization
ore
residue,
and
waste
heat
boiler
washout.
These
wastes
are
generated
from
roasting
and
leaching
(including
precipitation
and
filtration
to
remove
the
resulting
impurities)
of
chromite
ore.
Both
facilities
generate
these
wastes,
treat
them
in
on
site
treatment
systems,
and
dispose
of
them
in
on
site
surface
impoundments.
Note
that
in
the
January
23,
1990
Federal
Register,
EPA
stated
that
the
Bevill
exemption
applies
to
``
only
those
solids
which
are
entrained
in
the
slurry
as
it
leaves
the
treatment
facility
and
which
settle
out
in
disposal
impoundments.
''
Wastes
generated
following
the
roasting/
leaching
processes
to
produce
sodium
chromate
for
sodium
dichromate
production
are
not
Bevill
exempt
because
they
are
not
from
the
roasting/
leaching
of
chromite
ore.
Wastes
generated
at
these
facilities
that
are
not
Bevill
exempt
include
sodium
chromate
evaporation
unit
wastewaters
(Texas
facility),
sodium
dichromate
evaporation
unit
wastewaters
(Texas
facility),
caustic
filter
sludge
(Texas
facility),
and
salt
cake
drier
scrubber
wastewater
(North
Carolina
facility).
As
described
below,
both
facilities
in
the
sodium
dichromate
manufacturing
industry
commingle
wastes
during
the
treatment
process,
ultimately
producing
a
commingled
treatment
residue
which
is
a
mixture
of
Bevill
exempt
wastes
and
wastes
which
do
not
qualify
for
the
Bevill
exemption.
In
general,
the
majority
of
these
mixtures
consist
of
Bevill
exempt
wastes.
Mixing
Bevill
exempt
wastes
with
non
hazardous
wastes
does
not
affect
the
regulatory
status
of
the
Bevill
wastes,
but
it
also
does
not
conversely
extend
Bevill
exempt
status
to
the
non
hazardous
wastes
in
the
mixture
(see
63
FR
28595).
Therefore,
in
this
rulemaking
we
have
addressed
that
portion
of
the
treatment
residue
mixture
which
derives
from
wastes
which
do
not
qualify
for
the
Bevill
exemption.
In
addition,
in
general,
if
any
of
the
non
Bevill
wastes
exhibit
a
characteristic
and
is
mixed
with
the
Bevill
wastes,
the
entire
mixture
may
become
subject
to
Subtitle
C
based
on
the
Bevill
mixture
rule
(See
40
CFR
261.3(
a)(
2)).
d.
What
kinds
of
wastes
are
generated
by
these
processes?
Table
III±
33
below
briefly
lists
the
facility
reported
residuals
from
the
sodium
dichromate
manufacturing
industry,
total
industry
residual
volumes
generated
in
1998,
RCRA
hazard
codes,
and
residual
management
practices.
TABLE
III±
33.Ð
SODIUM
DICHROMATE
PRODUCTION
RESIDUALS
Waste
category
1998
volumes
(MT)
Reported
waste
codes
Sequential
management
practices
North
Carolina
Facility
Residuals
commingled
in
spent
ore
residue
treatment
unit
1
:
Spent
post
neutralization
ore
residue
(Bevill
exempt
after
treatment).
146,937
............
D007
.................
Sent
on
site
to
tank
based
spent
ore
residue
treatment
unit
with
NPDES
permitted
discharge.
Spent
post
leach
ore
residue
(Bevill
exempt
after
treatment).
25,930
..............
D007
.................
Sent
on
site
to
tank
based
spent
ore
residue
treatment
unit
with
NPDES
permitted
discharge.
Saltcake
drier
scrubber
wastewater
...................
13,851
..............
D007
.................
Sent
on
site
to
tank
based
spent
ore
residue
treatment
unit
with
NPDES
permitted
discharge.
Waste
heat
boiler
washout
(Bevill
exempt
after
treatment).
70
.....................
D007
.................
Sent
on
site
to
tank
based
spent
ore
residue
treatment
unit
with
NPDES
permitted
discharge.
Residuals
disposed
of
on
site:
Reduced
chromium
treatment
residues
commingled
Bevill
exempt
and
non
exempt
residues
129,503
............
None
.................
Sent
to
on
site
industrial
Subtitle
D
disposal
unit.
Commingled
treated
wastewaters
(commingled
Bevill
exempt
and
non
exempt
residues).
920,161
............
None
.................
Passed
through
sand
filters
then
discharged
directly
under
NPDES
permit
or
sent
to
on
site
industrial
Subtitle
D
disposal
unit.
Residuals
disposed
of
off
site:
Chromium
contaminated
filters,
membranes,
and
other
plant
waste.
67
.....................
D007
.................
Stored
in
on
site
roll
off
bin
before
off
site
treatment
and
landfill
disposal
at
Subtitle
C
facility.
Spent
sand
filter
sands
(commingled
Bevill
exempt
and
non
exempt
residues).
21.7
(1997)
.......
None
.................
Stored
in
on
site
drums
or
roll
off
bins
before
disposal
in
off
site
industrial
Subtitle
D
landfill.
Texas
Facility
Residuals
commingled
in
spent
ore
residue
treatment
unit:
Spent
post
neutralization
ore
residue
(Bevill
exempt
after
treatment).
60,000
..............
D007
.................
Sent
to
on
site,
covered,
tank
based,
spent
ore
residue
treatment
unit
with
NPDES
permitted
discharge
Caustic
filter
sludge
............................................
80
.....................
D002
.................
Sent
to
on
site,
covered,
tank
based,
spent
ore
residue
treatment
unit
with
NPDES
permitted
discharge
Residuals
commingled
in
wastewater
treatment
unit
2
:
Sodium
dichromate
evaporation
unit
wastewater
~2,500
...............
None
.................
Sent
to
on
site,
tank
based
wastewater
treatment
unit
with
NPDES
permitted
discharge.
Sodium
chromate
evaporation
unit
wastewater
~300
..................
None
.................
Sent
to
on
site,
tank
based
wastewater
treatment
unit
with
NPDES
permitted
discharge.
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/
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14,
2000
/
Proposed
Rules
TABLE
III±
33.Ð
SODIUM
DICHROMATE
PRODUCTION
RESIDUALSÐ
Continued
Waste
category
1998
volumes
(MT)
Reported
waste
codes
Sequential
management
practices
Residuals
disposed
of
on
site:
Reduced
chromium
treatment
residues
from
spent
ore
residue
treatment
unit
(commingled
Bevill
exempt
and
non
exempt
residues).
60,000
..............
None
.................
Sent
to
on
site
industrial
Subtitle
D,
double
lined
surface
impoundment
for
dewatering
and
disposal
Impoundment
has
NPDES
permitted
outflow
Reduced
chromium
treatment
residues
from
wastewater
treatment
unit
(commingled
Bevill
exempt
and
non
exempt
residues).
~30,000
(1999)
None
.................
Sent
to
on
site
industrial
Subtitle
D,
double
lined
surface
impoundment
for
dewatering
and
disposal
Impoundment
has
NPDES
permitted
outflow
Commingled
treated
wastewaters
(commingled
Bevill
exempt
and
non
exempt
residues).
186,515
............
None
.................
Sent
to
on
site
industrial
Subtitle
D
surface
impoundment
filtered
through
sand
filters,
then
discharged
directly
under
NPDES
permit.
Residuals
disposed
of
off
site:
Process
filters
and
membranes,
baghouse
bags,
chromium
contaminated
empty
containers
and
other
plant
wastes.
24
.....................
D007
.................
Stored
in
on
site
roll
off
box
before
treatment
and
landfill
disposal
at
Subtitle
C
facility.
Spent
sand
filter
sands
(commingled
Bevill
exempt
and
non
exempt
wastes).
~2
MT
once
every
two
years.
None
.................
Placed
in
on
site
non
hazardous
soil
waste
bin
and
then
disposed
of
in
off
site
industrial
Subtitle
D
landfill.
1
Remediation
well
water,
cooling
tower
blowdown,
and
stormwater
are
also
treated
in
this
unit.
These
materials
are
beyond
the
scope
of
this
listing
determination.
2
Stormwater
and
remediation
well
water
are
also
treated
in
this
unit.
Contaminated
media
are
not
within
the
scope
of
this
listing
determination.
In
addition
to
these
wastes,
the
sodium
dichromate
manufacturers
produce
residuals
which
are
either
piped
back
to
the
production
process
or
sold
for
use
in
other
manufacturing
processes.
Air
pollution
control
devices
capture
materials
that
are
returned
to
their
units
of
origin
or
to
other
manufacturing
process
units.
At
the
North
Carolina
facility,
ore
residue
washwaters
and
calcium
carbonate
residuals
are
returned
to
the
production
process
for
chromium
recovery.
Chromium
bearing
solution
from
the
saltcake
purification
process
is
directly
reused
in
the
roasted
ore
quench,
leach
and
filter
process.
At
the
Texas
facility,
chromium
containing
residuals
from
scrubbers
on
the
hearth
and
on
the
sodium
chromate
and
dichromate
evaporation/
crystallization
units
are
reused
in
the
hearth
kiln
and
quench
tank
units.
Because
these
materials
are
reused
in
production
units
in
ways
that
present
low
potential
for
release,
and
because
we
evaluated
process
wastes
generated
after
the
secondary
material
is
reinserted
into
the
process,
we
do
not
believe
that
these
materials
present
significant
risk.
The
North
Carolina
facility
also
produces
for
sale
sodium
sulfate
``
saltcake''
and
purified
sodium
sulfate
anhydrous
from
the
sodium
dichromate
production
process.
The
Texas
facility
sells
hydroxide
solution
from
their
sodium
dichromate
production
process.
We
found
no
information
indicating
that
the
facilities
which
purchase
these
materials
burn
them
for
energy
recovery
or
incorporate
them
into
products
that
are
used
on
the
land
(use
constituting
disposal).
Since
these
processes
are
outside
the
scope
of
the
consent
decree
we
did
not
evaluate
any
of
these
materials
further.
We
did
however,
evaluate
some
residuals
produced
onsite
at
the
North
Carolina
and
Texas
facilities
during
the
preparation
of
the
materials
that
are
sold.
See
the
discussions
in
the
sections
below
of
salt
cake
drier
scrubber
water
and
caustic
filter
sludge.
Finally,
the
North
Carolina
facility
produces
some
off
specification
product,
which
it
reinserts
into
the
sodium
dichromate
manufacturing
process.
Off
specification
product,
when
reinserted
without
reclamation
into
the
process
from
where
it
originated,
is
not
a
solid
waste.
See
the
``
Sodium
Dichromate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
more
details
on
these
residuals.
e.
Waste
characterization
and
Agency
evaluation.
Chromium
is
the
primary
constituent
of
concern
in
the
wastes
from
both
facilities.
Chromium
occurs
in
several
production
wastes
at
high
levels,
in
some
cases
exceeding
the
TC
level
(5.0
mg/
L)
in
TCLP
leachate
samples.
These
wastes
are
coded
as
hazardous
(D007).
Both
facilities
treat
some
of
their
D007
wastes
on
site
and
send
other
D007
wastes
off
site
for
treatment
and
disposal
at
permitted
Subtitle
C
hazardous
waste
facilities.
Various
other
wastes
which
fall
below
D007
regulatory
levels
are
either
treated
on
site
or
sent
off
site
for
disposal.
No
other
constituents
of
concern
were
reported
to
be
present
in
the
wastes
at
levels
of
concern.
We
propose
not
to
list
any
of
the
wastes
from
the
sodium
dichromate
manufacturing
industry.
Many
wastes
from
this
industry
are
Bevill
exempt
once
treated,
and
therefore
not
within
the
scope
of
the
consent
decree
requirements.
Other
wastes
are
characteristically
hazardous
and
are
managed
at
permitted
Subtitle
C
facilities
off
site.
Some
wastes
did
not
exhibit
constituents
at
levels
of
concern
for
purposes
of
a
listing
given
the
nature
of
their
management
and
disposal.
The
main
constituent
of
concern,
chromium,
is
treated
on
site
for
many
of
the
wastes.
Several
wastes
from
each
of
the
facilities
are
disposed
of
in
a
treated
form,
rather
than
an
as
generated
form.
In
general,
we
focused
our
evaluation
on
the
treated
form
of
wastes
because
it
is
ultimately
only
the
treated
wastes
which
are
disposed.
The
sections
below
describe
how
wastes
are
generated
and
managed
at
the
two
sodium
dichromate
manufacturing
facilities,
each
with
its
own
production
process,
and
our
rationale
for
proposing
not
to
list
the
wastes.
We
solicit
comments
on
the
proposed
listing
decisions
described
below.
(1)
North
Carolina
Facility.
(a)
Residuals
Commingled
in
Spent
Ore
Residue
Treatment
Unit.
The
North
Carolina
facility
commingles
and
treats
several
characteristic
wastes
from
sodium
dichromate
manufacturing
in
an
on
site,
tank
based
treatment
unit
at
the
North
Carolina
facility.
These
four
sodium
dichromate
manufacturing
wastes
are:
ÐWaste
heat
boiler
washout,
which
are
accumulated
solids
from
the
internal
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/
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14,
2000
/
Proposed
Rules
components
of
the
roasting
kiln
waste
heat
boilers
(Bevill
exempt
after
treatment)
ÐSpent
post
leach
ore
residue
(Bevill
exempt
after
treatment)
ÐSpent
post
neutralization
ore
residue
(Bevill
exempt
after
treatment)
ÐSaltcake
drier
scrubber
wastewater
We
consider
the
saltcake
drier
scrubber
wastewater
to
be
a
wastestream
associated
with
the
production
of
sodium
sulfate
at
the
North
Carolina
facility,
rather
than
a
sodium
dichromate
manufacturing
waste.
Nevertheless,
we
chose
to
exercise
our
discretion
to
evaluate
the
risk
posed
by
the
treated
and
untreated
form
of
this
residue.
As
explained
below,
we
did
not
find
risks
warranting
listing.
All
four
wastes
catalogued
above
go
directly
from
their
points
of
generation
to
the
on
site
spent
ore
residue
treatment
unit
without
intervening
storage.
The
facility
treats
non
contact
cooling
tower
blowdown,
remediation
well
water,
and
stormwater
in
the
treatment
unit
as
well.
The
four
manufacturing
wastes
comprise
approximately
60±
65%
by
volume
of
the
wastes
entering
the
treatment
unit.
The
entire
treatment
process
takes
place
in
a
series
of
tanks
with
secondary
containment.
Treatment
consists
of
conversion
of
hexavalent
chromium
in
the
wastes
to
trivalent
chromium
with
pickle
liquor
(ferrous
chloride
reducing
agent).
Trivalent
chromium
is
a
generally
less
toxic
and
less
soluble
form
of
chromium.
Wastes
containing
a
high
percentage
of
solids
(waste
heat
boiler
washout,
spent
post
leach
ore
residue,
and
spent
post
neutralization
ore
residue)
are
also
neutralized
with
lime
slurry
in
order
to
increase
precipitation
of
trivalent
chromium
compounds
out
of
solution.
The
treatment
sludge
is
then
thickened
in
a
series
of
clarifier
tanks.
Limestone
is
added
to
the
thickened
sludge
to
further
stabilize
chromium
and
other
metals.
All
of
the
tanks
in
the
treatment
train
have
secondary
containment
and
some
are
covered.
Treated
wastewaters,
after
passing
through
sand
filters,
discharge
from
the
treatment
unit
under
an
NPDES
permit
or
travel
with
the
treated
solid
residues
to
the
on
site
industrial
Subtitle
D
disposal
unit
(see
section
III.
F.
12.
e(
1)(
b)
ii
below
regarding
the
commingled
treated
wastewaters).
The
Bevill
exemption
applies
to
the
waste
heat
boiler
washout,
spent
postleach
ore
residue,
and
spent
postneutralization
ore
residue
only
after
the
wastes
are
treated.
We
evaluated
the
potential
for
releases
from
the
treatment
tanks.
We
assumed
that
the
tanks
were
intact
structures
with
minimal
potential
for
releases
to
groundwater.
We
do
not
anticipate
significant
air
releases
because
the
wastes
do
not
contain
volatile
constituents
and
have
high
moisture
content.
Also,
some
of
the
tanks
have
covers
which
further
reduce
the
possibility
of
air
releases.
We
are
proposing
not
to
list
any
of
these
four
wastestreams
undergoing
treatment
in
this
tank
system.
(b)
Residuals
Disposed
of
On
Site.
(i)
Commingled
reduced
chromium
treatment
residues.
The
reduced
chromium
sludge
from
the
on
site
spent
ore
residue
treatment
unit
is
slurried
and
conveyed
directly
from
the
treatment
unit
to
one
of
two
on
site
industrial
Subtitle
D
disposal
units
(former
limestone
quarries).
Of
the
several
treatment
residues
contributing
to
the
final
commingled
treatment
residue,
only
one
falls
within
the
scope
of
today's
listing
proposal;
residue
from
treatment
of
saltcake
drier
scrubber
wastewater
(we
believe
this
is
not
within
scope
of
the
consent
decree
but
are
evaluating
it
in
this
rule
making).
Residues
from
the
treatment
of
waste
heat
boiler
washout,
spent
post
leach
ore
residue,
and
spent
postneutralization
ore
residue
are
Bevill
exempt
mineral
processing
wastes
beyond
the
scope
of
today's
listing
proposal
(see
Section
III.
F.
12(
c)).
Stormwater
and
remediation
well
water
are
contaminated
media
whose
treatment
residues
we
also
consider
to
be
beyond
the
scope
of
the
consent
decree
(see
section
III.
B
of
today's
proposal).
Therefore,
we
do
not
consider
the
risks
posed
by
these
treatment
residues.
According
to
information
the
facility
submitted
in
their
RCRA
Section
3007
Survey
response,
the
only
potential
constituent
of
concern
in
the
untreated
saltcake
drier
scrubber
wastewater
is
chromium,
detected
at
a
level
of
6
mg/
L.
Therefore,
chromium
is
the
only
constituent
we
considered
when
assessing
the
level
of
risk
from
saltcake
drier
scrubber
wastewater
treatment
residues.
Of
the
total
mass
of
chromium
found
in
the
commingled
reduced
chromium
treatment
residues,
the
saltcake
drier
scrubber
wastewater
contributes
approximately
0.001%.
This
estimate
is
based
on
calculations
using
information
the
North
Carolina
facility
provided
to
us
on
chromium
contents
and
tonnages
of
waste
exiting
the
spent
ore
residue
treatment
unit.
Both
the
information
and
the
calculations
are
further
detailed
in
the
``
Sodium
Dichromate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination.
''
We
found
the
treatment
residues
from
saltcake
drier
scrubber
solution
to
pose
no
significant
risks
to
groundwater.
After
treatment
for
hexavalent
chromium,
the
commingled
reduced
chromium
treatment
residues
from
1998
showed
weekly
TCLP
analysis
levels
of
leachable
chromium
in
the
range
of
0.01±
1.00
mg/
L
for
composite
samples
and
<0.01±
0.76
mg/
L
for
grab
samples.
Assuming
that
the
saltcake
drier
scrubber
wastewater's
percent
contribution
to
total
chromium
in
the
commingled
residues
is
equal
to
its
percent
contribution
to
total
chromium
leaching
from
the
commingled
residues
(0.001%),
the
saltcake
scrubber
solution
was
responsible
for
TCLP
leaching
levels
of
1´10
´7
to
1´10
´5
mg/
L
for
composite
samples
and
<3´10
´7
to
2.28´10
´5
mg/
L
for
grab
samples.
The
HBL
for
ingestion
of
hexavalent
chromium
is
0.047
mg/
L
and
23
mg/
L
for
trivalent
chromium.
The
AWQC
for
hexavalent
chromium
is
0.011
mg/
L
and
0.74
mg/
L
for
trivalent
chromium.
Even
at
a
maximum
leaching
level
of
1´10
´5
mg/
L,
the
leachable
chromium
contribution
of
the
saltcake
drier
scrubber
wastewater
indicates
a
very
low
level
of
risk
to
groundwater.
The
treated
wastes
are
disposed
in
an
uncovered
disposal
unit
that
resembles
a
surface
impoundment.
However,
given
the
inorganic,
nonvolatile
nature
of
the
treated
wastes,
we
do
not
believe
they
pose
a
risk
through
airborne
pathways.
Given
the
low
level
of
chromium
leaching
attributable
to
the
one
treatment
residue
within
the
scope
of
today's
listing
proposal
and
the
lack
of
volatile
constituents
of
concern,
we
propose
not
to
list
residues
deriving
from
the
treatment
of
saltcake
drier
scrubber
wastewater.
(ii)
Commingled
treated
wastewaters.
The
spent
ore
residue
treatment
unit
described
in
the
sections
above
has
clarifier
units
which
discharge
a
wastewater
stream
to
tank
based
sand
filters.
After
passing
through
sand
filters,
the
treated
wastewaters
discharge
through
an
NPDES
permitted
outfall.
These
wastewaters
are
a
mixture
of
nonBevill
exempt
and
Bevill
exempt
treatment
residues,
and
other
treatment
residues
beyond
the
scope
of
the
consent
decree.
The
solids
suspended
in
the
wastewaters
are
a
mixture
of
Bevill
exempt
and
non
Bevill
exempt
treatment
residues.
The
liquid
portion,
the
majority
of
this
wastestream,
is
a
mixture
of
non
Bevill
exempt
residues,
some
of
which
are
within
the
scope
of
this
listing
determination,
and
some
of
which
derive
from
treatment
of
contaminated
media
and
are
therefore
not
with
the
scope
of
this
listing
determination.
We
did
not
find
any
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42
http://
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enviro/
index_java.
html.
43
As
described
in
Section
III.
E.
3,
we
used
engineering
judgment
to
screen
out
constituents
with
concentrations
within
a
factor
of
two
of
the
HBL.
significant
potential
for
releases
from
the
tanks.
(We
assess
spent
filter
media
from
the
sand
filters
separately
in
section
III.
F.
12.
e(
1)(
c)
ii
below.)
We
concluded
that
the
NPDES
discharge
is
exempt
from
RCRA
regulation.
A
portion
of
the
commingled
treated
wastewaters
remains
with
the
commingled
reduced
chromium
treatment
residues
discharged
for
disposal
to
the
facility's
on
site
industrial
Subtitle
D
disposal
units.
The
facility
also
adds
water
to
this
mixture
from
either
the
nearby
Northeast
Cape
Fear
River
or
the
quarry
in
order
to
help
slurry
and
convey
the
residues
to
the
disposal
units.
The
liquids
which
separate
from
the
settled
treatment
residues
in
the
facility's
disposal
units
are
not
Bevill
exempt
wastes
(see
Section
III.
F.
12.
c).
Because
these
liquids
derive
from
the
same
treatment
unit
from
which
the
NPDES
discharged
wastewaters
discussed
above
derive,
we
are
assuming
their
chemical
composition
is
very
similar
to
that
of
the
wastewaters
discharged
under
the
facility's
NPDES
permit.
We
used
NPDES
permit
discharge
data,
available
to
the
public
from
the
EPA's
Envirofacts
database,
42
as
a
surrogate
for
characterization
of
this
wastewater
(see
discussion
of
SPLP
filtrate
in
Section
III.
E.
3).
The
exposure
pathway
of
concern
is
the
groundwater
underlying
the
facility's
disposal
units
and
consumption
of
the
groundwater
as
drinking
water.
According
to
the
North
Carolina
facility's
NPDES
permit,
the
facility
is
allowed
to
discharge
0.31
pounds
per
day
of
hexavalent
chromium
to
the
Northeast
Cape
Fear
River.
Given
the
amount
of
treated
wastewater
reported
to
be
discharged
in
1998
and
using
the
permit
loading
as
an
upperbound
value,
we
estimate
that
the
facility
produced
an
NPDES
effluent
with
an
average
hexavalent
chromium
concentration
of
0.056
mg/
L.
This
concentration
is
less
than
twice
the
HBL
for
hexavalent
chromium
(0.047
mg/
L).
43
However,
according
to
NPDES
compliance
monitoring
data
for
the
facility,
no
hexavalent
chromium
was
detected
in
the
facility's
NPDES
effluent
in
1998.
Therefore,
it
is
likely
that
the
actual
concentration
of
hexavalent
chromium
in
the
facility's
commingled
treated
wastewaters
is
less
than
the
concentration
the
facility
is
permitted
to
release.
According
to
the
North
Carolina
facility's
NPDES
permit,
the
facility
is
also
permitted
to
discharge
2.72
pounds
of
combined
hexavalent
and
trivalent
chromium
per
day.
Making
the
conservative
assumption
that
all
2.72
pounds
of
chromium
are
trivalent
chromium
and
given
the
amount
of
treated
wastewater
discharged
in
1998,
we
estimated
that
the
facility
produced
an
NPDES
effluent
with
an
average
chromium
concentration
of
0.49
mg/
L,
which
is
less
than
23
mg/
L,
the
HBL
for
trivalent
chromium.
Actual
reported
levels
of
total
chromium
release
were
well
below
the
permit
limit.
Given
that
the
levels
of
chromium
present
in
the
on
site
disposal
unit
liquids
are
less
than
or
within
a
factor
of
two
of
the
HBLs,
we
do
not
believe
they
pose
a
risk
to
human
health
or
the
environment
through
groundwater
underlying
the
disposal
unit
that
supports
listing
these
wastewaters
as
a
hazardous
waste.
(c)
Residuals
Disposed
of
Off
Site.
(i)
Chromium
contaminated
filters,
membranes,
and
other
plant
wastes.
This
waste
category
from
the
North
Carolina
facility
includes
spent
filters,
membranes,
and
various
other
plant
wastes
which
exceed
the
TC
level
for
chromium.
The
wastes
are
stored
in
a
closed
roll
off
bin
on
site
before
being
sent
off
site
to
a
permitted
Subtitle
C
facility
for
treatment
and
disposal
in
a
landfill.
We
feel
that
applicable
Subtitle
C
regulations
adequately
prevent
mismanagement
and
therefore
propose
not
to
list
these
wastes.
(ii)
Spent
sand
filter
sands.
The
North
Carolina
facility
generates
waste
sand
material
from
the
spent
ore
residue
treatment
unit
sand
filters
which
filter
treated
wastewaters
prior
to
their
NPDES
permitted
discharge.
The
purpose
of
the
sand
filters
is
to
remove
any
residual
solids
which
the
treatment
unit
clarifiers
fail
to
remove
upstream
in
the
treatment
process.
Since
the
clarifiers
capture
the
majority
of
the
solids,
the
sand
filters
capture
smaller
amounts
of
treatment
residue.
The
most
recent
disposal
of
sand
from
the
filters
took
place
in
1997.
The
facility
stores
the
spent
sand
in
closed
drums
or
rolloff
bins
on
site
before
disposing
of
them
in
an
off
site
industrial
Subtitle
D
solid
waste
landfill.
According
to
information
submitted
to
EPA
by
the
North
Carolina
facility,
this
residue
does
not
exhibit
any
constituent
above
the
TC
level
according
to
TCLP
leachate
analysis.
The
only
detected
constituent
of
potential
concern
was
chromium,
at
a
level
of
0.2
mg/
L.
Residue
from
treatment
of
saltcake
drier
scrubber
wastewater
is
the
only
residue
contributing
to
the
chromium
levels
in
the
spent
sand
filters
which
also
falls
within
the
scope
of
today's
listing
proposal.
All
other
wastes
are
either
Bevill
exempt
wastes
or
treatment
residues
from
contaminated
media
or
non
contact
cooling
water,
none
of
which
falls
within
the
scope
of
the
consent
decree.
As
discussed
in
section
III.
F.
12.
e(
1)(
b),
the
saltcake
drier
scrubber
solution
contributes
approximately
0.001%
of
the
total
chromium
exiting
the
spent
ore
residue
treatment
unit.
Assuming
that
a
waste's
percent
contribution
to
total
chromium
exiting
the
treatment
unit
is
equal
to
its
percent
contribution
to
total
chromium
leaching
from
waste
exiting
the
unit,
the
figures
above
indicate
a
TCLP
leaching
level
of
2´10
´6
mg/
L
due
to
the
contributions
of
the
saltcake
drier
scrubber
wastewater.
The
HBL
for
hexavalent
chromium
is
0.047
mg/
L
and
23
mg/
L
for
trivalent
chromium.
The
AWQC
for
hexavalent
chromium
is
0.011
mg/
L
and
0.74
mg/
L
for
trivalent
chromium.
At
a
level
of
2´10
´6
mg/
L,
the
leachable
chromium
contribution
of
the
saltcake
drier
scrubber
wastewater
presents
a
very
low
level
of
risk.
The
waste
is
inorganic
in
nature
and
therefore
we
do
not
expect
it
to
contain
volatile
constituents
of
concern.
In
addition,
the
waste
is
stored
before
disposal
in
a
closed
container.
We
do
not
believe,
therefore,
that
this
waste
poses
a
risk
via
airborne
pathways.
Given
the
low
level
of
risk
posed
by
the
saltcake
drier
scrubber
wastewater
treatment
residue
contribution
to
leachable
chromium
levels
in
the
spent
sand
filters
and
its
nonvolatile
nature,
we
propose
not
to
list
this
waste.
(2)
Texas
Facility.
(a)
Residuals
Commingled
in
On
Site
Treatment
Units.
At
the
Texas
facility,
commingling
and
treatment
of
four
untreated
wastes
takes
place
in
two
different
on
site,
tank
based
treatment
units.
The
treatment
residues
from
the
two
treatment
units
are
then
codisposed
in
an
on
site,
Subtitle
D
treatment
surface
impoundment.
The
first
treatment
unit,
the
spent
ore
residue
treatment
unit,
treats
the
following
two
sodium
dichromate
manufacturing
wastestreams:
Ðspent
post
neutralization
ore
residue
(Bevill
exempt
after
treatment)
Ðcaustic
filter
sludge
from
filtration
of
sodium
hydroxide
We
consider
caustic
filter
sludge
to
be
a
wastestream
associated
with
the
production
of
sodium
hydroxide
rather
than
a
sodium
dichromate
manufacturing
waste.
Nevertheless,
we
chose
to
exercise
our
discretion
to
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179
/
Thursday,
September
14,
2000
/
Proposed
Rules
evaluate
the
risk
posed
by
the
treated
and
untreated
forms
of
this
residue.
The
spent
ore
residue
treatment
unit
treatment
tanks
have
both
secondary
containment
and
covers.
Treatment
consists
of
converting
the
hexavalent
chromium
in
the
units
to
trivalent
chromium.
Trivalent
chromium
is
typically
a
less
soluble
and
less
toxic
form
of
chromium.
Ore
residue
wastes
are
not
Bevill
exempt
and
therefore
beyond
the
scope
of
the
consent
decree
until
treatment
occurs.
Therefore,
we
have
evaluated
the
potential
for
releases
from
these
treatment
tanks.
We
assume
the
tanks
are
intact
structures
with
minimal
potential
for
releases
to
groundwater.
We
believe
the
covers
on
the
tanks
reduce
the
potential
for
air
releases.
Also,
the
wastes
do
not
contain
volatile
constituents.
The
second
treatment
unit,
the
wastewater
treatment
unit,
treats
the
following
two
sodium
dichromate
manufacturing
wastestreams:
Ðsodium
chromate
evaporation
unit
wastewaters
Ðsodium
dichromate
evaporation
unit
wastewaters
The
wastewater
treatment
unit
also
treats
remediation
well
water
and
stormwater,
two
types
of
contaminated
media
which
are
outside
the
scope
of
the
consent
decree.
The
two
wastewaters
within
the
scope
of
the
consent
decree
make
up
approximately
9%
of
the
total
volume
of
the
wastes
entering
the
treatment
unit.
The
facility
converts
hexavalent
chromium
to
less
toxic
trivalent
chromium
during
this
treatment
process.
The
tanks
do
not
have
covers.
We
evaluated
the
tanks
for
potential
releases
to
the
environment.
We
assumed
the
tank
structures
were
intact
and
therefore
posed
minimal
potential
for
releases
to
groundwater.
Since
the
wastewaters
contain
no
volatile
constituents,
we
found
no
significant
potential
for
air
releases.
We
are
proposing
not
to
list
the
wastes
in
these
treatment
tanks.
The
facility
disposes
the
treatment
materials
from
the
two
tank
systems
described
above
in
an
on
site
surface
impoundment.
We
describe
that
surface
impoundment
in
the
next
section.
(b)
Residuals
Disposed
of
On
Site.
(i)
Commingled
reduced
chromium
treatment
residues.
The
treatment
residues
from
the
two
treatment
tank
systems
described
in
the
section
above
are
piped
directly
to
the
facility's
onsite
double
lined,
Subtitle
D
surface
impoundment
for
co
disposal
and
dewatering.
Of
the
several
treatment
residues
contributing
to
the
mass
of
reduced
chromium
treatment
residue
disposed
of
in
the
Subtitle
D
surface
impoundment
at
the
Texas
facility,
only
three
fall
within
the
scope
of
today's
listing
proposal:
residue
from
treatment
of
caustic
filter
sludge,
residue
from
treatment
of
sodium
chromate
evaporation
unit
wastewaters,
and
residue
from
treatment
of
sodium
dichromate
evaporation
unit
wastewaters.
Residues
from
the
treatment
of
post
neutralization
spent
ore
residue
are
Bevill
exempt
mineral
processing
wastes
beyond
the
scope
of
today's
listing
proposal
(see
section
III.
F.
12.
c).
Stormwater
and
remediation
well
water
are
contaminated
media
whose
treatment
residues
we
also
consider
to
be
beyond
the
scope
of
the
consent
decree
(see
section
III.
B).
Therefore,
we
do
not
consider
the
risks
posed
by
these
residues.
According
to
information
the
facility
submitted
in
their
RCRA
Section
3007
Survey
response,
the
only
potential
constituent
of
concern
in
the
untreated
sodium
dichromate
evaporation
unit
wastewater,
sodium
dichromate
evaporation
unit
wastewaters,
and
the
caustic
filter
sludge
is
chromium,
measured
at
a
level
of
0.5
mg/
L,
0.5
mg/
L
and
20
mg/
kg,
respectively.
Therefore,
chromium
is
the
only
constituent
we
considered
when
assessing
the
level
of
risk
from
sodium
dichromate
evaporation
unit
wastewater,
sodium
chromate
evaporation
unit
wastewater,
and
caustic
filter
sludge
treatment
residues.
Of
the
total
chromium
contributed
to
the
co
disposed
reduced
chromium
treatment
residue
by
all
incoming
wastes,
the
sodium
dichromate
evaporation
unit
wastewater,
sodium
chromate
evaporation
unit
wastewater,
and
the
caustic
filter
sludge
contribute
5´10
±5
percent
by
weight.
This
estimate
is
based
on
calculations
using
information
the
Texas
facility
provided
to
us
on
chromium
contents
and
tonnages
of
wastes
entering
the
spent
ore
residue
treatment
unit
and
the
wastewater
treatment
unit
on
site.
Both
the
information
and
the
calculations
are
described
further
in
the
``
Sodium
Dichromate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination.
''
The
facility
did
not
provide
us
with
TCLP,
SPLP,
or
total
constituent
analyses
for
the
co
disposed
reduced
chromium
treatment
residues.
However,
the
facility
did
report
to
us
that
reduced
chromium
treatment
residues
do
not
exceed
the
TC
level
of
5.0
mg/
L
according
to
TCLP
analysis.
In
addition,
the
facility
reported
that
for
the
time
period
between
October
1,
1998
and
December
31,
1998,
weekly
samples
of
reduced
chromium
treatment
residues
from
the
spent
ore
residue
treatment
unit
analyzed
with
a
facility
modified
version
of
the
TCLP
ranged
between
0.16
and
1.75
mg/
L
chromium
(see
``
Sodium
Dichromate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
details).
Therefore,
conservatively
assuming
a
maximum
TCLP
chromium
leaching
level
of
4.9
mg/
L
and
assuming
that
the
percent
contribution
by
the
three
wastes
to
total
chromium
entering
the
treatment
units
is
equal
to
their
percent
contribution
to
total
chromium
leaching
from
treatment
residues
exiting
the
treatment
units,
the
caustic
filter
sludge,
sodium
chromate
evaporation
unit
wastewaters,
and
sodium
dichromate
evaporation
unit
wastewaters
were
responsible
for
TCLP
chromium
leaching
levels
of
2.45´10
±6
mg/
L.
The
HBL
for
hexavalent
chromium
is
0.047
mg/
L
and
23
mg/
L
for
trivalent
chromium.
The
AWQC
for
hexavalent
chromium
is
0.011
mg/
L
and
0.74
mg/
L
for
trivalent
chromium.
At
a
leaching
level
of
2.45´10
±6
mg/
L,
the
leachable
chromium
contribution
of
the
caustic
filter
sludge,
sodium
chromate
evaporation
unit
wastewaters,
and
the
sodium
dichromate
evaporation
unit
wastewaters
indicates
a
very
low
level
of
risk
to
groundwater
from
potential
releases
from
the
surface
impoundment.
The
waste
is
metallic
and
inorganic
in
nature
and
therefore
we
do
not
expect
it
to
contain
volatile
constituents
of
concern.
We
do
not
believe,
therefore,
that
this
waste
poses
a
risk
via
airborne
pathways.
Given
the
low
level
of
chromium
leachate
deriving
from
the
three
treatment
residues
within
the
scope
of
today's
listing
proposal
and
placed
into
the
surface
impoundments,
we
propose
not
to
list
residues
deriving
from
the
treatment
of
caustic
filter
sludge,
sodium
chromate
evaporation
unit
wastewater,
and
sodium
dichromate
evaporation
unit
wastewater.
(ii)
Commingled
treated
wastewaters.
Treated
wastewaters
commingled
with
the
commingled
reduced
chromium
treatment
residues
separate
from
these
solid
residues
in
the
Texas
facility's
surface
impoundment
disposal
unit.
These
liquids
are
not
Bevill
exempt
wastes
(see
Section
III.
F.
12.3).
The
solids
suspended
in
the
wastewaters
are
a
mixture
of
Bevill
exempt
and
nonBevill
exempt
treatment
residues.
The
liquid
portion,
the
majority
of
this
wastestream,
is
a
mixture
of
non
Bevill
exempt
residues,
some
of
which
are
within
the
scope
of
this
listing
determination,
and
some
of
which
derive
from
treatment
of
contaminated
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Proposed
Rules
44
http://
www.
epa.
gov/
enviro/
index_java.
html
media
and
are
therefore
not
within
the
scope
of
this
listing
determination.
The
commingled
treated
wastewaters
discharge
from
the
surface
impoundment
through
an
NPDESpermitted
outfall
after
passing
through
sand
filters
to
remove
residual
solids
(see
discussion
below
in
Section
III.
F.
12.
e(
2)(
c)(
ii).
We
therefore
assume
that
the
chemical
composition
of
the
treated
wastewaters
in
the
surface
impoundment
is
very
similar
to
that
of
the
NPDES
permitted
discharge.
We
used
NPDES
permit
discharge
data,
available
to
the
public
from
the
EPA's
Envirofacts
database,
44
as
a
surrogate
for
characterization
of
this
wastewater
(see
discussion
of
SPLP
filtrate
in
Section
III.
E.
3).
The
exposure
pathway
of
concern
is
the
groundwater
underlying
the
facility's
disposal
units
and
consumption
of
the
groundwater
as
drinking
water.
According
to
the
Texas
facility's
1998
NPDES
monitoring
data,
the
facility
discharged
an
average
of
0.018
pounds
of
hexavalent
chromium
each
day
through
their
internal
NPDES
outfall.
Given
the
amount
of
treated
wastewater
the
facility
reported
as
discharge
from
the
surface
impoundment
in
1998,
we
estimate
that
the
facility
produced
an
NPDES
effluent
with
an
average
hexavalent
chromium
concentration
of
0.016
mg/
L.
This
concentration
is
less
than
the
HBL
for
hexavalent
chromium
(0.047
mg/
L).
According
to
the
Texas
facility's
NPDES
monitoring
data
for
1998,
the
facility
released
an
average
of
0.46
pounds
of
combined
hexavalent
and
trivalent
chromium
per
day.
Making
the
conservative
assumption
that
all
0.46
pounds
of
chromium
are
trivalent
chromium
and
given
the
amount
of
treated
wastewater
discharged
in
1998,
we
estimated
that
the
facility
produced
an
NPDES
effluent
with
an
average
chromium
concentration
of
0.41
mg/
L,
which
is
less
than
23
mg/
L,
the
HBL
for
trivalent
chromium.
Wastes
in
the
surface
impoundment
dewater
and
the
resulting
wastewaters
pass
out
of
the
surface
impoundment
and
through
tank
based
sand
filters.
From
the
sand
filters,
the
treated
wastewaters
then
discharge
through
an
NPDES
permitted
outfall.
These
wastewaters
are
a
mixture
of
non
Bevill
exempt
and
Bevill
exempt
treatment
residues,
and
other
treatment
residues
beyond
the
scope
of
the
consent
decree.
We
did
not
find
any
significant
potential
for
releases
from
the
sand
filter
tanks.
(We
assess
spent
filter
media
from
the
sand
filters
separately
in
Section
III.
F.
12.
e(
2)(
c)(
ii)
We
concluded
that
the
NPDES
discharge
is
exempt
from
RCRA
regulation.
(c)
Residuals
Disposed
of
Off
Site.
(i)
Process
filters
and
membranes,
baghouse
bags,
chromium
contaminated
empty
containers,
and
other
plant
wastes.
The
Texas
facility
reports
in
their
RCRA
Section
3007
Survey
response
that
process
filters
and
membranes
and
baghouse
bags
from
their
facility
exceed
the
TC
level
for
chromium
and
are
coded
D007.
The
facility
also
reports
that
they
produce
empty
containers
and
other
plant
wastes
contaminated
with
chromium
which
are
also
coded
D007.
The
facility
stores
these
hazardous
wastes
in
a
closed
rolloff
bin
on
site
before
sending
them
off
site
to
a
permitted
Subtitle
C
hazardous
waste
facility
for
treatment
and
landfill
disposal.
These
wastes
are
sufficiently
managed
under
current
RCRA
Subtitle
C
regulations
and
therefore
we
propose
not
to
list
these
wastes.
(ii)
Spent
sand
filter
sands.
The
Texas
facility
generates
waste
sand
material
from
the
sand
filters
which
filter
treated
wastewaters
prior
to
their
NPDES
permitted
discharge
from
the
facility's
on
site
surface
impoundment.
The
purpose
of
the
sand
filters
is
to
remove
any
residual
solids
which
fail
to
settle
in
the
surface
impoundment.
Since
the
majority
of
the
solids
settle
in
the
surface
impoundment,
the
sand
filters
captures
smaller
amounts
of
reduced
chromium
treatment
residue.
Approximately
2
MT
of
spent
sand
filter
sand
is
disposed
of
every
two
years.
The
facility
stores
the
spent
sand
in
nonhazardous
soil
bins
on
site
before
disposing
of
it
at
an
off
site
Subtitle
D
industrial
landfill.
According
to
the
Texas
facility,
this
residue
does
not
exhibit
any
constituent
above
the
TC
level
according
to
TCLP
leachate
analysis.
Residues
from
treatment
of
caustic
filter
sludge,
sodium
chromate
evaporation
unit
wastewaters,
and
sodium
dichromate
evaporation
unit
wastewaters
are
the
only
residues
contributing
to
the
potential
constituent
of
concern
levels
in
the
spent
sand
filters
which
also
fall
within
the
scope
of
today's
listing
proposal.
All
other
wastes
are
either
Bevill
exempt
wastes
or
treatment
residues
from
contaminated
media,
neither
of
which
falls
within
the
scope
of
the
consent
decree.
Chromium
was
the
only
potential
constituent
of
concern
detected
in
the
sodium
chromate
evaporation
unit
wastewaters,
sodium
dichromate
evaporation
unit
wastewaters
and
the
caustic
filter
sludge,
and
is
therefore
the
only
potential
constituent
of
concern
we
considered
in
the
spent
sand
filter
sands.
As
discussed
in
the
section
on
commingled
reduced
chromium
treatment
residues,
the
residues
contribute
5´10
±5
percent
of
the
total
chromium
mass
entering
the
spent
ore
residue
treatment
unit.
Assuming
a
maximum
TCLP
chromium
leaching
level
of
4.9
mg/
L,
and
assuming
that
the
percent
contribution
to
total
chromium
by
the
three
wastes
entering
the
treatment
units
is
equal
to
their
percent
contribution
to
total
chromium
leaching
from
treatment
residues
exiting
the
treatment
units,
the
caustic
filter
sludge,
sodium
chromate
evaporation
wastewaters,
and
sodium
dichromate
evaporation
unit
wastewaters
were
responsible
for
TCLP
chromium
leaching
levels
of
2.4´10
±6
mg/
L.
The
HBL
for
hexavalent
chromium
is
0.047
mg/
L
and
23
mg/
L
for
trivalent
chromium.
The
AWQC
for
hexavalent
chromium
is
0.011
mg/
L
and
0.74
mg/
L
for
trivalent
chromium.
At
a
level
of
2.4´10
±6
mg/
L,
the
leachable
chromium
contribution
of
the
sodium
dichromate
evaporation
unit
wastewater,
the
sodium
chromate
evaporation
wastewaters,
and
the
caustic
filter
sludge
presents
a
very
low
level
of
risk.
The
waste
is
metallic
and
inorganic
in
nature,
and
therefore
we
do
not
expect
it
to
contain
volatile
constituents
of
concern.
We
do
not
believe,
therefore,
that
this
waste
poses
a
risk
via
airborne
pathways.
Given
the
low
level
of
risk
posed
by
the
contribution
of
constituents
in
the
spent
filter
sands
attributable
to
caustic
filter
sludge,
sodium
chromate
evaporation
unit
wastewaters,
and
sodium
dichromate
evaporation
unit
wastewater
treatment
residue,
the
absence
of
volatile
constituents
of
concern,
and
the
relatively
small
volume
of
the
total
waste,
we
propose
not
to
list
this
waste.
13.
Sodium
Phosphate
From
Wet
Process
Phosphoric
Acid
a.
Summary.
We
propose
not
to
list
any
wastes
from
the
production
of
sodium
phosphate
from
wet
process
phosphoric
acid
as
hazardous
under
subtitle
C
of
RCRA.
Many
of
these
secondary
materials
are
piped
back
into
the
production
process;
other
wastes
are
discharged
to
a
permitted
publiclyowned
treatment
works
(POTW).
Other
materials
are
sent
to
Subtitle
D
industrial
landfills.
After
an
analysis
of
waste
management
practices
and
potential
exposure
pathways,
we
conclude
that
there
are
no
risk
pathways
of
concern.
These
wastes
do
not
meet
the
criteria
set
out
at
40
CFR
261.11(
a)(
3)
for
listing
as
hazardous.
b.
Description
of
the
sodium
phosphate
industry.
Sodium
phosphate
is
the
more
general
chemical
name
for
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179
/
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14,
2000
/
Proposed
Rules
45
In
this
preamble,
we
often
refer
to
sodium
phosphate
produced
for
the
food
industry
as
``
food
grade.
''
The
Food
and
Drug
Administration
(FDA),
Department
of
Health
and
Human
Services,
refers
to
the
various
sodium
phosphates
used
in
the
food
industry
as
``
substances
generally
recognized
as
safe''
(GRAS).
The
FDA
states
that:
``
This
substance
is
generally
recognized
as
safe
when
used
as
in
accordance
with
good
manufacturing
practice.
''
(See,
for
example,
21
CFR
182.1778,
182.6290,
182.6778,
and
182.8778.)
In
deciding
whether
a
food
additive
should
be
approved,
the
FDA
considers
the
composition
and
properties
of
the
substance,
the
amount
likely
to
be
consumed,
its
probable
long
term
effects
and
various
safety
factors.
a
wide
variety
of
salts
produced
from
the
neutralization
of
phosphoric
acid.
Some
of
the
salts
produced
by
the
facilities
in
this
industry
are
monosodium
dihydrogen
phosphate
(H2NaPO4),
disodium
monohydrogen
phosphate
(HNa2PO4),
trisodium
phosphate
(Na3PO4),
sodium
hexametaphosphate
(Na4P
4O12),
and
sodium
tripolyphosphate
(Na5P3O10).
The
various
phosphate
salts
produced
are
used
for
a
wide
variety
of
purposes,
ranging
from
a
water
soluble
solid
acid
and
pH
buffer
for
acidic
cleaners
to
products
manufactured
for
the
food
industry
45
.
Sodium
phosphate
is
produced
from
wet
process
phosphoric
acid
by
two
manufacturing
companies
at
four
locations
in
the
United
States.
For
more
detailed
information
concerning
this
industry,
see
``
Sodium
Phosphate
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
in
the
docket
for
today's
proposal.
The
processes
for
monosodium
dihydrogen
phosphate,
disodium
monohydrogen
phosphate,
and
trisodium
phosphate
are
similar
except
for
the
ratio
of
phosphoric
acid
to
soda
ash
at
the
reactor
stage
and
the
type,
size
and
construction
of
the
crystallizing
and
drying
equipment.
The
raw
materials
are
water,
phosphoric
acid,
soda
ash,
and
caustic.
The
purified
phosphoric
acid
is
manufactured
elsewhere
through
the
wet
acid
purification
method
and
is
food
grade.
The
process
starts
with
a
reaction
between
phosphoric
acid,
soda
ash,
and
caustic.
The
solution
is
used
to
make
the
monosodium
dihydrogen
phosphate,
which
passes
through
a
polishing
filter
before
shipment
to
customers.
The
sodium
to
phosphorus
ratio
of
the
solution
is
adjusted
with
caustic
to
make
disodium
monohydrogen
phosphate
and
trisodium
phosphate.
These
solutions
are
filtered
and
then
crystallized.
The
crystals
from
each
process
pass
through
dryers.
The
finished
product
is
packaged
or
shipped
in
bulk.
Sodium
hexametaphosphate
and
sodium
tripolyphosphate
are
also
produced
from
food
grade
phosphoric
acid
and
soda
ash.
Both
processes
start
with
a
reaction
between
phosphoric
acid
and
soda
ash.
For
the
sodium
hexametaphosphate
process,
the
product
is
fed
to
a
furnace
which
melts
the
mix
and
converts
it
to
sodium
hexametaphosphate.
For
the
sodium
tripolyphosphate
process,
the
reaction
discharge
is
dried
and
heat
treated
in
a
converter
to
convert
it
to
sodium
tripolyphosphate.
In
both
processes,
the
product
is
cooled,
sized,
stored,
and
packaged
for
shipment.
c.
What
kinds
of
wastes
are
generated
by
these
processes?
A
brief
description
of
the
waste
categories,
how
they
are
generated,
their
volumes
across
the
industry,
and
how
they
are
managed
is
presented
in
Table
III±
34:
TABLE
III±
34.Ð
SODIUM
PHOSPHATE
PRODUCTION
WASTES
Waste
category
1998
Volume
(MT)
Source
Management
practices
Filter
press
cakes
....................................
120
...................
Product
polishing
...................................
Recycled
or
Subtitle
D
landfill.
Mix
area
filters
.........................................
0.009
................
Product
polishing
...................................
Subtitle
D
landfill.
Dust
collector
filter
bags
..........................
2.1
....................
Drying
and
grinding
processes
..............
Subtitle
D
landfill.
Scrubber
waters
and
effluents
................
32
.....................
Process
vapor
scrubbers
.......................
POTW
or
recycled.
Product
dust
collected
.............................
Not
reported
.....
Drying
and
grinding
processes
..............
Recycled
or
Subtitle
D
landfill.
Off
specification
product
..........................
771
...................
Off
specification
grinding
or
customer
returns.
Recycled
or
Subtitle
D
landfill.
For
those
scenarios
where
secondary
materials
(filter
press
cakes,
product
dust,
off
specification
product,
and
scrubber
water)
are
piped
back
to
the
production
process,
we
could
identify
no
potential
route
for
significant
exposure
prior
to
reuse.
In
addition,
we
evaluated
all
wastes
generated
after
reinsertion
of
these
materials
into
the
process
and
we
do
not
believe
that
these
secondary
materials
present
significant
threats.
Also,
off
specification
product,
when
reinserted
without
reclamation
into
the
process
from
where
it
originated,
is
not
a
solid
waste.
For
those
scenarios
where
wastes
are
discharged
via
the
facility's
common
sewage
line
to
permitted
publiclyowned
treatment
works
(POTWs),
these
wastes
are
excluded
from
RCRA
(40
CFR
261.4(
a)(
1)(
ii)).
For
those
scenarios
where
wastes
are
sent
to
industrial
subtitle
D
landfills,
we
performed
a
risk
assessment
to
help
us
determine
whether
these
risks
warranted
listing.
d.
Agency
evaluation.
(1)
Filter
press
cake
and
mix
area
filters.
How
Was
This
Waste
Characterized?
We
collected
two
samples
of
this
residual
at
one
facility.
Based
on
our
assessment
of
the
raw
materials
and
production
processes
used
across
the
industry,
we
believe
these
samples
are
representative
of
the
range
of
waste
characteristics
at
the
other
three
sodium
phosphate
production
facilities.
Constituents
detected
above
their
HBLs
are
summarized
in
Table
III±
35.
TABLE
III±
35.Ð
CHARACTERIZATION
OF
FILTER
PRESS
CAKES
FROM
SODIUM
PHOSPHATE
PRODUCTION
Parameter
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
HBL
(mg/
l)
Primary
filter
press
cake
(Sample
RCH±
1±
SP±
01):
Antimony
...................................................................................................................
0.5
<0.5
0.0298
0.006
Thallium
....................................................................................................................
<2
<2
0.0055
0.001
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/
Vol.
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
III±
35.Ð
CHARACTERIZATION
OF
FILTER
PRESS
CAKES
FROM
SODIUM
PHOSPHATE
PRODUCTIONÐ
Continued
Parameter
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
HBL
(mg/
l)
Tray
filter
cake
(Sample
RCH±
1±
SP±
02):
Antimony
...................................................................................................................
<0.5
<0.5
<0.025
0.006
Thallium
....................................................................................................................
<2
<2
0.0079
0.001
What
Management
Scenarios
Were
Assessed
and
How
Was
the
Risk
Assessment
Established?
These
wastes
go
to
industrial
subtitle
D
landfills
and
we
therefore
determined
that
we
would
model
the
scenario
of
offsite
disposal
in
an
industrial
D
landfill.
We
assessed
the
off
site
landfill
scenario
using
the
hydrogeologic
properties
associated
with
the
geographic
areas
where
the
landfills
reported
in
the
survey
are
located.
We
gave
the
SPLP
results
primary
consideration
as
there
is
no
reported
management
in
municipal
landfills
(where
the
TCLP
results
would
be
relevant).
Based
on
the
sampling
results
summarized
above,
we
decided
that
modeling
was
necessary
for
two
constituents
of
concern:
antimony
and
thallium.
For
antimony,
we
used
onehalf
of
the
detection
limit
as
a
model
input
for
sample
RCH±
1±
SP±
02.
We
used
the
probabilistic
approach
for
an
off
site
industrial
Subtitle
D
landfill
described
in
section
III.
E
of
today's
proposal.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
From
the
results
of
the
risk
assessment,
summarized
below
in
Table
III±
36,
neither
antimony
nor
thallium
(the
constituents
of
concern)
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
The
hazard
quotients
for
both
constituents,
for
both
the
adult
and
child
exposure
scenarios,
are
less
than
0.008
at
the
95th
percentile.
As
a
matter
of
policy,
EPA
generally
does
not
consider
listing
wastes
with
predicted
hazard
quotients
of
less
than
1.0.
We
see
no
special
concerns
warranting
an
exception
to
this
policy.
Therefore,
we
believe
that
these
wastes
do
not
warrant
listing.
For
the
mix
area
filters,
the
location
of
these
filters
indicates
that
any
contaminants
found
would
be
similar
to
those
of
the
filter
press
cake.
Given
that
our
evaluation
of
the
much
larger
volume
filter
press
cake
yielded
no
significant
risk,
we
are
also
proposing
not
to
list
the
very
small
volume
mix
area
filters.
For
a
more
complete
description
of
these
analyses,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposed
rulemaking.
TABLE
III±
36.Ð
PROBABILISTIC
RISK
RESULTS
FOR
FILTER
PRESS
CAKES
Percentile
Antimony
Thallium
Adult
HQ
Child
HQ
Adult
HQ
Child
HQ
Industrial
landfill:
90th
...........
0.001
0.003
0.002
0.003
95th
...........
0.004
0.008
0.004
0.008
(2)
Dust
collector
filter
bags.
How
Was
This
Waste
Characterized?
We
collected
one
sample
of
this
residual.
Based
on
our
assessment
of
the
raw
materials
and
production
processes
used
across
the
industry,
we
believe
this
sample
is
representative
of
similar
wastes
at
the
other
three
sodium
phosphate
production
facilities.
The
waste
constituents
detected
at
levels
above
their
HBLs
are
summarized
in
Table
III±
37:
TABLE
III±
37.Ð
CHARACTERIZATION
OF
DUST
COLLECTOR
FILTER
BAG
FROM
SODIUM
PHOSPHATE
PRODUCTION
[Sample
RCH±
1±
SP±
03]
Parameter
Total
(mg/
kg)
TCLP
(mg/
l)
SPLP
(mg/
l)
HBL
(mg/
l)
Antimony
48.8
<0.5
0.309
0.006
Arsenic
..
<0.5
<0.5
0.0064
0.0007
What
Management
Scenarios
Were
Assessed
and
How
Was
the
Risk
Assessment
Established?
Industry
reported
that
this
waste
is
managed
in
off
site
industrial
D
landfills.
We
assessed
this
scenario.
Antimony
and
arsenic
are
the
constituents
of
concern.
Because
the
volume
of
this
waste
is
relatively
small,
we
first
used
the
de
minimis
waste
quantity
screening
analysis
(described
in
section
III.
E.
3)
to
screen
the
potential
risk
to
groundwater
associated
with
landfilling
this
waste.
We
found
that
the
SPLP
data
for
arsenic
screens
out
because
the
waste
volume
is
insufficient
to
release
arsenic
at
levels
of
concern.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposed
rulemaking.
The
detected
SPLP
levels
for
antimony
did
not
screen
out
using
the
de
minimis
volume
analysis.
We
conducted
full
groundwater
modeling
for
the
industrial
landfill
scenario
for
this
constituent.
We
assessed
the
off
site
landfill
scenario
using
the
probabilistic
approach
for
off
site
landfills
described
in
section
III.
E.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
From
the
results
of
the
risk
assessment,
summarized
below
in
Table
III±
38,
antimony
(the
constituent
of
concern)
does
not
pose
a
substantial
present
or
potential
hazard
to
human
health
and
the
environment.
The
hazard
quotients
for
antimony,
for
both
the
adult
and
child
exposure
scenarios,
are
less
than
0.007
at
the
95th
percentile.
As
a
matter
of
policy,
EPA
generally
does
not
consider
listing
wastes
with
predicted
hazard
quotients
of
less
than
1.0.
We
see
no
special
concerns
warranting
an
exception
to
this
policy.
Therefore,
we
believe
that
this
waste
does
not
warrant
listing.
For
a
more
complete
description
of
this
analysis,
see
``
Risk
Assessment
for
the
Listing
Determinations
for
Inorganic
Chemical
Manufacturing
Wastes''
in
the
docket
for
this
proposed
rulemaking.
TABLE
III±
38.Ð
PROBABILISTIC
RISK
RESULTS
FOR
DUST
COLLECTOR
BAGS
Percentile
Antimony
Adult
HQ
Child
HQ
Industrial
landfill:
90th
............................
0.001
0.002
95th
............................
0.003
0.003
(3)
Scrubber
waters
and
effluents.
We
did
not
evaluate
scenarios
where
these
secondary
materials
are
piped
back
into
the
production
process
because
there
is
no
potential
for
exposure.
For
those
scenarios
where
wastes
are
managed
in
a
tank,
the
impervious
nature
of
the
construction
materials
(concrete,
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/
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/
Proposed
Rules
fiberglass,
or
steel)
of
tanks
are
unlikely
to
result
in
releases
to
groundwater
in
all
but
the
most
catastrophic
scenarios.
We
also
are
not
concerned
with
potential
air
releases
from
these
tanks
as
neither
volatile
contaminants
nor
airborne
particulates
are
likely
to
be
present
in
these
aqueous
wastes.
For
those
scenarios
where
wastes
are
discharged
via
the
facility's
common
sewage
line
to
POTWs,
these
wastes
are
excluded
from
RCRA
(40
CFR
261.4(
a)(
1)(
ii)).
Furthermore,
these
discharges
are
regulated
by
the
Clean
Water
Act
pretreatment
standards.
They
do
not
warrant
listing.
We
propose
not
to
list
this
waste.
(4)
Product
dust
collected.
All
collected
dust
that
can
be
recycled
is
recycled
back
into
the
production
process.
Due
to
production
constraints,
some
portion
of
this
collected
product
dust
cannot
be
recycled
back
to
the
process
and
is
instead
sent
to
an
industrial
Subtitle
D
landfill.
However,
this
landfilled
product
is
still
food
grade
product.
Because
this
``
waste''
is,
in
fact,
food
grade
product,
we
believe
it
unlikely
that
it
contains
any
constituent
exceeding
health
based
limits
based
on
ingestion.
Therefore,
we
propose
not
to
list
this
waste.
(5)
Off
specification
product.
Much
of
this
material
is
reused
in
the
production
process
with
no
potential
for
exposure.
However,
because
of
production
constraints,
they
cannot
always
work
all
of
this
material
back
into
the
process,
and
it
must
be
disposed
in
an
industrial
subtitle
D
landfill.
In
all
cases,
product
is
rejected
by
a
customer
because
of
physical
property
problemsÐ
i.
e.,
particle
sizeÐ
rather
than
chemical
problems
or
contaminants.
Because
this
``
waste''
is,
in
fact,
food
grade
product,
we
believe
it
unlikely
that
it
contains
any
constituent
exceeding
health
based
limits
based
on
ingestion.
Therefore,
we
propose
not
to
list
this
waste.
14.
Titanium
Dioxide
a.
Summary.
We
evaluated
wastes
from
the
production
of
titanium
dioxide
and
propose
to
list
one
waste
and
not
to
list
all
of
the
others.
Certain
wastes
from
titanium
dioxide
production
are
exempt
mineral
processing
wastes
and
were
not
assessed
as
part
of
today's
listing
determination
because
they
are
outside
the
scope
of
the
consent
decree.
We
are
proposing
to
list
nonwastewaters
from
the
chloride
ilmenite
process
(unless
otherwise
exempted).
K178
Nonwastewaters
from
the
production
of
titanium
dioxide
by
the
chloride
ilmenite
process.
(T)
[This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
section
261.4(
b)(
7)]
We
propose
not
to
list
the
remainder
of
the
wastes
generated
by
this
sector.
We
do
not
believe
these
wastes
pose
threats
to
human
health
or
the
environment
that
warrant
listing.
We
have
not
identified
risks
of
concern
associated
with
the
current
management
of
these
wastes
that
support
a
listing
determination.
Our
findings,
however,
do
not
change
the
applicability
of
existing
standards
and
regulations,
such
as
the
hazardous
waste
characteristics,
to
these
wastes
and
this
industry.
b.
Description
of
the
titanium
dioxide
industry.
There
are
nine
facilities
producing
titanium
dioxide.
There
are
three
distinct
processes
currently
in
use:
the
chloride
process,
the
sulfate
process,
and
the
chloride
ilmenite
process.
Six
facilities
use
the
chloride
process.
Two
of
these
six
facilities
also
produce
titanium
dioxide
via
the
sulfate
process.
Three
separate
facilities
use
only
the
chloride
ilmenite
process.
Chloride
Process.
In
the
chloride
process,
rutile
or
high
grade
ilmenite
is
converted
to
titanium
tetrachloride
(TiCl4).
The
conversion
takes
place
in
a
chlorinator
in
the
presence
of
chlorine
gas
with
petroleum
coke
added
as
a
reductant.
All
U.
S.
producers
of
TiCl4
use
fluidized
bed
chlorinators.
Vent
gases
from
the
chlorinator
are
scrubbed
prior
to
venting
to
the
atmosphere.
Nonvolatile
metal
chlorides
and
unreacted
coke
and
ore
solids
are
removed
from
the
gaseous
product
stream.
The
facilities
also
generate
waste
acid,
which
they
mingle
with
coke
and
ore
solids
before
treatment.
Vent
gases
from
the
chlorinator
are
scrubbed
prior
to
venting
to
the
atmosphere.
The
volatile
TiCl4
and
other
volatile
metal
compounds
such
as
vanadium
oxychloride,
exit
the
chlorinator
as
overhead
vapor.
The
gaseous
product
stream
is
purified
to
separate
the
titanium
tetrachloride
from
other
metal
chloride
impurities
using
processes
such
as
partial
condensation
and
chemical
treatment.
Finally,
vanadium
compounds,
which
have
boiling
points
close
to
that
of
TiCl4,
are
removed
from
the
titanium
tetrachloride
by
complexing
with
mineral
oil
and
reducing
with
hydrogen
sulfide,
or
by
complexing
with
copper.
The
purified
TiCl4
is
then
oxidized
to
TiO2,
driving
off
chlorine
gas,
which
is
recycled
to
the
chlorinator.
The
pure
TiO2
is
slurried
and
sent
to
the
finishing
process
which
includes
milling,
addition
of
inorganic
and
organic
surface
treatments,
and/
or
spray
drying
of
the
product
TiO2.
The
product
can
be
sold
as
a
packaged
dry
solid
or
a
water
based
slurry.
Sulfate
Process.
In
the
sulfate
process,
ilmenite
ore
or
slag
with
high
TiO2
content
is
digested
with
sulfuric
acid,
forming
a
porous
cake;
this
cake
is
further
dissolved
by
dilute
acid
to
form
titanyl
sulfate
(TiOSO4).
Iron
may
be
added
to
the
digestion
process
to
ensure
that
iron
impurities
remain
in
the
ferrous
(Fe
2¶
)
state
so
that
the
eventual
TiO2
product
can
be
easily
washed.
The
titanyl
sulfate
solution
is
then
clarified,
yielding
a
waste
sulfate
digestion
sludge,
and
then
concentrated
through
vacuum
evaporation.
The
filtered
titanyl
sulfate
solution
is
vacuum
evaporated
a
second
time
and
hydrolyzed
to
precipitate
hydrated
titania
(TiO(
OH)
2).
The
titania
hydrate
is
then
filtered
and
washed,
yielding
filtrate
waste
and
wastewater,
respectively,
before
being
calcined
at
1,000°C
to
produce
the
TiO2
product.
Chloride
Ilmenite
Process.
In
the
chloride
ilmenite
process,
ilmenite
ore
is
converted
to
titanium
tetrachloride.
As
in
the
chloride
process,
the
chlorideilmenite
process
takes
place
in
a
chlorinator
in
which
the
ore
is
chlorinated
in
the
presence
of
coke
as
a
reducing
agent.
Vent
gases
from
the
chlorinator
are
scrubbed
prior
to
venting
to
the
atmosphere.
Non
volatile
metal
chlorides
and
unreacted
coke
and
ore
solids
are
removed
from
the
gaseous
product
stream.
The
gaseous
product
stream
then
is
purified
further
to
separate
the
titanium
tetrachloride
from
other
volatile
metal
chloride
impurities,
including
ferric
chloride
(FeCl3)
which
is
present
in
higher
concentrations
than
the
chloride
process
due
to
the
high
iron
content
in
the
ore.
The
separation
is
done
via
condensation
and
chemical
treatment.
The
process
for
converting
the
purified
TiCl4
product
stream
to
TiO2
is
similar
to
that
used
in
the
chloride
process,
as
described
above.
c.
What
kind
of
wastes
are
generated
by
these
processes?.
The
wastes
generated
by
the
titanium
dioxide
sector
are
described
in
overview
below,
organized
by
process.
Additional
detail
on
these
wastes
is
provided
in
the
background
document
for
this
sector.
The
wastes
generated
by
the
chloride
process
include:
ÐCommingled
wastewaters,
including
process
and
non
process
wastewaters
from
chlorinator
coke
and
ore
solids
recovery,
reaction
and
chemical
tank
storage
scrubbers,
product
finishing
operations,
wastewater
treatment
and
chlorinator
solids
decantation,
and
on
site
landfill
leachate.
ÐChloride
process
waste
solids
from
titanium
tetrachloride
production
(exempt
as
mineral
processing
wastes,
see
40
CFR
261.4(
b)(
7)).
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
ÐWastewater
treatment
sludges
generated
by
facilities
that
have
chloride
only
processes
(exempt
mineral
processing
wastes
at
those
facilities
with
no
contribution
of
solids
from
oxidation
and
finishing)
ÐWaste
sands
from
finishing
(milling)
of
the
titanium
dioxide
product
and
scouring
of
oxidation
process
units.
ÐVanadium
wastes
generated
in
the
purification
process.
The
wastes
generated
by
the
sulfate
process
(used
at
two
plants
that
also
use
the
chloride
process)
include:
ÐPrimary
and
secondary
gypsum,
which
is
produced
when
the
waste
sulfuric
acid
generated
from
the
filtering
of
titanium
dioxide
hydrate
solution
is
neutralized
with
calcium
carbonate.
ÐDigestion
sludge
from
the
clarification
of
the
titanyl
sulfate
liquor
that
is
produced
during
the
acid
digester
step.
ÐWastewaters
from
the
sulfuric
acid
digestion
scrubber
which
removes
acidic
components
and
entrained
solids
from
reaction
gases,
evaporator
condensate
from
the
precipitation
unit,
the
calciner
scrubber,
the
sulfate
waste
sludge
settling
pond
supernatant,
and
the
primary
and
secondary
gypsum
precipitation
units.
These
wastewaters
are
commingled
with
wastewaters
from
the
chloride
process.
ÐWastewater
treatment
sludges.
These
wastewater
treatment
sludges
are
generated
from
commingled
chloride
process
and
sulfate
process
wastewaters
by
facilities
that
have
both
processes.
The
wastewater
treatment
consists
of
elementary
neutralization
and
precipitation
or
filtration.
ÐAcids
from
intermediate
titanium
product
filtration/
bleaching
units
and
product
calciner
overhead
scrubbers.
ÐProduct
milling
sand
from
finishing
operations.
The
wastes
generated
by
the
chlorideilmenite
process
include:
ÐCoke
and
ore
solids
(exempt
as
mineral
processing
wastes,
see
40
CFR
261.4(
b)(
7))
that
are
not
consumed
by
the
chlorination
process.
These
solids
are
conveyed
through
the
process
as
part
of
various
wastestreams.
ÐWaste
acid
(metal
chloride)
solution,
usually
called
ferric
or
iron
chloride,
that
is
separated
from
the
gaseous
titanium
tetrachloride
product
stream
and
acidified.
ÐProcess
and
non
process
wastewaters
from
reaction
and
oxidation
scrubbers,
reactant
and
treatment
chemical
storage
scrubbers,
product
finishing,
HCl
storage
vent
scrubber,
oxidation
unit
tank
and
equipment
vents,
supernatant
or
filtrate
from
coke
and
ore
solids
management
and
wastewater
treatment
disposal
impoundments.
The
wastewaters
are
commingled
prior
to
being
introduced
into
the
wastewater
treatment
system.
ÐOther
spent
scrubber
waters
from
the
reaction
fume
disposal
system.
The
wastewaters
are
pretreated
and
are
subsequently
commingled
with
other
wastewaters
prior
to
being
introduced
to
the
wastewater
treatment
system.
ÐNon
exempt
non
wastewaters,
including
the
portion
of
wastewater
treatment
solids
derived
from
the
neutralization
of
process
and
nonprocess
wastewaters
from
oxidation
and
finishing,
and
solids
from
ferric
chloride
filtration.
ÐHCl
from
the
reaction
scrubber.
ÐAdditive
feeder
vent
filter
solids
generated
in
the
oxidation
process.
ÐVanadium
waste
generated
in
the
purification
process.
ÐOff
specification
titanium
dioxide
product.
ÐRail
car
product
washout
wastewater.
ÐWaste
sand
removed
from
a
reactor
purge
stream
(coke
and
ore
solids)
Table
III±
39,
below,
summarizes
our
information
about
the
wastes
generated
rom
the
production
of
titanium
dioxide.
TABLE
III±
39.Ð
TITANIUM
DIOXIDE
WASTES
Waste
category
Number
of
generators
1998
volumes
(MT)
Reported
hazard
codes
Management
practices
Commingled
chloride
process
wastewaters
..
4
7,614,358
.........
D002,
D007
......
Neutralization,
solids
settling,
NPDES
discharge
Chloride
process
solids
(Bevill
exempt)
........
6
1,200,000
.........
none
.................
On
site
impoundments,
on
site
Subtitle
D
landfills.
Waste
sands
from
oxidation,
milling
and
scouring.
3
9,485
................
none
.................
On
site
industrial
Subtitle
D
landfill;
off
site
industrial
Subtitle
D
landfill.
Gypsum
from
sulfate
process
........................
2
46
69,500
...........
none
.................
On
site
waste
pile
storage;
on
site
industrial
Subtitle
D
landfill;
sold
for
various
uses.
Digestion
scrubber
water
...............................
2
2,000,333
.........
Neutralization
in
dedicated
impoundment;
commingled
with
other
wastewaters.
Digestion
sludge
from
sulfate
process
..........
2
41,494
..............
D002
.................
Unlined
impoundment,
dewatering,
on
site
industrial
Subtitle
D
landfill.
Commingled
wastewaters
from
the
chloride
and
sulfate
process.
2
16,184,031
.......
none
.................
Neutralization,
solids
settling
in
unlined
surface
impoundments,
NPDES
discharge.
Wastewater
treatment
sludges
from
commingled
chloride
and
sulfate
process
(partially
Bevill
exempt).
2
159,121
............
none
.................
Dewatering,
on
site
industrial
Subtitle
D
landfill.
Waste
acid
(ferric
chloride)
from
chloride
ilmenite
process.
3
1,883,000
.........
D002,
D007,
D008.
On
site
hazardous
waste
underground
injection
reuse
as
raw
material
in
sodium
chloride
production;
storage
in
tanks
and
unlined
impoundment
prior
to
sale
as
water
and
wastewater
treatment
reagent.
Chloride
ilmenite
process
solids
(Bevill
exempt
3
not
reported
......
none
.................
On
site
dewatering;
on
site
Subtitle
D
industrial
landfill;
on
site
unlined
impoundment;
various
reuses.
Non
exempt
nonwastewaters
from
the
chloride
ilmenite
process.
3
14,600
..............
none
.................
On
site
dewatering;
on
site
Subtitle
D
industrial
landfill;
on
site
unlined
impoundment;
various
reuses.
HCl
from
reaction
scrubber,
chloride
ilmenite
process.
3
not
reported
......
D002
.................
On
site
wastewater
treatment,
on
site
reuse.
Commingled
wastewaters
from
the
chlorideilmenite
process.
3
13,556,000
.......
none
.................
On
site
neutralization,
solids
settling,
NPDES
discharge.
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
47
All
sulfate
process
waste
solids
and
liquids
are
non
exempt
mineral
processing
wastes
(see
55
FR
2322,
January
23,
1990).
55
FR
2392
noted
that
all
sulfate
process
waste
solids
and
wastewaters
from
the
production
of
titanium
dioxide
do
not
meet
the
high
volume/
low
hazard
criteria
established
in
the
September
1,
1989
Bevill
rule
and
therefore
were
not
eligible
for
continued
coverage
under
the
Bevill
exclusion
(see
54
FR
36592).
TABLE
III±
39.Ð
TITANIUM
DIOXIDE
WASTESÐ
Continued
Waste
category
Number
of
generators
1998
volumes
(MT)
Reported
hazard
codes
Management
practices
Additive
vent
filter
solids
from
chloride
ilmenite
process.
1
<
1
....................
none
.................
Off
site
Subtitle
D
industrial
landfill.
Vanadium
waste
from
the
chloride
ilmenite
and
chloride
process.
4
not
reported
......
none
.................
Returned
to
reaction
area
for
TiCl
4
recovery
remaining
vanadium
wastes
are
incorporated
in
solids
streams.
Off
spec
titanium
dioxide
product
..................
2
563
...................
none
.................
Off
site
Subtitle
D
industrial
landfill.
Railcar/
trailer
product
washout
......................
1
<10,000
............
none
.................
On
site
storage
in
unlined
surface
impoundment
on
site
wastewater
treatment.
46
Additional
volumes
are
used
as
products.
The
manufacturers
also
produce
materials
that
are
reused
in
other
processes
that
are
outside
the
scope
of
the
consent
decree.
With
one
exception
described
below,
we
did
not
evaluate
these
materials,
or
wastes
generated
during
co
product
production
for
the
purposes
of
today's
listing
determinations,
because
they
were
outside
the
scope
of
the
consent
decree.
One
facility
produces
sulfur
from
the
treatment
of
off
gases.
Because
the
offgas
is
produced
from
a
production
unit
rather
than
a
waste
management
unit
and
is
conveyed
to
its
destination
via
piping,
the
gas
is
not
a
solid
waste.
RCRA
Section
1004(
27)
excludes
noncontained
gases
from
the
definition
of
solid
waste
and
thus
they
cannot
be
considered
a
hazardous
waste.
(See
54
FR
50973)
Because
this
gas
is
not
a
solid
waste
when
produced,
we
did
not
evaluate
it
further
for
purposes
of
listing.
d.
What
wastes
from
these
processes
are
exempt
mineral
processing
wastes?
In
July
of
1988,
the
U.
S.
Court
of
Appeals,
for
the
D.
C.
Circuit
in
Environmental
Defense
Fund
v.
EPA
(EDF
II),
852
F.
2d
1316
(D.
C.
Cir.
1988),
cert.
denied,
489
U.
S.
1011(
1989),
ordered
EPA
to
restrict
the
scope
of
the
Bevill
mining
waste
exclusion,
as
it
applied
to
mineral
processing
wastes.
In
response,
EPA
promulgated
rules
on
September
1,
1989
(54
FR
36592)
and
on
January
23,
1990
(55
FR
2322),
issued
a
Report
to
Congress
on
Wastes
from
Mineral
Processing
on
July
31,
1990,
and
published
a
regulatory
determination
published
on
June
13,
1991
(56
FR
27300).
The
list
of
Bevill
exempt
wastes
is
set
out
at
40
CFR
261.4(
b)(
7).
We
relied
on
these
Bevill
rulemakings
to
determine
the
Bevill
status
of
waste
streams
in
the
titanium
dioxide
sector.
The
production
of
titanium
dioxide
results
in
the
generation
of
2
categories
of
exempt
waste:
beneficiation
wastes
and
exempt
mineral
processing
wastes.
These
categories
are
described
below.
The
industry
reported
a
number
of
wastes
generated
from
the
storage
and
handling
of
various
raw
materials
which
are
exempt
because
they
are
associated
with
beneficiation.
Solid
wastes
from
the
extraction/
beneficiation
of
ores
and
minerals
are
Bevill
exempt
solid
wastes
(see
51
FR
24496,
July
3,
1986
and
54
FR
36592,
September
1,
1989).
These
wastes
are
described
in
the
background
document
for
this
sector.
We
have
not
assessed
these
wastes
because
they
are
exempt
under
40
CFR
261.4(
b)(
7).
The
only
relevant
mineral
processing
waste
exemption
consists
of
``
chloride
process
waste
solids
from
titanium
tetrachloride
production''
(see
40
CFR
261.4(
b)(
7)(
ii)(
S)).
The
consent
decree
mandating
today's
proposal
states
in
paragraph
1.
g
that
Bevill
exempt
wastes
are
not
within
the
scope
of
the
consent
decree
as
it
applies
to
the
inorganic
chemical
listing
determinations,
and
specifically
that
``
chloride
process
waste
solids''
need
not
be
assessed
within
the
titanium
dioxide
sector.
Titanium
tetrachloride
production
occurs
in
both
the
chloride
and
chloride
ilmenite
processes.
47
The
chloride
process
waste
solids
are
generated
during
the
chlorination
reaction
of
the
titanium
ore
in
the
reducing
presence
of
coke
at
elevated
temperatures,
and
are
generated
from
both
the
chloride
process
and
the
chloride
ilmenite
process.
The
majority
of
these
solids
are
removed
from
the
reaction
area
as
a
mass
and
are
quenched,
neutralized,
settled
and
disposed
as
exempt
materials.
Additional
solids
from
the
reactor
are
carried
overhead
with
the
TiCl4
product
gas
stream
and
are
subsequently
removed
in
various
scrubbing
units.
Although
EPA
has
not
previously
discussed
these
solids,
we
believe
that
they
also
fall
within
the
exemption.
While
they
are
removed
from
the
product
stream
and
various
other
wastes
at
points
other
than
where
the
majority
of
the
solids
are
separated
from
the
TiCl4
gas
stream,
they
are
similarly
composed
of
unreacted
ore
and
coke
solids
from
the
chlorination
reactor.
They
fit
within
the
plain
language
of
the
exemption.
Solids
also
are
generated
from
the
oxidation
and
finishing
stages
of
titanium
dioxide
production.
These
solids
are
non
exempt
solid
wastes
(not
covered
by
the
exemption).
Most
titanium
dioxide
producers
commingle
wastewaters
from
titanium
tetrachloride
production
with
wastewaters
from
oxidation
and
finishing.
To
the
extent
that
the
resultant
sludges
contain
nonexempt
solids,
we
have
assessed
that
portion
of
those
solids.
Due
to
process
variations,
each
facility
using
the
chloride
or
chlorideilmenite
process
generates
its
exempt
solids
in
slightly
different
ways.
The
general
principles
that
we
used
to
determine
the
Bevill
status
of
these
wastes
include
the
following:
ÐExtraction
and
beneficiation
ends
just
before
chlorination
occurs.
Wastes
generated
prior
to
this
point
are
Bevill
exempt,
outside
the
scope
of
the
consent
decree
and
therefore
not
addressed
in
this
rulemaking.
The
chlorinator
marks
the
beginning
of
mineral
processing
because
the
ore
undergoes
a
physical/
chemical
change
(see
54
FR
36619,
September
1,
1989).
54
FR
36621
further
notes,
``
Likewise,
EPA
considered
titanium
tetrachloride
produced
during
the
titanium
chloride
[sic]
process
to
be
a
saleable
product;
any
further
processing
subsequent
to
its
production
is
considered
to
be
chemical
manufacturing.
''
ÐMineral
processing
ends
when
titanium
dioxide
is
produced
in
the
oxidation
unit.
Further
steps
are
chemical
manufacturing.
The
Agency
defines
the
beginning
of
oxidation
as
the
beginning
of
chemical
manufacturing
because
the
facility
is
using
a
saleable
mineral
product,
titanium
tetrachloride,
to
produce
titanium
dioxide
(see
54
FR
366211).
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Vol.
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
48
``
If
EPA
finds
that
this
exemption
is
not
protective
of
human
health
and
the
environment
and
if
an
examination
of
titanium
tetrachloride
waste
management
shows
any
continuing
or
new
problems,
the
Agency
will
reconsider
this
subtitle
D
determination
for
chloride
process
waste
solids
from
titanium
tetrachloride
production.
''
56
FR
273000,
June
13,
1991.
ÐThe
mineral
processing
exemption
only
covers
solids
from
the
production
of
titanium
tetrachloride.
These
solids,
therefore,
are
outside
of
the
consent
decree.
At
least
six
streams
of
solid
bearing
material
leave
the
chlorination
reaction
area.
The
status
of
these
streams
is
as
follows:
(1)
Titanium
tetrachloride
going
on
for
further
production.
All
wastes
formed
during
further
processing
of
this
gaseous
product
stream
are
chemical
manufacturing
wastes
that
are
outside
the
scope
of
the
Bevill
exemption.
(2)
Solids
removed
from
the
gaseous
titanium
tetrachloride
stream.
These
solids
are
associated
with
the
production
of
titanium
tetrachloride.
These
solids
are
typically
slurried
to
impoundments
for
storage
or
disposal
and
are
Bevill
exempt
(with
one
exception
described
below).
(3)
Waste
acids.
In
1990
and
1998
rulemakings
for
LDR
Phase
IV
(see
63
FR
28601),
EPA
took
the
position
that
the
waste
acids
do
not
meet
the
high
volume,
lowtoxicity
test
and
thus
are
not
exempt
mineral
processing
wastes.
(4)
Gases
going
to
scrubbers.
Offgases
from
the
chlorinators
pass
through
various
air
pollution
control
systems
which
generate
scrubber
waters.
In
1998,
EPA
stated
that
scrubber
waters
and
sludges
from
scrubber
waters
were
not
Bevill
exempt.
However,
as
a
result
of
the
information
collection
activities
associated
with
today's
proposal,
it
is
now
clear
to
EPA
that
gases
from
the
chlorinator
contain
some
solids
from
the
chlorinator.
We
are
interpreting
the
exemption
today
to
cover
these
particles
when
they
drop
out
of
scrubber
waters
to
form
sludges.
(Gas
streams
and
wastewaters
are
not
Bevill
exempt,
even
when
they
are
carrying
solid
particles
from
chlorinator.)
(5)
Solids
purged
from
the
reactor.
A
purge
stream
from
the
reactor
may
be
taken
to
reduce
silica
levels
in
the
reactor.
This
stream
is
Bevill
exempt.
(6)
Recovered
solids
from
the
reaction
area.
Housekeeping
results
in
the
collection
of
coke
and
ore
solids
from
the
vicinity
of
the
reaction
area.
These
wastes
are
Bevill
exempt.
In
one
case,
the
facility
conducts
some
processing
of
their
ferric
chloride
waste
acid
(which
is
subsequently
sold
as
a
water
and
wastewater
reagent),
and
generates
a
solids
stream.
We
consider
the
processing
that
this
facility
conducts
to
be
either
an
ancillary
process
or
chemical
manufacturing,
and
thus
the
subsequent
solids
stream
is
not
generated
from
mineral
processing
and
therefore
is
not
exempt.
What
Is
The
Status
of
the
Mineral
Processing
Exemption
for
``
Chloride
Waste
Solids
From
Titanium
Tetrachloride
Production'?
As
part
of
our
waste
characterization
of
the
titanium
dioxide
sector,
we
conducted
analyses
for
chlorinated
dibenzo
p
dioxins
(CDDs)
and
dibenzop
furans
(CDFs).
We
were
concerned
that
these
compounds
might
be
present
in
the
wastes
as
a
result
of
the
chlorination
step
which
occurs
in
the
presence
of
coke,
and
in
fact
we
found
measurable
levels
of
these
compounds
in
wastes
from
the
chloride
and
chloride
ilmenite
processes.
These
data
are
presented
in
the
Titanium
Dioxide
Listing
Background
Document
and
associated
analytical
data
reports
in
the
docket
for
today's
notice.
As
explained
in
this
background
document,
we
believe
that
these
compounds
are
formed
in
the
chlorinator,
and
are
predominantly
associated
with
the
exempt
mineral
processing
solids
(additional
details
regarding
this
conclusion
are
provided
in
the
referenced
background
document).
These
compounds
were
not
assessed,
however,
as
part
of
the
rulemakings
which
established
the
mineral
processing
exemptions,
and
so
these
results
could
present
new
issues
for
these
wastes
if
such
compounds
were
found
to
pose
unacceptable
risks.
During
the
development
of
the
mineral
processing
exemption,
EPA
anticipated
certain
conditions
might
suggest
the
appropriateness
of
re
opening
these
exemptions.
48
We
are
considering
whether
we
should
re
assess
the
status
of
these
wastes
as
exempt
mineral
processing
wastes.
Any
reassessment
of
these
wastes
would
involve
a
separate
analysis
and
opportunity
for
notice
and
comment.
How
Did
EPA
Assess
Mixtures
of
Exempt
and
Non
Exempt
Wastes
From
the
Production
of
Titanium
Dioxide?
There
are
a
number
of
wastes
from
the
titanium
dioxide
sector
that
remain
partially
within
the
scope
of
the
consent
decree
because
they
are
composed
of
both
exempt
and
non
exempt
solids.
Because
they
are
not
``
100
percent
exempt''
in
composition,
we
have
assessed
their
potential
impacts
on
the
environment,
and
attempted
to
isolate
the
risks
associated
with
the
nonexempt
solids
and
wastewaters.
Any
assessment
of
the
CDD
and
CDF
loading
in
exempt
wastes
will
involve
a
separate
analysis
and
opportunity
for
notice
and
comment.
Finally,
we
are
assessing
one
nonexempt
waste
generated
at
the
Delaware
facility,
non
exempt
non
wastewaters
from
the
chloride
ilmenite
process,
which
contains
some
CDDs
and
CDFs
at
levels
exceeding
our
initial
screening
criteria.
We
did
not,
as
part
of
today's
listing
determination,
conduct
sufficient
risk
assessment
to
fully
evaluate
the
potential
for
risks.
See
section
III.
F.
14.
e(
10)
below.
5.
Agency
Evaluation
(1)
Commingled
wastewaters
from
the
chloride
process,
including
wastewaters
from
coke
and
ore
recovery,
scrubber
water,
finishing
wastewaters
and
sludge
supernatants.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Four
facilities
generated
commingled
wastewaters
from
the
chloride
process.
(As
will
be
discussed
further
in
III.
F.
14.
e(
7),
two
additional
facilities
generate
the
same
wastewaters
and
commingle
them
with
wastewaters
from
the
sulfate
process.)
Three
of
the
four
``
chloride
only''
facilities
treat
their
wastewaters
in
surface
impoundmentbased
treatment
systems;
the
fourth
facility
uses
a
tank
based
wastewater
treatment
system.
Each
of
the
impoundment
systems
include
unlined
units.
These
large
volume
wastes
are
generated
in
excess
of
29
million
metric
tons
per
year.
These
wastewaters
are
not
Bevill
exempt
(but
convey
exempt
solids
into
the
wastewater
treatment
system
where
those
solids
are
removed
to
form
sludges
that
are
comprised
of
exempt
solids
and
non
exempt
solids,
depending
on
the
specific
piping
of
the
plants).
Many
facilities
commingle
waste
hydrochloric
acids
(generated
as
scrubber
water)
with
their
combined
wastewaters.
Three
other
facilities,
however,
return
waste
acids
on
site
or
sell
the
acids
for
reuse.
Because
these
materials
have
no
exposure
route
of
concern,
we
did
not
further
evaluate
risk
scenarios
associated
with
reuse
of
this
material.
What
Management
Scenarios
Were
Assessed?
For
this
rulemaking,
we
determined
that
the
surface
impoundment
scenario
poses
a
more
significant
potential
risk
than
the
tank
scenario,
and
thus
assessed
the
groundwater
pathway
for
surface
impoundments.
We
assessed
potential
groundwater
releases
to
both
surface
water
and
drinking
water
wells.
We
concluded
that
the
air
pathway
does
not
present
significant
risks
for
these
wastes
because
the
wastes
do
not
contain
volatile
organics
or
other
constituents
that
pose
risk
due
to
air
releases.
How
Was
This
Waste
Category
Characterized?
One
of
the
four
facilities,
located
in
Hamilton,
Mississippi,
was
selected
for
sampling
and
analysis.
This
facility's
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Proposed
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49
This
facility
also
commingles
wastewaters
from
sodium
clorate
production,
which
account
for
approximately
1.7
percent
of
the
total
4aste
volume.
50
U.
S.
EPA
RCRA
Facility
Assessment
of
Kerr
McGee
Chemical
Corporation;
Hamilton,
MS.
June
16,
1995.
waste
is
representative
of
the
four
chloride
only
facilities.
The
sample
was
collected
at
the
inlet
to
this
facility's
surface
impoundment
train.
49
This
sample
contained
a
high
level
of
solids,
reflecting
the
facility's
practice
of
managing
all
waste
solids
(including
Bevill
exempt
solids)
and
process
wastewaters
in
the
same
units
which
serve
as
settling
ponds.
To
isolate
the
impact
of
the
wastewater
on
the
environment
from
that
of
the
sludge,
we
conducted
the
SPLP
on
the
waste
matrix,
and
separately
analyzed
the
filtrate
and
the
leachate
generated
from
the
leaching
step.
We
are
proposing
to
use
the
filtrate
analysis
as
representative
of
the
wastewater
portion
of
the
commingled
waste
matrix
(see
III.
E.
2
and
3
for
further
discussion
on
the
use
of
SPLP
filtrate).
The
analytical
results
for
the
constituents
found
to
be
present
in
the
filtrate
at
levels
exceeding
HBLs
and/
or
AWQC
are
presented
below
in
Table
III±
40
(the
Titanium
Dioxide
Listing
Background
Document
contains
the
full
set
of
analytical
results).
TABLE
III±
40.Ð
CHARACTERIZATION
OF
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
levels
in
Sample
KM±
SI±
01
(mg/
L)
HBL
AWQC
Total
SPLP
Filtrate
Antimony
..........................................................................................................................................
<0.05
0.044
0.006
0.014
Arsenic
.............................................................................................................................................
0.04
0.001
0.0007
0.000018
Manganese
......................................................................................................................................
25.9
0.46
0.73
0.05
Molybdenum
....................................................................................................................................
0.53
0.23
0.078
NA
Thallium
...........................................................................................................................................
0.086
1
<0.005
0.001
0.0017
1
Thallium
is
identified
as
a
potential
constituent
of
concern
because
it
was
detected
in
the
totals
analysis
at
levels
exceeding
the
HBL
and
AWQC,
and
the
SPLP
filtrate
analysis
detection
limit
was
too
high
to
confirm
that
mobile
levels
of
thallium
do
not
exceed
these
standards.
One
half
the
detection
limit
was
used
as
input
to
the
risk
assessment
(see
III.
E.
3).
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
We
assumed
that
surface
impoundments
present
greater
risks
to
the
environment
than
tanks.
Therefore
we
focused
on
the
3
facilities
that
manage
wastewaters
in
impoundments.
We
selected
the
sampled
facility
for
modeling
because
(1)
its
management
practices
(i.
e.,
treatment
in
surface
impoundments)
are
representative
of
3
of
the
4
chloride
only
facilities,
(2)
the
analytical
data
for
this
waste
were
obtained
from
this
site,
and
(3)
its
setting
is
similar
to
the
other
2
facilities
that
use
surface
impoundments.
The
facility
selected
for
modeling
is
bounded
on
two
sides
by
a
river,
tributary
creeks,
and
swamps.
The
RCRA
Facility
Assessment
50
for
this
site
provides
maps
showing
distances
to
these
potential
receptors
and
groundwater
flow
directions
in
the
vicinity
of
the
surface
impoundments
and
plant
wide
flow
directions,
with
the
overall
flow
being
toward
the
river.
We
calculated
infiltration
rates
for
the
unlined
impoundment,
and
divided
this
flow
rate
into
the
flow
rate
of
the
river
to
determine
potential
concentrations
of
the
five
metals
of
concern
in
the
river
as
a
result
of
recharge
with
contaminated
groundwater.
The
results
of
this
screening
(see
``
Risk
Assessment
Support
to
the
Inorganic
Chemical
Industry
Listing:
Background
Information
Document'')
demonstrate
that
concentrations
of
the
constituents
of
concern
are
likely
to
be
well
below
risk
thresholds
for
both
human
health
and
aquatic
life
in
surface
water.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
We
were
able
to
collect
specific
information
regarding
the
physical
setting
of
the
modeled
facility,
and
thus
used
primarily
site
specific
data
as
input
to
the
risk
assessment.
We
chose
this
site
for
modeling
because
the
amount
of
available
information
best
supported
our
data
requirements
for
modeling
and
because
we
believe
this
facility
is
representative
of
other
generators
of
this
waste
category
in
terms
of
hydrogeological
setting
and
waste
characterization.
Based
on
information
presented
in
the
RFA
for
the
facility
of
concern,
as
well
as
from
the
U.
S.
Geological
Survey
Groundwater
Site
Inventory,
there
are
groundwater
wells
north
of
the
plant.
The
RFA
also
indicates
that
groundwater
flow
direction
in
the
localized
vicinity
of
the
surface
impoundments
is
to
the
northwest.
We
modeled
the
potential
impact
of
the
unlined
portion
of
the
surface
impoundment
train
on
drinking
water
wells
located
within
2,000±
5,000
feet
(based
on
well
locations
and
the
closest
facility
property
lines).
The
resultant
concentrations
are
presented
below
in
Table
III±
41.
TABLE
III±
41.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Risk
or
hazard
quotient
90th%
95th%
Adult
Child
Adult
Child
Antimony
HQ
...................................................................................................................
0.
1
0.2
0.2
0.5
Arsenic
cancer
risk
..........................................................................................................
2E±
08
2E±
08
8E±
08
6E±
08
Molybdenum
HQ
..............................................................................................................
0.03
0.07
0.06
0.1
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/
Proposed
Rules
51
This
waste
volume
includes
the
non
exempt
sulfate
solids
generated
at
one
of
the
2
facilities
that
commingle
wastes
from
the
chloride
and
sulfate
processes.
52
The
sodium
chlorate
wastewaters
account
for
only
1.7%
of
the
total
volume
of
managed
wastewater,
and
for
only
4.4%
of
the
solids
generated.
The
predominant
potential
constituent
of
concern
in
the
sodium
chlorate
solids
is
chromium;
analytical
data
for
the
commingled
solids
(KM±
SI±
04)
show
that
the
SPLP
concentration
is
<0.05
mg/
L
and
not
of
concern.
See
section
III.
F.
11
for
further
discussion
of
this
facility's
sludge.
TABLE
III±
41.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
PROCESS,
TITANIUM
DIOXIDEÐ
Continued
Constituent
of
concern
Risk
or
hazard
quotient
90th%
95th%
Adult
Child
Adult
Child
Thallium
HQ
.....................................................................................................................
0.02
0.03
0.03
0.07
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
commingled
wastewaters
from
the
production
of
titanium
dioxide
via
the
chloride
process.
The
results
of
our
risk
assessment
show
that
this
waste
category
does
not
pose
significant
risk
to
human
health
and
the
environment.
Our
assessment
of
the
air
and
surface
water
exposure
pathways
shows
no
risk
of
concern.
Our
assessment
of
the
groundwater
exposure
pathway
similarly
shows
no
risk
of
concern
for
the
constituents
of
concern.
(2)
Chloride
process
solids
(Bevill
exempt).
Six
facilities
generate
waste
solids
from
the
chloride
process.
As
previously
discussed,
the
Agency
determined
at
56
FR
27312
(June
13,
1991)
that
chloride
process
waste
solids
from
titanium
tetrachloride
production
are
Bevill
exempt
mineral
processing
wastes
(40
CFR
261.4(
b)(
7)(
ii)(
S)).
Five
of
the
six
facilities
generate
their
solids
in
surface
impoundments;
the
sixth,
located
in
Louisiana,
uses
tank
based
settling
to
segregate
the
solids
from
their
wastewaters.
All
six
facilities
dispose
of
their
solids
in
their
surface
impoundments
or
on
site
landfills.
Approximately
1.2
million
MT
of
this
waste
was
generated
in
1998.
51
The
waste
solids
at
each
of
these
sites
contains
contributions
from
Bevill
exempt
solids
ranging
from
100%
to
40%,
as
discussed
further
below.
At
the
two
facilities
located
in
Georgia
and
Louisiana,
coke
and
ore
solids
are
generated
as
entirely
segregated
wastes
that
are
not
commingled
with
nonexempt
solids;
these
exempt
wastes
are
clearly
outside
the
scope
of
the
consent
decree
dictating
today's
proposal
and
have
not
been
assessed
further.
At
three
other
facilities,
the
facilities
conduct
some
commingling
of
their
wastewaters,
resulting
in
small
potential
contributions
of
non
exempt
solids
to
their
waste
solids.
Two
of
these
facilities,
both
located
in
Ohio,
commingle
wastewaters
from
oxidation
and
finishing
(i.
e.,
generated
after
the
production
of
titanium
tetrachloride
and
therefore
potentially
bearing
nonexempt
solids)
with
the
wastewaters
from
titanium
tetrachloride
production
that
bear
exempt
solids.
Neither
facility
reported
any
solids
in
their
oxidation
and
finishing
wastewaters,
although
data
from
similar
wastewaters
from
the
chloride
ilmenite
process
indicate
that
very
low
levels
of
solids
can
be
present
in
similar
wastewaters.
(We
assess
solids
from
the
chloride
ilmenite
process
in
section
III.
F.
14.
e(
10)
of
this
proposal.)
At
the
third
facility
(located
in
Mississippi),
which
operates
a
slightly
different
process,
there
were
no
reported
wastewaters
or
solids
from
oxidation
and
finishing.
Note
that
the
wastewaters
bearing
the
exempt
solids
at
this
facility
are
commingled
with
comparatively
small
volumes
of
wastewaters
from
sodium
chlorate
production
(described
in
section
III.
F.
11
of
today's
proposal).
52
We
believe
that
the
contribution
of
any
non
exempt
solids
to
the
volume
of
exempt
solids
from
these
three
facilities
would
be
very
small.
Thus,
we
have
chosen
not
to
attribute
any
risks
to
the
nonexempt
portion
of
these
commingled
solids.
Two
of
the
six
facilities
generating
chloride
process
waste
solids
also
operate
sulfate
based
titanium
dioxide
production
lines.
These
plants
are
sited
in
Georgia
and
Maryland.
Wastewaters
from
the
chloride
process
and
sulfate
processes
are
commingled
and
results
in
commingled
wastewater
treatment
solids
that
are
partially
composed
of
exempt
solids.
The
non
exempt
wastewater
treatment
solids
are
described
separately
in
section
III.
F.
14.
e(
8).
They
contain
significant
volumes
of
non
exempt
solids
(>
35%).
(3)
Various
sands
from
oxidation,
milling
and
scouring.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Two
facilities
using
the
chloride
process
reported
disposal
of
250
MT
of
milling
sand
in
off
site
and
dedicated
on
site
Subtitle
D
landfills.
One
facility
also
reported
landfilling
over
2,300
MT
of
scouring
sand.
One
facility
reported
6,935
MT/
yr
of
waste
oxidation
sand
that
is
managed
in
an
on
site
industrial
Subtitle
D
landfill.
All
of
these
sands
are
similar
and
are
associated
with
titanium
dioxide
finishing
operations.
All
of
these
sands
are
produced
after
the
beginning
of
chemical
manufacturing
and
therefore
are
not
exempt.
What
Management
Scenarios
Were
Assessed?
We
assessed
the
off
site
industrial
landfill
scenario
for
milling
sand
and
a
dedicated
on
site
landfill
for
scouring
sand,
reflecting
the
types
of
management
reported
for
these
wastes.
We
assessed
the
groundwater
ingestion
pathway
for
these
landfills.
The
on
site
landfill
scenario
for
scouring
sand
screened
out
when
we
compared
the
SPLP
results
for
this
waste
directly
to
the
HBLs.
How
Was
This
Waste
Category
Characterized?
We
collected
samples
of
both
the
milling
sand
and
the
scouring
sand.
We
conducted
total,
TCLP
and
SPLP
analyses
on
the
waste
matrix.
We
used
the
SPLP
results
(rather
than
the
TCLP)
to
assess
potential
releases
to
groundwater
because
there
is
no
contact
with
municipal
landfill
leachate
in
the
reported
management
practices,
and
no
indication
that
other
practices
are
likely.
The
SPLP
analytical
results
of
concern
for
the
milling
sand
are
presented
below
in
Table
III±
42.
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Proposed
Rules
53
Additional
volumes
are
used
as
products.
54
See
``
Update
of
the
Hazardous
Waste
Groundwater
Task
Force'',
April
1998.
Maryland
Department
of
the
Environment.
RCRA
Operation
and
Maintenance
Inspection
of
SCM
Chemicals
(now
Millennium
Inorganic
Chemicals,
Inc.);
Hawkins
Point
Plant;
Baltimore,
MD.
October
1994.
TABLE
III±
42.Ð
CHARACTERIZATION
OF
MILLING
SAND
FROM
TITANIUM
DIOXIDE
PRODUCTION
Constituent
of
concern
Detected
SPLP
levels
in
KP±
SO±
05
(mg/
L)
HBL
(mg/
L)
Antimony
.......................
0.024
0006
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
As
described
in
Section
III.
D.
4.
we
used
our
standard
distance
to
well
assumptions
for
an
off
site
landfill,
and
assumed
hydrogeologic
conditions
would
be
comparable
to
those
for
the
reported
off
site
landfill.
As
shown
in
Table
III±
43,
the
resultant
risks
were
calculated.
TABLE
III±
43.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
MILLING
SAND
FROM
TITANIUM
DIOXIDE
PRODUCTION
Antimony
HQ
Percentile
Adult
risk
Child
risk
90th
.......................................
0.003
0.006
95th
.......................................
0.008
0.02
What
is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste
because
the
modeled
and
screening
risk
for
antimony,
the
sole
constituent
of
concern,
is
well
below
a
hazard
quotient
of
unity.
(4)
Gypsum
from
the
sulfate
process.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
The
Maryland
and
Georgia
facilities
generate
this
waste.
Both
sites
pipe
their
acid
directly
to
their
gypsum
plants
where
it
is
neutralized
to
form
gypsum.
We
found
no
significant
potential
for
release
of
this
acid
waste
prior
to
its
treatment
in
the
gypsum
plant.
The
two
facilities
reported
production
of
69,500
MT/
yr
of
gypsum
that
is
landfilled.
53
We
chose
to
look
further
at
this
material
because
it
is
disposed
of
in
a
landfill
and
used
in
a
manner
constituting
disposal
(i.
e.,
as
fertilizer),
and
because
the
generators
conduct
on
site
land
placement
(piles).
Specifically,
the
Georgia
facility
places
their
gypsum
in
piles
prior
to
sale
for
use
in
agricultural
chemicals,
cement,
chemical
products,
and
wall
board.
The
Maryland
facility
generates
primary
and
secondary
gypsum,
both
of
which
are
also
placed
in
piles
prior
to
use
in
wall
board
manufacture
or
disposal
in
an
on
site
landfill.
As
described
above,
the
gypsum
is
not
an
exempt
mineral
processing
waste
because
this
sulfate
process
wastestream
did
not
meet
the
high
volume/
low
toxicity
criteria
noted
in
54
FR
36592
(September
1,
1989).
What
Management
Scenarios
Were
Assessed?
We
assessed
each
of
the
reported
management
scenarios
that
involve
land
placement:
agricultural
chemicals,
cement,
piles
and
landfills.
We
evaluated
potential
releases
to
both
air
and
groundwater.
Samples
were
collected
at
both
facilities,
and
included
both
primary
and
secondary
gypsum
samples
at
the
Maryland
site.
The
management
scenarios
were
assessed
using
the
appropriate
sample
for
the
type
of
gypsum
reported
for
that
scenario.
All
pathways
screened
out
except
for
the
landfill
scenario
at
the
Maryland
site.
For
the
Maryland
landfill
we
found
constituent
concentrations
at
levels
of
potential
concern
for
the
groundwater
and
surface
water
pathways.
The
primary
gypsum
contained
lower
levels
of
leachable
metals
than
the
secondary
gypsum;
we
focused
our
modeling
efforts
on
the
higher
volume
secondary
gypsum
as
it
was
more
likely
to
show
risk
when
modeled
and
the
management
scenarios
are
identical
(they
are
placed
in
the
same
on
site
industrial
landfill).
The
screening
results
are
discussed
further
in
the
``
Titanium
Dioxide
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination,
''
available
in
the
docket
for
today's
notice.
We
assessed
the
landfill
scenario
for
potential
impacts
to
both
surface
water
and
drinking
water
wells.
The
facility
selected
for
modeling
is
bounded
to
the
north
and
east
by
the
Patapsco
River,
which
is
an
estuary.
The
expected
groundwater
flow,
while
not
characterized
definitively,
is
expected
to
be
eastward,
toward
the
river.
54
How
Was
This
Waste
Category
Characterized?
We
collected
three
samples
of
this
waste
for
analysis.
We
conducted
total,
TCLP
and
SPLP
analyses
on
the
waste
matrices.
We
used
the
SPLP
results
(rather
than
TCLP)
to
assess
potential
releases
to
groundwater
and
surface
water
because
there
is
no
contact
with
municipal
landfill
leachate
in
the
reported
management
practices.
We
used
total
results
to
assess
potential
air
releases,
and
this
pathway
screened
out.
The
SPLP
analytical
results
for
the
secondary
gypsum
that
we
used
to
assess
groundwater
releases
from
landfilling
are
presented
below
in
Table
III±
44.
TABLE
III±
44.Ð
CHARACTERIZATION
OF
SECONDARY
GYPSUM
FROM
SULFATE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
SPLP
levels
in
MI±
SO±
03
(mg/
L)
HBL
(mg/
L)
AWQC
(mg/
L)
Antimony
..................................................................................................................................................
0.055
0.006
0.014
Arsenic
.....................................................................................................................................................
<0.0035
0.0007
0.000018
Manganese
..............................................................................................................................................
3.1
0.73
0.05
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/
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September
14,
2000
/
Proposed
Rules
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
We
calculated
infiltration
rates
for
the
unlined
landfill,
and
divided
this
flow
rate
into
the
flow
rate
of
the
river
to
determine
potential
concentrations
of
the
three
metals
of
concern
(see
Table
III±
44)
in
the
river
as
a
result
of
recharge
with
contaminated
groundwater.
The
results
of
this
screening
(available
in
the
Risk
Assessment
Background
Document)
demonstrate
that
concentrations
of
the
constituents
of
concern
are
expected
to
be
well
below
risk
thresholds
for
human
health
and
aquatic
life
in
surface
water.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
While
we
are
not
aware
of
any
actual
drinking
water
wells
in
the
vicinity
of
the
Maryland
facility,
we
were
unable
to
determine
definitively
that
there
are
not
private
wells
in
use
in
the
residential
area
to
the
south
of
the
facility,
or
that
potentially
contaminated
groundwater
would
not
reach
this
neighborhood.
We
thus
decided
to
model
potential
exposure
at
this
neighborhood.
We
modeled
the
potential
impact
of
the
unlined
landfill
on
drinking
water
wells
located
within
2,500±
5,000
feet
(based
on
distances
to
the
nearest
residential
area).
The
resultant
risks
were
calculated
and
are
summarized
in
Table
III±
45.
TABLE
III±
45.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
SECONDARY
GYPSUM
FROM
SULFATE
PROCESS,
TITANIUM
DIOXIDE
Antimony
HQ
ArsenicÐ
cancer
risk
Manganese
HQ
Adult
risk
Child
risk
Adult
risk
Child
risk
Adult
risk
Child
risk
90th
..................................................................................
0.23
0.49
6.
E±
07
4.
E±
07
0.1
0.2
95th
..................................................................................
0.35
0.75
1.
E±
06
1.
E±
06
0.1
0.3
What
is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
gypsum
from
the
sulfate
process.
The
results
of
our
risk
assessment
demonstrate
that
there
is
no
significant
risk
associated
with
this
material,
and
that
it
does
not
warrant
control
as
a
listed
hazardous
waste.
At
the
95th
percentile,
the
risks
for
antimony
(HQ=
0.75)
and
arsenic
(1E
´6
),
approach
levels
at
which
EPA
considers
listing
wastes
(HQ=
1.0
and
cancer
risk>
10
´6
,
respectively).
We
believe
that
our
modeled
exposure
scenario,
while
plausible,
contains
a
number
of
conservative
assumptions
that
likely
overstate
these
marginal
risks.
In
particular,
our
assumptions
regarding
groundwater
flow
direction
(i.
e.,
that
a
contaminated
plume
from
the
landfill
would
flow
to
the
south
toward
the
nearest
residences,
rather
than
due
west
toward
the
river)
and
the
use
of
groundwater
for
drinking
water
at
these
residences
(records
indicate
this
community
uses
public
water)
may
overstate
actual
risks.
(5)
Digestion
scrubber
water
from
the
sulfate
process.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
The
Maryland
and
Georgia
facilities
reported
generation
of
digestion
scrubber
water
from
the
sulfate
process.
The
Maryland
facility
manages
this
wastewater
in
a
dedicated
surface
impoundment
after
neutralization.
The
other
facility
commingles
this
wastewater
with
other
wastewaters
from
their
chloride
and
sulfate
processes.
As
described
above,
the
gypsum
is
not
an
exempt
mineral
processing
waste
because
this
sulfate
process
wastestream
did
not
meet
the
high
volume/
low
toxicity
criteria
noted
in
54
FR
36592
(September
1,
1989).
(See
40
CFR
261.4(
b)(
7)(
ii).)
What
Management
Scenarios
Were
Assessed?
We
assessed
the
waste
in
its
commingled
form
as
managed
by
the
Maryland
facility,
as
described
below
in
section
III.
F.
14.
e(
7).
We
also
modeled
the
dedicated
surface
impoundment
scenario
using
the
physical
parameters
describing
the
dedicated
Georgia
impoundment.
This
impoundment
is
placed
directly
on
the
banks
of
a
river,
and
thus
we
were
primarily
concerned
with
potential
releases
to
surface
water.
We
did
not
model
a
drinking
water
well
scenario
because
there
are
no
constituents
of
concern
in
this
wastewater
at
levels
exceeding
HBLs.
How
Was
This
Waste
Category
Characterized?
We
collected
one
sample
of
this
waste
for
analysis.
We
conducted
total
analyses
(leaching
was
not
conducted
given
the
low
levels
of
percent
solids
in
this
waste),
which
are
summarized
below
in
Table
III±
46
for
the
constituents
of
potential
concern.
TABLE
III±
46.Ð
CHARACTERIZATION
OF
DIGESTION
SCRUBBER
WATER
FROM
SULFATE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
levels
in
MI±
WW±
03
(mg/
L)
HBL
(mg/
L)
AWQC
(mg/
L)
Aluminum
.................................................................................................................................................
0.58
16
0.087
Manganese
..............................................................................................................................................
0.58
0.73
0.05
Mercury
....................................................................................................................................................
0.0032
0.005
0.000050
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
We
calculated
infiltration
rates
for
the
unlined
surface
impoundment,
and
divided
this
flow
rate
into
the
flow
rate
of
the
river
to
determine
potential
concentrations
of
the
three
metals
of
concern
(see
Table
III±
46)
in
the
river
as
a
result
of
recharge
with
contaminated
groundwater.
The
results
of
this
screening
(available
in
the
Risk
Assessment
Background
Document)
demonstrate
that
concentrations
of
the
constituents
of
concern
are
likely
to
be
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/
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14,
2000
/
Proposed
Rules
well
below
risk
thresholds
for
human
health
and
aquatic
life
in
surface
water.
What
is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
digestion
scrubber
water
from
the
production
of
titanium
dioxide
via
the
sulfate
process.
The
results
of
our
risk
assessment
show
that
this
waste
category
does
not
warrant
listing
as
a
hazardous
waste.
(6)
Sulfate
process
digestion
sludges.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
The
Maryland
and
Georgia
facilities
generate
this
sludge.
The
Georgia
facility
manages
it
in
a
dedicated
surface
impoundment
and
the
Maryland
facility
places
it
in
an
on
site
landfill.
As
described
above,
the
waste
is
not
an
exempt
mineral
processing
waste
because
this
sulfate
process
wastestream
did
not
meet
the
high
volume/
low
toxicity
criteria
noted
in
54
FR
36592
(September
1,
1989).
(See
40
CFR
261.4(
b)(
7)(
ii).)
What
Management
Scenarios
Were
Assessed?
We
assessed
both
management
scenarios
using
the
respective
samples
collected
at
each
facility.
The
surface
impoundment
scenario
screened
out;
the
levels
of
constituents
in
the
wastewater
were
below
HBLs
and
AWQC.
We
modeled
the
landfill
scenario
for
potential
releases
to
both
groundwater
drinking
wells
and
surface
water.
How
Was
This
Waste
Category
Characterized?
We
collected
one
sample
of
this
waste
for
analysis
at
the
Maryland
facility.
We
conducted
total,
TCLP,
and
SPLP
analyses.
We
used
the
SPLP
results
as
inputs
to
the
on
site
landfill,
which
are
summarized
below
in
Table
III±
47
for
the
constituents
of
potential
concern.
TABLE
III±
47.Ð
CHARACTERIZATION
OF
DIGESTION
SLUDGE
FROM
SULFATE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
SPLP
Levels
in
MI±
SO±
02
(mg/
L)
HBL
(mg/
L)
AWQC
(mg/
L)
Aluminum
.................................................................................................................................................
2.0
16
0.087
Antimony
..................................................................................................................................................
0.023
0.006
0.014
Copper
.....................................................................................................................................................
0.37
1.3
0.0031
Iron
...........................................................................................................................................................
12.0
5
1
Lead
.........................................................................................................................................................
1
0.004
0.015
0.0025
Manganese
..............................................................................................................................................
0.36
0.73
0.05
Vanadium
.................................................................................................................................................
0.42
0.14
Zinc
..........................................................................................................................................................
0.30
4.7
0.12
1
Results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection
limits.
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
We
calculated
infiltration
rates
for
the
landfill,
and
divided
this
flow
rate
into
the
flow
rate
of
the
river
to
determine
potential
concentrations
of
the
three
metals
of
concern
(see
preceding
table)
in
the
river
as
a
result
of
recharge
with
contaminated
groundwater.
Note
that
this
is
the
same
Maryland
landfill
described
elsewhere
in
III.
F.
14.
e(
4)
and
(8).
The
results
of
this
screening
(available
in
the
Risk
Assessment
Background
Document)
demonstrate
that
concentrations
of
the
constituents
of
concern
are
likely
to
be
well
below
risk
thresholds
for
human
health
and
aquatic
life
in
surface
water.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
See
the
comparable
discussion
for
the
gypsum
(III.
F.
14.
e(
4)).
The
groundwater
ingestion
scenario
was
assessed
for
antimony
and
vanadium
because
the
detected
SPLP
concentrations
exceeded
their
respective
HBLs.
We
did
not
assess
the
iron
HBL
exceedence
because
the
HBL
is
at
or
above
the
solubility
limit
in
ground
water
under
most
conditions.
The
resultant
risks
were
calculated
and
are
summarized
in
Table
III±
48.
TABLE
III±
48.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
DIGESTION
SLUDGE
FROM
SULFATE
PROCESS,
TITANIUM
DIOXIDE
Antimony
HQ
Vanadium
HQ
Adult
risk
Child
risk
Adult
risk
Child
risk
90th
..................................................................................................................................
0.13
0.27
0.02
0.03
95th
..................................................................................................................................
0.18
0.39
0.03
0.07
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
this
waste.
The
results
of
our
risk
assessment
modeling
show
that
this
waste
does
not
contain
mobile
metals
that
are
likely
to
pose
risk
to
human
health
and
the
environment
due
to
transport
through
the
subsurface.
(7)
Commingled
wastewaters
from
the
chloride
and
sulfate
process.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
The
Maryland
and
Georgia
facilities
generate
this
waste
category.
Both
facilities
neutralized
their
commingled
wastewaters
and
manage
them
in
surface
impoundments
prior
to
NPDES
discharge
(but
convey
exempt
solids
into
the
wastewater
treatment
system
where
those
solids
are
removed
to
form
sludges
that
are
comprised
of
exempt
solids
and
non
exempt
solids,
depending
on
the
specific
piping
of
the
plants).
What
Management
Scenarios
Were
Assessed?
We
collected
samples
at
both
facilities
at
the
influent
to
their
surface
impoundment
trains.
We
screened
the
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179
/
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September
14,
2000
/
Proposed
Rules
55
Although
wastes
from
calcining
are
generally
treated
as
Bevill
exempt
extraction/
beneficiation
wastes,
wastes
from
titanium
dioxide
calcination
are
post
mineral
processing,
chemical
manufacturing
wastes.
The
Agency
noted
at
54
FR
36619,
``
As
discussed
in
the
April
NPRM,
the
Agency
considers
any
operations
following
the
initial
[mineral]
processing
operation
to
be
[mineral]
processing
operations,
regardless
of
whether
the
activity
was
included
on
the
list
of
RTC
beneficiation
activities
or
has
traditionally
been
considered
beneficiation.
''
Therefore,
since
mineral
processing
ends
and
chemical
manufacturing
starts
at
the
beginning
of
oxidation,
and
the
calcining
step
occurs
after
oxidation,
all
wastes
generated
from
the
calcining
step
are
non
exempt
wastes.
risk
at
both
facilities
using
the
analytical
data
describing
their
respective
wastes.
We
concluded
that
the
Georgia
facility
was
not
a
modeling
candidate
because
none
of
the
constituents
detected
in
its
waste
exceeded
our
health
based
levels
or
the
ambient
water
quality
criteria.
At
the
Maryland
facility,
we
modeled
the
surface
impoundment
scenario
using
the
physical
parameters
describing
their
unlined
impoundment.
We
assessed
both
the
surface
water
and
drinking
water
well
scenario.
How
Was
This
Waste
Category
Characterized?
The
sample
contained
a
high
level
of
solids,
reflecting
the
facility's
practice
of
managing
all
waste
solids
and
process
wastewaters
in
the
same
unit.
To
isolate
the
impact
of
the
wastewater
on
the
environment
from
that
of
the
sludge,
we
conducted
the
SPLP
on
the
waste
matrix,
and
separately
analyzed
the
filtrate
and
the
leachate
generated
from
the
leaching
step.
We
are
proposing
to
use
the
filtrate
analysis
as
representative
of
the
wastewater
portion
of
the
commingled
waste
matrix.
The
analytical
results
for
the
constituents
found
to
be
present
in
the
filtrate
at
levels
exceeding
HBLs
and/
or
AWQC
are
presented
below
in
Table
III±
49.
TABLE
III±
49.Ð
CHARACTERIZATION
OF
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
AND
SULFATE
PROCESS,
TITANIUM
DIOXIDE
[mg/
L]
Constituent
of
concern
Detected
levels
in
sample
MI±
WW±
04
HBL
AWQC
Total
SPLP
Filtrate
Arsenic
.............................................................................................................
0.022
<0.005
(1)
0.0007
0.000018
Manganese
......................................................................................................
119
9.95
0.73
0.05
Thallium
...........................................................................................................
0.005
0.004
0.001
0.0017
(1)
1/
2
the
detection
limit
was
used
as
input
to
the
risk
assessment.
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
We
calculated
infiltration
rates
for
the
surface
impoundment,
and
divided
this
flow
rate
into
the
flow
rate
of
the
river
to
determine
potential
concentrations
of
the
two
metals
of
concern
(see
preceding
table)
in
the
river
as
a
result
of
recharge
with
contaminated
groundwater.
The
results
of
this
screening
(available
in
the
Risk
Assessment
Background
Document)
demonstrate
that
concentrations
of
the
constituents
of
concern
are
likely
to
be
well
below
risk
thresholds
for
human
health
and
aquatic
life
in
surface
water.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
See
the
comparable
discussion
for
the
gypsum
(III.
F.
14.
e(
4)).
The
resultant
risks
were
calculated
and
are
summarized
in
Table
III±
50.
TABLE
III±
50.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
AND
SULFATE
PROCESSES,
TITANIUM
DIOXIDE
Constituent
of
concern
90th
percentile
95th
percentile
Adult
Child
Adult
Child
Arsenic
cancer
risk
..........................................................................................................
5E±
08
3E±
08
2E±
07
1E±
07
Manganese
HQ
................................................................................................................
0.009
0.02
0.02
0.04
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
commingled
wastewaters
from
the
production
of
titanium
dioxide
from
the
chloride
and
sulfate
processes.
The
results
of
our
risk
assessment
demonstrate
that
this
waste
category
does
not
pose
risks
warranting
listing
as
hazardous
waste.
Arsenic
levels
at
the
receptor
result
in
cancer
risks
well
below
1E±
06,
and
manganese
levels
at
the
receptor
are
similarly
well
below
a
hazard
quotient
of
one.
(8)
Wastewater
treatment
sludges
from
commingled
chloride
and
sulfateprocess
wastewaters.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
Two
facilities,
sited
in
Georgia
and
Maryland,
generate
this
waste
category,
and
after
de
watering,
place
their
sludges
in
on
site
landfills.
Over
159,000
MT
of
this
waste
was
generated
in
1998.
What
Is
the
Bevill
Exemption
Status
of
This
Waste
Category?
As
discussed
above,
the
chloride
process
waste
solids
are
exempt
mineral
processing
wastes,
to
the
extent
that
they
are
associated
with
the
titanium
tetrachloride
process.
Data
provided
by
these
two
facilities,
however,
show
that
these
waste
contain
at
least
35%
nonexempt
solids.
Our
quantitative
assessment
of
the
potential
risk
associated
with
these
non
exempt
solids
is
provided
here.
The
wastewater
treatment
solids
at
the
Maryland
site
are
derived
from
at
least
four
primary
sources.
Two
residuals
from
the
chloride
process
contribute
exempt
solids
(i.
e.,
solids
slurry
and
scrubber
water
from
the
reaction
area)
as
identified
in
261.4(
b)(
7)(
ii)(
S)
and
discussed
above
in
III.
F.
14.
e(
2).
Two
scrubber
waters
from
the
calcination
55
and
finishing
portion
of
the
sulfate
process
contribute
nonexempt
solids
to
the
wastewater
treatment
solids
(sulfate
process
wastes
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
are
not
exempt
because,
as
described
above,
the
sulfate
process
wastestreams
did
not
meet
the
high
volume/
low
toxicity
criteria
noted
in
54
FR
36592
(September
1,
1989)).
Additional
potential
sources
of
minor
amounts
of
solids
are
other
wastewaters
that
are
treated
in
this
facility's
wastewater
treatment
system,
including
cooling
water,
stormwater,
drainage
water
and
landfill
leachate.
Based
on
the
information
reported
in
this
facility's
§
3007
survey
response,
we
estimate
that
their
wastewater
treatment
solids
are
more
than
35%
non
exempt.
The
wastewater
treatment
solids
at
the
Georgia
site
are
derived
from
at
least
six
sources.
Two
residuals
from
the
chloride
process
contribute
exempt
solids
(i.
e.,
waste
acid
from
the
chloride
reaction
area
and
supernatant
from
the
chloride
solids
impoundment)
(261.4(
b)(
7)(
ii)(
S)).
Finishing
wastewaters
from
the
chloride
process
contribute
non
exempt
solids
(these
wastewaters
are
generated
from
the
chemical
manufacturing
end
of
the
production
process).
At
least
three
wastewaters
from
the
sulfate
process
contribute
non
exempt
solids.
Based
on
the
information
reported
in
this
facility's
§
3007
survey
response,
we
estimate
that
their
wastewater
treatment
solids
are
significantly
more
than
35%
non
exempt.
What
Management
Scenarios
Were
Assessed?
We
collected
samples
of
both
facilities'
wastes
and
therefore
assessed
the
management
practices
at
the
two
sites
individually.
The
Maryland
facility
treats
its
wastewater
in
surface
impoundments;
the
sludge
is
generated
from
a
filter
press,
and
the
facility
then
places
the
sludge
in
an
on
site
landfill.
We
assessed
potential
groundwater
releases
to
both
surface
water
and
drinking
water
wells
from
this
landfill.
The
Georgia
facility
dredges
its
sludge
from
its
surface
impoundments,
filter
presses
the
solids,
places
the
filter
solids
in
piles
for
further
drainage
and
air
drying,
and
then
places
the
filter
solids
in
an
industrial
on
site
landfill.
We
assessed
the
groundwater
pathways
for
the
landfill
and
pile,
and
the
air
pathway
for
the
pile.
(Note
that
we
elsewhere
assess
the
groundwater
impact
of
the
Maryland
surface
impoundments
using
sampling
data
for
the
wastewater
in
that
unit.
See
III.
F.
14.
e(
7)).
All
pathways
for
the
Georgia
facility
screened
out
and
are
not
discussed
further
in
this
notice
(see
the
``
Titanium
Dioxide
Listing
Background
Document
for
the
Inorganic
Chemical
Listing
Determination''
for
details
of
this
screening).
How
Was
This
Waste
Category
Characterized?
Both
facilities
were
selected
for
sampling
and
analysis.
Both
samples
were
collected
from
filter
cake
discharge
of
the
filter
press.
We
conducted
total,
TCLP
and
SPLP
analyses
on
the
waste
matrix.
We
used
the
SPLP
results
(rather
than
the
TCLP)
to
assess
potential
releases
to
groundwater
and
surface
water
because
there
is
no
potential
for
contact
with
municipal
landfill
leachate
in
the
reported
management
practices
for
these
two
facilities.
Given
the
large
waste
quantities
reported
for
this
category,
we
believe
it
would
be
prohibitively
expensive
for
off
site
disposal
to
occur.
We
used
total
results
to
assess
potential
air
releases
from
the
piles,
and
found
no
significant
risks.
The
SPLP
analytical
results
used
to
assess
groundwater
releases
at
the
Maryland
facility
that
generates
commingled
chloride/
sulfate
wastewater
treatment
sludge
(as
described
in
the
previous
paragraph)
are
presented
below
in
Table
III±
51.
TABLE
III±
51.Ð
CHARACTERIZATION
OF
COMMINGLED
WASTEWATER
TREATMENT
SLUDGES
FROM
CHLORIDE
AND
SULFATE
PROCESSES,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
SPLP
levels
in
MI±
SO±
01
(mg/
L)
HBL
(mg/
L)
AWQC
(mg/
L)
Aluminum
.................................................................................................................................................
0.24
16
0.087
Arsenic
.....................................................................................................................................................
1
0.00005
0.0007
0.000018
Manganese
..............................................................................................................................................
2.63
0.73
0.05
Thallium
...................................................................................................................................................
1
0.003
0.001
0.0017
1
Estimated
results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection
limits.
In
addition
to
the
metals
described
above,
our
analytical
data
show
that
this
waste
contains
polychlorinated
dioxins
and
furans
(PCDD/
F).
These
data
are
provided
in
the
background
document
for
the
titanium
dioxide
sector.
As
discussed
previously
(III.
F.
14.
d),
we
believe
that
these
contaminants
are
clearly
associated
with
the
exempt
solids
contained
in
this
waste,
and
thus
we
did
not
assess
them.
Samples
collected
at
these
two
facilities
bear
out
this
association
with
the
exempt
solids.
The
Maryland
facility,
which
does
not
segregate
any
of
its
exempt
solids
from
other
wastewater
treatment
solids,
has
significantly
higher
PCDD/
F
levels
than
the
Georgia
facility
(i.
e.,
several
orders
of
magnitude),
which
segregates
the
majority
of
its
exempts
solids
from
its
wastewater
treatment
solids.
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
The
Maryland
facility
selected
for
modeling
this
scenario
was
also
modeled
for
several
other
wastes,
and
is
described
further
in
section
III.
F.
14.
e(
5)
above.
We
calculated
infiltration
rates
for
the
unlined
landfill,
and
divided
this
flow
rate
into
the
flow
rate
of
the
river
to
determine
potential
concentrations
of
the
four
metals
of
concern
(see
preceding
table)
in
the
river
as
a
result
of
recharge
with
contaminated
groundwater.
The
results
of
this
screening
(available
in
the
Risk
Assessment
Background
Document)
demonstrate
that
concentrations
of
the
constituents
of
concern
are
likely
to
be
well
below
risk
thresholds
in
surface
water.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
The
facility
selected
for
modeling
this
scenario
was
also
modeled
for
several
other
wastes,
and
is
described
further
in
section
III.
F.
14.
e(
4)
above.
The
resultant
risks
were
calculated
and
are
summarized
in
Table
III±
52.
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14,
2000
/
Proposed
Rules
56
Surface
impoundments
pose
essentially
inherent
risks
of
groundwater
contamination
due
to
the
hydraulic
pressure
created
by
the
contained
liquids.
Chemical
Waste
Management
v.
EPA,
919
F.
2d
158,
166
(D.
C.
Cir.
1992).
Material
that
is
placed
in
a
surface
impoundment,
where
it
is
capable
of
posing
a
substantial
present
or
potential
hazard
to
human
health
or
the
environment
when
improperly
treated,
stored,
transported
or
disposed
of
or
otherwise
managed,
``
by
leaching
into
the
ground,
is
`discarded
material'
and
hence
a
solid
waste.
''
(AMC
II,
907
F.
2d)
Although
secondary
materials
may
have
value
and
be
reused,
their
value
does
not
protect
them
from
being
considered
solid
wastes
for
the
purposes
of
RCRA
regulation
if
they
are
discarded
prior
to
use
(API,
906
F.
2d
at
741
n.
16).
57
54
FR
36616,
September
1,
1989.
58
All
wastes
from
ancillary
activities
are
not
uniquely
associated
with
extraction/
beneficiation
and
processing
of
ores
and
minerals
(see
45
FR
76619,
November
19,
1980,
and
63
FR
28590,
May
26,
1998).
TABLE
III±
52.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
COMMINGLED
WASTEWATER
TREATMENT
SLUDGES
FROM
CHLORIDE
AND
SULFATE
PROCESSES,
TITANIUM
DIOXIDE
Manganese
HQ
Thallium
HQ
Adult
risk
Child
risk
Adult
risk
Child
Risk
90th
..........................................................................................................................
0.
1
0.3
0.1
0.3
95th
..........................................................................................................................
0.
2
0.5
0.2
0.4
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
are
proposing
not
to
list
commingled
wastewater
treatment
sludges
from
chloride
and
sulfate
processes
because
our
modeling
of
potential
groundwater
releases
shows
no
risk
at
levels
which
warrant
listing
this
waste
as
hazardous.
No
scenario
modeled
(groundwater
to
surface
water
and
groundwater
to
drinking
water
wells)
showed
risk
at
levels
of
regulatory
concern.
(9)
Waste
acid
(ferric
chloride)
from
the
chloride
ilmenite
process.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
All
three
facilities
that
utilize
the
chloride
ilmenite
process
generate
this
waste
category.
The
DeLisle,
Mississippi
facility
identifies
the
waste
as
characteristic
for
corrosivity,
chromium
and
lead
and
disposes
of
its
waste
in
an
on
site
underground
injection
well.
The
Tennessee
facility
pipes
its
ferric
chloride
to
an
on
site
sodium
chloride
plant.
Both
the
Mississippi
and
Tennessee
facilities
generate
the
majority
of
their
exempt
mineral
processing
solids
from
the
filtration
of
this
waste
acid.
The
Delaware
facility's
process
is
slightly
different
in
that
the
majority
of
their
exempt
solids
are
generated
prior
to
the
generation
of
the
waste
acid,
and
only
a
relatively
small
portion
of
their
solids
are
generated
from
the
removal
of
solids
from
this
waste.
The
Delaware
facility
adds
a
processing
chemical
to
their
waste
acid,
removes
solids,
stores
the
acid
in
tanks
(as
well
as
an
on
site
surface
impoundment
when
their
tank
capacity
is
exceeded),
and
sells
the
acid
to
a
broker
for
resale
as
a
wastewater
and
drinking
water
treatment
reagent.
However,
EPA
is
not
at
this
time
assessing
whether
the
ferric
chloride
is
a
legitimate
product.
We
did
not
attempt
to
address
this
complex
and
site
specific
issue
in
this
proposal.
We
note
that
the
Delaware
facility
uses
a
surface
impoundment
to
store
a
portion
of
the
ferric
chloride
prior
to
its
sale
as
a
water
and
wastewater
treatment
reagent.
EPA
has
often
considered
land
based
units,
and
impoundments
in
particular,
to
be
associated
with
the
discard
of
wastes,
rather
than
the
storage
of
products,
because
of
their
potential
for
releases
to
the
environment.
56
In
addition,
we
sampled
the
ferric
chloride
at
the
Delaware
facility
and
found
that
it
contains
a
variety
of
metals,
as
well
as
some
chlorinated
dioxins
and
furans.
(See
the
background
document
for
this
sector
for
more
details
on
this
sampling
and
analysis).
These
factors
may
lead
to
concerns
about
the
legitimacy
of
the
use
of
this
material
as
a
drinking
water
and
wastewater
treatment
reagent.
However,
as
explained
below,
we
do
not
need
to
resolve
this
issue
to
make
a
decision
about
listing
ferric
chloride.
This
waste
routinely
exhibits
the
characteristic
of
corrosivity
and
the
toxicity
characteristic
for
chromium
and
lead.
All
three
generators
of
the
ferric
chloride
waste
acid
acknowledge
the
hazardous
nature
of
this
waste.
Each
generator
reported
pH
levels
at
1
or
less,
and
the
one
facility
that
disposes
of
this
waste
via
deep
well
injection
assigns
three
separate
characteristic
codes
to
this
material.
EPA
sampled
the
ferric
chloride
at
the
Delaware
facility,
and
both
EPA
and
the
facility
analyzed
the
waste.
The
results
showed
that
this
material
exhibits
the
characteristics
of
D001,
D007,
and
D008.
What
Is
the
Bevill
Status
of
This
Waste?
Ferric
chloride
waste
acid
is
a
liquid
mineral
processing
waste
that
did
not
meet
the
high
volume/
low
toxicity
criteria
for
determining
eligibility
for
the
Bevill
exemption
and
therefore
is
not
Bevill
exempt
(see
63
FR
28601).
What
Is
the
Bevill
Status
of
Solids
Removed
From
This
Waste?
Prior
to
disposal
or
reuse
of
their
waste
acids,
both
the
Mississippi
and
Tennessee
plants
filter
their
waste
acid
to
remove
the
exempt
solids.
At
the
Delaware
site,
however,
the
waste
acid
is
processed
via
the
addition
of
a
chemical
prior
to
solids
removal.
The
purpose
of
the
chemical
addition
is
to
modify
the
properties
of
the
waste
acid
to
enhance
its
value
as
a
saleable
potable
water
and
wastewater
treatment
reagent.
The
addition
of
this
chemical
at
the
Delaware
plant
marks
the
end
of
titanium
tetrachloride
production
(i.
e.,
mineral
processing)
and
the
beginning
of
ferric
chloride
production
(assuming
ferric
chloride
is
a
legitimate
product).
Ferric
chloride
production
can
be
considered
either
chemical
manufacturing
57
or
an
ancillary
process.
58
Consequently,
as
explained
below
in
section
III.
F.
14.
e(
10),
solids
removed
from
the
ferric
chloride
at
the
Delaware
plant
are
not
Bevill
exempt.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
are
proposing
to
not
list
this
waste
and
rely
instead
on
the
existing
regulatory
controls
provided
by
the
hazardous
waste
characteristics.
Data
from
all
three
facilities
clearly
demonstrates
that
this
waste
exhibits
several
of
the
characteristics.
At
this
time
we
have
not
determined
whether
any
of
the
facilities
are
out
of
compliance.
State
and
EPA
authorities
are
examining
these
sites
in
detail
for
compliance
with
the
existing
regulations.
Listing
would
not
serve
to
better
establish
this
jurisdiction.
The
Mississippi
facility
that
injects
this
waste
identifies
the
waste
as
hazardous
and
manages
it
as
a
hazardous
waste
under
Subtitle
C
regulations.
Within
the
context
of
this
consent
decree,
we
did
not
investigate
in
depth
the
Tennessee
facility's
use
of
this
material
in
production
of
sodium
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Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
chloride
(an
inorganic
chemical
not
identified
as
one
of
the
14
products
of
concern
in
the
consent
decree)
because
there
was
no
known
exposure
route
associated
with
the
management
of
the
material
prior
to
inserting
it
into
a
nonconsent
decree
production
process.
As
discussed
previously,
the
Delaware
facility
stores
the
material
in
a
surface
impoundment.
EPA
can
address
concerns,
if
appropriate,
by
the
use
of
enforcement,
based
on
the
existing
characteristics
associated
with
this
material.
In
addition,
the
questions
framed
above
about
the
potential
legitimacy
of
this
facility's
use
of
ferric
chloride
as
a
product
and
its
storage
in
a
surface
impoundment
are
equally
relevant
whether
the
ferric
chloride
is
listed
as
a
hazardous
waste
or
is
known
to
exhibit
the
characteristics
of
hazardous
waste.
Therefore
we
have
decided
to
not
list
this
waste
as
a
hazardous
waste
and
rely
on
the
hazardous
characteristics
of
the
material
for
any
necessary
control.
(10)
Non
exempt
nonwastewaters
from
the
chloride
ilmenite
process.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
All
three
chloride
ilmenite
facilities
generate
wastes
that
contain
commingled
exempt
and
non
exempt
components.
Depending
on
the
specific
configuration
of
the
individual
plants,
these
wastes
are
composed
to
different
degrees
of
exempt
and
non
exempt
solids,
as
described
further
below.
Solids
are
generated
in
several
places
in
the
chloride
ilmenite
process:
ÐCoke
and
ore
solids
are
removed
from
the
gaseous
titanium
tetrachloride
product
stream,
quenched
and
neutralized.
While
the
Agency
believes
this
stream
is
largely
exempt,
we
note
that
any
contributions
to
this
stream
from
the
disposal
of
the
vanadium
waste
is
non
exempt.
ÐSolids
are
generated
during
wastewater
treatment
and
are
nonexempt
to
the
extent
they
are
generated
from
oxidation
and
finishing
wastewaters.
ÐCoke
and
ore
solids
can
also
be
generated
from
the
removal
of
solids
from
waste
acid.
These
residuals
may
contain
a
non
exempt
portion
if
they
are
partially
comprised
of
vanadium
waste.
These
solids
cannot
be
exempt
if
they
are
removed
from
the
waste
acid
after
the
initiation
of
chemical
manufacturing
and/
or
ancillary
operations.
We
assessed
these
various
sources
of
non
exempt
materials
as
one
waste
category
because
of
the
expected
similarities
among
these
materials
and
the
commingled
management
practices
used
by
these
facilities.
The
total
nonexempt
portion
of
this
waste
category
is
approximately
10%
with
variations
among
the
three
sites.
The
specific
sources
of
non
exempt
materials
for
each
of
the
three
chloride
ilmenite
facilities
is
described
below.
All
three
facilities
generate
nonexempt
vanadium
waste
when
they
separate
vanadium
compounds
from
titanium
tetrachloride.
The
facilities
reinsert
these
materials
into
the
reaction
area.
Titanium
tetrachloride
is
recovered
and
maybe
reused;
however,
the
remainder
of
this
waste
is
not
reused
and
is
incorporated
into
the
unreacted
coke
and
ore
solids
stream
from
the
reaction
area,
the
solids
separated
from
the
ferric
chloride,
or
the
ferric
chloride.
This
vanadium
waste
is
not
exempt
because
it
is
not
a
solid.
However
we
were
not
able
to
determine
the
volume
contribution
of
this
vanadium
waste
to
the
various
wastes
into
which
it
is
ultimately
incorporated.
Hence,
the
estimates
of
total
exempt
solids
provided
below
are
likely
to
be
underestimated.
(This
waste
is
also
discussed
in
III.
F.
14.
e(
14)
below.)
The
Delaware
facility
combines
and
neutralizes
three
sources
of
solids
(reactor
solids,
solids
removed
from
ferric
chloride
waste
acid,
and
solids
from
wastewater
treatment),
and
markets
the
resulting
material
as
``
Iron
Rich''
material.
As
asserted
by
the
company,
uses
of
Iron
Rich
include
structural
fill,
landfill
caps
and
covers,
and
construction
of
dikes
for
containment
of
dredged
spoils
on
the
Delaware
River.
The
facility
may
also
stabilize
some
portion
of
the
Iron
Rich
with
fly
ash
prior
to
sale.
Each
component
of
the
Delaware
commingled
residuals
is
described
in
the
following
paragraphs.
The
majority
of
the
commingled
Delaware
solids
are
unreacted
coke
and
ore
materials
that
are
removed
from
the
gaseous
titanium
tetrachloride
product
stream
after
the
reactor.
These
``
reactor
solids''
make
up
more
than
80%
of
the
volume
of
commingled
``
Iron
Rich''
at
this
facility.
This
stream
is
comprised
of
exempt
chloride
process
solids
and
nonexempt
vanadium
waste.
The
Delaware
facility
also
removes
solids
from
its
ferric
chloride.
This
solids
removal
step
takes
place
after
the
facility
incorporates
a
chemical
additive
into
the
ferric
chloride.
We
have
concluded
that
the
use
of
this
chemical
constitutes
chemical
processing
that
is
outside
the
scope
of
the
Bevill
exemption
(see
54
FR
36592,
September
1,
1989
and
previous
waste
acid
discussion
in
III.
F.
14(
e)(
9)).
In
addition,
this
stream
is
partially
derived
from
the
Delaware
facility's
non
exempt
vanadium
waste.
These
ferric
chloride
solids
are
not
exempt.
They
make
up
approximately
10%
of
the
commingled
``
Iron
Rich''.
The
Delaware
facility
also
uses
scrubbers
at
various
points
in
its
process.
Some
solids
make
their
way
into
scrubber
waters.
When
the
facility
treats
these
wastewaters,
the
solids
precipitate
and
the
resultant
wastewater
treatment
solids
are
added
to
the
two
wastes
described
above
to
form
``
Iron
Rich''.
Solids
from
the
scrubber
used
to
treat
gasses
from
the
titanium
tetrachloride
reactor
are
Bevill
exempt.
Solids
from
scrubbers
associated
with
oxidation
and
finishing
(steps
that
take
place
after
the
formation
of
titanium
tetrachloride)
are
not
exempt.
Based
on
facility
data,
we
estimate
that
approximately
1.5%
of
the
total
volume
of
``
Iron
Rich''
consists
of
non
exempt
solids
from
wastewater
treatment.
The
Tennessee
facility
generates
solids
from
ferric
chloride
filtration
and
from
wastewater
treatment.
The
filter
solids
are
exempt
(261.4(
b)(
7)(
ii)(
S))
because
such
filtration
simply
removes
exempt
solids.
Unlike
the
processing
that
occurs
at
the
Delaware
plant,
no
chemical
manufacturing
is
taking
place
at
this
step
at
the
Tennessee
plant.
The
facility
landfills
these
ferric
chloride
solids
as
a
discrete
wastestream;
we
do
not
assess
this
exempt
waste
further
in
this
rule.
This
facility
commingles
wastewaters
from
both
the
titanium
tetrachloride
and
titanium
dioxide
sides
of
the
process,
and
the
resultant
wastewater
treatment
sludge
is
thus
comprised
of
exempt
and
non
exempt
sources.
The
Tennessee
facility
reported
estimated
percent
solids
data
for
most
of
their
wastewaters.
We
reviewed
these
data
and
determined
that
a
significant
portion
(74%)
of
the
resultant
sludge
would
be
nonexempt
(see
Titanium
Dioxide
Listing
Background
Document
for
calculations).
These
nonexempt
solids
are
within
the
scope
of
today's
proposal.
We
sampled
the
commingled
exempt
and
nonexempt
waste
and
describe
our
assessment
of
this
material
in
this
section.
The
Mississippi
facility
also
generates
exempt
solids
from
filtering
ferric
chloride
prior
to
deep
well
injection.
No
chemical
manufacturing
occurs.
These
solids
are
placed
in
a
dedicated
on
site
landfill,
and
are
not
assessed
further
in
this
rule.
The
facility
also
operates
a
wastewater
treatment
system
which
is
similar
to
the
Tennessee
facility
in
that
it
commingles
wastewaters
from
condensation
and
purification
(associated
with
the
titanium
tetrachloride
production
process),
as
well
as
oxidation
and
finishing
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Proposed
Rules
(associated
with
the
titanium
dioxide
production
process).
The
commingled
wastewaters
are
managed
in
on
site
surface
impoundments
and
the
dredged
solids
from
these
units
(comprised
of
exempt
and
nonexempt
materials)
are
placed
in
an
on
site
landfill.
The
facility
provided
detailed
information
regarding
the
amounts
of
solids
present
in
each
of
the
wastewaters
managed
in
this
system,
demonstrating
that
there
is
a
small
contribution
(~3%)
of
non
exempt
solids
(i.
e.,
solids
in
wastewaters
from
oxidation
and
finishing)
in
the
wastewater
treatment
sludge.
We
did
not
select
this
facility
for
site
visits
and
thus
did
not
sample
this
waste.
We
believe
our
sampling
and
modeling
of
the
Tennessee
and
Delaware
sites
is
an
appropriate
surrogate
for
this
waste
given
the
similar
nature
of
the
processes
at
the
three
facilities
(with
particular
similarities
between
the
wastewater
treatment
facilities
at
Mississippi
and
Tennessee).
Furthermore,
the
percentages
of
non
exempt
solids
in
the
commingled
wastes
at
the
Tennessee
and
Delaware
sites
are
higher
than
at
the
Mississippi
site.
What
Management
Scenarios
Were
Assessed?
The
Delaware
facility
asserts
that
there
are
a
variety
of
end
uses
for
the
Iron
Rich.
The
predominant
recent
use
has
been
for
the
construction
of
dikes
to
contain
dredged
river
sediments
at
U.
S.
Army
Corp
of
Engineer
disposal
sites
in
the
vicinity
of
the
titanium
dioxide
plant.
We
assessed
this
scenario
as
comparable
to
an
industrial
D
landfill
scenario.
The
Iron
Rich
has
also
been
used
as
daily
cover
at
a
municipal
landfill
(demonstration
project)
and
as
final
cover
for
a
closed
on
site
landfill.
These
uses
clearly
constitute
disposal.
Other
proposed
uses
include
use
as
subsidence
fill
at
a
closed
municipal
landfill,
structural
fill
by
the
local
Port
Authority,
surcharge
for
road
bed
compaction,
and
construction
of
a
wildlife
refuge
at
the
site
of
the
closed
on
site
industrial
landfill.
These
uses
all
involve
placement
on
the
ground
and
also
appear
to
also
be
uses
that
constitute
disposal
(see
40
CFR
266.20).
We
chose
to
model
risks
for
disposal
in
an
off
site
industrial
D
landfill
because
this
seemed
to
fit
the
largest
number
of
the
varied
potential
disposal
or
landbased
use
scenarios.
We
believe
the
municipal
landfill
scenario
is
also
relevant.
Our
assessment
addresses
the
municipal
scenario
qualitatively.
These
scenarios
were
assessed
for
potential
releases
to
drinking
water
wells
and
air
releases.
In
addition,
we
modeled
the
on
site
landfill
at
the
Tennessee
facility
for
potential
releases
to
surface
water.
How
Was
This
Waste
Category
Characterized?
We
collected
samples
of
this
waste
at
the
Tennessee
and
Delaware
facilities.
For
the
Tennessee
facility,
we
collected
the
sample
directly
from
a
holding/
dewatering
pond
where
the
dredged
wastewater
treatment
solids
are
dewatered
prior
to
landfilling
on
site.
We
collected
the
sample
from
the
Delaware
facility
directly
from
the
Iron
Rich
dewatering
unit
press;
this
sample
consisted
of
commingled
chlorinator
solids,
ferric
chloride
solids,
and
wastewater
treatment
solids.
This
material
is
sometimes
mixed
with
fly
ash
prior
to
use;
our
sample
was
collected
prior
to
fly
ash
addition.
Both
samples
were
analyzed
for
total,
TCLP
and
SPLP
constituent
analyses.
These
data
are
summarized
below
in
Table
III±
54
for
the
constituents
of
concern
that
were
present
in
the
wastes
at
levels
exceeding
the
health
based
levels
and/
or
ambient
water
quality
criteria.
TABLE
III±
54.Ð
CHARACTERIZATION
OF
WASTEWATER
TREATMENT
SOLIDS
FROM
THE
CHLORIDE
ILMENITE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
levels,
Delaware
site
Detected
levels,
Tennessee
site
HBL
(mg/
L)
AWQC
(mg/
L)
Soil
screening
levels
(mg/
kg)
1
Total
(mg/
kg)
TCLP
(mg/
L)
SPLP
(mg/
L)
Total
(mg/
kg)
SPLP
(mg/
L)
Human
health
Aquatic
life
Antimony
......................................
0.9
2
0.021
0.02
0.7
0.021
0.006
0.014
n/
a
32
Arsenic
.........................................
2.2
<0.0035
2
0.001
2.8
3
<0.0035
0.0007
1.8E±
05
0.15
4.7
Barium
..........................................
178
2
2.4
0.92
49.6
0.12
1.1
n/
a
n/
a
5600
Boron
............................................
30
1.7
0.61
24.5
0.45
1.4
n/
a
n/
a
7,200
Lead
.............................................
309
2
0.032
2
0.0032
42.4
2
0.002
0.015
................
0.0025
400
Manganese
..................................
10,600
252
16.3
2,890
1.5
0.7
0.05
n/
a
4
3,800
Nickel
...........................................
91.8
0.5
<0.005
59.8
0.007
0.31
0.61
0.052
1,600
Thallium
........................................
3.7
0.28
0.012
7.2
<0.0022
0.001
0.0017
n/
a
6.4
Vanadium
.....................................
240
2
0.0003
<0.005
1,060
<0.005
0.14
n/
a
n/
a
720
n/
a:
not
applicable.
1
Soil
ingestion
health
based
levels.
2
Results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection
limits.
3
One
half
the
detection
limit
was
used
as
model
input.
4
The
air
characteristic
level
is
3,000
mg/
kg
at
25m
and
drops
to
30,000
at
150m.
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Proposed
Rules
In
addition,
our
analytical
data
show
that
chlorinated
dioxins
and
furans
are
present
in
these
wastes.
As
discussed
previously,
we
believe
these
compounds
are
associated
with
the
exempt
solids.
However,
the
Delaware
waste
contains
the
ferric
chloride
solids;
these
solids
have
lost
their
exempt
status
because
of
the
facility's
chemical
manufacturing/
ancillary
activities
necessary
for
the
production
of
ferric
chloride
for
sale
as
a
water
and
wastewater
treatment
reagent.
As
a
result,
we
have
considered
the
chlorinated
dioxin
and
furan
content
of
the
waste
as
part
of
today's
listing
determination.
The
PCDD/
PCDF
analytical
results
for
the
Delaware
site
are
summarized
below
(detected
homologs
only)
in
Table
III±
55.
TABLE
III±
55.Ð
CHARACTERIZATION
OF
WASTEWATER
TREATMENT
SOLIDS
FROM
THE
CHLORIDE
ILMENITE
PROCESS,
TITANIUM
DIOXIDE
CHLORINATED
DIBENZO
P
DIOXINS
(CDD)
AND
FURANS
(CDF)
Constituent
of
concern
Total
Detected
levels
in
Delaware
waste
(ng/
kg,
wet
basis)
2378
TetraCDF
.........................
12.2
12378
PentaCDF
......................
21.8
23478
PentaCDF
......................
48.1
123478
HexaCDF
.....................
237
123678
HexaCDF
.....................
8.1
234678
HexaCDF
.....................
2.5
123789
HexaCDF
.....................
5.6
1234678
HeptaCDF
..................
189
TABLE
III±
55.Ð
CHARACTERIZATION
OF
WASTEWATER
TREATMENT
SOLIDS
FROM
THE
CHLORIDE
ILMENITE
PROCESS,
TITANIUM
DIOXIDE
CHLORINATED
DIBENZO
P
DIOXINS
(CDD)
AND
FURANS
(CDF)Ð
Continued
Constituent
of
concern
Total
Detected
levels
in
Delaware
waste
(ng/
kg,
wet
basis)
1234789
HeptaCDF
..................
126
OctaCDF
...................................
24,000
OctaCDD
..................................
22.2
2378±
TetraCDD
Equivalent
1
....
57.2
1
12378±
TetraCDD
equivalent
calculated
using
the
World
Health
Organization
Toxic
Equivalency
Factors
(WHO±
TEF).
Van
den
Berg,
et
al.
1998.
Toxic
Equivalency
Factors
(TEFs)
for
PCBs,
PCDDs,
PCDFs
for
Human
and
Wildlife.
Environmental
Health
Perspectives
v.
106,
n.
12,
pp.
775±
792.
December.
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
The
Tennessee
facility
is
bounded
to
the
west
by
the
Tennessee
River.
The
facility
indicated
that
the
overall
groundwater
flow
is
toward
the
river.
There
have
been
several
projects
to
determine
placement
of
down
gradient
monitoring
wells
for
individual
on
site
landfill
units.
These
borings
indicate
that
the
groundwater
elevation
declines
to
the
northwest
towards
the
river.
In
addition,
a
contract
geologist
familiar
with
the
local
hydrogeology
has
indicated
that
shallow
groundwater
flow
will
generally
follow
the
natural
topography.
A
ridgeline
running
north
and
south
is
located
just
east
of
the
facility
boundary.
This
ridge
is
approximately
200
feet
higher
in
elevation
than
the
elevation
at
the
facility.
Based
on
this
topography,
we
expect
that
the
groundwater
flow
direction
is
to
the
west
towards
the
river.
We
calculated
the
concentrations
in
the
river
that
would
result
from
discharge
of
contaminated
ground
water
by
estimating
the
infiltration
rate
for
the
unlined
landfill,
and
(given
the
area
of
the
landfill)
diluting
the
resulting
leachate
volume
into
the
river
under
various
design
flow
conditions.
The
results
of
this
screening
level
analysis
(available
in
the
Risk
Assessment
Background
Document)
demonstrate
that
concentrations
of
the
constituents
of
concern
in
the
river
are
likely
to
be
well
below
the
national
AWQC
for
human
health
and
aquatic
life
for
these
constituents.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
The
Delaware
facility
reported
actual
or
contemplated
use
of
the
Iron
Rich
at
a
variety
of
landfills
and
land
placement
usages
in
the
general
vicinity
of
the
plant.
We
used
our
usual
distance
towell
assumptions
for
an
off
site
landfill,
and
assumed
hydrogeologic
conditions
that
are
representative
of
the
principal
soil
and
aquifer
types
present
regionally
(within
a
100
mile
radius)
of
the
facility.
The
resultant
risk
assessment
results
are
presented
below
in
Table
III±
56.
TABLE
III±
56.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
NON
WASTEWATERS
FROM
CHLORIDEILMENITE
PROCESS,
TITANIUM
DIOXIDE
Constituents
of
concern
Hazard
quotient
or
cancer
risk
90th%
adult
90th%
child
95th%
adult
95th%
child
Antimony
..................................................................................................................
0.2
0.5
0.4
0.8
Arsenic
(cancer
risk)
................................................................................................
3E±
07
2E±
07
1E±
06
9E±
07
Manganese
..............................................................................................................
0.8
1.6
1.6
3.3
Thallium
...................................................................................................................
0.7
1.
4
1.1
2.4
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
to
list
as
hazardous
the
non
exempt
portion
of
the
solid
wastes
generated
from
the
production
of
titanium
dioxide
via
the
chlorideilmenite
process.
This
listing
covers
the
non
exempt
portions
of
the
wastewater
treatment
solids
generated
at
all
three
facilities,
any
non
exempt
portions
of
the
chlorinator
solids
(e.
g.,
any
mass
derived
from
the
vanadium
wastes),
and
ferric
chloride
solids
generated
at
the
Delaware
facility.
To
the
extent
that
these
listed
materials
remain
commingled
with
solids
that
would
otherwise
be
exempt,
the
entire
commingled
mass
is
subject
to
the
listing
(see
§
261.3(
b)(
2)).
Our
risk
results
indicate
that
metals
in
these
materials
leach
at
levels
that
may
pose
a
risk
to
human
health
and
the
environment.
Specifically,
in
the
commingled
wastes,
the
risks
exceed
an
HQ
of
one
for
both
manganese
(3.3)
and
thallium
(2.4)
at
the
95th
percentile;
the
risks
similarly
exceed
an
HQ
of
one
for
both
manganese
(1.6)
and
thallium
(1.4)
at
the
90th
percentile.
In
addition,
the
management
practices
reported
for
this
waste,
particularly
as
reported
for
the
Delaware
site,
are
expected
to
provide
less
control
than
the
scenario
modeled
(i.
e.,
an
industrial
landfill).
Potential
future
management
practices
include
use
at
municipal
landfills
for
interim
and
final
cover,
as
well
as
subsidence
fill
at
a
closed
municipal
landfill.
These
scenarios,
particularly
the
interim
cover
scenario,
indicate
that
the
waste
may
come
in
contact
with
municipal
landfill
leachate
in
the
future,
if
not
listed.
The
TCLP
results
for
this
waste
indicate
even
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Proposed
Rules
59
EPA
is
currently
evaluating
the
health
risks
from
2,3,7,8
TCDD
and
once
the
review
process
is
completed,
EPA
may
re
examine
the
soil
ingestion
HBL.
See
http://
www.
epa.
gov.
ncea.
dioxin.
htm
for
additional
information.
60
See
information
in
EPA's
IRIS
database,
which
may
be
found
at
http://
www.
epa.
gov/
iris,
and
``
Risk
Assessment
Support
to
the
Listing
Determinations
for
the
Inorganic
Chemical
Manufacturing
Wastes''
(August
2000)
in
the
docket
for
today's
rule.
higher
mobility
of
metals
than
those
modeled
for
the
industrial
landfill
scenario
using
the
SPLP.
The
TCLP
concentrations
of
manganese
and
thallium
exceed
the
SPLP
levels
by
factors
of
15
fold
and
23
fold,
respectively.
We
expect,
therefore,
that
HQs
resulting
from
disposal
in
a
landfill
with
municipal
waste
would
likely
be
higher
by
an
order
of
magnitude
than
the
industrial
landfill
scenario
we
modeled.
The
modeling
presented
above
uses
the
entire
waste
volume
reported
for
the
Delaware
facility's
Iron
Rich.
We
used
this
volume
because
it
corresponds
to
the
sample
that
we
collected
of
this
material,
and
there
is
considerable
uncertainty
on
the
portion
of
the
waste
that
would
be
Bevill
exempt.
(This
uncertainty
is
related
to
the
estimated
nature
of
the
solids
contributions
provided
by
the
facilities
and
the
variability
reported
between
the
facilities.)
We
conducted
a
supplemental
analysis
to
determine
how
sensitive
our
modeling
results
are
to
changes
in
volume,
in
recognition
that
we
are
only
proposing
at
this
time
to
list
approximately
10%
of
the
current
Iron
Rich
volume
(the
balance
of
the
Delaware
site's
waste
being
exempt
and
outside
the
scope
of
today's
listing
determination).
These
results,
presented
below
in
Table
III±
57,
show
that
the
risks
are
somewhat
sensitive
to
the
volume
modeled,
but
the
risks
are
not
reduced
below
EPA's
HQ
threshold
of
one
for
noncarcinogens.
In
other
words,
if
the
facility
were
to
segregate
all
exempt
solids
from
the
materials
being
proposed
for
listing
prior
to
disposal,
the
remaining
volume
could
still
pose
risk
to
human
health
and
the
environment.
Further,
as
noted
above,
based
on
the
TCLP
results,
the
manganese
and
thallium
HQs
would
be
an
order
of
magnitude
higher
in
a
municipal
landfill
scenario.
TABLE
III±
57.Ð
REDUCED
VOLUME
ANALYSIS;
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
NONWASTEWATERS
FROM
CHLORIDE
ILMENITE
PROCESS,
TITANIUM
DIOXIDE
Constituents
of
concern
Hazard
quotient
or
cancer
risk
90th
%
adult
90th
%
child
95th
%
adult
95th
%
child
Antimony
..................................................................................................................
0.1
0.2
0.2
0.4
Arsenic
.....................................................................................................................
not
modeled
Manganese
..............................................................................................................
0.5
1.0
1.0
2.2
Thallium
...................................................................................................................
0.4
0.
9
0.8
1.6
This
waste
also
contains
57
ppt
TCDD
equivalents.
This
concentration
exceeds
the
background
level
in
soils
(8
ppt)
and
the
soil
ingestion
HBL
of
45
ppt
59
.
We
were
not
able
to
compare
this
concentration
with
a
screening
level
from
the
Air
Characteristics
Study
because
the
study
did
not
establish
levels
for
TCDD.
While
we
did
not
conduct
a
risk
assessment
of
the
detected
TCDD
TEQ,
the
presence
of
TCDD
equivalents
in
the
wastes
is
an
additional
factor
that
supports
a
listing
determination,
particularly
in
light
of
the
fact
that
the
management
practices
reported
by
the
facility
were
varied
and,
in
many
cases,
would
constitute
releases
to
the
circulating
environment
with
a
greater
potential
for
a
variety
of
exposure
pathways
than
would
occur
from
a
well
managed
landfill.
The
proposed
listing
address
all
nonwastewaters
that
are
not
covered
by
the
mineral
processing
waste
exemption,
and
is
not
limited
to
non
exempt
wastewater
treatment
solids.
The
listing
therefore
would
cover
non
exempt
nonwastewaters
from
the
removal
of
vanadium
wastes
from
the
product
titanium
tetrachloride
stream
that
are
currently
returned
to
the
reaction
area
and
ultimately
commingled
with
the
exempt
reactor
solids
or
ferric
chloride
(these
solids
were
part
of
the
Iron
Rich
sample
collected
by
EPA
to
support
this
listing
determination).
Similarly,
at
the
Delaware
facility,
solids
that
collect
in
the
ferric
chloride
product
storage
tanks
and
impoundments
would
be
covered
by
the
listing
as
these
solids
are
ineligible
for
the
mineral
processing
exemption
(because
they
are
generated
after
the
initiation
of
chemical
manufacturing
and/
or
ancillary
operations),
they
are
comparable
to
the
ferric
chloride
solids
that
are
commingled
in
the
Iron
Rich,
and
they
are
derived
to
some
degree
from
nonexempt
vanadium
materials.
The
proposed
listing,
therefore,
reads:
K178
Non
wastewaters
from
the
production
of
titanium
dioxide
by
the
chlorideilmenite
process.
(T)
[This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
section
261.4(
b)(
7)]
We
are
also
proposing
to
add
manganese
and
thallium
to
Appendix
VII
to
Part
261,
which
designates
the
hazardous
constituents
for
which
K178
would
be
listed.
In
addition,
we
are
proposing
to
add
manganese
to
the
list
of
hazardous
constituents
in
Appendix
VIII
to
Part
261.
We
believe
the
available
studies
clearly
show
that
manganese
has
toxic
effects
on
humans
and
other
life
forms.
60
(11)
HCl
from
reaction
scrubber,
chloride
ilmenite
process.
All
three
chloride
ilmenite
facilities
reported
generating
HCl
from
scrubbing
reactor
off
gasses.
These
wastes
are
stored
in
covered
tanks
with
vent
scrubbers
and
are
re
used
on
site,
predominantly
as
pH
control
in
wastewater
treatment
systems.
We
assessed
this
waste
as
part
of
the
following
category,
``
Commingled
wastewaters
from
chloride
ilmenite
process''.
(12)
Commingled
wastewaters
from
the
chloride
ilmenite
process.
How
Many
Facilities
Generate
This
Waste
Category
and
How
Is
It
Managed?
All
three
chloride
ilmenite
facilities
commingle
their
wastewaters
and
treat
them
on
site.
The
Delaware
facility
utilizes
a
tank
based
system,
with
final
NPDES
discharge
through
an
unlined
cooling
pond
to
the
adjacent
river.
Both
the
Tennessee
and
Mississippi
facilities
utilized
surface
impoundment
based
wastewater
treatment
systems.
These
wastewaters
are
not
Bevill
exempt
(but
convey
exempt
solids
into
the
wastewater
treatment
system
where
those
solids
are
removed
to
form
sludges
that
are
comprised
of
exempt
solids
and
non
exempt
solids,
depending
on
the
specific
piping
of
the
plants).
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
61
Draft
RCRA
Facility
Investigation
Report;
DuPont
DeLisle,
NS.
December
7,
1999.
What
Management
Scenarios
Were
Assessed?
We
modeled
the
surface
impoundment
scenarios
at
both
the
Tennessee
and
Mississippi
sites.
(We
assumed
any
releases
from
the
unlined
cooling
pond
at
the
Delaware
facility
would
be
intercepted
by
the
river,
and
would
be
comparable
in
concentration,
but
much
less
volume
than
the
actual
NPDES
discharge
point.)
At
the
Tennessee
site,
we
assessed
the
potential
releases
from
the
impoundment
system
to
the
adjacent
river.
We
do
not
believe
any
drinking
water
wells
could
possibly
be
impacted
by
these
impoundments
given
their
placement
on
the
river
banks
and
within
the
facility
property.
We
sampled
at
this
facility
at
the
headworks
to
the
impoundment
train.
We
assessed
the
Mississippi
facility's
impact
on
both
surface
water
and
potential
drinking
water
wells.
The
RFI
61
for
this
site
indicates
that
the
local
groundwater
flow
is
generally
toward
the
south
and
east.
It
is
unclear
what
the
patterns
are
off
site
and
how
these
patterns
might
change
seasonally,
but
the
groundwater
elevation
maps
included
in
the
RFI
indicated
that
the
direction
of
groundwater
flow
does
vary
seasonally
and
that
a
shift
to
a
more
westerly
direction
may
occur
under
some
conditions.
Information
from
the
U.
S.
Geological
Survey's
Ground
water
Site
Inventory,
available
in
the
docket
for
today's
proposal,
shows
numerous
drinking
water
wells
in
the
vicinity
of
the
plant,
both
to
the
east
and
southwest.
The
facility
also
reported
wells
on
their
property
which
they
believe
are
cross
gradient
and,
in
some
cases,
unused.
We
chose
to
model
the
groundwater
scenario
because
of
potential
impacts
on
these
known
wells.
We
also
assessed
the
potential
impact
of
the
Mississippi
facility's
surface
impoundments
on
surface
water
because
the
facility
is
bounded
to
the
south
by
the
Bay
of
St.
Louis.
We
did
not
conduct
sampling
and
analysis
at
the
Mississippi
facility.
Our
risk
assessment
inputs
for
this
facility
used
the
combined
analytical
data
set
for
the
Delaware
and
Tennessee
facilities,
which
are
sister
plants
of
the
Mississippi
plant.
We
used
the
physical
parameters
for
the
Mississippi
site
to
describe
wastewater
flows,
surface
impoundment
sizes,
and
distances
to
potential
receptors
for
this
modeling.
How
Was
This
Waste
Category
Characterized?
The
analytical
results
for
the
constituents
found
to
be
present
in
the
wastewaters
at
levels
exceeding
HBLs
and/
or
AWQC
are
presented
below
in
Table
III±
58.
TABLE
III±
58.Ð
CHARACTERIZATION
OF
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
ILMENITE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Detected
levels
in
Delaware
sample
(mg/
L)
Detected
levels
in
Tennessee
sample
(mg/
L)
HBL
(mg/
L)
AWQCÐ
Aquatic
life
(mg/
L)
Aluminum
.........................................................................................................
0.65
3.1
16
0.087
Copper
.............................................................................................................
0.03
0.007
1.3
0.0031
Lead
.................................................................................................................
<0.003
0.005B
0.015
0.0025
Manganese
......................................................................................................
3.3
3.34
0.73
N/
A
Nickel
...............................................................................................................
0.013
0.020
0.3
0.052
Thallium
...........................................................................................................
<0.005
0.013
0.
001
N/
A
Vanadium
.........................................................................................................
0.018
0.63
0.14
N/
A
B:
also
detected
in
blank
N/
A:
not
available
How
Was
the
Groundwater
to
Surface
Water
Risk
Assessment
Established?
The
Tennessee
facility
is
bounded
to
the
west
by
a
river.
As
noted
above,
the
facility
indicated
that
the
overall
groundwater
flow
is
toward
the
river.
The
Mississippi
facility
is
bounded
to
the
south
by
the
Bay
of
St.
Louis,
which
is
fed
by
2
rivers
to
the
east
and
west
of
the
plant.
Additional
details
are
available
in
the
docket.
We
calculated
the
concentration
in
the
river
that
would
result
from
discharge
of
contaminated
groundwater
by
estimating
the
infiltration
rate
for
the
unlined
surface
impoundment,
and
(given
the
area
of
the
impoundment)
diluting
the
resulting
leachate
volume
into
the
river
under
various
design
flow
conditions.
The
results
of
this
screening
level
analysis
(available
in
Risk
Assessment
Support
to
the
Inorganic
Chemical
Industry
Listing:
Background
Information
Document'')
demonstrate
that
concentrations
of
the
constituents
of
concern
in
the
river
are
likely
to
be
well
below
the
human
health
and
aquatic
life
AWQC
for
these
constituents.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
Based
on
information
presented
in
the
RFI
for
the
Mississippi
facility,
as
well
as
from
the
U.
S.
Geological
Survey
Ground
water
Site
Inventory,
there
are
groundwater
wells
to
the
east
and
southwest
of
the
plant
within
2,000±
5,000
feet.
We
modeled
the
potential
impact
of
the
unlined
surface
impoundment
train
on
drinking
water
wells
located
within
this
range.
The
results
are
presented
below
in
Table
III±
59.
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
III±
59.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
COMMINGLED
WASTEWATERS
FROM
CHLORIDE
ILMENITE
PROCESS,
TITANIUM
DIOXIDE
Constituent
of
concern
Hazard
quotient
90th
%
adult
90th
%
child
95th
%
adult
95th
%
child
Manganese
......................................................................................................
0.0002
0.0003
0.0003
0.0007
Thallium
...........................................................................................................
0.002
0.004
0.004
0.009
Vanadium
.........................................................................................................
0.00009
0.0002
0.
0003
0.0006
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
commingled
wastewaters
from
the
production
of
titanium
dioxide
via
the
chlorideilmenite
process.
The
results
of
our
risk
assessment
demonstrate
that
this
waste
category
poses
no
risks
that
warrant
listing
as
hazardous
waste.
The
concentrations
of
the
constituents
of
concern
at
the
modeled
exposure
points
are
well
below
an
HQ
of
one.
(13)
Additive
vent
filter
solids
from
the
chloride
ilmenite
process.
One
facility
reported
production
of
vent
filter
solids
from
additive
handling.
This
material
is
placed
in
an
off
site
industrial
D
landfill.
Small
amounts
of
this
waste
are
generated
(<
1
MT).
This
material
is
not
Bevill
exempt.
Handling
of
this
additive
is
an
ancillary
activity.
All
wastes
from
ancillary
activities
are
not
uniquely
associated
with
extraction/
beneficiation
and
processing
of
ores
and
minerals
(see
45
FR
76619,
November
19,
1980,
and
63
FR
28590,
May
26,
1998).
Information
from
the
facility
indicates
that
a
constituent
of
concern
in
this
material
is
aluminum.
The
drinking
water
HBL
for
aluminum
is
higher
than
the
solubility
limit
in
ground
water
and,
therefore,
contamination
of
ground
water
is
not
likely
to
pose
a
significant
risk
to
human
health.
Based
on
this
fact,
and
the
very
small
volume
generated
by
one
facility,
we
propose
not
to
list
this
material
as
a
hazardous
waste.
(14)
Vanadium
waste
from
the
chloride
ilmenite
and
chloride
process.
Vanadium
containing
material
is
generated
from
the
production
of
titanium
dioxide
via
the
chloride
and
the
chloride
ilmenite
processes.
This
is
not
an
exempt
mineral
processing
waste
because
it
is
not
a
solid
(see
also
63
FR
28602).
This
waste
is
generally
returned
to
the
reaction
area
where
titanium
tetrachloride
is
recovered
and
the
remainder
of
the
vanadium
waste
is
incorporated
into
the
mass
of
the
unreacted
coke
and
ore
solids
(i.
e.,
the
exempt
solids)
and/
or
the
waste
acid.
There
is
no
potential
for
exposure
prior
to
mixing
with
the
exempt
waste
or
waste
acid.
We
assessed
the
mixtures
of
exempt
and
non
exempt
wastes
as
discussed
above
in
III.
D.
14.
e(
8)
and
(10).
Specifically,
we
assessed
the
wastewater
treatment
solids
at
the
Maryland
facility,
the
Iron
Rich
material
at
the
Delaware
facility,
and
the
waste
acid.
(15)
Off
specification
titanium
dioxide
product.
How
Many
Facilities
Generate
This
Waste
Category
and
How
is
it
Managed?
Two
facilities
reported
generating
this
waste,
although
we
believe
that
all
titanium
dioxide
manufacturers
may
generate
this
waste
at
some
time.
The
two
reporting
facilities
both
describe
off
site
Subtitle
D
landfills
that
accept
both
municipal
and
industrial
wastes
as
the
final
management
practice
for
this
waste.
As
noted
in
the
September
1,
1989
Bevill
rulemaking,
offspecification
commercial
product
wastes
are
non
exempt
solid
wastes.
What
Management
Scenarios
Were
Assessed?
We
modeled
the
off
site
municipal
D
landfill
scenario
using
the
regional
locations
of
the
reported
landfills.
How
Was
This
Waste
Category
Characterized?
We
collected
one
sample
of
this
waste
and
conducted
totals,
TCLP,
and
SPLP
analyses.
The
analytical
results
for
the
one
constituent
found
to
be
present
in
the
waste
TCLP
sample
at
a
level
exceeding
its
HBL
are
presented
below
in
Table
III±
60
(no
constituent
exceeded
HBLs
in
the
SPLP).
TABLE
III±
60.Ð
CHARACTERIZATION
OF
OFF
SPECIFICATION
TITANIUM
DIOXIDE
PRODUCT
Constituent
of
concern
Detected
levels
in
sample
DPN±
SO±
02
(mg/
L)
HBL
(mg/
L)
Total
TCLP
Lead
.............................................................................................................................................
0.6
1
0.06
0.015
1
Results
are
less
than
the
typical
laboratory
reporting
limit,
but
are
greater
than
the
calculated
instrument
detection
limits.
How
Was
the
Groundwater
Ingestion
Risk
Assessment
Established?
The
facilities
reported
use
of
landfills
in
the
vicinity
of
their
plant.
We
used
our
usual
distance
to
well
assumptions
for
an
off
site
landfill,
and
assumed
hydrogeologic
conditions
that
are
representative
of
the
principal
soil
and
aquifer
types
present
regionally
(within
a
100
mile
radius)
for
the
particular
landfill
sites
that
were
reported
for
these
wastes.
The
resultant
groundwater
concentrations
were
very
low
and
are
presented
below
in
Table
III±
61.
TABLE
III±
61.Ð
GROUNDWATER
PATHWAY
RISK
ASSESSMENT
RESULTS
FOR
OFF
SPECIFICATION
TITANIUM
DIOXIDE
Constituent
of
concern
Predicted
well
concentrations
(mg/
L)
HBL
(mg/
L)
90th%
95th%
Lead
.............................................................................................................................................
2.5E±
08
1.1E±
06
0.015
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
The
modeled
levels
of
lead
were
so
far
below
the
HBL
that
we
determined
it
was
unnecessary
to
further
assess
the
risks
from
lead.
Clearly
those
risks
would
be
well
below
an
HQ
of
one.
What
Is
EPA's
Listing
Rationale
for
This
Waste?
We
propose
not
to
list
offspecification
titanium
dioxide
as
a
hazardous
waste.
Our
risk
analysis
shows
that
this
waste
does
not
pose
risks
that
warrant
listing.
(16)
Railcar/
trailer
product
washout.
One
facility
reported
generation
of
this
residual
(<
10,000
MT).
The
washwater,
containing
titanium
dioxide,
is
placed
in
a
surface
impoundment.
This
waste
is
not
Bevill
exempt
because
it
is
a
liquid
and
it
is
associated
with
the
chemical
manufacturing
part
of
the
process.
The
water
from
this
pond
is
subsequently
sent
to
wastewater
treatment
where
it
is
commingled
with
all
other
chloride
ilmenite
wastewaters
(assessed
in
III.
D.
14.
e(
12)).
The
titanium
dioxide
product
that
settles
to
the
bottom
of
this
pond
is
mechanically
recovered
and
returned
to
the
production
process.
We
assessed
the
potential
impact
of
this
impoundment
via
the
SPLP
analytical
data
collected
for
off
specification
product
(previously
discussed
in
III.
D.
14.
e(
15)).
These
data
are
available
in
the
background
document
for
this
sector,
and
show
no
constituents
of
concern.
We
chose
the
SPLP
to
assess
this
management
scenario
because
there
is
no
potential
for
contact
with
municipal
landfill
leachate.
We
therefore
do
not
propose
to
list
this
waste.
G.
What
Is
the
Status
of
Landfill
Leachate
From
Previously
Disposed
Wastes?
Leachate
derived
from
the
treatment,
storage,
or
disposal
of
listed
hazardous
wastes
is
classified
as
a
hazardous
waste
by
virtue
of
the
``
derived
from''
rule
in
40
CFR
261.3(
c)(
2).
The
Agency
has
been
clear
in
the
past
that
hazardous
waste
listings
apply
to
wastes
disposed
of
prior
to
the
effective
date
of
a
listing,
even
if
the
landfill
ceases
disposal
of
the
waste
when
the
waste
becomes
hazardous.
(See
53
FR
31147,
August
17,
1988).
We
also
have
a
wellestablished
interpretation
that
listings
apply
to
leachate
derived
from
the
disposal
of
listed
hazardous
wastes,
including
leachate
derived
from
wastes
meeting
the
listing
description
that
were
disposed
before
the
effective
date
of
a
listing.
We
are
not
reopening
any
of
these
issues
with
this
proposed
rulemaking.
Of
course,
as
set
out
in
detail
in
the
August
1988
notice,
this
does
not
mean
that
landfills
holding
wastes
that
are
listed
now
as
hazardous
become
subject
to
Subtitle
C
regulation.
However,
previously
disposed
wastes
now
meeting
a
listing
description,
including
residues
such
as
leachate
that
are
derived
from
such
wastes,
and
that
are
managed
actively
do
become
subject
to
Subtitle
C
regulation.
See
53
FR
at
31149,
August
17,
1988.
In
many,
indeed
most,
circumstances,
active
management
of
leachate
would
be
exempt
from
Subtitle
C
regulation
because
the
usual
pattern
of
management
is
discharge
either
to
POTWs
via
the
sewer
system,
where
leachate
mixes
with
domestic
sewage
and
is
excluded
from
RCRA
jurisdiction
(see
RCRA
Section
1004(
27)
and
40
CFR
261.4(
a)(
1)),
or
to
navigable
waters,
also
excluded
from
RCRA
jurisdiction
(see
RCRA
Section
1004(
27)
and
40
CFR
261.4(
a)(
2)).
In
addition,
management
of
leachate
in
wastewater
treatment
tanks
prior
to
discharge
under
the
CWA
is
exempt
from
RCRA
regulation
(40
CFR
264.1(
g)(
6)).
If
actively
managed,
landfill
leachate
and
gas
condensate
derived
from
the
newly
listed
wastes
proposed
for
listing
in
today's
proposal
could
be
classified
as
K176,
K177,
or
K178.
In
such
circumstances,
we
would
be
concerned
about
the
potential
disruption
in
current
leachate
management
that
could
occur,
and
the
possibility
of
redundant
regulation.
This
issue
was
raised
to
the
Agency
in
the
context
of
the
petroleum
refinery
waste
listings
(see
63
FR
42173,
August
6,
1998).
A
commenter
expressed
concern
that,
because
some
of
the
commenter's
non
hazardous
waste
landfills
received
newly
listed
petroleum
wastes
prior
to
the
effective
date
of
the
listing
decision,
the
leachate
that
is
collected
and
managed
from
these
landfills
would
be
classified
as
hazardous.
The
commenter
argued
that
this
could
lead
to
vastly
increased
treatment
and
disposal
costs
without
necessarily
any
environmental
benefit.
After
examining
and
seeking
comment
on
this
issue,
we
published
a
final
rule
that
temporarily
defers
regulation
of
landfill
leachate
and
gas
condensate
derived
from
certain
listed
petroleum
refining
wastes
(K169
K172)
that
were
disposed
before,
but
not
after,
the
new
listings
became
effective,
provided
certain
conditions
are
met.
See
64
FR
6806,
February
11,
1999.
Since
then,
we
have
published
proposed
rules
for
wastes
from
the
dye
and
pigment
industries
(64
FR
40192,
July
23,
1999)
and
the
chlorinated
aliphatics
industry
(64
FR
46476,
August
25,
1998)
that
also
propose
deferrals
for
similar
wastes
derived
from
landfills.
At
the
time
this
issue
was
brought
to
the
Agency's
attention
in
the
context
of
the
petroleum
refinery
waste
listings,
EPA's
Office
of
Water
had
recently
proposed
national
effluent
limitations
guidelines
and
pretreatment
standards
for
wastewater
dischargesÐ
most
notably,
leachateÐ
from
certain
types
of
landfills.
See
63
FR
6426,
February
6,
1998.
In
support
of
this
proposal,
EPA
conducted
a
study
of
the
volume
and
chemical
composition
of
wastewaters
generated
by
both
subtitle
C
(hazardous
waste)
and
subtitle
D
(non
hazardous
waste)
landfills,
including
treatment
technologies
and
management
practices
currently
in
use.
Most
pertinent
to
finalizing
the
temporary
deferral
for
the
petroleum
refining
wastes,
EPA
did
not
propose
(or
subsequently
finalize)
pretreatment
standards
for
subtitle
D
landfill
wastewaters
sent
to
POTWs
because
the
Agency's
information
indicated
that
such
standards
were
not
required
(see
65
FR
3008,
January
19,
2000).
The
conditions
included
in
the
temporary
deferral
we
published
on
February
11,
1999
are
that
the
leachate
is
subject
to
regulation
under
the
Clean
Water
Act,
and
the
leachate
cannot
be
stored
in
surface
impoundments
after
February
13,
2001.
See
40
CFR
261.4(
b)(
15).
We
believe
that
it
was
appropriate
to
temporarily
defer
the
application
of
the
new
waste
codes
to
such
leachate
in
order
to
avoid
disruption
of
ongoing
leachate
management
activities
while
the
Agency
decides
if
any
further
integration
is
needed
of
the
RCRA
and
CWA
regulations
consistent
with
RCRA
Section
1006(
b)(
1).
We
believe
that
it
is
still
appropriate
to
defer
regulation
and
avoid
leachate
management
activities,
and
to
permit
the
Agency
to
decide
whether
any
further
integration
of
the
two
programs
is
needed.
As
such,
we
would
be
concerned
about
forcing
pretreatment
of
leachate
even
though
pretreatment
is
neither
required
by
the
CWA,
nor
needed.
Therefore,
we
are
proposing
to
temporarily
defer
the
regulation
of
landfill
leachate
and
gas
condensate
derived
from
the
wastes
we
are
proposing
for
listing
in
today's
rule,
with
the
same
conditions
as
described
in
40
CFR
261.4(
b)(
15)
for
petroleum
wastes.
We
seek
comment
on
our
proposed
decision
to
extend
the
temporary
deferral
to
include
the
wastes
proposed
for
listing
in
today's
notice.
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
IV.
Proposed
Treatment
Standards
Under
RCRA's
Land
Disposal
Restrictions
A.
What
Are
EPA's
Land
Disposal
Restrictions
(LDRs)?
RCRA
requires
us
to
establish
treatment
standards
for
all
wastes
destined
for
the
land
disposal.
These
are
the
``
land
disposal
restrictions''
or
LDRs.
For
any
hazardous
waste
identified
or
listed
after
November
8,
1984,
we
must
promulgate
these
LDR
treatment
standards
within
six
months
of
the
date
of
identification
or
final
listing
(RCRA
Section
3004(
g)(
4),
42
U.
S.
C.
6924(
g)(
4)).
RCRA
also
requires
us
to
set
as
these
treatment
standards
``*
*
*
levels
or
methods
of
treatment,
if
any,
which
substantially
diminish
the
toxicity
of
the
waste
or
substantially
reduce
the
likelihood
of
migration
of
hazardous
constituents
from
the
waste
so
that
short
term
and
long
term
threats
to
human
health
and
the
environment
are
minimized.
''
(RCRA
Section
3004(
m)(
1),
42
U.
S.
C.
6924(
m)(
1)).
Once
a
hazardous
waste
is
prohibited
from
land
disposal,
the
statute
provides
only
two
options
for
legal
land
disposal:
Meet
the
treatment
standard
for
the
waste
prior
to
land
disposal,
or
dispose
of
the
waste
in
a
land
disposal
unit
that
satisfies
the
statutory
no
migration
test.
A
no
migration
unit
is
one
from
which
there
will
be
no
migration
of
hazardous
constituents
for
as
long
as
the
waste
remains
hazardous.
RCRA
sections
3004
(d),
(e),
(f),
and
(g)(
5).
Each
waste
identified
for
listing
as
hazardous
in
this
rule
will
be
subject
to
all
the
land
disposal
restrictions
on
the
same
day
their
respective
listing
becomes
effective.
We
gathered
data
on
waste
characteristics
and
current
management
practices
for
wastes
proposed
to
be
listed
in
this
action.
These
data
can
be
found
in
the
administrative
record
for
this
rule.
An
examination
of
the
constituents
that
are
the
basis
of
the
proposed
listings
shows
that
we
have
previously
developed
numerical
treatment
standards
for
most
of
the
constituents.
We
have
determined
that
it
is
technically
feasible
and
justified
to
apply
existing
universal
treatment
standards
(UTS)
to
the
hazardous
constituents
in
the
wastes
proposed
to
be
listed
as
K176,
K177,
and
K178
that
were
found
to
be
present
at
concentrations
exceeding
the
treatment
standards,
because
the
waste
compositions
are
similar
to
other
wastes
for
which
applicable
treatment
technologies
have
been
demonstrated.
Also
see
LDR
Phase
II
final
rule,
59
FR
47982,
September
19,
1994,
for
a
further
discussion
of
UTS.
A
list
of
the
proposed
regulated
hazardous
constituents
and
the
proposed
treatment
limits
can
be
found
in
the
following
preamble
sections
and
in
the
proposed
regulatory
Table
268.40Ð
Treatment
Standards
for
Hazardous
Wastes.
If
we
make
a
final
decision
to
list
the
identified
wastes,
these
constituents
and
treatment
standards
would
apply.
We
have
provided
in
the
BDAT
background
document
a
review
of
technologies
that
can
be
used
to
meet
the
proposed
numerical
concentration
limits
for
K176,
K177,
and
K178,
assuming
optimized
design
and
operation.
Where
we
are
proposing
numerical
concentration
limits,
the
use
of
other
technologies
capable
of
achieving
the
proposed
treatment
standards
would
be
allowed,
except
for
those
treatment
or
reclamation
practices
constituting
land
disposal
or
impermissible
dilution
(see
40
CFR
268.3).
B.
What
Are
the
Treatment
Standards
for
K176
(Baghouse
Filters
From
Production
of
Antimony
Oxide)?
The
constituents
identified
to
require
treatment
in
this
waste
are
antimony,
arsenic,
cadmium,
lead,
and
mercury.
We
are
proposing
to
apply
the
UTS
levels
to
these
constituents
as
the
treatment
standards.
Therefore,
the
nonwastewaters
treatment
standard
proposed
for
antimony
is
1.15mg/
L
TCLP;
arsenic
is
5.0
mg/
L
TCLP;
cadmium
is
0.11
mg/
L
TCLP;
lead
is
0.75
mg/
L
TCLP;
and,
mercury
is
0.025
mg/
L
TCLP.
In
the
event
that
there
are
wastewater
treatment
residuals
from
treatment
of
K176
(which
under
the
derived
from
rule
would
also
be
considered
as
K176),
the
wastewater
treatment
standards
are
as
follows:
Antimony
is
1.9
mg/
L;
arsenic
is
1.4
mg/
L;
cadmium
is
0.69
mg/
L;
lead
is
0.69
mg/
L;
and,
mercury
is
0.15
mg/
L.
We
are
requesting
data
and
comment
on
the
stabilization
of
antimony.
Available
stabilization
data
for
antimony
show
effective
treatment
for
wastes
with
initial
antimony
concentrations
below
those
found
in
K176.
Therefore,
based
on
the
available
data,
we
are
uncertain
if
stabilization
will
be
effective
for
the
antimony
in
this
waste.
C.
What
Standards
Are
the
Treatment
Standards
for
K177
(Slag
From
the
Production
of
Antimony
Oxide
That
is
Disposed
of
or
Speculatively
Accumulated)?
The
constituents
identified
to
require
treatment
in
this
waste
are
antimony,
arsenic,
and
lead.
We
are
proposing
to
apply
the
UTS
levels
to
these
constituents
as
the
treatment
standards.
Therefore,
the
nonwastewater
treatment
standard
for
antimony
is
1.15
mg/
L
TCLP,
for
arsenic
is
5.0
mg/
L
TCLP,
and
for
lead
is
0.75
mg/
L
TCLP.
In
the
event
that
there
are
wastewater
treatment
residuals
from
treatment
of
K177
(which
under
the
derived
from
rule
also
would
be
considered
K177),
the
wastewater
treatment
standard
for
antimony
is
1.9
mg/
L,
for
arsenic
is
1.4
mg/
L,
and
for
lead
is
0.69
mg/
L.
We
are
requesting
data
and
comment
on
the
stabilization
of
antimony.
Available
stabilization
data
for
antimony
show
effective
treatment
for
wastes
with
initial
antimony
concentrations
below
those
found
in
K177.
Therefore,
based
on
the
available
data,
we
are
uncertain
if
stabilization
will
be
effective
for
the
antimony
in
this
waste.
D.
What
Are
the
Treatment
Standards
for
K178
(Nonwastewaters
From
the
Production
of
Titanium
Dioxide
by
the
Chloride
Ilmenite
Process)?
The
constituents
of
concern
in
this
waste
are
the
chlorinated
congeners
of
dibenzo
p
dioxin
and
dibenzofuran,
thallium
and
manganese.
We
are
proposing
to
apply
the
UTS
levels
to
the
chlorinated
congeners
of
dibenzo
pdioxin
and
dibenzofuran,
and
thallium,
as
indicated
in
Table
V±
1.
In
addition
we
are
also
proposing
the
option
of
complying
with
the
technology
standard
of
combustion
(CMBST)
for
the
chlorinated
dibenzo
p
dioxin
and
dibenzofuran
(dioxins
and
furans)
constituents
present
in
K178.
We
note
at
the
outset
that
we
typically
promulgate
numerical
performance
standards
to
allow
facilities
maximum
flexibility
in
determining
for
themselves
how
best
to
achieve
compliance
with
the
LDR
treatment
standards.
By
promulgating
combustion
as
an
alternative
compliance
option,
we
are
not
disturbing
the
degree
of
flexibility
afforded
to
facilities;
rather,
we
are
enhancing
it.
However,
when
we
specify
a
treatment
technology
like
CMBST
as
the
treatment
standard,
the
analytical
elements
of
compliance
change.
Typically,
with
specified
technologies,
no
testing
and
analysis
of
treatment
residuals
is
required
because
we
are
confident
that
use
of
the
specified
technology
will
reduce
the
level
of
target
organic
constituents
to
levels
that
minimize
threats
to
human
health
and
the
environment.
For
K178,
the
regulated
organic
constituents
of
concern
are
dioxin/
furan
congeners.
If
combustion
in
well
designed
and
operated
units
is
used
to
treat
K178,
the
dioxin/
furan
congeners
in
the
K178
should
be
substantially
destroyed.
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
prescribing
CMBST,
we
ensure
that
the
units
treating
K178
will
be
units
subject
to
the
standards
in
Part
264
Subpart
O
or
Part
266
Subpart
H,
or
from
interim
status
incinerators
which
have
made
a
specific
demonstration
that
they
operate
in
a
manner
equivalent
to
a
Part
264
or
Part
266
combustion
unit.
The
practical
effect
of
this
change
will
be
to
limit
the
type
of
facilities
that
can
combust
K178
to
well
regulated
RCRA
units
(or,
after
the
current
transition
period,
Clean
Air
Act
permitted
units
subject
to
MACT
standards).
This
will
ensure
that
combustion
is
done
in
a
closelyregulated
facility
and
in
a
manner
that
provides
protection
for
human
health
and
the
environment.
Furthermore,
by
restricting
combustion
of
K178
to
these
units,
combustion
will
only
occur
in
units
subject
to
the
recently
upgraded
dioxin/
furan
emission
standards
of
the
MACT
Hazardous
Waste
Combustion
Rule
as
well
as
standards
for
other
hazardous
air
pollutants,
such
as
metals
(64
FR
52828,
September
30,
1999).
K178
does
have
metal
constituents
of
concern,
which
would
not
be
treated
by
the
combustion
process
and
that
would
remain
in
the
combustion
treatment
residuals
(e.
g.,
ash
and
scrubber
water).
We
therefore
are
retaining
metal
treatment
standards
for
all
circumstances,
i.
e.,
whether
or
not
the
treatment
used
by
a
facility
involves
combustion.
When
combustion
is
used
to
treat
the
organics
to
achieve
LDR
compliance,
facilities
will
still
need
to
conduct
compliance
testing
and
analysis
for
all
regulated
metal
constituents
in
the
combustion
treatment
residuals
prior
to
disposal.
This
approach
is
patterned
after
EPA's
promulgation
of
a
similar
alternative
treatment
standard
for
F024
(wastes
from
production
of
chlorinated
aliphatics)
and
also
for
F032
(wastes
from
wood
preserving
processes).
See
55
FR
22580±
81,
June
1,
1990.
See
also
62
FR
26000±
3,
May
12,
1997.
For
both
solid
and
wastewater
treatment
residuals,
we
are
proposing
use
of
the
Universal
Treatment
Standards
(UTS)
for
all
constituents
of
concern
except
manganese.
Universal
treatment
standards
have
not
been
developed
for
manganese,
although
we
are
proposing
standards
below.
We
did
not
study
this
constituent
in
the
development
of
F039
treatment
standards
in
1990
or
UTS
in
1994.
Furthermore,
we
lack
studies
demonstrating
treatment
effectiveness
for
highly
concentrated
manganese
nonwastewaters,
such
as
those
containing
manganese
at
levels
such
as
those
found
in
K178.
We
did,
however,
identify
treatability
data
for
less
concentrated
manganese
waste
in
our
treatability
database.
These
data
show
that
solidification
offers
promising
results
in
reducing
the
mobility
of
manganese,
at
least
in
less
concentrated
manganese
waste.
Such
treatment
yielded
concentrations
of
0.002,
0.003,
and
0.46
mg/
L
TCLP.
Under
the
LDR
program,
we
typically
apply
a
variability
factor
of
2.8
to
the
treated
waste
data,
to
account
for
variations
arising
from
mechanical
limitations
in
the
treatment
equipment.
Therefore
we
calculated
potential
treatment
standards
based
on
solidification
treatment
from
our
treatability
database
as
0.006,
0.008,
and
1.29
mg/
L
TCLP.
We
are
unsure
whether
these
treatment
standards
would
be
achievable
in
a
waste
with
the
significantly
higher
concentrations
of
manganese
found
in
K178.
Therefore,
we
are
not
proposing
treatment
standards
based
on
solidification.
Rather,
to
propose
a
more
achievable
standard,
we
based
it
on
a
technology
which
results
in
higher
post
treatment
manganese
levels.
High
temperature
metals
recovery
(which
vitrifies
the
manganese
in
the
slag)
resulted
in
a
treated
manganese
concentration
of
1.3
mg/
L
TCLP.
Using
this
datum
and
our
typical
variability
factor
of
2.8,
we
calculated
a
proposed
manganese
treatment
standard
of
3.6
mg/
L
TCLP.
We
request
comment
and
data
on
this
proposed
treatment
standard,
and
we
request
anyone
who
has
an
interest
in
the
treatment
standard
for
manganese
to
comment
to
that
effect.
We
may
use
the
list
of
commenters
on
this
topic
as
the
only
individuals
notified
of
potential
changes
to
this
proposed
treatment
standard,
so
it
is
important
for
you
to
comment
if
you
are
in
any
way
interested.
Because
it
is
possible
that
commenters
may
submit
data
showing
that
this
treatment
option
is
inappropriate
for
K178,
we
request
comment
on
the
option
of
setting
a
treatment
standard
for
manganese
that
is
identical
to
the
current
UTS
level
for
thallium,
the
other
metal
found
in
proposed
K178.
The
thallium
treatment
level
of
0.20
mg/
L
TCLP
is
based
on
stabilization.
We
also
request
any
information
regarding
the
similarity
of
manganese
nonwastewater
treatment
to
the
treatment
of
other
RCRA
regulated
metals
that
now
appear
in
the
UTS,
both
from
a
structural
or
physico
chemical
perspective
as
well
as
from
a
treatment
performance
perspective.
We
have
some
treatment
data
for
manganese
in
wastewater
matrices
derived
from
wastes
other
than
K178
in
our
treatability
database.
It
has
been
difficult
to
determine
whether
these
treatment
data
are
relevant
because
we
have
no
examples
of
wastewaters
derived
from
K178.
We
are
therefore
unsure
if
the
wastes
in
our
database
are
more
or
less
concentrated
than
actual
K178
wastewaters.
To
account
for
this
uncertainty,
we
selected
treatment
data
representing
relatively
high
initial
concentrations
(up
to
1000
mg/
L),
but
also
representing
full
scale
operation
and
satisfactory
treatment
(at
least
90
percent
reduction
in
concentration).
We
found
that
sedimentation
technology,
the
most
effective
treatment
method
in
our
database,
resulted
in
a
final
effluent
concentration
of
6.1
mg/
L
and
chemical
precipitation
technology
resulted
in
final
effluent
concentrations
of
2.4
and
4.8
mg/
L
(both
operated
at
full
scale
and
resulted
in
greater
than
90
percent
reduction).
We
have
selected,
to
be
conservative,
the
highest
concentration
(6.1
mg/
L)
to
calculate
a
K178
wastewater
standard.
We
applied
a
variability
factor
of
2.8
to
obtain
a
proposed
K178
LDR
treatment
standard
of
17.1mg/
L.
Again,
we
request
comments
on
and
data
relevant
to
this
proposed
treatment
standard
for
wastewater
forms
of
K178,
both
from
those
who
support
the
standard
and
those
who
believe
the
standard
is
not
achievable.
We
also
request
any
information
regarding
the
similarity
of
manganese
wastewater
treatment
to
the
treatment
of
other
RCRA
regulated
metals
that
now
appear
in
the
UTS,
both
from
a
structural
or
physico
chemical
perspective
as
well
as
from
a
treatment
performance
perspective.
Only
commenters
on
this
subject
may
be
notified
of
future
changes
we
may
make
based
on
newly
submitted
data.
Because
we
typically
include
the
same
treatment
standards
for
new
listings
into
those
for
F039
(multisource
leachate)
to
maintain
equivalence
within
the
LDR
regulatory
structure,
we
are
also
proposing
to
add
the
manganese
treatment
standard
to
the
F039
section
of
the
268.40
table.
The
F039
waste
code
applies
to
hazardous
waste
landfill
leachates
in
lieu
of
the
original
waste
codes
when
multiple
waste
codes
would
otherwise
apply.
F039
wastes
are
subject
to
numerical
treatment
standards
equivalent
to
UTS.
We
are
proposing
this
addition
to
the
constituents
regulated
by
F039
to
maintain
the
implementation
benefits
of
having
one
waste
code
for
multisource
leachate.
We
are
also
proposing
to
add
manganese
to
the
UTS
Table
at
40
CFR
268.48.
Manganese
represents
significant
risk
to
human
health
and
the
environment,
as
shown
in
the
risk
assessment
accompanying
this
rule.
Its
presence
in
other
hazardous
wastes
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
should
be
mitigated
by
effective
treatment
to
avoid
similar
risks
after
land
disposal.
Furthermore,
when
manganese
is
added
to
the
UTS
list,
all
characteristic
wastes
that
have
this
constituent
as
an
underlying
hazardous
constituent
above
the
UTS
levels
will
require
treatment
of
manganese
before
land
disposal.
We
solicit
comments
on
these
proposed
conforming
changes
and
especially
on
the
impacts
that
they
may
have
on
other
wastes
beyond
just
K178.
We
request
comment
on
the
full
set
of
proposed
standards
for
K178
listed
in
the
following
table.
TABLE
IV±
1.Ð
TREATMENT
STANDARDS
FOR
K178
Regulated
hazardous
constituent
Wastewaters
Nonwastewaters
Common
name
CAS
1
No.
Concentration
in
mg/
L
2
,
or
technology
code
3
Concentration
in
mg/
kg4
unless
noted
as
``
mg/
L
TCLP'',
or
technology
code
1,2,3,4,6,7,8
Heptachlorodibenzo
p
dioxin
.................................
35822±
39±
4
0.000035
or
CMBST
5
..............
0.0025
or
CMBST
5
1,2,3,4,6,7,8
Heptachlorodibenzofuran
.......................................
67562±
39±
4
0.000035
or
CMBST
5
..............
0.0025
or
CMBST
5
1,2,3,4,7,8,9
Heptachlorodibenzofuran
.......................................
55673±
89±
7
0.000035
or
CMBST
5
..............
0.0025
or
CMBST
5
HxCDDs
(All
Hexachlorodibenzo
p
dioxins)
...............................
34465±
46±
8
0.000063
or
CMBST
5
..............
0.001
or
CMBST
5
HxCDFs
(All
Hexachlorodibenzofurans)
.....................................
55684±
94±
1
0.000063
or
CMBST
5
..............
0.001
or
CMBST
5
1,2,3,4,6,7,8,9
Octachlorodibenzo
p
dioxin
(OCDD)
..................
3268±
87±
9
0.000063
or
CMBST
5
..............
0.005
or
CMBST
5
1,2,3,4,6,7,8,9
Octachlorodibenzofuran
(OCDF)
........................
39001±
02±
0
0.000063
or
CMBST
5
..............
0.005
or
CMBST
5
PeCDDs
(All
Pentachlorodibenzo
p
dioxins)
..............................
36088±
22±
9
0.000063
or
CMBST
5
..............
0.001
or
CMBST
5
PeCDFs
(All
Pentachlorodibenzofurans)
....................................
30402±
15±
4
0.000035
or
CMBST
5
..............
0.001
or
CMBST
5
TCDDs
(All
tetrachlorodi
benzo
p
dioxins)
.................................
41903±
57±
5
0.000063
or
CMBST
5
..............
0.001
or
CMBST
5
TCDFs
(All
tetrachlorodibenzofurans)
.........................................
55722±
27±
5
0.000063
or
CMBST
5
..............
0.001
or
CMBST
5
Manganese
.................................................................................
7439±
96±
5
17.1
..........................................
3.6
mg/
L
TCLP
Thallium
.......................................................................................
7440±
28±
0
1.4
............................................
0.20
mg/
L
TCLP
1
CAS
means
Chemical
Abstract
Services.
When
the
waste
code
and/
or
regulated
constituents
are
described
as
a
combination
of
a
chemical
with
its
salts
and/
or
esters,
the
CAS
number
is
given
for
the
parent
compound
only.
2
Concentration
standards
for
wastewaters
are
expressed
in
mg/
L
and
are
based
on
analysis
of
composite
samples.
3
All
treatment
standards
expressed
as
a
Technology
Code
or
combination
of
Technology
Codes
are
explained
in
detail
in
40
CFR
268.
42
Table
1
Technology
Codes
and
Descriptions
of
Technology
Based
Standards.
4
Except
for
Metals
(EP
or
TCLP)
and
Cyanides
(Total
and
Amenable)
the
nonwastewater
treatment
standards
expressed
as
a
concentration
were
established,
in
part,
based
upon
incineration
in
units
operated
in
accordance
with
the
technical
requirements
of
40
CFR
part
264,
subpart
O
or
40
CFR
part
265,
subpart
O,
or
based
upon
combustion
in
fuel
substitution
units
operating
in
accordance
with
applicable
technical
requirements
A
facility
may
comply
with
these
treatment
standards
according
to
provisions
in
40
CFR
268.40(
d).
All
concentration
standards
for
nonwastewaters
are
based
on
analysis
of
grab
samples.
5
For
these
wastes,
the
definition
of
CMBST
is
limited
to:
(1)
combustion
units
operating
under
40
CFR
266,
(2)
combustion
units
permitted
under
40
CFR
Part
264,
Subpart
O,
or
(3)
combustion
units
operating
under
40
CFR
265,
Subpart
O,
which
have
obtained
a
determination
of
equivalent
treatment
under
268.42(
b).
What
Other
LDR
Provisions
Are
Proposed
to
Apply?
1.
Debris.
We
propose
to
apply
the
regulations
at
40
CFR
268.45
to
hazardous
debris
contaminated
with
K176,
K177
or
K178.
Debris
contaminated
with
these
wastes
would
have
to
be
treated
prior
to
land
disposal,
using
specific
technologies
from
one
or
more
of
the
following
families
of
debris
treatment
technologies:
extraction,
destruction,
or
immobilization.
Hazardous
debris
contaminated
with
a
listed
waste
that
is
treated
by
an
immobilization
technology
specified
in
40
CFR
268.45
Table
1
is
a
hazardous
waste
and
must
be
managed
in
a
hazardous
waste
facility.
Residuals
generated
from
the
treatment
of
debris
contaminated
with
K176,
K177,
or
K178
would
remain
subject
to
the
treatment
standards
proposed
today.
See
57
FR
37277,
August
18,
1992,
for
additional
information
on
the
applicability,
scope,
and
content
of
the
hazardous
debris
provisions.
2.
Soil.
In
addition,
we
propose
to
apply
the
regulations
at
40
CFR
268.49
to
hazardous
soil
contaminated
with
K176,
K177,
or
K178.
Soil
contaminated
with
these
wastes
would
have
to
be
treated
prior
to
land
disposal,
meeting
either
alternative
treatment
standards
(i.
e.,
10
times
UTS
or
90
percent
reduction
in
initial
constituent
concentrations)
or
the
standards
at
40
CFR
268.40
being
proposed
today.
Nonsoil
residuals
generated
from
the
treatment
of
soil
contaminated
with
K176,
K177,
or
K178
would
remain
subject
to
the
treatment
standards
proposed
today.
See
63
FR
28602,
May
26,
1998,
for
additional
information
on
the
applicability,
scope,
and
content
of
the
alternative
soil
treatment
standard
provisions.
3.
Underground
Injection
Wells
that
can
be
found
in
the
administrative
record
for
this
rule.
Finally,
because
land
disposal
also
includes
placement
in
injection
wells
(40
CFR
268.2(
c))
application
of
the
land
disposal
restrictions
to
K176,
K177,
and
K178
requires
the
modification
of
injection
well
requirements
found
in
40
CFR
148.
We
propose
that
K176,
K177,
and
K178
be
prohibited
from
underground
injection.
Therefore,
these
wastes
could
not
be
underground
injected
unless
they
have
been
treated
in
compliance
with
the
LDR
treatment
standards
being
proposed
today,
or
if
they
are
disposed
in
a
deep
injection
well
that
has
been
granted
a
no
migration
petition
for
those
wastes.
E.
Is
There
Treatment
Capacity
for
the
Proposed
Wastes?
1.
What
Is
a
Capacity
Determination?
EPA
must
determine
whether
adequate
alternative
treatment
capacity
exists
nationally
to
manage
the
wastes
subject
to
LDR
treatment
standards.
RCRA
section
3004
(h)(
2).
Thus,
LDRs
are
effective
when
the
new
listings
are
effective
(typically
6
months
after
the
new
listings
are
published
in
the
Federal
Register),
unless
EPA
grants
a
national
capacity
variance
from
the
otherwise
applicable
date
and
establishes
a
different
date
(not
to
exceed
two
years
beyond
the
statutory
deadline)
based
on
``*
*
*
the
earliest
date
on
which
adequate
alternative
treatment,
recovery,
or
disposal
capacity
which
protects
human
health
and
the
environment
will
be
available''
(RCRA
section
3004(
h)(
2),
42
U.
S.
C.
6924(
h)(
2)).
Our
capacity
analysis
methodology
focuses
on
the
amount
of
waste
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
currently
disposed
on
the
land,
which
will
require
alternative
or
additional
treatment
as
a
result
of
the
LDRs.
The
quantity
of
wastes
that
is
not
disposed
on
the
land,
such
as
discharges
regulated
under
NPDES,
discharges
to
a
POTW,
or
treatment
in
a
RCRA
exempt
tank,
is
not
included
in
the
quantities
requiring
additional
treatment
as
a
result
of
the
LDRs.
Also,
land
disposed
wastes
that
do
not
require
alternative
or
additional
treatment
are
excluded
from
the
required
capacity
estimates
(i.
e.,
those
that
currently
are
treated
to
meet
the
LDR
treatment
standards).
Landdisposed
wastes
requiring
alternative
or
additional
treatment
or
recovery
capacity
that
is
available
on
site
or
within
the
same
company
also
are
excluded
from
the
required
commercial
capacity
estimates.
The
resulting
estimates
of
required
commercial
capacity
then
are
compared
to
estimates
of
available
commercial
capacity.
If
adequate
commercial
capacity
exists,
the
waste
is
restricted
from
further
land
disposal.
If
protective
alternative
capacity
does
not
exist,
EPA
has
the
authority
to
grant
a
national
capacity
variance.
In
making
the
estimates
described
above,
the
volume
of
waste
requiring
treatment
depends
on
the
current
waste
management
practices
employed
by
the
waste
generators
before
this
proposed
regulation
is
promulgated
and
becomes
effective.
Data
on
waste
management
practices
for
these
wastes
were
collected
during
the
development
of
this
proposed
rule.
However,
we
realize
that
as
the
regulatory
process
proceeds,
generators
of
these
wastes
may
decide
to
minimize
or
recycle
their
wastes
or
otherwise
alter
their
management
practices.
Thus,
we
will
monitor
changes
and
update
data
on
current
management
practices
as
these
changes
will
affect
the
volume
of
wastes
ultimately
requiring
commercial
treatment
or
recovery
capacity.
The
commercial
hazardous
waste
treatment
industry
may
change
rapidly.
For
example,
national
commercial
treatment
capacity
changes
as
new
facilities
come
on
line
or
old
facilities
go
off
line,
and
as
new
units
and
new
technologies
are
added
at
existing
facilities.
The
available
capacity
at
commercial
facilities
also
changes
as
facilities
change
their
commercial
status
(e.
g.,
changing
from
a
fully
commercial
to
a
limited
commercial
or
``
captive''Ð
company
ownedÐ
facility).
Thus,
we
also
continue
to
update
and
monitor
changes
in
available
commercial
treatment
capacity.
For
wastes
required
to
meet
today's
proposed
treatment
standards,
we
request
data
on
the
annual
generation
volumes
and
characteristics
of
wastes
affected
by
this
proposed
rule,
including
proposed
hazardous
wastes
K176,
K177,
and
K178
in
wastewater
and
nonwastewater
forms.
We
also
request
data
on
soil
or
debris
contaminated
with
these
wastes,
residuals
generated
from
the
treatment
or
recycling
of
these
wastes,
and
the
current
and
planned
management
practices
for
the
wastes,
waste
mixtures,
and
treatment
residuals.
For
available
capacity
to
meet
the
LDR
requirements,
we
request
data
on
the
current
treatment
or
recovery
capacity
capable
of
treating
these
wastes,
facility
and
unit
permit
status
related
to
treatment
of
the
proposed
wastes,
and
any
plans
that
facilities
may
expand
or
reduce
existing
capacity
or
construct
new
capacity.
In
addition,
we
request
information
on
the
time
and
necessary
procedures
required
for
permit
modification
for
generators
or
commercial
treatment
or
disposal
facilities
to
manage
the
wastes,
required
changes
for
operating
practices
due
to
the
proposed
listings
or
proposed
additional
constituent
to
be
regulated
in
the
wastes,
and
any
waste
minimization
activities
associated
with
the
wastes.
Of
particular
interest
to
us
are
chemical
and
physical
constraints
of
treatment
technologies
for
these
wastes
and
any
problems
for
disposing
of
these
wastes.
Also
of
interest
are
any
analytical
difficulties
associated
with
identifying
and
monitoring
the
regulated
constituents
in
these
wastes.
F.
What
are
the
Capacity
Analysis
Results?
This
preamble
only
provides
a
summary
of
the
capacity
analysis
performed
to
support
this
proposed
regulation.
For
additional
and
more
detailed
information,
please
refer
to
the
``
Background
Document
for
Capacity
Analysis
for
Land
Disposal
Restrictions:
Inorganic
Chemical
Production
Wastes
(Proposed
Rule),
''
August
2000
(i.
e.,
the
Capacity
Background
Document).
For
this
capacity
analysis,
we
examined
data
on
waste
characteristics
and
management
practices
gathered
for
the
inorganic
chemical
hazardous
waste
listing
determinations.
We
also
examined
data
on
available
treatment
or
recovery
capacity
for
these
wastes.
The
sources
for
these
data
are
the
RCRA
Section
3007
Survey
distributed
in
the
spring
of
1999,
record
sampling
and
site
visits
(see
the
docket
for
today's
rule
for
more
information
on
these
survey
instruments
and
facility
activities),
the
available
treatment
capacity
data
submission
that
was
collected
in
the
mid
1990's,
and
the
1997
Biennial
Report.
For
K176
and
K177
wastes,
the
information
from
the
surveys,
sampling,
and
site
visits
indicates
that
there
is
no
quantity
of
the
wastewater
form
of
K176
or
K177
that
is
expected
to
be
generated
and
therefore,
there
is
no
quantity
of
the
wastewater
form
of
K176
or
K177
that
will
require
alternative
commercial
treatment.
These
wastes
are
typically
present
in
a
nonwastewater
form.
Based
on
the
RCRA
§
3007
Survey
information
presented
in
the
Capacity
Background
Document,
required
alternative
treatment
capacity
for
K176
nonwastewaters
is
estimated
to
be
eight
tons
per
year.
Required
alternative
treatment
capacity
for
K177
nonwastewaters
is
estimated
to
be
22
tons
per
year.
As
described
in
the
section
of
proposed
LDR
treatment
standards
above,
we
are
proposing
that
numerical
treatment
standards
be
applied
to
K176
and
K177
nonwastewaters.
We
anticipate
that
commercially
available
stabilization,
as
well
as
other
technologies,
can
be
used
in
meeting
these
treatment
standards.
We
estimate
that
the
commercially
available
stabilization
capacity
is
at
least
eight
million
tons
per
year
based
on
the
1995
Biennial
Report.
Thus
we
expect
there
is
sufficient
capacity
to
treat
the
proposed
K176
and
K177
hazardous
wastes
that
would
require
treatment.
Therefore,
we
are
proposing
not
to
grant
a
national
capacity
variance
for
K176
or
K177
wastewaters
or
nonwastewaters.
For
K178
waste
(chloride
ilmenite
nonexempt
nonwastewaters
from
the
production
of
titanium
dioxide),
our
data
indicate
that
the
waste
is
typically
generated
as
a
nonwastewater.
We
did
not
identify
any
wastewater
forms
of
these
wastes
and
therefore
do
not
anticipate
that
alternative
management
for
wastewaters
is
required.
We
found
that
the
wastes
are
currently
land
disposed.
We
estimated
that
approximately
7,300
tons
per
year
(derived
from
public
information
since
data
on
amounts
of
treatment
solids
are
confidential
as
reported
in
§
3007
Survey)
may
require
alternative
treatment.
In
our
assessment,
we
assumed
that
facilities
can
segregate
wastestreams
and
separately
manage
the
newly
proposed
hazardous
waste.
Although
the
generation
quantity
(and
therefore,
the
quantity
requiring
treatment)
may
be
higher
due
to
the
derived
from
rule,
we
expect
that
available
treatment
capacity
still
exists.
As
discussed
earlier
for
K178
treatment
standards,
we
are
proposing
that
numerical
treatment
standards
be
applied
to
K178
wastes.
We
anticipate
that
commercially
available
incineration,
followed
by
stabilization
if
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Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
62
A
unretrofitted
impoundment
is
one
not
satisfying
the
minimum
technology
requirements
(MTR)
specified
in
sections
3004(
o)
and
3005(
j)(
11).
63
See
RCRA
§
3004(
m)(
1)
``
Simultaneously
with
the
promulgation
of
regulations
under
subsection
(d),
(e),
(f),
or
(g)
prohibiting
one
or
more
methods
of
land
disposal
of
a
particular
hazardous
waste
*
*
*
promulgate
regulations
specifying
those
levels
or
methods
of
treatment
*
*
*''
necessary,
or
high
temperature
metals
recovery
if
applicable,
can
be
used
to
meet
these
treatment
standards.
We
also
propose
the
technology
standard
of
combustion
(CMBST)
as
an
alternative
compliance
option
for
hazardous
organic
constituents
in
the
K178
wastes.
The
units
treating
the
waste
by
using
CMBST
will
be
subject
to
certain
standards,
and
facilities
will
need
to
meet
treatment
standards
for
all
regulated
metal
constituents
prior
to
disposal,
as
discussed
in
the
earlier
section
on
K178
treatment
standards.
We
assume
that
facilities
would
achieve
treatment
standards
using
incineration,
stabilization,
or
both.
The
quantity
of
commercially
available
combustion
capacity
for
sludge
and
solid
is
a
minimum
of
300,000
tons
per
year
and
the
quantity
of
commercially
available
stabilization
capacity
is
at
least
eight
million
tons
per
year
based
on
1995
Biennial
Report.
We
have
identified
that
there
exist
facilities
managing
K178
waste
in
surface
impoundments
(i.
e.,
in
wastewater
treatment
systems
that
contain
land
based
units).
If
the
waste
is
managed
in
unretrofitted
impoundments,
62
it
would
thus
be
land
disposed
in
a
prohibited
manner.
These
impoundments
can
be
retrofitted,
closed
or
replaced
with
tank
systems.
If
the
impoundment
continues
to
be
used
to
manage
K178
waste,
the
unit
will
be
subject
to
Subtitle
C
requirements.
In
addition,
any
hazardous
wastes
managed
in
the
affected
impoundment
after
the
effective
date
of
today's
rule
are
subject
to
land
disposal
prohibitions.
63
However,
facilities
may
continue
to
manage
newly
listed
K178
in
surface
impoundments,
provided
they
are
in
compliance
with
the
appropriate
standards
for
impoundments
(40
CFR
Parts
264
and
265
subpart
K)
and
the
special
rules
regarding
surface
impoundments
(40
CFR
268.14).
EPA
notes
that
those
provisions
require
basic
groundwater
monitoring
(40
CFR
Parts
264
and
265
Subpart
F),
management,
and
recordkeeping,
but
(in
keeping
with
RCRA
section
3005(
j)(
6)(
A))
are
afforded
up
to
48
months
to
retrofit
to
meet
minimum
technological
requirements.
Based
on
the
foregoing,
we
expect
that
sufficient
capacity
to
treat
the
proposed
K178
hazardous
wastes
that
would
require
treatment.
Therefore,
we
are
proposing
not
to
grant
a
capacity
variance
for
wastewater
and
nonwastewater
forms
of
K178.
With
respect
to
the
revisions
to
the
F039
and
UTS
lists,
as
discussed
earlier
in
the
section
on
K178
treatment
standards,
we
are
proposing
to
add
manganese
to
the
list
of
regulated
constituents
in
F039
(§
268.40)
and
the
UTS
table
(§
268.48).
We
have
estimated
what
portion
of
the
F039
or
characteristic
wastes
(which
require
treatment
of
underlying
hazardous
constituents
to
UTS
levels)
may
be
required
to
meet
these
new
treatment
standards.
We
request
comments
on
the
estimates,
the
appropriate
means
of
treatment
(if
necessary),
and
the
sufficiency
of
available
treatment
capacity
for
the
affected
wastes
by
the
addition
of
manganese
to
the
F039
and
UTS
lists.
When
changing
the
treatment
requirements
for
wastes
already
subject
to
LDR
(including
F039
and
characteristic
wastes),
EPA
no
longer
has
authority
to
use
RCRA
§
3004(
h)(
2)
to
grant
a
capacity
variance
to
these
wastes.
However,
EPA
is
guided
by
the
overall
objective
of
section
3004(
h),
namely
that
treatment
standards
which
best
accomplish
the
goal
of
RCRA
§
3004(
m)
(to
minimize
threats
posed
by
land
disposal)
should
take
effect
as
soon
as
possible,
consistent
with
availability
of
treatment
capacity.
We
expect
that
only
a
limited
quantity
of
hazardous
waste
leachate
may
be
generated
from
the
disposal
of
newlylisted
K176,
K177,
and
K178
wastes
(due
to
the
small
number
of
generators)
and
added
to
the
generation
of
leachates
from
other
multiple
restricted
hazardous
wastes
already
subject
to
LDR.
For
the
amount
of
characteristic
wastes
or
leachates
generated
from
those
previously
regulated
hazardous
wastes
that
would
be
subject
only
to
the
new
treatment
standards
for
manganese,
we
evaluated
the
universe
of
wastes
that
might
be
impacted
by
revisions
to
the
lists
of
regulated
constituents
for
F039
and
UTS
based
on
limited
information.
Based
on
1997
Biennial
Report
data
and
some
assumptions
of
waste
compositions
and
their
potential
for
land
disposal,
we
were
able
to
estimate
the
potential
need
for
additional
treatment.
For
example,
we
estimated
an
upper
bound
of
70,000
tons
per
year
of
nonwastewaters
mixed
with
other
waste
codes,
the
F039
leachate
from
which
would
be
potentially
impacted
by
the
revision
to
the
F039
treatment
standards.
In
a
similar
fashion,
we
estimated
that
no
more
than
520,000
tons
per
year
of
characteristic
nonwastewaters
potentially
might
be
affected
by
the
proposed
changes
(i.
e.,
the
addition
of
manganese
to
the
F039
and
UTS
lists).
These
upper
bound
estimates
are
most
likely
very
overstated
since
only
a
portion
of
each
estimated
waste
volume
may
contain
manganese
at
concentrations
above
the
proposed
level
specified
in
the
UTS
table
and
the
F039
list.
The
estimates
assume
that
manganese
is
present
at
levels
above
the
proposed
treatment
standards
in
all
of
these
wastes
and
require
alternative
treatment,
when
it
is
likely
that
this
may
be
true
in
only
a
small
sets
of
the
cases.
Furthermore,
EPA
does
not
anticipate
that
waste
volumes
subject
to
treatment
for
F039
or
characteristic
wastes
would
significantly
increase
because
waste
generators
already
are
required
to
comply
with
the
treatment
requirements
for
other
metals
that
may
be
present
in
the
wastes.
The
volumes
of
wastes
for
which
additional
treatment
is
needed
solely
due
to
the
addition
of
manganese
to
the
F039
and
UTS
lists
are
therefore
expected
to
be
very
small.
See
the
Capacity
Background
Document
for
detailed
analysis.
However,
even
though
our
volume
estimates
are
highly
conservative
and
overstated,
we
find
that
there
still
would
be
no
shortage
of
treatment
capacity.
Based
on
data
submittals
in
the
mid
1990's
and
the
1997
Biennial
Report,
EPA
has
estimated
that
approximately
37
million
tons
per
year
of
commercial
wastewater
treatment
capacity
are
available,
and
well
over
one
million
tons
per
year
of
liquid,
sludge,
and
solid
commercial
combustion
capacity
are
available.
Also,
as
discussed
earlier
in
this
section,
there
exist
several
million
tons
of
available
stabilization
capacity.
These
are
well
above
the
quantities
of
F039
or
characteristic
wastes
potentially
requiring
treatment
for
manganese
even
under
the
conservative
screening
assumptions
described
above.
Therefore,
we
are
proposing
a
decision
not
to
delay
the
effective
date
for
adding
manganese
to
the
lists
of
constituents
for
F039
and
UTS.
We
request
comment
on
its
proposed
decision
not
to
delay
the
effective
date
for
adding
manganese
to
the
lists
of
constituents
for
F039
and
UTS.
We
request
data
on
the
annual
generation
volumes
and
characteristics
of
wastes
potentially
affected
by
the
proposed
changes
to
UTS
and
F039
in
wastewater
and
nonwastewater
forms
(if
any),
and
the
current
and
planned
management
practices
for
the
wastes,
waste
mixtures,
and
treatment
residuals.
We
also
request
data
on
the
current
treatment
or
recovery
capacity
capable
of
treating
the
affected
wastes.
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
Further,
for
soil
and
debris
contaminated
with
the
newly
listed
wastes
(K176,
K177,
and
K178),
we
believe
that
the
vast
majority
of
contaminated
soil
and
debris
contaminated
with
these
wastes
will
be
managed
on
site
and
therefore
will
not
require
substantial
commercial
treatment
capacity.
Therefore,
we
are
not
proposing
to
grant
a
national
capacity
variance
for
hazardous
soil
and
debris
contaminated
with
these
wastes
covered
under
this
proposal.
Based
on
the
1999
RCRA
§
3007
Survey
followed
by
record
sampling
and
site
visits,
there
are
no
data
showing
the
newly
listed
wastes
managed
by
underground
injection
wells.
Also,
based
on
the
1999
RCRA
§
3007
Survey
followed
by
record
sampling
and
site
visits,
there
are
no
data
showing
mixed
radioactive
wastes
associated
with
the
proposed
listings.
EPA
is
proposing
to
not
grant
a
national
capacity
variance
for
underground
injected
wastes,
mixed
radioactive
wastes,
or
soil
and
debris
contaminated
with
these
mixed
radioactive
wastes,
if
such
wastes
are
generated.
Therefore,
we
propose
that
LDR
treatment
standards
for
the
affected
wastes
covered
under
today's
rule
thus
become
effective
when
the
listing
determinations
become
effectiveÐ
the
earliest
possible
date
(see
RCRA
section
3004(
h)(
1)Ð
land
disposal
prohibitions
must
take
effect
immediately
when
there
is
sufficient
protective
treatment
capacity
for
the
waste
available).
However,
we
may
need
to
revise
capacity
analyses
or
capacity
variance
decisions
if
final
listing
determinations
are
changed
or
if
we
receive
data
and
information
to
warrant
any
revision.
Finally,
we
request
comments
on
the
estimated
quantities
requiring
alternative
treatment
and
information
on
characteristics
of
the
affected
wastes,
management
practices
for
these
wastes,
and
available
treatment,
recovery
or
disposal
capacity
for
the
wastes.
We
also
request
comments
concerning
alternative
management
for
any
of
these
wastes
managed
in
surface
impoundments,
including
new
piping
or
tank
systems,
and
the
length
of
time
required
for
such
activities.
In
addition,
we
solicit
comments
on
our
decision
not
to
grant
a
national
capacity
variance
or
delay
the
effective
date
for
any
of
the
affected
wastes.
We
will
consider
all
available
data
and
information
provided
during
the
public
comment
period
and
revise
our
capacity
analysis
accordingly
in
making
the
final
capacity
determinations.
Please
note,
the
ultimate
volumes
of
wastes
estimated
to
require
alternative
or
additional
commercial
treatment
may
change
if
the
final
listing
determinations
change.
Should
this
occur,
we
will
revise
the
capacity
analysis
accordingly.
V.
Compliance
Dates
We
seek
comment
on
the
proposed
decisions
in
this
section.
A.
Notification
Under
the
RCRA
Section
3010
any
person
generating,
transporting,
or
managing
a
hazardous
waste
must
notify
EPA
(or
an
authorized
state)
of
its
activities.
Section
3010(
a)
allows
us
to
waive,
under
certain
circumstances,
the
notification
requirement
under
Section
3010
of
RCRA.
If
these
hazardous
waste
listings
are
promulgated,
we
propose
to
waive
the
notification
requirement
as
unnecessary
for
persons
already
identified
within
the
hazardous
waste
management
universe
(i.
e.,
persons
who
have
an
EPA
identification
number
under
40
CFR
262.12).
We
do
not
propose
to
waive
the
notification
requirement
for
waste
handlers
who
have
neither
notified
us
that
they
may
manage
hazardous
wastes
nor
received
an
EPA
identification
number.
Such
individuals
will
have
to
provide
notification
under
RCRA
Section
3010.
B.
Interim
Status
and
Permitted
Facilities
Because
HSWA
requirements
are
applicable
in
authorized
states
at
the
same
time
as
in
unauthorized
states,
we
will
regulate
the
newly
identified
wastes
listed
under
HSWA
until
states
are
authorized
to
regulate
these
wastes.
Thus,
once
this
regulation
becomes
effective
as
a
final
rule,
we
will
apply
Federal
regulations
to
these
wastes
and
to
their
management
in
both
authorized
and
unauthorized
states.
VI.
State
Authority
A.
Applicability
of
Rule
in
Authorized
States
Under
Section
3006
of
RCRA,
we
may
authorize
qualified
states
to
administer
and
enforce
the
RCRA
program
within
the
state.
(See
40
CFR
Part
271
for
the
standards
and
requirements
for
authorization.)
Following
authorization,
we
retain
enforcement
authority
under
Sections
3007,
3008,
3013,
and
7003
of
RCRA,
although
authorized
states
have
primary
enforcement
responsibility.
Before
the
Hazardous
and
Solid
Waste
Amendments
of
1984
(HSWA)
amended
RCRA,
a
state
with
final
authorization
administered
its
hazardous
waste
program
entirely
in
lieu
of
the
Federal
program
in
that
state.
The
Federal
requirements
no
longer
applied
in
the
authorized
state,
and
we
could
not
issue
permits
for
any
facilities
located
in
the
state
with
permitting
authorization.
When
new,
more
stringent
Federal
requirements
were
promulgated
or
enacted,
the
state
was
obligated
to
enact
equivalent
authority
within
specified
time
frames.
New
Federal
requirements
did
not
take
effect
in
an
authorized
state
until
the
state
adopted
the
requirements
as
state
law.
By
contrast,
under
Section
3006(
g)
of
RCRA,
42
U.
S.
C.
6926(
g),
new
requirements
and
prohibitions
imposed
by
the
HSWA
(including
the
hazardous
waste
listings
in
this
proposal)
take
effect
in
authorized
states
at
the
same
time
that
they
take
effect
in
nonauthorized
states.
EPA
is
directed
to
implement
those
requirements
and
prohibitions
in
authorized
states,
including
the
issuance
of
permits,
until
the
state
is
granted
authorization
to
do
so.
While
states
must
still
adopt
HSWArelated
provisions
as
state
law
to
retain
final
authorization,
the
Federal
HSWA
requirements
apply
in
authorized
states
in
the
interim.
B.
Effect
on
State
Authorizations
Because
this
proposal
(with
the
exception
of
the
actions
proposed
under
CERCLA
authority)
will
be
promulgated
pursuant
to
the
HSWA,
a
state
submitting
a
program
modification
is
able
to
apply
to
receive
either
interim
or
final
authorization
under
Section
3006(
g)(
2)
or
3006(
b),
respectively,
on
the
basis
of
requirements
that
are
substantially
equivalent
or
equivalent
to
EPA's
requirements.
The
procedures
and
schedule
for
state
program
modifications
under
3006(
b)
are
described
in
40
CFR
271.21.
It
should
be
noted
that
all
HSWA
interim
authorizations
are
currently
scheduled
to
expire
on
January
1,
2003
(see
57
FR
60129,
February
18,
1992).
Section
271.21(
e)(
2)
of
EPA's
state
authorization
regulations
(40
CFR
Part
271)
requires
that
states
with
final
authorization
modify
their
programs
to
reflect
federal
program
changes
and
submit
the
modifications
to
EPA
for
approval.
The
deadline
by
which
the
states
must
modify
their
programs
to
adopt
this
proposed
regulation,
if
it
is
adopted
as
a
final
rule,
will
be
determined
by
the
date
of
promulgation
of
a
final
rule
in
accordance
with
40
CFR
271.21(
e)(
2).
If
the
proposal
is
adopted
as
a
final
rule,
Table
1
at
40
CFR
271.1
will
be
amended
accordingly.
Once
we
approve
the
modification,
the
state
requirements
become
RCRA
Subtitle
C
requirements.
States
with
authorized
RCRA
programs
already
may
have
regulations
similar
to
those
in
this
proposed
rule.
These
state
regulations
have
not
been
assessed
against
the
Federal
regulations
being
proposed
to
determine
whether
they
meet
the
tests
for
authorization.
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
Thus,
a
state
would
not
be
authorized
to
implement
these
regulations
as
RCRA
requirements
until
state
program
modifications
are
submitted
to
EPA
and
approved,
pursuant
to
40
CFR
271.21.
Of
course,
States
with
existing
regulations
that
are
more
stringent
than
or
broader
in
scope
than
current
Federal
regulations
may
continue
to
administer
and
enforce
their
regulations
as
a
matter
of
state
law.
It
should
be
noted
that
authorized
states
are
required
to
modify
their
programs
only
when
EPA
promulgates
Federal
standards
that
are
more
stringent
or
broader
in
scope
than
existing
Federal
standards.
Section
3009
of
RCRA
allows
states
to
impose
standards
more
stringent
than
those
in
the
Federal
program.
For
those
Federal
program
changes
that
are
less
stringent
or
reduce
the
scope
of
the
Federal
program,
states
are
not
required
to
modify
their
programs.
See
40
CFR
271.1(
I).
This
proposed
rule,
if
finalized,
is
neither
less
stringent
than
nor
a
reduction
in
the
scope
or
the
current
Federal
program,
and,
therefore,
states
would
be
required
to
modify
their
programs
to
retain
authorization
to
implement
and
enforce
these
regulations.
VII.
Designation
of
Inorganic
Chemical
Wastes
under
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act
(CERCLA)
All
hazardous
wastes
listed
under
RCRA
and
codified
in
40
CFR
261.31
through
261.33,
as
well
as
any
solid
waste
that
is
not
excluded
from
regulation
as
a
hazardous
waste
under
40
CFR
261.4(
b)
and
that
exhibits
one
or
more
of
the
characteristics
of
a
RCRA
hazardous
waste
(as
defined
in
40
CFR
261.21
through
261.24),
are
hazardous
substances
under
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act
of
1980
(CERCLA),
as
amended
(see
CERCLA
Section
101(
14)(
C)).
CERCLA
hazardous
substances
are
listed
in
Table
302.4
at
40
CFR
302.4
along
with
their
reportable
quantities
(RQs).
If
a
hazardous
substance
is
released
in
an
amount
that
equals
or
exceeds
its
RQ,
the
release
must
be
reported
immediately
to
the
National
Response
Center
(NRC)
pursuant
to
CERCLA
Section
103.
A.
Reporting
Requirements
Under
CERCLA
Section
103(
a),
the
person
in
charge
of
a
vessel
or
facility
from
which
a
hazardous
substance
has
been
released
in
a
quantity
that
is
equal
to
or
exceeds
its
RQ
must
immediately
notify
the
NRC
as
soon
as
that
person
has
knowledge
of
the
release.
The
tollfree
telephone
number
of
the
NRC
is
1±
800±
424±
8802;
in
the
Washington,
DC,
metropolitan
area,
the
number
is
(202)
267±
2675.
In
addition
to
this
reporting
requirement
under
CERCLA,
Section
304
of
the
Emergency
Planning
and
Community
Right
to
Know
Act
of
1986
(EPCRA)
requires
owners
or
operators
of
certain
facilities
to
report
releases
of
extremely
hazardous
substances
and
CERCLA
hazardous
substances
to
State
and
local
authorities.
Immediately
after
the
release
of
an
RQ
or
more
of
an
extremely
hazardous
substance
or
a
CERCLA
hazardous
substance,
EPCRA
Section
304
notification
must
be
given
to
the
community
emergency
coordinator
of
the
local
emergency
planning
committee
for
any
area
likely
to
be
affected
by
the
release,
and
to
the
State
emergency
response
commission
of
any
State
likely
to
be
affected
by
the
release.
Under
Section
102(
b)
of
CERCLA,
all
hazardous
substances
(as
defined
by
CERCLA
Section
101(
14))
have
a
statutory
RQ
of
one
pound,
unless
and
until
the
RQ
is
adjusted
by
regulation.
In
today's
proposed
rule,
we
propose:
(1)
to
list
the
following
three
wastestreams
as
RCRA
hazardous
wastes;
(2)
to
designate
these
wastestreams
as
CERCLA
hazardous
substances,
and
(3)
to
adjust
the
onepound
statutory
RQs
for
two
of
these
wastestreams.
The
proposed
wastestreams
are
as
follows:
K176
Baghouse
filters
from
the
production
of
antimony
oxide
K177
Slag
from
the
production
of
antimony
oxide
that
is
disposed
of
or
speculatively
accumulated
K178
Nonwastewaters
from
the
production
of
titanium
dioxide
by
the
chloride
ilmenite
process.
[This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
40
CFR
261.4(
b)(
7).]
B.
Basis
for
Proposed
RQ
Adjustment
Our
methodology
for
adjusting
the
RQs
of
individual
hazardous
substances
begins
with
an
evaluation
of
the
intrinsic
physical,
chemical,
and
toxicological
properties
of
each
hazardous
substance.
The
intrinsic
properties
examinedÐ
called
``
primary
criteria''Ð
are
aquatic
toxicity,
mammalian
toxicity
(oral,
dermal,
and
inhalation),
ignitability,
reactivity,
chronic
toxicity,
and
potential
carcinogenicity.
Generally,
for
each
intrinsic
property,
we
rank
the
hazardous
substance
on
a
five
tier
scale,
associating
a
specific
range
of
values
on
each
scale
with
an
RQ
value
of
1,
10,
100,
1,000,
or
5,000
pounds.
Based
on
the
various
primary
criteria,
the
hazardous
substance
may
receive
several
tentative
RQ
values.
The
lowest
of
the
tentative
RQs
becomes
the
``
primary
criteria
RQ''
for
that
substance.
After
the
primary
criteria
RQ
is
assigned,
the
substance
is
evaluated
further
for
its
susceptibility
to
certain
degradative
processes,
which
are
used
as
secondary
RQ
adjustment
criteria.
These
natural
degradative
processes
are
biodegradation,
hydrolysis,
and
photolysis
(BHP).
If
a
hazardous
substance,
when
released
into
the
environment,
degrades
relatively
rapidly
to
a
less
hazardous
form
by
one
or
more
of
the
BHP
processes,
its
primary
criteria
RQ
is
generally
raised
one
level.
Conversely,
if
a
hazardous
substance
degrades
to
a
more
hazardous
product
after
its
release,
the
original
substance
is
assigned
an
RQ
equal
to
the
RQ
for
the
more
hazardous
substance,
which
may
be
one
or
more
levels
lower
than
the
RQ
for
the
original
substance.
The
standard
methodology
used
to
adjust
the
RQs
for
RCRA
hazardous
wastestreams
differs
from
the
methodology
applied
to
individual
hazardous
substances.
The
procedure
for
assigning
RQs
to
RCRA
wastestreams
is
based
on
an
analysis
of
the
hazardous
constituents
of
the
wastestreams.
The
constituents
of
each
RCRA
hazardous
wastestream
are
identified
in
40
CFR
part
261,
Appendix
VII.
We
determine
an
RQ
for
each
constituent
within
the
wastestream
and
establish
the
lowest
RQ
value
of
these
constituents
as
the
adjusted
RQ
for
the
wastestream.
In
today's
proposed
rule,
we
propose
to
assign
a
one
pound
adjusted
RQ
to
the
K176
wastestream
and
5,000
pounds
to
the
K177
wastestream.
The
proposed
adjusted
RQs
for
both
of
these
wastestreams
are
based
on
the
lowest
RQ
value
of
the
constituents
present
in
each
wastestream,
are
presented
in
Table
VII±
1
below.
We
seek
comment
our
proposed
adjustments
to
the
RQ
values
for
these
wastes.
We
are
not
adjusting
the
RQ
for
K178
at
this
time
because
we
have
not
yet
developed
a
``
waste
constituent
RQ''
for
manganese,
one
of
the
constituents
of
concern
in
this
waste.
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/
Vol.
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
VII±
1.Ð
PROPOSED
ADJUSTED
RQS
FOR
WASTESTREAMS
K176,
K177,
AND
K178
Wastestream
Wastestream
constituent
Wastestream
constituent
RQ
(lb.)
Wastestream
RQ
(lb.)
K176
.......................................................................................
arsenic
.......................................................................
1
1
lead
...........................................................................
10
.....................
K177
.......................................................................................
antimony
....................................................................
5,000
5,000
VIII.
Administrative
Assessments
A.
Executive
Order
12866
Under
Executive
Order
12866,
[58
FR
51,735
(October
4,
1993)]
the
Agency
must
determine
whether
the
regulatory
action
is
``
significant''
and
therefore
subject
to
OMB
review
and
the
requirements
of
the
Executive
Order.
The
Order
defines
``
significant
regulatory
action''
as
one
that
is
likely
to
result
in
a
rule
that
may:
(1)
Have
an
annual
effect
on
the
economy
of
$100
million
or
more
or
adversely
affect
in
a
material
way
the
economy,
a
sector
of
the
economy,
productivity,
competition,
jobs,
the
environment,
public
health
or
safety,
or
State,
local,
or
tribal
governments
or
communities;
(2)
create
a
serious
inconsistency
or
otherwise
interfere
with
an
action
taken
or
planned
by
another
agency;
(3)
materially
alter
the
budgetary
impact
of
entitlements,
grants,
user
fees,
or
loan
programs
or
the
rights
and
obligations
of
recipients
thereof;
or
(4)
raise
novel,
legal
or
policy
issues
arising
out
of
legal
mandates,
the
President's
priorities,
or
the
principles
set
forth
in
the
Executive
Order.
The
Agency
estimated
the
costs
of
today's
proposed
rule
to
determine
if
it
is
a
significant
regulation
as
defined
by
the
Executive
Order.
The
analysis
considered
compliance
costs
and
economic
impacts
for
inorganic
chemical
producers
affected
by
this
rule.
We
estimate
the
total
cost
of
the
rule
to
be
$3
million
annually.
This
analysis
suggests
that
this
rule
is
not
economically
significant
according
to
the
definition
in
E.
O.
12866.
The
Office
of
Management
and
Budget
has
deemed
this
rule
to
be
significant
for
novel
policy
reasons
and
has
reviewed
this
rule.
Detailed
discussions
of
the
methodology
used
for
estimating
the
costs,
economic
impacts
and
the
benefits
attributable
to
today's
proposed
rule
for
listing
hazardous
wastes
from
inorganic
chemical
production,
followed
by
a
presentation
of
the
cost,
economic
impact
and
benefit
results,
may
be
found
in
the
background
document:
``
Economic
Analysis
of
the
Proposed
Rule
For
Listing
Hazardous
Waste
From
Inorganic
Chemical
Production,
''
which
was
placed
in
the
docket
for
today's
proposed
rule.
We
seek
comment
on
the
methodology
used,
the
projected
economic
impacts,
and
the
benefits
assumed
for
the
proposed
listings.
1.
Methodology
Section
To
estimate
the
cost,
economic
impacts
to
potentially
affected
firms
and
benefits
to
society
from
this
proposed
rulemaking,
We
evaluated
§
3007
Survey
responses
from
inorganic
chemical
producers,
firm
financial
reports,
and
chemical
production
data.
The
Agency
has
developed
model
facilities
that
represent
composite
information
about
inorganic
chemical
producers
at
both
the
facility
and
firm
level.
We
also
evaluated
two
scenarios.
The
first
scenario
evaluates
the
cost
of
listing
all
wastes
that
we
propose
to
list
in
today's
proposal.
The
second
scenario
includes
not
only
wastes
that
EPA
has
proposed
to
list
but
also
any
waste
that
has
exceeded
risk
screens
(or
other
screening
criteria)
and
had
quantitative
risk
assessment
completed.
Analysis
of
these
scenarios
allows
the
public
to
understand
what
costs
would
have
resulted
from
this
rule
making
if
all
of
the
quantitative
risk
assessments
involving
fate
and
transport
modeling
had
shown
risk
to
human
health.
To
estimate
the
incremental
cost
of
this
rule
making,
we
reviewed
baseline
management
practices
and
costs
of
potentially
affected
firms.
Where
more
than
one
baseline
management
method
was
used
(e.
g.
municipal
incineration
and
landfilling),
we
either
modeled
more
than
one
form
of
baseline
management
or
selected
the
least
expensive
form
of
baseline
management
(which
would
overestimate
rather
than
underestimate
the
cost
of
the
rule).
The
Agency
has
modeled
the
most
likely
post
regulatory
scenario
resulting
from
the
listing
(e.
g.,
disposal
in
a
Subtitle
C
hazardous
waste
landfill,
recycling)
and
estimated
the
cost
of
complying
with
it.
The
difference
between
the
baseline
management
cost
and
the
post
regulatory
cost
is
the
incremental
cost
of
the
rulemaking.
To
estimate
the
economic
impact
of
today's
proposed
rulemaking,
we
compared
the
incremental
cost
of
the
rulemaking
with
model
firm
sales
and
either
net
profit
or
product
value.
The
Agency
has
also
considered
the
ability
of
potentially
affected
firms
to
pass
compliance
costs
on
in
the
form
of
higher
prices.
To
estimate
the
benefits
of
today's
proposal,
we
evaluated
risk
assessment
results
and
as
well
as
a
qualitative
assessment
of
benefits
including
natural
resource
protection
of
groundwater.
2.
Results
a.
Volume
Results.
Data
reviewed
by
the
Agency
indicates
that
there
are
9
inorganic
chemical
producers
potentially
affected
by
today's
proposed
rule.
The
data
report
that
these
firms
generated
700,000
tons
of
inorganic
chemical
production
waste
annually
that
are
potentially
affected
by
today's
proposed
rule
and
modeled
under
Scenario
1.
Data
also
indicate
that
there
are
26
inorganic
chemical
producers
who
have
generated
wastes
that
are
either
being
listed
because
they
exhibit
a
characteristic
or
have
been
evaluated
for
quantitative
risk
assessment
involving
fate
and
transport
modeling
by
the
Agency
to
evaluate
their
potential
effect
on
human
health
and
the
environment.
These
wastes
are
being
modeled
under
Scenario
2.
b.
Cost
Results.
For
today's
proposed
rule,
we
estimate
the
total
annual
incremental
costs
from
today's
proposal
to
be
$
2.5
million
for
all
facilities.
Sectors
costs
are
summarized
in
Table
2.
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14,
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/
Proposed
Rules
64
Because
profit
information
is
often
either
unavailable
or
more
variable
from
year
to
year
than
sales
measures,
the
Agency
has
chose
to
use
a
profit
surrogate
in
completing
the
economic
impact
analysis
of
this
proposal.
According
to
Dun
and
Bradstreet's
Industry
Norms
and
Key
Business
Indicators
(1995)
the
average
net
after
tax
profit
for
inorganic
chemical
producers
in
the
2819
SIC
code
was
6.3
percent.
This
percentage
is
applied
to
reported
sales
of
affected
firms
in
order
to
estimate
their
profits.
65
The
Small
Business
Administration
has
classified
firms
in
the
manufacturing
sector
(SIC
Codes
20±
39)
and
wholesale
trade
sector
(SIC
Codes
50±
51)
as
small
businesses
within
the
sector
based
on
the
number
of
employees
per
firm.
See
Small
Business
Size
Standards,
61
FR
3280,
3289
(January
31,
1996).
Thus,
to
determine
if
a
inorganic
chemical
producer
is
a
small
business,
the
primary
SIC
code
of
the
firm
would
have
to
be
determined.
The
small
entities
in
today's
rulemaking
are
in
two
SIC
codes:
(1)
2812
Alkalies
and
Chlorine,
size
standard
1000
employees
and
(2)
5082
Construction
and
Mining
(except
Petroleum)
Machinery
and
Equipment
size
standard
100
employees.
TABLE
VIII±
1.Ð
ESTIMATED
INCREMENTAL
COST
BY
INORGANIC
CHEMICAL
SECTOR
Sector
Estimated
incremental
annual
costs
$
000s
(1999
$)
Number
of
affected
facilities
Scenario
1
Scenario
2
Scenario
1
Scenario
2
Antimony
Oxide
.................................................................................................
1.6
(recycling),
35
(disposal).
1.6
(recycling),
35
(disposal).
3
3
Hydrogen
Cyanide
.............................................................................................
...........................
215
...................
3
5
Sodium
Chlorate
................................................................................................
...........................
225
...................
0
5
Sodium
Phosphate
............................................................................................
...........................
76
.....................
0
4
Titanium
Dioxide
................................................................................................
2900
.................
6500
.................
3
9
Total
............................................................................................................
2937
.................
7051
.................
9
26
c.
Economic
Impact
Results.
To
estimate
potential
economic
impacts
resulting
from
today's
proposed
rule,
we
used
first
order
economic
impacts
measures
such
as
the
estimated
incremental
costs
of
today's
proposed
rule
as
a
percentage
of
both
affected
firms'
sales
and
estimated
profits
64
.
We
applied
these
measures
to
affected
inorganic
chemical
producers.
For
affected
inorganic
chemical
producers
in
the
antimony
oxide
and
sodium
chlorate
sectors,
we
estimated
the
costs
to
be
less
than
3
percent
of
a
typical
firm's
sales
and
less
than
2
percent
of
a
firm's
estimated
profits.
For
affected
inorganic
chemical
producers
in
the
hydrogen
cyanide
sector,
we
estimated
the
cost
to
be
less
than
1
percent
of
a
typical
firm's
sales
and
estimated
profits.
More
detailed
information
on
this
estimate
can
be
found
in
the
economic
analysis
placed
into
today's
docket.
d.
Benefits
Assessment.
EPA
has
not
conducted
a
quantitative
assessment
of
actual
benefits
from
this
proposed
rule.
Because
today's
proposed
rule
results
in
new
hazardous
waste
management
requirements
for
K176,
K177,
and
K178
wastes,
the
Agency
believes
that
there
may
be
a
reduction
in
releases
of
hazardous
constituents
to
the
environment.
B.
Regulatory
Flexibility
Act
(RFA),
as
amended
by
the
Small
Business
Regulatory
Enforcement
Fairness
Act
of
1996
(SBREFA),
5
USC
601
et.
seq.
The
RFA
generally
requires
an
agency
to
prepare
a
regulatory
flexibility
analysis
of
any
rule
subject
to
notice
and
comment
rulemaking
requirements
under
the
Administrative
Procedures
Act
or
any
other
statute
unless
the
agency
certifies
that
the
rule
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
Small
entities
include
small
businesses,
small
organizations,
and
small
governmental
jurisdictions.
For
purposes
of
assessing
the
impacts
of
today's
rule
on
small
entities,
a
small
entity
is
defined
as:
(1)
A
small
business
that
has
fewer
than
1000
or
100
employees
per
firm
depending
upon
the
SIC
code
the
firm
primarily
classified
in
65
;
(2)
a
small
governmental
jurisdiction
that
is
a
government
of
a
city,
county,
town,
school
district
or
special
district
with
a
population
of
less
than
50,000;
and
(3)
a
small
organization
that
is
any
not
for
profit
enterprise
which
is
independently
owned
and
operated
and
is
not
dominant
in
its
field.
After
considering
the
economic
impacts
of
today's
proposed
rule
on
small
entities,
I
certify
that
this
action
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
There
are
two
potentially
affected
inorganic
producing
firms
that
constitute
small
entities.
These
firms
are
located
in
the
antimony
oxide
sector.
We
have
determined
that
these
two
firms
would
under
this
proposal
incur
costs
of
less
than
1
percent
of
both
the
firm's
sales
and
estimated
profits
under
one
scenario
analyzed
for
the
wastes
in
this
sector.
We
continue
to
be
interested
in
the
potential
impacts
of
the
proposed
rule
on
small
entities
and
welcome
comments
on
issues
related
to
such
impacts.
C.
Paperwork
Reduction
Act
The
information
collection
requirements
in
this
proposed
rule
have
been
submitted
for
approval
to
the
Office
of
Management
and
Budget
(OMB)
under
the
Paperwork
Reduction
Act,
44
U.
S.
C.
3501
et
seq.
An
Information
Collection
Request
(ICR)
document
has
been
prepared
(ICR
No.
1968.01)
and
a
copy
may
be
obtained
from
Sandy
Farmer
by
mail
at
Collection
Strategies
Division;
U.
S.
Environmental
Protection
Agency
(2822);
1200
Pennsylvania
Ave.,
NW,
Washington,
DC
20460,
by
email
at
farmer.
sandy@
epamail.
epa.
gov,
or
by
calling
(202)
260±
2740.
A
copy
may
also
be
downloaded
off
the
internet
at
http:/
/www.
epa.
gov/
icr.
This
rule
is
proposed
under
the
authority
of
sections
3001(
e)(
2)
and
3001(
b)(
1)
of
the
Hazardous
and
Solid
Waste
Amendments
(HSWA)
of
1984.
The
effect
of
listing
the
wastes
described
earlier
will
be
to
subject
industry
to
management
and
treatment
standards
under
the
Resource
Conservation
and
Recovery
Act
(RCRA).
This
proposed
rule
does
not
contain
any
new
information
collection
requirements,
nor
does
it
propose
to
modify
any
existing
information
collection
requirements.
As
a
result,
this
proposed
rule
represents
only
an
incremental
increase
in
burden
for
generators
and
subsequent
handlers
of
the
newly
listed
wastes
in
complying
with
existing
RCRA
information
collection
requirements.
The
total
annual
respondent
burden
and
cost
for
all
existing
paperwork
associated
with
this
proposed
rule
presented
here
represents
the
incremental
increase
in
paperwork
burden
under
six
existing
Information
Collection
Requests
(ICRs).
We
estimate
the
total
annual
respondent
burden
for
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/
Proposed
Rules
all
information
collection
activities
to
be
approximately
417
hours,
at
an
annual
cost
of
approximately
$19,916.
Comments
are
requested
on
the
Agency's
need
for
this
information,
the
accuracy
of
the
provided
burden
estimates,
and
any
suggested
methods
for
minimizing
respondent
burden,
including
through
the
use
of
automated
collection
techniques.
Send
comments
on
the
ICR
to
the
Director,
Collection
Strategies
Division;
U.
S.
Environmental
Protection
Agency
(2822);
1200
Pennsylvania
Ave.,
NW,
Washington,
DC
20460;
and
to
the
Office
of
Information
and
Regulatory
Affairs,
Office
of
Management
and
Budget,
725
17th
St.,
N.
W.,
Washington,
DC
20503,
marked
``
Attention:
Desk
Officer
for
EPA.
''
Include
the
ICR
number
in
any
correspondence.
Since
OMB
is
required
to
make
a
decision
concerning
the
ICR
between
30
and
60
days
after
September
14,
2000,
a
comment
to
OMB
is
best
assured
of
having
its
full
effect
if
OMB
receives
it
by
October
16,
2000.
The
proposed
rule
will
respond
to
any
OMB
or
public
comments
on
the
information
collection
requirements
contained
in
this
proposal.
D.
Unfunded
Mandates
Reform
Act
Title
II
of
the
Unfunded
Mandates
Reform
Act
of
1995
(UMRA),
Public
Law
104±
4,
establishes
requirements
for
Federal
agencies
to
assess
the
effects
of
their
regulatory
actions
on
State,
local,
and
tribal
governments
and
the
private
sector.
Under
section
202
of
the
UMRA,
EPA
generally
must
prepare
a
written
statement,
including
a
cost
benefit
analysis,
for
proposed
and
final
rules
with
``
Federal
mandates''
that
may
result
in
expenditures
to
State,
local,
and
tribal
governments,
in
the
aggregate,
or
to
the
private
sector,
of
$100
million
or
more
in
any
one
year.
Before
promulgating
an
EPA
rule
for
which
a
written
statement
is
needed,
section
205
of
the
UMRA
generally
requires
EPA
to
identify
and
consider
a
reasonable
number
of
regulatory
alternatives
and
adopt
the
least
costly,
most
costeffective
or
least
burdensome
alternative
that
achieves
the
objectives
of
the
rule.
The
provisions
of
section
205
do
not
apply
when
they
are
inconsistent
with
applicable
law.
Moreover,
section
205
allows
EPA
to
adopt
an
alternative
other
than
the
least
costly,
most
cost
effective
or
least
burdensome
alternative
if
the
Administrator
publishes
with
the
proposed
rule
an
explanation
why
that
alternative
was
not
adopted.
Before
EPA
establishes
any
regulatory
requirements
that
may
significantly
or
uniquely
affect
small
governments,
including
tribal
governments,
it
must
have
developed
under
section
203
of
the
UMRA
a
small
government
agency
plan.
The
plan
must
provide
for
notifying
potentially
affected
small
governments,
enabling
officials
of
affected
small
governments
to
have
meaningful
and
timely
input
in
the
development
of
EPA
regulatory
proposals
with
significant
Federal
intergovernmental
mandates,
and
informing,
educating,
and
advising
small
governments
on
compliance
with
the
regulatory
requirements.
Today's
rule
contains
no
Federal
mandates
(under
the
regulatory
provisions
of
Title
II
of
the
UMRA)
for
State,
local,
or
tribal
governments
or
the
private
sector.
The
rule
would
not
impose
any
federal
intergovernmental
mandate
because
it
imposes
no
enforceable
duty
upon
state,
tribal
or
local
governments.
States,
tribes
and
local
governments
would
have
no
compliance
costs
under
this
rule.
It
is
expected
that
states
will
adopt
similar
rules,
and
submit
those
rules
for
inclusion
in
their
authorized
RCRA
programs,
but
they
have
no
legally
enforceable
duty
to
do
so.
For
the
same
reasons,
we
determined
that
this
rule
contains
no
regulatory
requirements
that
might
significantly
or
uniquely
affect
small
governments.
We
have
fulfilled
the
requirement
for
analysis
under
the
Unfunded
Mandates
Reform
Act.
E.
Executive
Order
12898:
Environmental
Justice
EPA
is
committed
to
addressing
environmental
justice
concerns
and
is
assuming
a
leadership
role
in
environmental
justice
initiatives
to
enhance
environmental
quality
for
all
populations
in
the
United
States.
The
Agency's
goals
are
to
ensure
that
no
segment
of
the
population,
regardless
of
race,
color,
national
origin,
or
income
bears
disproportionately
high
and
adverse
human
health
or
environmental
impacts
as
a
result
of
EPA's
policies,
programs,
and
activities,
and
that
all
people
live
in
safe
and
healthful
environments.
In
response
to
Executive
Order
12898
and
to
concerns
voiced
by
many
groups
outside
the
Agency,
EPA's
Office
of
Solid
Waste
and
Emergency
Response
formed
an
Environmental
Justice
Task
Force
to
analyze
the
array
of
environmental
justice
issues
specific
to
waste
programs
and
to
develop
an
overall
strategy
to
identify
and
address
these
issues
(OSWER
Directive
No.
9200.3±
17).
Today's
proposed
rule
covers
wastes
from
inorganic
chemical
production.
It
is
not
certain
whether
the
environmental
problems
addressed
by
this
rule
could
disproportionately
affect
minority
or
low
income
communities.
Today's
proposed
rule
is
intended
to
reduce
risks
of
hazardous
wastes
as
proposed,
and
to
benefit
all
populations.
As
such,
this
rule
is
not
expected
to
cause
any
disproportionately
high
and
adverse
impacts
to
minority
or
lowincome
communities
versus
nonminority
or
affluent
communities.
In
making
hazardous
waste
listing
determinations,
we
base
our
evaluations
of
potential
risk
from
the
generation
and
management
of
solid
wastes
on
an
analysis
of
potential
individual
risk.
In
conducting
risk
evaluations,
our
goal
is
to
estimate
potential
risk
to
any
population
of
potentially
exposed
individuals
(e.
g.,
home
gardeners,
adult
farmers,
children
of
farmers,
anglers)
located
in
the
vicinity
of
any
generator
or
facility
handling
a
waste.
Therefore,
we
are
not
putting
poor,
rural,
or
minority
populations
at
any
disadvantage
with
regard
to
our
evaluation
of
risk
or
with
regard
to
how
the
Agency
makes
its
proposed
hazardous
waste
listing
determinations.
In
proposing
today
to
list
wastes
as
hazardous
(i.
e.,
filter
baghouses
and
low
antimony
slags
from
antimony
oxide
production
that
are
discarded,
nonexempt
nonwastewater
from
the
titanium
dioxide
chloride
ilmenite
process,),
all
populations
potentially
exposed
to
these
wastes
or
potentially
exposed
to
releases
of
the
hazardous
constituents
in
the
wastes
will
benefit
from
the
proposed
listing
determination.
In
addition,
listing
determinations
take
effect
at
the
national
level.
The
wastes
proposed
to
be
listed
as
hazardous
will
be
hazardous
regardless
of
where
they
are
generated
and
regardless
of
where
they
may
be
managed.
Although
the
Agency
understands
that
the
proposed
listing
determinations,
if
finalized,
may
affect
where
these
wastes
are
managed
in
the
future
(in
that
hazardous
wastes
must
be
managed
at
subtitle
C
facilities),
the
Agency's
decision
to
list
these
wastes
as
hazardous
is
independent
of
any
decisions
regarding
the
location
of
waste
generators
and
the
siting
of
waste
management
facilities.
Similarly,
in
cases
where
the
Agency
is
proposing
not
list
a
solid
waste
as
hazardous
because
the
waste
does
not
meet
the
criteria
for
being
identified
as
a
hazardous
waste,
these
decisions
are
based
upon
an
evaluation
of
potential
individual
risks
located
in
proximity
to
any
facility
handling
the
waste.
Therefore,
any
population
living
proximately
to
a
facility
that
produces
a
solid
waste
that
the
Agency
has
proposed
not
to
list
would
not
be
adversely
affected
either
because
the
waste
is
already
being
managed
as
a
hazardous
waste
in
the
Subtitle
C
system
or
because
the
solid
waste
does
not
pose
a
sufficient
risk
to
the
local
population.
We
encourage
all
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No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
stakeholders
including
members
of
the
environmental
justice
community
and
members
of
the
regulated
community
to
provide
comments
or
further
information
related
to
potential
environmental
justice
concerns
or
impacts,
including
information
and
data
on
facilities
that
have
evaluated
potential
ecological
and
human
health
impacts
(taking
into
account
subsistence
patterns
and
sensitive
populations)
to
minority
or
low
income
communities.
F.
Executive
Order
13045:
Protection
of
Children
From
Environmental
Health
Risks
and
Safety
Risks
Executive
Order
13045,
``
Protection
of
Children
from
Environmental
Health
Risks
and
Safety
Risks''
(62
FR
19885,
April
23,
1997),
applies
to
any
rule
that:
(1)
is
determined
to
be
``
economically
significant''
as
defined
under
Executive
Order
12866,
and
(2)
concerns
an
environmental
health
or
safety
risk
that
EPA
has
reason
to
believe
may
have
a
disproportionate
effect
on
children.
If
the
regulatory
action
meets
both
criteria,
the
Agency
must
evaluate
the
environmental
health
or
safety
effects
of
the
planned
rule
on
children,
and
explain
why
the
planned
regulation
is
preferable
to
other
potentially
effective
and
reasonably
feasible
alternatives
considered
by
the
Agency.
This
proposed
rule
is
not
subject
to
the
Executive
Order
because
it
is
not
economically
significant
as
defined
in
E.
O.
12866,
and
because
the
Agency
does
not
have
reason
to
believe
the
environmental
health
or
safety
risks
addressed
by
this
action
present
a
disproportionate
risk
to
children.
The
topic
of
environmental
threats
to
children's
health
is
growing
in
regulatory
importance
as
scientists,
policy
makers,
and
village
leaders
continue
to
recognize
the
extent
to
which
children
are
particularly
vulnerable
to
environmental
hazards.
Recent
EPA
actions
have
been
in
the
forefront
of
addressing
environmental
threats
to
the
health
and
safety
of
children.
Today's
proposed
rule
further
reflects
our
commitment
to
mitigating
environmental
threats
to
children.
A
few
significant
physiological
characteristics
are
largely
responsible
for
children's
increased
susceptibility
to
environmental
hazards.
First,
children
eat
proportionately
more
food,
drink
proportionately
more
fluids,
and
breathe
more
air
per
pound
of
body
weight
than
do
adults.
As
a
result,
children
potentially
experience
greater
levels
of
exposure
to
environmental
threats
than
do
adults.
Second,
because
children's
bodies
are
still
in
the
process
of
development,
their
immune
systems,
neurological
systems,
and
other
immature
organs
can
be
more
easily
and
considerably
affected
by
environmental
hazards.
Today's
proposed
rule
is
intended
to
avoid
releases
of
hazardous
constituents
to
the
environment
at
levels
that
will
cause
unacceptable
risks.
We
considered
risks
to
children
in
our
risk
assessment.
The
more
appropriate
and
safer
management
practices
proposed
in
this
rule
are
projected
to
reduce
risks
to
children
potentially
exposed
to
the
constituents
of
concern.
The
public
is
invited
to
submit
or
identify
peerreviewed
studies
and
data,
of
which
the
agency
may
not
be
aware,
that
assess
results
of
early
life
exposure
to
the
proposed
hazardous
constituents
from
wastes
from
inorganic
chemical
production
proposed
for
listing
in
today's
rulemaking.
G.
Executive
Order
13084:
Consultation
and
Coordination
With
Indian
Tribal
Governments
Under
Executive
Order
13084,
EPA
may
not
issue
a
regulation
that
is
not
required
by
statute,
that
significantly
or
uniquely
affects
the
communities
of
Indian
tribal
governments,
and
that
imposes
substantial
direct
compliance
costs
on
those
communities,
unless
the
Federal
government
provides
the
funds
necessary
to
pay
the
direct
compliance
costs
incurred
by
the
tribal
governments,
or
EPA
consults
with
those
governments.
If
EPA
complies
by
consulting,
Executive
Order
13084
requires
EPA
to
provide
to
the
Office
of
Management
and
Budget,
in
a
separately
identified
section
of
the
preamble
to
the
rule,
a
description
of
the
extent
of
EPA's
prior
consultation
with
representatives
of
affected
tribal
governments,
a
summary
of
the
nature
of
their
concerns,
and
a
statement
supporting
the
need
to
issue
the
regulation.
In
addition,
Executive
Order
13084
requires
EPA
to
develop
an
effective
process
permitting
elected
officials
and
other
representatives
of
Indian
tribal
governments
``
to
provide
meaningful
and
timely
input
in
the
development
of
regulatory
policies
on
matters
that
significantly
or
uniquely
affect
their
communities.
''
For
the
reasons
described
above,
today's
proposed
rule
does
not
create
a
mandate
on
State,
local
or
tribal
governments,
nor
does
it
impose
any
enforceable
duties
on
these
entities.
Accordingly,
the
requirements
of
section
3(
b)
of
Executive
Order
13084
do
not
apply
to
this
rule.
H.
Executive
Order
13132Ð
Federalism
Executive
Order
13132,
entitled
``
Federalism''
(64
FR
43255,
August
10,
1999),
requires
EPA
to
develop
an
accountable
process
to
ensure
``
meaningful
and
timely
input
by
State
and
local
officials
in
the
development
of
regulatory
policies
that
have
federalism
implications.
''
``
Policies
that
have
federalism
implications''
is
defined
in
the
Executive
Order
to
include
regulations
that
have
``
substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
States,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government.
''
Under
Section
6
of
Executive
Order
13132,
EPA
may
not
issue
a
regulation
that
has
federalism
implications,
that
imposes
substantial
direct
compliance
costs,
and
that
is
not
required
by
statute,
unless
the
Federal
government
provides
the
funds
necessary
to
pay
the
direct
compliance
costs
incurred
by
State
and
local
governments,
or
EPA
consults
with
State
and
local
officials
early
in
the
process
of
developing
the
proposed
regulation.
EPA
also
may
not
issue
a
regulation
that
has
federalism
implications
and
that
preempts
State
law,
unless
the
Agency
consults
with
State
and
local
officials
early
in
the
process
of
developing
the
proposed
regulation.
Section
4
of
the
Executive
Order
contains
additional
requirements
for
rules
that
preempt
State
or
local
law,
even
if
those
rules
do
not
have
federalism
implications
(i.
e.,
the
rules
will
not
have
substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
states,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government).
Those
requirements
include
providing
all
affected
State
and
local
officials
notice
and
an
opportunity
for
appropriate
participation
in
the
development
of
the
regulation.
If
the
preemption
is
not
based
on
express
or
implied
statutory
authority,
EPA
also
must
consult,
to
the
extent
practicable,
with
appropriate
State
and
local
officials
regarding
the
conflict
between
State
law
and
Federally
protected
interests
within
the
agency's
area
of
regulatory
responsibility.
This
proposed
rule
does
not
have
federalism
implications.
It
will
not
have
substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
States,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government,
as
specified
in
Executive
Order
13132.
This
proposed
rule
directly
affects
primarily
inorganic
chemical
producers.
There
are
no
State
and
local
government
bodies
that
incur
direct
compliance
costs
by
this
rulemaking.
State
and
local
government
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Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
66
For
more
information,
please
refer
to
Appendix
C
of
the
background
document
``
Economic
Analysis
of
the
Proposed
Rule
For
Listing
Hazardous
Waste
From
Inorganic
Chemical
Production,
''
which
was
placed
in
the
docket
for
today's
proposed
rule.
implementation
expenditures
are
expected
to
be
less
than
$500,000
in
any
one
year.
66
Thus,
the
requirements
of
section
6
of
the
Executive
Order
do
not
apply
to
this
rule.
This
proposed
rule
would
preempt
State
and
local
law
that
is
less
stringent
for
these
inorganic
chemical
production
wastes
as
hazardous
wastes.
Under
the
Resource
Conservation
and
Recovery
Act
(RCRA),
42
U.
S.
C.
6901
to
6992k,
the
relationship
between
the
States
and
the
national
government
with
respect
to
hazardous
waste
management
is
established
for
authorized
State
hazardous
waste
programs,
42
U.
S.
C.
6926
(3006),
and
retention
of
State
authority,
42
U.
S.
C.
6929
(3009).
Under
section
3009
of
RCRA,
States
and
their
political
subdivisions
may
not
impose
requirements
less
stringent
for
hazardous
waste
management
than
the
national
government.
By
publishing
and
inviting
comment
on
this
proposed
rule,
we
hereby
provide
State
and
local
officials
notice
and
an
opportunity
for
appropriate
participation.
Thus,
we
have
complied
with
the
requirements
of
section
4
of
the
Executive
Order.
I.
National
Technology
Transfer
and
Advancement
Act
Section
12(
d)
of
the
National
Technology
Transfer
and
Advancement
Act
of
1995
(``
NTTAA''),
Public
Law
104±
113,
section
12(
d)
(15
U.
S.
C.
272
note)
directs
EPA
to
use
voluntary
consensus
standards
in
its
regulatory
activities,
unless
to
do
so
would
be
inconsistent
with
applicable
law
or
otherwise
impractical.
Voluntary
consensus
standards
are
technical
standards
(e.
g.,
materials
specifications,
test
methods,
sampling
procedures,
and
business
practices)
that
are
developed
or
adopted
by
voluntary
consensus
standards
bodies.
The
NTTAA
directs
EPA
to
provide
Congress,
through
OMB,
explanations
when
the
Agency
decides
not
to
use
available
and
applicable
voluntary
consensus
standards.
This
proposed
rulemaking
involves
technical
standards.
EPA
proposes
to
use
Toxicity
Characteristic
Leaching
Procedure
(TCLP)
for
treatment
standards
for
associated
with
hazardous
metal
constituents
in
wastes
proposed
for
listing
in
today's
proposal.
The
TCLP
is
the
standard
test
method
used
to
evaluate
the
toxicity
characteristic
for
the
definition
of
hazardous
waste
(see
40
CFR
261.24)
and
treatment
standards
for
metal
constituents
under
the
Land
Disposal
Restrictions
(see
40
CFR
268.40
and
268.48.).
The
Agency
has
used
the
TCLP
in
completing
its
treatment
standards
for
the
same
hazardous
metal
constituents
across
a
range
of
listed
and
characteristic
hazardous
wastes.
The
performance
level
for
leachability
is
based
on
the
Best
CommerciallyAvailable
Demonstrated
Technology
(BDAT).
The
use
of
the
TCLP
for
the
same
constituents
assures
uniformity
and
consistency
in
the
treatment
of
hazardous
waste
in
fulfillment
of
the
Congressional
Mandate
to
minimize
long
term
threats
to
human
health
or
the
environment.
42
U.
S.
C.
6924(
m).
The
use
of
any
voluntary
consensus
standard
would
be
impractical
with
applicable
law
because
it
would
require
a
different
leaching
method
than
is
currently
used
to
determine
hazardous
characteristics.
The
use
of
different
chemical
methods
to
assess
hazardousness
of
the
waste
and
compliance
with
treatment
standards
would
create
disparate
results
between
hazardous
waste
identification
and
effective
treatment
of
land
disposed
hazardous
wastes.
We
have
not,
therefore,
used
any
voluntary
consensus
standards.
EPA
welcomes
comments
on
this
aspect
of
the
proposed
rulemaking
and,
specifically,
invites
the
public
to
identify
potentially
applicable
voluntary
consensus
standards
and
to
explain
why
such
standards
should
be
used
in
this
regulation.
EPA
has
also
issued
an
advanced
notice
of
proposed
rulemaking
for
the
Land
Disposal
Restriction
program
(65
FR
37932,
June
19,
2000)
that
has
included
discussion
on
the
effectiveness
of
stabilization
on
metals
in
hazardous
wastes.
List
of
Subjects
40
CFR
Part
148
Environmental
protection,
Administrative
practice
and
procedure,
Hazardous
waste,
Reporting
and
recordkeeping
requirements,
Water
supply.
40
CFR
Part
261
Environmental
protection,
Hazardous
materials,
Waste
treatment
and
disposal,
Recycling.
40
CFR
Part
268
Environmental
protection,
Hazardous
materials,
Waste
management,
Reporting
and
recordkeeping
requirements,
Land
Disposal
Restrictions,
Treatment
Standards.
40
CFR
Part
271
Environmental
protection,
Administrative
practice
and
procedure,
Confidential
business
information,
Hazardous
material
transportation,
Hazardous
waste,
Indians
lands,
Intergovernmental
relations,
Penalties,
Reporting
and
recordkeeping
requirements,
Water
pollution
control,
Water
supply.
40
CFR
Part
302
Environmental
protection,
Air
pollution
control,
Chemicals,
Emergency
Planning
and
Community
Right
to
Know
Act,
Extremely
hazardous
substances,
Hazardous
chemicals,
Hazardous
materials,
Hazardous
materials
transportation,
Hazardous
substances,
Hazardous
wastes,
Intergovernmental
relations,
Natural
resources,
Reporting
and
recordkeeping
requirements,
Superfund,
Waste
treatment
and
disposal,
Water
pollution
control,
Water
supply.
Dated:
August
30,
2000.
Carol
M.
Browner,
Administrator.
For
the
reasons
set
forth
in
the
preamble,
title
40,
chapter
I
of
the
Code
of
Federal
Regulations
is
proposed
to
be
amended
as
follows:
PART
148Ð
HAZARDOUS
WASTE
INJECTION
RESTRICTIONS
1.
The
authority
citation
for
Part
148
continues
to
read
as
follows:
Authority:
Secs.
3004,
Resource
Conservation
and
Recovery
Act,
42
U.
S.
C.
6901
et
seq.
2.
Section
148.18
is
amended
by
adding
paragraphs
(l)
and
(m)
to
read
as
follows:
§
148.19
Waste
specific
prohibitions
newly
listed
and
identified
wastes.
*
*
*
*
*
(l)
Effective
[date
six
months
after
publication
of
final
rule],
the
wastes
specified
in
40
CFR
261.32
as
EPA
Hazardous
Waste
Numbers
K176,
K177,
and
K178
are
prohibited
from
underground
injection.
(m)
The
requirements
of
paragraphs
(a)
through
(l)
of
this
section
do
not
apply:
(1)
If
the
wastes
meet
or
are
treated
to
meet
the
applicable
standards
specified
in
subpart
D
of
part
268
of
this
chapter;
or
(2)
If
an
exemption
from
a
prohibition
has
been
granted
in
response
to
a
petition
under
subpart
C
of
this
part;
or
(3)
During
the
period
of
extension
of
the
applicable
effective
date,
if
an
extension
has
been
granted
under
§
148.4.
PART
261Ð
IDENTIFICATION
AND
LISTING
OF
HAZARDOUS
WASTE
3.
The
authority
citation
for
Part
261
continues
to
read
as
follows:
Authority:
42
U.
S.
C.
6905,
6912(
a),
6921,
6922,
6924(
y),
and
6938.
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
4.
Section
261.4
is
amended
by
revising
paragraph
(b)(
15)
to
read
as
follows:
§
261.4
Exclusions.
*
*
*
*
*
(b)
*
*
*
(15)
Leachate
or
gas
condensate
collected
from
landfills
where
certain
solid
wastes
have
been
disposed,
provided
that:
(i)
The
solid
wastes
disposed
would
meet
one
or
more
of
the
listing
descriptions
for
Hazardous
Waste
Codes
K169,
K170,
K171,
K172,
K174,
K175,
K176,
K177,
and
K178,
if
these
wastes
had
been
generated
after
the
effective
date
of
the
listing;
(ii)
The
solid
wastes
described
in
paragraph
(b)(
15)(
i)
of
this
section
were
disposed
prior
to
the
effective
date
of
the
listing:
(iii)
The
leachate
or
gas
condensate
do
not
exhibit
any
characteristic
of
hazardous
waste
nor
are
derived
from
any
other
listed
hazardous
waste;
(iv)
Discharge
of
the
leachate
or
gas
condensate,
including
leachate
or
gas
condensate
transferred
from
the
landfill
to
a
POTW
by
truck,
rail,
or
dedicated
pipe,
is
subject
to
regulation
under
Sections
307(
b)
or
402
of
the
Clean
Water
Act.
(v)
After
February
13,
2001,
leachate
or
gas
condensate
derived
from
K169±
K172
will
no
longer
be
exempt
if
it
is
stored
or
managed
in
a
surface
impoundment
prior
to
discharge.
After
[date
24
months
after
publication
date
of
the
final
rule],
leachate
or
gas
condensate
derived
from
K176,
K177,
and
K178
will
no
longer
be
exempt
if
it
is
stored
or
managed
in
a
surface
impoundment
prior
to
discharge.
There
is
one
exception:
if
the
surface
impoundment
is
used
to
temporarily
store
leachate
or
gas
condensate
in
response
to
an
emergency
situation
(e.
g.,
shutdown
of
wastewater
treatment
system),
provided
the
impoundment
has
a
double
liner,
and
provided
the
leachate
or
gas
condensate
is
removed
from
the
impoundment
and
continues
to
be
managed
in
compliance
with
the
conditions
of
paragraph
(b)(
15)(
v)
after
the
emergency
ends.
*
*
*
*
*
5.
In
§
261.32,
the
table
is
amended
by
adding
in
alphanumeric
order
(by
the
first
column)
the
following
wastestreams
to
the
subgroup
``
Inorganic
Chemicals''
to
read
as
follows:
§
261.32
Hazardous
waste
from
specific
sources.
*
*
*
*
*
Industry
and
EPA
hazardous
waste
No.
Hazardous
waste
Hazardous
code
*******
Inorganic
chemicals:
*******
K176
............................
Baghouse
filters
from
the
production
of
antimony
oxide
...............................................................................
(E)
K177
............................
Slag
from
the
production
of
antimony
oxide
that
is
disposed
of
or
speculatively
accumulated
...................
(T)
K178
............................
Nonwastewaters
from
the
production
of
titanium
dioxide
by
the
chloride
ilmenite
process.
[This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
section
261.4(
b)(
7)].
(T)
*******
*
*
*
*
*
6.
Appendix
VII
to
Part
261
is
amended
by
adding
the
following
wastestreams
in
alphanumeric
order
(by
the
first
column)
to
read
as
follows:
APPENDIX
VII
TO
PART
261Ð
BASIS
FOR
LISTING
HAZARDOUS
WASTE
EPA
hazardous
waste
No.
Hazardous
constituents
for
which
listed
*****
K176
.................
Arsenic,
lead.
K177
.................
Antimony.
K178
.................
Manganese,
thallium.
*
*
*
*
*
7.
Appendix
VIII
to
Part
261
is
amended
by
adding
in
alphabetical
sequence
of
common
name
the
following
entries:
APPENDIX
VIII
TO
PART
261Ð
HAZARDOUS
CONSTITUENTS
Common
name
Chemical
abstracts
name
Chemical
abstracts
No.
Hazardous
waste
No.
*******
Manganese
........................................................................
Same
................................................................................
7439±
96±
5
....................
*******
PART
268Ð
LAND
DISPOSAL
RESTRICTIONS
8.
The
authority
citation
for
Part
268
continues
to
read
as
follows:
Authority:
42
U.
S.
C.
6905,
6912(
a),
6921,
and
6924.
Subpart
CÐ
Prohibitions
on
Land
Disposal
9.
Section
268.36
is
added
to
read
as
follows:
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Federal
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/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
§
268.36
Waste
specific
prohibitionsÐ
inorganic
chemical
wastes.
(a)
Effective
[date
six
months
from
date
of
publication
of
final
rule],
the
wastes
specified
in
40
CFR
Part
261
as
EPA
Hazardous
Wastes
Numbers
K176,
K177,
and
K178,
and
soil
and
debris
contaminated
with
these
wastes,
radioactive
wastes
mixed
with
these
wastes,
and
soil
and
debris
contaminated
with
radioactive
wastes
mixed
with
these
wastes
are
prohibited
from
land
disposal.
(b)
The
requirements
of
paragraph
(a)
of
this
section
do
not
apply
if:
(1)
The
wastes
meet
the
applicable
treatment
standards
specified
in
Subpart
D
of
this
Part;
(2)
Persons
have
been
granted
an
exemption
from
a
prohibition
pursuant
to
a
petition
under
§
268.6,
with
respect
to
those
wastes
and
units
covered
by
the
petition;
(3)
The
wastes
meet
the
applicable
treatment
standards
established
pursuant
to
a
petition
granted
under
§
268.44;
(4)
Hazardous
debris
has
met
the
treatment
standards
in
§
268.40
or
the
alternative
treatment
standards
in
§
268.45;
or
(5)
Persons
have
been
granted
an
extension
to
the
effective
date
of
a
prohibition
pursuant
to
§
268.5,
with
respect
to
these
wastes
covered
by
the
extension.
(c)
To
determine
whether
a
hazardous
waste
identified
in
this
section
exceeds
the
applicable
treatment
standards
specified
in
§
268.40,
the
initial
generator
must
test
a
sample
of
the
waste
extract
or
the
entire
waste,
depending
on
whether
the
treatment
standards
are
expressed
as
concentrations
in
the
waste
extract
or
the
waste,
or
the
generator
may
use
knowledge
of
the
waste.
If
the
waste
contains
regulated
constituents
in
excess
of
the
applicable
Subpart
D
levels,
the
waste
is
prohibited
from
land
disposal,
and
all
requirements
of
Part
268
are
applicable,
except
as
otherwise
specified.
10.
In
§
268.40,
the
Table
is
amended
by
adding
in
alphanumeric
order
new
entries
for
K176,
K177,
and
K178
to
read
as
follows:
§
268.40
Applicability
of
treatment
standards.
*
*
*
*
*
TREATMENT
STANDARDS
FOR
HAZARDOUS
WASTES
[Note:
NA
means
not
applicable]
Waste
code
Waste
description
and
treatment
regulatory
subcategory
1
Regulated
hazardous
constituent
Wastewaters
Nonwastewaters
Common
name
CAS
2
number
Concentration
in
mg/
L
3
,
or
technology
code
4
Concentration
in
mg/
kg
5
unless
noted
as
``
mg/
L
TCLP'',
or
technology
code
*******
K176
.........
Baghouse
filters
from
the
pro
duction
of
antimony
oxide.
Antimony
..................................
Arsenic
.....................................
7440±
36±
0
7440±
38±
2
1.9
.............................
1.4
.............................
1.15
mg/
L
TCLP
5.0
mg/
L
TCLP
Cadmium
.................................
7440±
43±
9
0.69
...........................
0.11
mg/
L
TCLP
Lead
.........................................
7439±
92±
1
0.69
...........................
0.75
mg/
L
TCLP
Mercury
....................................
7439±
97±
6
0.15
...........................
0.025
mg/
L
TCLP
K177
.........
Slag
from
the
production
of
an
timony
oxide
that
is
dis
posed
of
or
speculatively
ac
cumulated.
Antimony
..................................
Arsenic
.....................................
Lead
.........................................
7440±
36±
0
7440±
38±
2
7439±
92±
1
1.9
.............................
1.4
.............................
0.60
...........................
1.15
mg/
L
TCLP
5.0
mg/
L
TCLP
0.75
mg/
L
TCLP
K178
.........
Nonwastewaters
from
the
pro
duction
of
titanium
dioxide
by
the
chloride
ilmenite
proc
ess.
[This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
section
261.4(
b)(
7).].
1,2,3,4,6,7,8
Heptachlorodibenzo
p
dioxin
(1,2,3,4,6,7,8
HpCDD).
1,2,3,4,6,7,8
Heptachlorodibenzofuran
(1,2,3,4,6,7,8
HpCDF).
35822±
39±
4
67562±
39±
4
0.000035
or
CMBST
11
0.000035
or
CMBST
11
0.0025
or
CMBST
11
0.0025
or
CMBST
11
0.0025
or
CMBST
11
1,2,3,4,7,8,9
Heptachlorodibenzofuran
(1,2,3,4,7,8,9
HpCDF).
55673±
89±
7
0.000035
or
CMBST
11
0.0025
or
CMBST
11
HxCDDs
(All
Hexachlorodibenzo
pdioxins
34465±
46±
8
0.000063
or
CMBST
11
0.001
or
CMBST
11
HxCDFs
(All
Hexachlorodibenzofurans).
55684±
94±
1
0.000063
or
CMBST
11
0.001
or
CMBST
11
1,2,3,4,6,7,8,9
Octachlorodibenzo
p
dioxin
(OCDD).
3268±
87±
9
0.000063
or
CMBST
11
0.005
or
CMBST
11
1,2,3,4,6,7,8,9
Octachlorodibenzofuran
(OCDF).
39001±
02±
0
0.000063
or
CMBST
11
0.005
or
CMBST
11
PeCDDs
(All
Pentachlorodibenzo
pdioxins
36088±
22±
9
0.000063
or
CMBST
11
0.001
or
CMBST
11
PeCDFs
(All
Pentachlorodibenzofurans).
30402±
15±
4
0.000035
or
CMBST
11
0.001
or
CMBST
11
TCDDs
(All
tetrachlorodibenzo
p
dioxins).
41903±
57±
5
0.000063
or
CMBST
11
0.001
or
CMBST
11
TCDFs
(All
tetrachlorodibenzofurans).
55722±
27±
5
0.000063
or
CMBST
11
0.001
or
CMBST
11
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TREATMENT
STANDARDS
FOR
HAZARDOUS
WASTESÐ
Continued
[Note:
NA
means
not
applicable]
Waste
code
Waste
description
and
treatment
regulatory
subcategory
1
Regulated
hazardous
constituent
Wastewaters
Nonwastewaters
Common
name
CAS
2
number
Concentration
in
mg/
L
3
,
or
technology
code
4
Concentration
in
mg/
kg
5
unless
noted
as
``
mg/
L
TCLP'',
or
technology
code
Manganese
..............................
7439±
96±
5
17.1
...........................
3.6
mg/
L
TCLP
Thallium
...................................
7440±
28±
0
1.4
.............................
0.20
mg/
L
TCLP
*******
*******
FOOTNOTES
TO
TREATMENT
STANDARD
TABLE
268.40
1
The
waste
descriptions
provided
in
this
table
do
not
replace
waste
descriptions
in
40
CFR
part
261.
Descriptions
of
Treatment/
Regulatory
Subcategories
are
provided,
as
needed,
to
distinguish
between
applicability
of
different
standards.
2
CAS
means
Chemical
Abstract
Services.
When
the
waste
code
and/
or
regulated
constituents
are
described
as
a
combination
of
a
chemical
with
its
salts
and/
or
esters,
the
CAS
number
is
given
for
the
parent
compound
only.
3
Concentration
standards
for
wastewaters
are
expressed
in
mg/
L
and
are
based
on
analysis
of
composite
samples.
4
All
treatment
standards
expressed
as
a
Technology
Code
or
combination
of
Technology
Codes
are
explained
in
detail
in
40
CFR
268.
42
Table
1Ð
Technology
Codes
and
Descriptions
of
Technology
Based
Standards.
5
Except
for
Metals
(EP
or
TCLP)
and
Cyanides
(Total
and
Amenable)
the
nonwastewater
treatment
standards
expressed
as
a
concentration
were
established,
in
part,
based
upon
incineration
in
units
operated
in
accordance
with
the
technical
requirements
of
40
CFR
part
264,
Subpart
O
or
40
CFR
part
265,
Subpart
O,
or
based
upon
combustion
in
fuel
substitution
units
operating
in
accordance
with
applicable
technical
requirements
A
facility
may
comply
with
these
treatment
standards
according
to
provisions
in
40
CFR
268.40(
d).
All
concentration
standards
for
nonwastewaters
are
based
on
analysis
of
grab
samples.
*******
11
For
these
wastes,
the
definition
of
CMBST
is
limited
to:
(1)
combustion
units
operating
under
40
CFR
266,
(2)
combustion
units
permitted
under
40
CFR
part
264,
Subpart
O,
or
(3)
combustion
units
operating
under
40
CFR
265,
Subpart
O,
which
have
obtained
a
determination
of
equivalent
treatment
under
268.42(
b).
11.
In
§
268.48,
the
Table
is
amended
by
adding
in
alphabetical
order
under
the
heading
of
``
Inorganic
Constituents''
a
new
entry
to
read
as
follows:
(The
footnotes
are
republished
without
change.)
§
268.48
Universal
treatment
standards.
*
*
*
*
*
UNIVERSAL
TREATMENT
STANDARDS
[Note:
NA
means
not
applicable]
Regulated
Constituent
common
name
CAS
1
number
Wastewater
standard
Nonwastewater
standard
Concentration
in
mg/
l
2
Concentration
in
mg/
kg
3
unless
noted
as
``
mg/
l
TCLP'
*******
Inorganic
Constituents
*******
Manganese
7439±
96±
5
17.1
3.6
mg/
l
TCLP
*******
*******
1
CAS
means
Chemical
Abstract
Services.
When
the
waste
code
and/
or
regulated
constituents
are
described
as
a
combination
of
a
chemical
with
its
salts
and/
or
esters,
the
CAS
number
is
given
for
the
parent
compound
only.
2
Concentration
standards
for
wastewaters
are
expressed
in
mg/
L
and
are
based
on
analysis
of
composite
samples.
3
Except
for
Metals
(EP
or
TCLP)
and
Cyanides
(Total
and
Amenable)
the
nonwastewater
treatment
standards
expressed
as
a
concentration
were
established,
in
part,
based
upon
incineration
in
units
operated
in
accordance
with
the
technical
requirements
of
40
CFR
Part
264,
Subpart
O,
or
Part
265,
Subpart
O,
or
based
upon
combustion
in
fuel
substitution
units
operating
in
accordance
with
applicable
technical
requirements.
A
facility
may
comply
with
these
treatment
standards
according
to
provisions
in
40
CFR
268.40(
d).
All
concentration
standards
for
nonwastewaters
are
based
on
analysis
of
grab
samples.
*
*
*
*
*
PART
271Ð
REQUIREMENTS
FOR
AUTHORIZATION
OF
STATE
HAZARDOUS
WASTE
PROGRAMS
12.
The
authority
citation
for
Part
271
continues
to
read
as
follows:
Authority:
42
U.
S.
C.
6905,
6912(
a),
and
6926.
13.
Section
271.1(
j)
is
amended
by
adding
the
following
entries
to
Table
1
and
Table
2
in
chronological
order
by
date
of
publication
to
read
as
follows.
§
271.1
Purpose
and
scope.
*
*
*
*
*
(j)
*
*
*
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Federal
Register
/
Vol.
65,
No.
179
/
Thursday,
September
14,
2000
/
Proposed
Rules
TABLE
1.Ð
REGULATIONS
IMPLEMENTING
THE
HAZARDOUS
AND
SOLID
WASTE
AMENDMENTS
OF
1984
Promulgation
date
Title
of
regulation
Federal
Register
reference
Effective
date
*******
[
insert
date
of
signature
of
final
rule]
Listing
of
Hazardous
Wastes
K176,
K177,
and
K178
[
insert
Federal
Register
page
numbers]
[
insert
effective
date
of
final
rule]
*******
TABLE
2.Ð
SELF
IMPLEMENTING
PROVISIONS
OF
THE
SOLID
WASTE
AMENDMENTS
OF
1984
Effective
date
Self
implementing
provision
RCRA
citation
Federal
Register
reference
*******
[
effective
date
of
final
rule].
Prohibition
on
land
disposal
of
K176,
K177,
and
K178
wastes,
and
prohibition
on
land
disposal
of
radioactive
waste
mixed
with
K176,
K177,
and
K178
wastes,
including
soil
and
debris.
3004(
g)(
4)(
C)
and
3004(
m).
[
date
of
publication
of
final
rule]
[
FR
page
numbers].
*******
PART
302Ð
DESIGNATION,
REPORTABLE
QUANTITIES,
AND
NOTIFICATION
14.
The
authority
citation
for
Part
302
continues
to
read
as
follows:
Authority:
42
U.
S.
C.
9602,
9603,
and
9604;
33
U.
S.
C.
1321
and
1361.
15.
In
§
302.4,
Table
302.4
is
amended
by
adding
the
following
new
entries
in
alphanumeric
order
at
the
end
of
the
table
to
read
as
follows:
§
302.4
Designation
of
hazardous
substances
*
*
*
*
*
TABLE
302.4.Ð
LIST
OF
HAZARDOUS
SUBSTANCES
AND
REPORTABLE
QUANTITIES
[Note:
All
Comments/
Notes
Are
Located
at
the
End
of
This
Table]
Hazardous
substance
CASRN
Regulatory
synonyms
Statutory
Final
RQ
RQ
Code
*
RCRA
Waste
Number
Category
Pounds
(Kg)
*******
K176
......................................................................................
................
................
*1
4
K176
X
1
(0.454)
Baghouse
filters
from
the
production
of
antimony
oxide.
K177
......................................................................................
................
................
*1
4
K177
X
5,000
(2,270)
Slag
from
the
production
of
antimony
oxide.
K178
......................................................................................
................
................
*1
4
K178
X
#
Nonwastewaters
from
the
production
of
titanium
dioxide
by
the
chloride
ilmenite
process.
[This
listing
does
not
apply
to
chloride
process
waste
solids
from
titanium
tetrachloride
production
exempt
under
section
261.4(
b)(
7).].
*
Indicates
the
statutory
source
as
defined
by
1,
2,
3,
and
4
below.
*******
4
Indicates
that
the
statutory
source
for
designation
of
this
hazardous
substance
under
CERCLA
is
RCRA
Section
3001.
1*
Indicates
that
the
1
pound
RQ
is
a
CERCLA
statutory
RQ.
#
The
Agency
may
adjust
the
statutory
RQ
for
this
hazardous
substance
in
a
future
rulemaking;
until
then
the
statutory
RQ
applies.
*******
[FR
Doc.
00±
22810
Filed
9±
13±
00;
8:
45
am]
BILLING
CODE
6560±
50±
U
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| epa | 2024-06-07T20:31:35.846009 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0022-0782/content.txt"
} |
EPA-HQ-RCRA-2001-0025-0017 | Supporting & Related Material | 2001-05-25T04:00:00 | null | UNITED
STATES
ENVIRONMENTAL
PROTECTION
AGENCY
WASHINGTON,
D.
C.
20460
OFFICE
OF
SOLID
WASTE
AND
EMERGENCY
RESPONSE
Ronald
A.
Shipley
Counsel,
CMA
Waste
Issues
Team
Chemical
Manufacturers
Association
1300
Wilson
Blvd.
Arlington,
VA
22209
Dear
Mr.
Shipley:
Thank
you
for
your
March
1
O*
letter
regarding
an
"agreement
in
principle"
to
revise
the
alternative
particulate
matter
(I")
standard
in
the
September
1999
Hazardous
Waste
Combustor
(HWC)
NESHAP
final
rule.
We
concur
with
the
agreed
upon
approach
outlined
in
your
letter,
included
as
an
enclosure
herein.
As
a
result,
we
will
join
in
a
motion
with
you
to
sever
and
hold
in
abeyance
your
challenge
to
the
PM
standard
for
incinerators
in
the
HWC
MACT
rule.
In
addition,
we
are
pleased
to
understand
that
if
we
finalize
a
rulemaking
establishing
a
revised
alternative
PM
standard
in
accordance
with
the
"agreement
in
principle,"
then
you
and
other
petitioners,
i.
e.,
American
Cyanamid
and
General
Electric,
will
dismiss
your
challenge
to
the
incinerator
PM
standard
with
prejudice.
As
mentioned
previously,
a
revision
to
the
alternative
PM
standard
must
be
implemented
through
notice
and
comment
rulemaking
procedures.
We
plan
to
include
this
revision
as
part
of
an
inclusive
notice
of
proposed
rulemaking
cNpRh4)
to
revise
other
certain
Iimited
aspects
of
the
HWC
MACT
rule.
In
my
estimation,
such
an
effort
would
not
likely
be
published
in
the
Federal
Register
before
late
fall,
with
a
final
rulemaking
being
published
sometime
in
late
spring
of
2001.
I
want
to
thank
you,
Tom
Nilan,
and
all
your
members
who
worked
with
us
to
craft
a
sensible
approach
towards
resolving
this
difficult
issue.
My
staff
will
be
contacting
you
shortly
to
discuss
a
schedule
for
submittal
of
the
joint
severance
motion.
Sincerely,
James
R.
Berlow,
Director
Hazardous
Waste
Minimization
and
Management
Division
RecycledlRecyclable
Printed
with
Vegetable
Oil
Based
inks
on
100%
Recycled
Paper
(20%
Postconsumer)
Alternative
PM
Standard
"Agreement
In
Principle"
Based
on
our
discussions,
we
understand
that:
1.
EPA
will
promptly
propose
in
the
Federal
Register
regulations
revising
the
alternative
PM
standard
as
described
herein.
Following
receipt
of
comments,
EPA
will
promptly
take
final
action
on
the
proposal.
2.
EPA's
proposed
revision
will
establish
an
alternative
metals
emissions
standard
for
semi
voIatile
metals
(SVM)
and
low
volatile
metals
(LVM)
of
240
mg/
dscm
and
97
mg/
dscm
respectively
(both
corrected
to
7
percent
oxygen)
on
an
"expanded"
basis,
ie.,
the
SVM
emission
standard
will
appIy
to
the
combined
emissions
of
lead,
cadmium,
and
selenium
and
the
LVM
emission
standard
will
apply
to
the
combined
emissions
of
antimony,
cobalt,
manganese,
nickel,
beryllium,
arsenic,
and
chromium.
3.
In
order
for
a
facility
to
qualifL
and
operate
under
the
alternative
metals
emissions
standard,
a
facility
must
demonstrate:
a)
that
the
maximum
theoretical
emissions
concentration
(MTEC)
of
HAP
metals
excluding
mercury
for
the
combined`
hazardous
waste
feedstreams
to
the
incinerator
does
not
exceed
25%
of
the
MACT
MTEC
floors
on
an
expanded
basis,
i.
e.,
1,325
mg/
dscm
of
expanded
SVM
HAP
metals
and
4,000
mg/
dscm
of
expanded
LVM
HAP
metals
(both
corrected
to
7
percent
oxygen).
Non
detectable
constitutents
in
hazardous
waste
feeds
will
be
assumed
present
at
one
half
the
detection
limit
for
the
purpose
of
calculating
the
MTEC.
b)
At
least
ninety
percent
(90%)
system
removal
efficiency
for
SV"
In
making
this
demonstration,
a
facility
may
"spike"
their
SVM
feed
above
25
percent
of
the
SVM
MACT
MTEC
floor,
so
long
as
the
alternative
SVM
metals
standard
is
attained
during
the
test.
This
test
may
be
performed
independently
of
the
comprehensive
performance
test
and
will
be
used
to
establish
SVM
and
LVM
operating
parameter
limits,
other
than
the
SVM
and
LVM
feedrate
limits
that
are
addressed
in
paragraph
5,
below.
c)
The
incinerator
meets
the
alternative
metals
emissions
standard.
This
demonstration
may
be
combined
with
the
SRE
demonstration
and
will
be
used
to
establish
SVM
and
LVM
operating
parameter
limits.
.
....
4.
Limits
established
to
ensure
that
the
facility
does
not
operate
above
25%
of
the
MACT
MTEC
floors
will
be
based
on
the
combined
hazardous
waste
feedstreams
to
the
incinerator
and
may
be
expressed
either
as
an
MTEC
limit
or
as
a
restriction
on
maximum
hazardous
waste
metals
mass
feedrate
and
minimum
gas
flow
rate.
These
limits
will
be
based
on
a
12
hour
rolling
average
5.
SVM
and
LVM
operating
parameter
limits
will
be
established
to
ensure
compliance
with
the
alternative
metals
emissions
standard.
Metal
feedrate
limits
established
to
comply
with
the
alternative
metals
emissions
standard
will
be
based
on
the
total
combined
feedstream
to
the
incinerator
and
will
be
expressed
on
a
mass
per
unit
time
basis.
6.
The
PM
standard
of
0.015
gr/
dscf
to
be
codified
at
40
C.
F.
R.
63.1203
will
not
apply
to
incinerators
that
qualify
for
the
alternative
metals
standard.
Such
incinerators
would
remain
subject
to
the
RCRA
PM
emission
standard
of
0.08
gr/
dscf
at
40
C.
F.
R.
264.343(
c).
3.
EPA
will
promptly
issue
a
guidance
memorandum
stating
that
a
facility
with
a
legitimate
expectation
of
qualifying
for
the
alternative
metals
emissions
standard
will
not
be
disqualified
fiom
being
considered
eligible
for
a
compliance
extension
or
a
schedule
of
compliance
if
the
facility
later
determines
that
it
needs
to
comply
with
the
base
PM
standard.
8.
EPA
will
provide
written
guidance,
based
on
discussions
with
CMA,
which
addresses
implementation
issues
concerning
analytical
anomalies
and
waste
feed
variability
when
demonstrating
eligibility
and
compliance.
9.
EPA
will
acknowledge
this
letter
of
understanding
in
writing
and
will
jointly
support
a
motion
to
sever
and
hold
briefing
of
CMA's
particulate
matter
standards
challenge
in
abeyance
before
the
D.
C.
Circuit
Court
of
Appeals.
| epa | 2024-06-07T20:31:35.981726 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0025-0017/content.txt"
} |
EPA-HQ-RCRA-2001-0025-0041 | Supporting & Related Material | 2001-05-25T04:00:00 | null | epa | 2024-06-07T20:31:35.988452 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0025-0041/content.txt"
} |
|
EPA-HQ-RCRA-2001-0025-0058 | Proposed Rule | 2001-08-17T04:00:00 | NESHAP: Standards for Hazardous Air Pollutants for Hazardous Waste Combustors; Proposed Amendments; Extension of Comment Period | 43142
Federal
Register
/
Vol.
66,
No.
160
/
Friday,
August
17,
2001
/
Proposed
Rules
pursuant
to
5
U.
S.
C.
552a,
subsection
(
d).
(
3)
Authority:
5
U.
S.
C.
552a(
j)(
2),
(
k)(
1),
(
k)(
2),
(
k)(
3),
(
k)(
4),
(
k)(
5),
(
k)(
6),
and
(
k)(
7).
(
4)
Consistent
with
the
legislative
purpose
of
the
Privacy
Act
of
1974,
the
Department
of
the
Navy
will
grant
access
to
nonexempt
material
in
the
records
being
maintained.
Disclosure
will
be
governed
by
the
Department
of
the
Navy's
Privacy
Regulation,
but
will
be
limited
to
the
extent
that
the
identity
of
confidential
sources
will
not
be
compromised;
subjects
of
an
investigation
of
an
actual
or
potential
criminal
violation
will
not
be
alerted
to
the
investigation;
the
physical
safety
of
witnesses,
informants
and
law
enforcement
personnel
will
not
be
endangered,
the
privacy
of
third
parties
will
not
be
violated;
and
that
the
disclosure
would
not
otherwise
impede
effective
law
enforcement.
Whenever
possible,
information
of
the
above
nature
will
be
deleted
from
the
requested
documents
and
the
balance
made
available.
The
controlling
principle
behind
this
limited
access
is
to
allow
disclosures
except
those
indicated
above.
The
decisions
to
release
information
from
these
systems
will
be
made
on
a
case
by
case
basis.
*
*
*
*
*
Dated:
August
7,
2001.
L.
M.
Bynum,
Alternate
OSD
Federal
Register
Liaison
Officer,
Department
of
Defense.
[
FR
Doc.
01
20366
Filed
8
16
01;
8:
45
am]
BILLING
CODE
5001
08
P
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Parts
63,
264,
265,
266,
and
270
[
FRL
7039
5]
RIN
2050
AE79
NESHAP:
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors
Proposed
Amendments;
Extension
of
Comment
Period
AGENCY:
Environmental
Protection
Agency.
ACTION:
Proposed
rule;
extension
of
comment
period.
SUMMARY:
In
response
to
several
commenters'
request
for
more
time
to
respond
to
issues,
the
Environmental
Protection
Agency
is
extending
the
comment
period
on
its
proposed
amendments
to
NESHAP:
Final
Standards
for
Hazardous
Air
Pollutants
Waste
Combustors.
On
July
3,
2001
(
66
FR
35126),
EPA
proposed
potential
revisions
to
several
compliance,
testing,
and
monitoring
provisions
of
the
final
rule
that
established
emissions
standards
for
hazardous
waste
burning
cement
kilns,
lightweight
aggregate
kilns,
and
incinerators.
The
comment
period
announced
in
the
proposed
rule
was
scheduled
to
end
on
August
17.
Today's
action
extends
the
comment
period
for
60
days.
Stakeholders,
however,
have
not
requested
an
extension
of
the
comment
period
for
two
other
actions
(
see
66
FR
35087
and
66
FR
35124)
also
published
in
the
Federal
Register
on
July
3,
2001.
Today's
action
does
not
change
the
date
by
which
comments
must
be
submitted
for
those
two
actions.
DATES:
The
comment
period
for
this
NPRM
is
extended
from
the
original
closing
date
of
August
17,
2001
to
October
16,
2001.
ADDRESSES:
If
you
wish
to
comment
on
the
NPRM,
you
must
send
an
original
and
two
copies
of
the
comments
referencing
docket
number
F
2001
RC5P
FFFFF
to:
RCRA
Information
Center
(
RIC),
Office
of
Solid
Waste
(
5305G),
U.
S.
Environmental
Protection
Agency
Headquarters
(
EPA
HQ),
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460
0002;
or,
(
2)
if
using
special
delivery,
such
as
overnight
express
service:
RIC,
Crystal
Gateway
One,
1235
Jefferson
Davis
Highway,
First
Floor,
Arlington,
VA
22202.
You
may
also
submit
comments
electronically
following
the
directions
in
the
SUPPLEMENTARY
INFORMATION
section
below.
You
may
view
public
comments
and
supporting
materials
in
the
RIC.
The
RIC
is
open
from
9
am
to
4
pm
Monday
through
Friday,
excluding
Federal
holidays.
To
review
docket
materials,
we
recommend
that
you
make
an
appointment
by
calling
703
603
9230.
You
may
copy
up
to
100
pages
from
any
regulatory
document
at
no
charge.
Additional
copies
cost
$
0.15
per
page.
FOR
FURTHER
INFORMATION
CONTACT:
For
general
information,
call
the
RCRA
Call
Center
at
1
800
424
9346
or
TDD
1
800
553
7672
(
hearing
impaired).
Callers
within
the
Washington
Metropolitan
Area
must
dial
703
412
9810
or
TDD
703
412
3323
(
hearing
impaired).
The
RCRA
Call
Center
is
open
Monday
Friday,
9
am
to
4
pm,
Eastern
Standard
Time.
For
more
information
on
this
extension
notice,
contact
Rhonda
Minnick
at
703
308
8871,
minnick.
rhonda@
epa.
gov,
or
write
her
at
the
Office
of
Solid
Waste,
5302W,
U.
S.
EPA,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460.
SUPPLEMENTARY
INFORMATION:
On
September
30,
1999,
the
NESHAP:
Final
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors
was
promulgated
(
64
FR
52828).
On
July
3,
2001,
EPA
proposed
potential
revisions
to
several
compliance,
testing,
and
monitoring
provisions
of
the
final
rule
(
66
FR
35126).
On
July
24,
2001,
the
Court
of
Appeals
for
the
District
of
Columbia
decided
Cement
Kiln
Recycling
Coalition,
et
al.,
v.
EPA,
et
al.,
(
D.
C.
Cir.
No.
99
1457
(
and
consolidated
cases)).
This
case
decided
several
issues
related
to
the
September
30,
1999
final
rule.
In
response
to
several
commenters'
requests
for
more
time
to
respond
to
issues
in
the
proposed
rule
considering
the
recent
court
decision,
EPA
is
extending
the
proposed
rule's
comment
period.
This
document
extends
the
comment
period
for
60
days.
Stakeholders,
however,
have
not
requested
an
extension
of
the
comment
period
for
two
other
actions
(
see
66
FR
35087
and
66
FR
35124)
also
published
in
the
Federal
Register
on
July
3,
2001.
Today's
action
does
not
change
the
date
by
which
comments
must
be
submitted
for
those
two
actions.
List
of
Subjects
40
CFR
Part
63
Environmental
protection,
Air
pollution
control,
Hazardous
substances,
Reporting
and
recordkeeping
requirements.
40
CFR
Part
264
Environmental
protection,
Air
pollution
control,
Hazardous
waste,
Insurance,
Packaging
and
containers,
Reporting
and
recordkeeping
requirements,
Security
measures,
Surety
bonds.
40
CFR
Part
265
Environmental
protection,
Air
pollution
control,
Hazardous
waste,
Insurance,
Packaging
and
containers,
Reporting
and
recordkeeping
requirements,
Security
measures,
Surety
bonds,
Water
supply.
40
CFR
Part
266
Environmental
protection,
Energy,
Hazardous
waste,
Recycling,
Reporting
and
recordkeeping
requirements.
40
CFR
Part
270
Environmental
protection,
Administrative
practice
and
procedure,
Confidential
business
information,
Hazardous
materials
transportation,
Hazardous
waste,
Reporting
and
recordkeeping
requirements,
Water
pollution
control,
Water
supply.
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Federal
Register
/
Vol.
66,
No.
160
/
Friday,
August
17,
2001
/
Proposed
Rules
Dated:
August
14,
2001.
Michael
H.
Shapiro,
Acting
Assistant
Administrator,
Solid
Waste
and
Emergency
Response.
[
FR
Doc.
01
20897
Filed
8
16
01;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Part
271
[
FRL
7035
3]
Indiana:
Final
Authorization
of
State
Hazardous
Waste
Management
Program
Revision
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Proposed
rule.
SUMMARY:
Indiana
has
applied
to
EPA
for
Final
authorization
of
the
changes
to
its
hazardous
waste
program
under
the
Resource
Conservation
and
Recovery
Act
(
RCRA).
EPA
has
determined
that
these
changes
satisfy
all
requirements
needed
to
qualify
for
Final
authorization,
and
is
proposing
to
authorize
the
State's
changes
through
this
proposed
final
action.
DATES:
Written
comments
must
be
received
on
or
before
September
17,
2001.
ADDRESSES:
Send
written
comments
to
Gary
Westefer,
Indiana
Regulatory
Specialist,
DM
7J,
77
West
Jackson
Boulevard,
Chicago,
Illinois
60604.
Please
refer
to
Docket
Number
IN
ARA18.
We
must
receive
your
comments
by
September
17,
2001.
You
can
view
and
copy
Indiana's
application
from
9:
00
am
to
4:
00
pm
at
the
following
addresses:
Indiana
Department
of
Environmental
Management,
100
North
Senate,
Indianapolis,
Indiana
(
mailing
address
P.
O.
Box
6015,
Indianapolis,
Indiana
46206)
contact
Lynn
West
(
317)
232
3593,
and
EPA
Region
5,
contact
Gary
Westefer
at
the
following
address.
FOR
FURTHER
INFORMATION
CONTACT:
Gary
Westefer,
Indiana
Regulatory
Specialist,
U.
S.
EPA
Region
5,
DM
7J,
77
West
Jackson
Boulevard,
Chicago,
Illinois
60604,
(
312)
886
7450.
SUPPLEMENTARY
INFORMATION:
A.
Why
Are
Revisions
to
State
Programs
Necessary?
States
which
have
received
final
authorization
from
EPA
under
RCRA
section
3006(
b),
42
U.
S.
C.
6926(
b),
must
maintain
a
hazardous
waste
program
that
is
equivalent
to,
consistent
with,
and
no
less
stringent
than
the
Federal
program.
As
the
Federal
program
changes,
States
must
change
their
programs
and
ask
EPA
to
authorize
the
changes.
Changes
to
State
programs
may
be
necessary
when
Federal
or
State
statutory
or
regulatory
authority
is
modified
or
when
certain
other
changes
occur.
Most
commonly,
States
must
change
their
programs
because
of
changes
to
EPA's
regulations
in
40
Code
of
Federal
Regulations
(
CFR)
parts
124,
260
through
266,
268,
270,
273
and
279.
B.
What
Decisions
Have
We
Made
in
this
Rule?
We
conclude
that
Indiana's
application
to
revise
its
authorized
program
meets
all
of
the
statutory
and
regulatory
requirements
established
by
RCRA.
Therefore,
we
propose
to
grant
Indiana
Final
authorization
to
operate
its
hazardous
waste
program
with
the
changes
described
in
the
authorization
application.
Indiana
has
responsibility
for
permitting
Treatment,
Storage,
and
Disposal
Facilities
(
TSDFs)
within
its
borders
(
except
in
Indian
Country)
and
for
carrying
out
the
aspects
of
the
RCRA
program
described
in
its
revised
program
application,
subject
to
the
limitations
of
the
Hazardous
and
Solid
Waste
Amendments
of
1984
(
HSWA).
New
Federal
requirements
and
prohibitions
imposed
by
Federal
regulations
that
EPA
promulgates
under
the
authority
of
HSWA
take
effect
in
authorized
States
before
they
are
authorized
for
the
requirements.
Thus,
EPA
will
implement
those
requirements
and
prohibitions
in
Indiana,
including
issuing
permits,
until
the
State
is
granted
authorization
to
do
so.
C.
What
is
the
Effect
of
Today's
Authorization
Decision?
The
effect
of
this
decision
is
that
a
facility
in
Indiana
subject
to
RCRA
will
now
have
to
comply
with
the
authorized
State
requirements
instead
of
the
equivalent
Federal
requirements
in
order
to
comply
with
RCRA.
Indiana
has
enforcement
responsibilities
under
its
State
hazardous
waste
program
for
violations
of
such
program,
but
EPA
retains
its
authority
under
RCRA
sections
3007,
3008,
3013,
and
7003,
which
include,
among
others,
authority
to:
Do
inspections,
and
require
monitoring,
tests,
analyses
or
reports;
Enforce
RCRA
requirements
and
suspend
or
revoke
permits;
and
Take
enforcement
actions
regardless
of
whether
the
State
has
taken
its
own
actions.
This
action
does
not
impose
additional
requirements
on
the
regulated
community
because
the
regulations
for
which
Indiana
is
being
authorized
by
today's
action
are
already
effective,
and
are
not
changed
by
today's
action.
D.
What
Happens
if
EPA
Receives
Comments
that
Oppose
this
Action?
If
EPA
receives
comments
that
oppose
this
authorization,
we
will
address
all
public
comments
in
a
later
Federal
Register.
You
may
not
have
another
opportunity
to
comment.
If
you
want
to
comment
on
this
authorization,
you
must
do
so
at
this
time.
E.
What
has
Indiana
Previously
been
Authorized
for?
Indiana
initially
received
Final
authorization
on
January
31,
1986,
effective
January
31,
1986
(
51
FR
3955)
to
implement
the
RCRA
hazardous
waste
management
program.
We
granted
authorization
for
changes
to
their
program
on
October
31,
1986,
effective
December
31,
1986
(
51
FR
39752);
January
5,
1988,
effective
January
19,
1988
(
53
FR
128);
July
13,
1989,
effective
September
11,
1989
(
54
FR
29557);
July
23,
1991,
effective
September
23,
1991
(
56
FR
33717);
July
24,
1991,
effective
September
23,
1991
(
56
FR
33866);
July
29,
1991,
effective
September
27,
1991
(
56
FR
35831);
July
30,
1991,
effective
September
30,
1991
(
56
FR
36010);
August
20,
1996,
effective
October
21,
1996
(
61
FR
43018);
September
1,
1999,
effective
November
30,
1999
(
64
FR
47692),
and
January
4,
2001
effective
January
4,
2001
(
66
FR
733).
F.
What
Changes
are
We
Authorizing
with
Today's
Action?
On
March
16,
2001,
Indiana
submitted
a
final
complete
program
revision
application,
seeking
authorization
of
their
changes
in
accordance
with
40
CFR
271.21.
We
now
make
a
final
decision,
subject
to
receipt
of
written
comments
that
oppose
this
action,
that
Indiana's
hazardous
waste
program
revision
satisfies
all
of
the
requirements
necessary
to
qualify
for
Final
authorization.
Therefore,
we
propose
to
grant
Indiana
Final
authorization
for
the
following
program
changes:
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| epa | 2024-06-07T20:31:35.992586 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0025-0058/content.txt"
} |
EPA-HQ-RCRA-2001-0025-0059 | Rule | 2001-07-03T04:00:00 | NESHAP: Standards for Hazardous Air Pollutants for Hazardous Waste Combustors [F-2001-RC4P-FFFFF] | c
35124
Federal
Register
/
Vol.
66,
No.
128/
Tuesday,
July
3,
2001
/
Proposed
Rules
DELEGATION
STATUS
FOR
PART
63
STANDARDS
STATE
OF
WASHINGTON
Continued
Subpart
I
Ecology2
I
BCAA3
I
Nyfp
1
OAPCA5
I
PSCAA6
I
SCAPCA'
I
SWAPCAB
1
YRCAA9
XXX.
Ferroalloys
Production:
Ferromanganese
&
Silicomanganese
........
X
X
General
Provision
authorities
which
may
not
be
delegated
include:
55
63.6(
g);
63.6(
h)(
9);
63.7(
e)(
2)(
ii)
and
(
1)
for
approval
of
major
alternatives
to
test
methods;
563.8(
f)
for
approval
of
maor
alternatives
to
monrtonng;
§
63.10(
f);
and
all
authorities
identified
in
the
subparts
(
i.
e.,
under
"
Delegation
of
Authority")
that
cannot
be
delegated.
For
definitions
01
minor,
intermediate,
and
major
alternatives
to
test
methods
and
monitoring,
see
memorandum
from
John
Seitz,
Office
of
Air
Quality
Plan
nin
and
Standards,
dated
July,
10,
1998,
entitled,
"
Delegation
of
40
CFR
Part
63
General
Provisions
Authorities
to
State
and
Local
Air
Pollution
Control
Agencies."
&
ashin
ton
Department
of
Ecolo
y
(
July
1,
2000)
3
Benton
Clean
Air
Authority
(
July
1,
2000)
Note:
Dekgation
of
Subpart
M
to
?
cology
applies
to
part
70
sources
only.
Northwest
Air
Pollutlon
Authotlty
(
July
1,
1999)
5
Olympic
Air
Pollution
Control
Authority
(
July
1,
2000)
SPuget
Sound
Clean
Air
Agency
(
July
1,
1999)
'
Spokane
County
Air,
Pollution
Control
Authority
(
July
1,
2000)
BSouthwest
Alr
Pollutlon
Control
Authority
(
August
1,
1998)
Note:
Dele
atton
of
Subpalt
M
to
YRCAA
apples
to
part
70
sources
only.
'
OSubpartt
of
this
part
is
delegated
to
these
agencies
as
applies
to
all
applicable
facilities
and
processes
as
defined
in
40
CFR
63.440,
except
kraft
and
sulfite
pulping
mills.
The
Washington
Department
of
Ecology
(
Ecology)
retains
the
authority
to
regulate
kraft
and
sulfite
pulping
mills
in
the
State
of
Washington,
pursuant
to
Washington
Administrative
Code
(
WAC)
173
405
012
and
173
410
012.
want
to
WAC
173
415
012.
11
Subpart
LL
of
this
part
cannot
be
delegated
to
any
local
agencies
in
Washington
because
Ecology
retains
the
authority
to
regulate
primary'aluminum
plants,
pur
lution
control
agency.
Therefore,
any
amendments
made
to
these
delegated
rules
after
this
effective
date
are
not
delegated
to
the
agency.
Note
to
paragraph
(
a)(
47):
Dates
in
parenthesis
indicate
the
effective
date
of
the
federal
rules
that
have
been
adopted
by
and
delegated
to
the
state
or
local
air
pol
Yakima
Regbnal
Clean
Air
Authority
(
July
1,
2000)
[
FR
Doc.
01
16692
Filed
7
2
01;
8:
45
am]
BILLING
CODE
656040
P
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Part
63
rFRL
6996
81
Approval
of
Section
112(
1)
Authority
for
Hazardous
Air
Pollutants;
Chemical
Accident
Prevention
Provisions;
Risk
Management
Plans;
New
Jersey
Department
of
Environmental
Protection
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Proposed
rule.
they
contain
regulated
quantities
of
LPG
gases
regulated
under
the
New
Jersey
Liquified
Petroleum
Gas
Act
of
1950
(
NJSA
21:
lB).
The
direct
final
rule
explains
the
rationale
for
this
approval.
EPA
is
taking
direct
final
action
without
prior
proposal
because
the
Agency
views
this
as
a
noncontroversial
action
and
anticipates
no
adverse
comments.
If
no
adverse
comments
are
received
no
further
activity
is
contemplated.
If
EPA
receives
adverse
comments,
the
direct
final
rule
will
be
withdrawn
and
all
public
comments
received
will
be
addressed
in
a
subsequent
final
rule
based
on
this
proposed
rule.
EPA
will
not
institute
a
second
comment
period.
Any
parties
interested
in
commenting
should
do
so
at
this
time.
In
the
spirit
of
Executive
Orders
13132
and
13175.
Administrator
within
30
days
of
the
close
of
the
public
comment
period.
FOR
FURTHER
INFORMATION
CONTACT:
Umesh
Dholakia
at
(
212)
637
4023
SUPPLEMENTARY
INFORMATION:
Authority:
This
action
is
issued
under
the
authority
of
section
112
of
the
Clean
Air
Act,
as
amended,
42
U.
S.
C.
7412.
Dated:
May
25,
2001.
Kathleen
C.
Callahan,
'
"
Acting
Regional
Administrator,
Region
2.
[
FR
Doc.
'
01
16562
Filed
7
2
01;
8:
45
am]
BILLING
CODE
6580
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Parts
63
and
264
SUMMARY:
Pursuant
to
section
112(
1)
of
and
consistent
with
EPA
policy
to
[
FRL
7002
81
the
Clean
Air
Act
(
CAA),
the
New
Jersey
promote
communications
between
EPA
Department
of
Environmental
Protection
and
State,
local
and
tribal
governments,
NESHAP:
Standards
for
Air
(
NJDEP)
requested
delegation
of
the
EPA
specifically
solicits
comments
on
Pollutants
for
Hsizardous
Waste
Federal
Chemical
Accident
Prevention
this
proposed
rule
from
State.
local
and
Provisions
promulgated
by
EPA
under
section
112(
r)
of
the
CAA
for
all
stationary
sources
with
covered
processes
(
subject
sources)
under
its
jurisdiction
except
those
having
certain
specified
flammable
liquified
petroleum
gases
(
LPG).
This
action
proposes
to
grant
such
authority.
In
the
Rules
section
of
this
Federal
Register,
EPA
is
granting
NJDEP
the
authority
to
implement
and
enforce
the
Toxic
Catastrophe
Prevention
Act
Program
rule,
effective
July
20,
1998,
at
New
Jersey
Administrative
Code
(
NJAC)
7:
31
1.1
through
1.10
and
NJAC
7:
31
2.1
through
8.2
in
place
of
the
Federal
Chemical
Accident
Prevention
Provisions
for
all
subject
sources
under
NJDEP's
jurisdiction.
EPA
retains
the
.
authority
to
regulate
subject
sources
having
processes
covered
only
because
tribd
officials.
DATES:
Written
comments
must
be
received
by
August
2,2001.
ADDRESSES:
Written
comments
should
be
addressed
to:
Steven
C.
Riva,
Chief,
Permitting
Section,
Air
Programs
Branch,
U.
S.
Environmental
Protection
Agency,
Region
2,290
Broadway,
New
York,
New
York
10007
1866,
with
a
copy
to
Ms.
Shirlee
Schiffman,
Chief,
Bureau
of
Chemical
Release
Information
and
Prevention,
New
Jersey
Department
of
Environmental
Protectian,
P.
O.
Box
424,22
South
Clinton
Avenue,
Trenton,
New
Jersey
08625
0424.
Copies
of
the
submitted
requests
are
available
for
public
review
at
EPA
Region
2'
s
office
during
normal
business
hours
(
docket
#
A
2000
23).
Any
State
responses
to
comments
must
be
submitted
to
the
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Proposed
rule.
SUMMARY:
EPA
is
proposing
to
take
action
on
NESHAP:
Standardsfor
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors.
The
revisions
make
targeted
amendments
to
the
regulations
for
hazardous
waste
burning
cement
kilns,
lightweight
aggregate
kilns,
and
incinerators
promulgated
on
September
30,1999
(
NESHAP:
Final
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors).
The
revisions
make
improvements
to
the
implementation
of
the
emission
standards,
primarily
in
the
areas
of
compliance,
testing
and
monitoring.
We
are
proposing
these
revisions
to
make
it
easier
to
comply
with
the
September
30,1999
final
rule.
Federal
Register/
Vol.
66,
No.
128
/
Tuesday,
July
3,
2001
/
Proposed
Rules
.
.
".
35125
In
the
"
Rules
and
Regulations"
section
of
the
Federal
Register,
we
are
amending
the
September
30,1999
final
rule
without
prior
proposal
to
incorporate
these
revisions
because
we
view
the
amendments
as
noncontroversial
and
anticipate
no
adverse
comment.
We
have
explained
our
reasons
for
this
approach
in
the
preamble
to
the
direct
final
rule.
If
we
receive
adverse
comment
on
a
distinct
amendment,
however,
we
will
withdraw
the
direct
final
action
for
that
amendment
and
the
amendment
will
not
take
effect.
We
will
address
all
public
comments
in
a
subsequent
final
rule
based
on
this
proposed
rule.
We
will
not
institute
a
second
comment
period
on
this
action.
Any
parties
interested
in
commenting
on
any
amendment
must
do
so
at
this
time.
DATES:
Written
comments
must
be
received
by
August
17,
2001.
ADDRESSES:
If
you
wish
to
comment
on
this
proposed
rule,
you
must
send
an
original
and
two
copies
of
the
comments
referencing
Docket
Number
F
2001
RC4P
FFFFF
to:
RCRA
Information
Center
(
RIC),
Office
of
Solid
Waste
(
5305G),
U.
S.
Environmental
Protection
Agency
Headquarters
(
EPA
HQ),
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460
0002;
or,
(
2)
if
using
special
delivery,
such
as
overnight
express
service:
RIC,
Crystal
Gateway
One,
1235
Jefferson
Davis
Highway,
First
Floor,
Arlington,
VA
22202.
You
may
also
submit
comments
electronically
following
the
directions
in
the
SUPPLEMENTARY
INFORMATION
section
below.
You
may
view
public
comments
and
supporting
materials
in
the
RIC.
The
RIC
is
open
from
9
am
to
4
pm
Monday
through
Friday,
excluding
Federal
holidays.
To
review
docket
materials,
we
recommend
that
you
make
an
appointment
by
calling
703
603
9230.
You
may
copy
up
to
100
pages
from
any
regulatory
document
at
no
charge.
Additional
copies
cost
$
0.15
per
page.
For
information
on
accessing
an
electronic
copy
of
the
data
base,
see
the
SUPPLEMENTARY
INFORMATION
section.
FOR
FURTHER
INFORMATION
CONTACT:
For
general
information,
call
the
RCRA
Call
Center
at
1
800
424
9346
or
TDD
1
800
553
7672
(
hearing
impaired).
Callers
within
the
Washington
Metropolitan
Area
must
dial
703
412
9810
or
TDD
703412
3323
(
hearing
impaired).
The
RCRA
Call
Center
is
open
Monday
Friday,
9
am
to
4
pm,
Eastern
Standard
Time.
For
more
information
on
specific
aspects
of
this
proposed
rule,
contact
Mr.
Frank
Behan
at
703
308
8476,
behan.
frank@
epa.
gov,
or
write
him
at
the
Office
of
Solid
Waste,
5302W,
U.
S.
EPA,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460.
SUPPLEMENTARY
INFORMATION:
This
document
concerns
NESHAP:
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors.
For
further
information,
please
see
the
information
provided
in
the
direct
final
action
that
is
located
in
the
"
Rules
and
Regulations"
section
of
this
Federal
Register
publication.
Submittal
of
Comments
electronically
by
sending
electronic
mail
through
the
Internet
to:
rcra
docket@
epamail.
epa.
gov.
You
should
identify
comments
in
electronic
format
with
the
docket
number
F
2001
RC4P
FFFFF.
You
must
submit
all
electronic
comments
as
an
ASCII
(
text)
file,
avoiding
the
use
of
special
characters
or
any
type
of
encryption.
The
official
record
for
this
action
will
be
kept
in
the
paper
form.
Accordingly,
we
will
transfer
all
comments
received
electronically
into
paper
form
and
place
them
in
the
official
record
which
will
also
include
all
comments
submitted
directly
in
writing.
The
official
record
is
the
paper
record
maintained
at
the
RIC
as
described
above.
We
may
seek
clarification
of
electronic
comments
that
are
garbled
in
transmission
or
during
conversion
to
paper
form.
You
should
not
electronically
submit
any
confidential
business
information
(
CBI).
You
must
submit
an
original
and
two
copies
of
CBI
under
separate
cover
to:
RCRA
CBI
Document
Control
Officer,
Office
of
Solid
Waste
(
5305W),
U.
S.
EPA,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460.
electronically,
we
are
asking
prospective
commenters
to
voluntarily
submit
one
additional
copy
of
their
comments
on
labeled
personal
computer
diskettes
in
ASCII
(
text)
format
or
a
`
word
processing
format
that
can
be
converted
to
ASCII
(
text).
It
is
essential
that
you
specify
on
the
disk
label
the
word
processing
software
and
versionledition
as
well
as
the
commenter's
name.
This
will
allow
us
to
convert
the
comments
into
one
of
the
word
processing
formats
used
by
the
Agency.
Please
use
mailing
envelopes
designed
to
protect
the
diskettes.
We
emphasize
that
submission
of
diskettes
is
not
mandatory,
nor
will
it
result
in
any
advantage
or
disadvantage
to
any
commenter.
I.
Description
of
Proposed
Amendments
changes
to
the
NESHAP:
Final
You
may
submit
comments
If
you
do
not
submit
comments
Today's
notice
proposes
specific
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors
[
Phase
I)
rule,
published
September
30,
1999
(
64
FR
52828).
After
promulgation,
commenters
(
primarily
the
regulated
community)
raised
numerous
issues
through
informal
comments
and
during
litigation
settlement
discussions.
After
considering
the
issues
raised,
we
have
decided
to
propose
for
comment
a
limited
number
of
changes
to
the
Phase
I
final
rule,
most
of
the
proposed
changes
relating
to
compliance
and
implementation
of
the
rule.
In
the
"
Rules
and
Regulations"
section
of
the
Federal
Register,
we
are
amending
the
September
30,1999
final
rule
without
prior
proposal
to
incorporate
these
revisions
because
we
view
the
amendments
as
noncontroversial
and
anticipate
no
adverse
comment.
We
have
explained
our
reasons
for
this
approach
in
the
preamble
to
the
direct
final
rule,
and
do
not
believe
it
necessary
to
repeat
those
discussions
here.
If
we
receive
adverse
comment
on
a
distinct
amendment,
we
will
withdraw
the
direct
final
action
for
that
amendment
and
the
amendment
will
not
take
effect.
We
will
address
all
public
comments
in
a
subsequent
final
rule
based
on
this
proposed
rule.
We
will
not
institute
a
second
comment
period
on
this
action.
Any
parties
interested
in
commenting
on
any
amendment
must
do
so
at
this
time.
"
Rules
and
Regulations"
section
of
today's
Federal
Register
publication.
11.
How
Can
I
Influence
EPA's
Thinking
on
This
Rule?
In
developing
this
rule,
we
tried
to
address
the
concerns
of
all
our
stakeholders.
Your
comments
will
help
us
improve
this
rule.
We
invite
you
to
provide
different
views
on
options
we
propose,
new
approaches
we
haven't
considered,
new
data,
how
this
rule
may
effect
you,
or
other
relevant
information.
We
welcome
your
views
on
all
aspects
of
this
rule.
Your
comments
will
be
most
effective
if
you
follow
the
suggestions
below:
Explain
your
views
as
clearly
as
possible
and
why
you
feel
that
way.
Provide
solid
technical
and
cost
data
to
support
your
views.
If
you
estimate
potential
costs,
explain
how
you
arrived
at
the
estimate.
Tell
us
which
parts
you
support,
as
well
as
those
you
disagree
with.
Provide
specific
examples
to
illustrate
your
concerns.
Offer
specific
alternatives.
Refer
your
comments
to
specific
sections
of
the
proposal,
such
as
the
units
or
page
numbers
of
the
preamble,
or
the
regulatory
sections.
For
further
information,
please
see
the
,`.
"
I
,
"
I1
~
~
~
~
,
~
~
""*"
""
Y
1
35126
Federal
Register/
Vol.
66,
No.
128
/
Tuesday,
July
3,
2001
/
Proposed
Rules
Make
sure
to
submit
your
ADDRESSES:
If
you
wish
to
comment
on
the
paper
record
maintained
at
the
RIC
comments
by
the
deadline
in
this
this
proposed
rule,
you
must
send
an
as
described
above.
We
may
seek
notice.
original
and
two
copies
of
the
comments
clarification
of
electronic
comments
that
Be
sure
to
include
the
name,
date,
referencing
Docket
Number
F
2001
are
garbled
in
transmission
or
during
and
docket
number
with
your
RC5P
FFFFF
to:
RCRA
Information
conversion
to
paper
form.
comments.
Center
(
RIC),
Office
of
Solid
Waste
You
should
not
electronically
submit
List
of
Subjects
(
5305G),
U.
S.
Environmental
Protection
any
confidential
business
information
Agency
Headquarters
(
EPA
HQ),
Ariel
(
CBI).
You
must
submit
an
original
and
40
CFR
Part
63
Rios
Building,
1200
Pennsylvania
two
copies
of
CBI
under
separate
cover
substances,
Reporting
and
0002;
or,
(
2)
if
using
special
delivery,
Office
of
Solid
Waste
(
5305W),
U.
S.
recordkeeping
requirements.
40
CFR
Part
264
Protection
A
~
~
~
~
~
,
Hazardous
waste,
comments
electronically
following
the
electronicdly,
we
are
asking
prospective
Insurance,
Packaging
and
containers,
directions
in
the
SUPPLEMENTARY
commenters
to
voluntarily
submit
one
Reporting
and
recordkeeping
INFORMATION
section
below.
additional
copy
of
their
comments
on
requirements,
Security
measures,
Surety
You
may
view
public
comments
and
labeled
personal
computer
diskettes
in
bonds.
supporting
materials
in
the
RIC.
The
RIC
ASCII
(
text)
format
or
a
word
processing
Dated:
June
18,
2001.
is
open
from
9
am
to
4
pm
Monday
format
that
can
be
converted
to
ASCII
through
Friday,
excluding
Federal
Christine
Todd
Whitman,
(
text).
It
is
essential
that
you
specify
on
Administrator.
holidays.
To
review
docket
materials,
the
disk
label
the
word
processing
we
recommend
that
you
make
an
software
and
versionledition
as
well
as
[
FR
Doc.
01
16427Filed
7
2
01;
8:
45
a
d
appointment
by
calling
703
603
9230.
the
commenter's
name.
This
will
allow
Air
pollution
control,
Hazardous
Avenue,
NW,
Washington,
D.
C.
20460
to:
RCRA
CBI
Document
Control
Officer,
such
as
overnight
express
service:
RIC,
EPA,
Ariel
Rios
Building,
1200
Crystal'Gateway
One,
1235
Jefferson
Pennsylvania
Avenue,
NW,
Washington,
Davis
Highway,
First
Floor,
Arlington,
D.
C.
20460.
Air
pollution
control,
Environmental
vA
22202*
may
submit
If
you
do
not
submit
comments
BILLING
CODE
6560
50
U
You
may
copy
up
to
100
pages
from
any
us
to
convert
the
comments
into
one
of
regulatory
document
at
no
charge.
the
word
processing
formats
used
by
the
Additional
copies
cost
$
0.15
per
page.
Agency.
Please
use
mailing
envelopes
ENVIRONMENTAL
PROTECTION
AGENCY
For
information
on
accessing
an
designed
to
protect
the
diskettes.
We
electronic
copy
of
the
data
base,
see
the
emphasize
that
submission
of
diskettes
SUPPLEMENTARY
INFORMATION
section.
is
not
mandatory,
nor
will
it
result
in
40
CFR
Parts
631
2647
2651
266r
and
270
FOR
FURTHER
INFORMATION
CONTACT:
For
any
advantage
or
disadvantage
to
any
.
[
FRL
7001
91
general
information,
call
the
RCRA
Call
COmmenter.
RIN
2050
AE79
NESHAP:
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors
Proposed
Amendments
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Proposed
rule.
SUMMARY:
Under
the
Clean
Air
Act
(
CAA),
EPA
established
new
emissions
standards
for
hazardous
waste
burning
cement
kilns,
lightweight
aggregate
kilns,
and
incinerators
on
September
30,
1999
(
NESHAP:
Final
Standards
for
Hazardous
Air
Pollutants
for
Hazardous
Waste
Combustors).
Following
promulgation
of
this
final
rule,
the
regulated
community,
through
informal
comments
and
through
litigation,
raised
numerous
issues
related
to
specific
requirements
of
the
final
rule.
In
response
to
relevant
concerns,
we
are
proposing
and
taking
comment
on
certain
targeted
changes
to
the
final
rule.
These
regulatory
changes
do
not
emission
standards,
but
rather
focus
on
improvements
to
the
implementation
of
the
emission
standards,
primarily
in
the
areas
of
compliance,
testing
and
monitoring.
DATES:
Comments
must
be
submitted
by
August
17,2001.
,
propose
to
amend
the
numerical
kenter
at
1
800
424
9346
or
TDD
1
800
553
7672
(
hearing
impaired).
Callers
within
the
Washington
Metropolitan
Area
must
dial
703
412
9810
or
TDD
703
412
3323
(
hearing
impaired).
The
RCRA
Call
Center
is
open
Monday
Friday,
9
am
to
4
pm,
Eastern
Standard
Time.
For
more
information
on
specific
aspects
of
this
proposed
rule,
contact
Mr.
Frank
Behan
at
703
308
8476,
behan.
frank@
epa.
gov,
or
write
him
at
the
Office
of
Solid
Waste,
5302W,
U.
S.
EPA,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460.
SUPPLEMENTARY
INFORMATION:
Submittal
of
Comments
electronically
by
sending
electronic
mail
through
the
Internet
to:
rcra
docket@
eparnail.
epa.
gov.
You
should
identify
comments
in
electronic
format
with
the
docket
number
F
2001
RC5P
FFFFF.
You
must
submit
all
electronic
comments
as
an
ASCII
(
text)
file,
avoiding
the
use
of
special
characters
or
any
type
of
encryption.
The
official
record
for
this
action
will
be
kept
in
the
paper
form.
Accordingly,
we
will
transfer
all
comments
received
electronically
into
paper
form
and
place
them
in
the
official
record
which
will
also
include
all
comments
submitted
directly
in
writing.
The
official
record
is
You
may
submit
comments
Acronyms
Used
in
the
Rule
APCD
Air
pollution
control
device
ASME
American
Society
of
Mechanical
Engineers
CAA
Clean
Air
Act
CEMS
Continuous
emissions
monitors/
monitoring
system
COMS
Continuous
opacity
monitoring
system
CFR
Code
of
Federal
Regulations
DOC
Documentation
of
Compliance
DRE
Destruction
and
removal
efficiency
dscf
Dry
standard
cubic
feet
dscm
Dry
standard
cubic
meter
EPA/
USEPA
United
States
Environmental
Protection
Agency
gr
Grains
HAP
Hazardous
air
pollutant
HWC
Hazardous
waste
combustor
MACT
Maximum
Achievable
Control
Technology
NESHAP
National
Emission
Standards
for
HAPS
ng
Nanograms
NIC
Notice
of
Intent
to
Comply
NOC
Notification
of
compliance
OPGOperating
parameter
limit
PM
Particulate
matter
POHC
Principal
organic
hazardous
constituent
ppmv
Parts
per
million
by
volume
RCRA
Resource
Conservation
and
Recovery
Act
TEQ
Toxicity
equivalence
"
| epa | 2024-06-07T20:31:35.999713 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0025-0059/content.txt"
} |
EPA-HQ-RCRA-2001-0026-0003 | Supporting & Related Material | 2001-05-25T04:00:00 | null | epa | 2024-06-07T20:31:36.005173 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0026-0003/content.txt"
} |
|
EPA-HQ-RCRA-2001-0028-0001 | Notice | 2001-10-11T04:00:00 | Agency Information Collection Activities Up for Renewal: Comment Request; State Program Adequacy Determination | 51949
Federal
Register
/
Vol.
66,
No.
197
/
Thursday,
October
11,
2001
/
Notices
Avenue,
Anchorage,
AK
99501,
(
907)
269
5136.
For
transferee:
Mr.
Ronald
L.
Saxton,
Ater
Wynne
LLP,
222
SW
Columbia
Street
Suite
1800,
Portland,
OR
97201
6618,
(
503)
226
1191.
h.
FERC
Contact:
James
Hunter,
(
202)
219
2839.
i.
Deadline
for
filing
motions
to
intervene,
protests
and
comments:
(
November
5,
2001).
All
documents
(
original
and
eight
copies)
should
be
filed
with:
David
P.
Boergers,
Secretary,
Federal
Energy
Regulatory
Commission,
888
First
Street,
NE,
Washington
DC
20426.
Copies
of
this
filing
are
on
file
with
the
Commission
and
are
available
for
public
inspection.
Comments,
protests
and
interventions
may
be
filed
electronically
via
the
Internet
in
lieu
of
paper.
See,
18
CFR
385.2001(
a)(
1)(
iii)
and
the
instructions
on
the
Commission's
web
site
under
the
``
e
Filing''
link.
Please
include
the
noted
project
numbers
on
any
comments
or
motions
filed.
j.
Description
of
Proposal:
The
Applicants
propose
a
transfer
of
the
licenses
for
the
Solomon
Gulch,
Terror
Lake,
Swan
Lake,
and
Tyee
Lake
hydroelectric
projects
from
Alaska
Energy
Authority
(
an
agency
of
the
State
of
Alaska)
to
the
Four
Dam
Pool
Power
Agency,
which
is
comprised
of
representatives
of
the
five
utilities
that
now
operate
the
projects.
The
transfer
is
sought
in
connection
with
the
proposed
sale
of
the
projects
to
fund
an
endowment
for
Alaska's
Power
Cost
Equalization
program,
which
is
intended
to
provide
affordable
energy
to
meet
the
basic
economic
needs
of
rural
Alaskans.
k.
Copies
of
this
filing
are
on
file
with
the
Commission
and
are
available
for
public
inspection.
This
filing
may
be
viewed
on
the
Commission's
Web
site
at
http://
www.
ferc.
gov
using
the
``
RIMS''
link,
select
``
Docket#''
and
follow
the
instructions
(
call
(
202)
208
2222
for
assistance).
A
copy
is
also
available
for
inspection
and
reproduction
at
the
addresses
in
item
g
above.
l.
Individuals
desiring
to
be
included
on
the
Commission's
mailing
list
should
so
indicate
by
writing
to
the
Secretary
of
the
Commission.
Comments,
Protests,
or
Motions
to
Intervene
Anyone
may
submit
comments,
a
protest,
or
a
motion
to
intervene
in
accordance
with
the
requirements
of
Rules
of
Practice
and
Procedure,
18
CFR
385.210,
385.211,
385.214.
In
determining
the
appropriate
action
to
take,
the
Commission
will
consider
all
protests
or
other
comments
filed,
but
only
those
who
file
a
motion
to
intervene
in
accordance
with
the
Commission's
Rules
may
become
a
party
to
the
proceeding.
Any
comments,
protests,
or
motions
to
intervene
must
be
received
on
or
before
the
specified
comment
date
for
the
particular
application.
Filing
and
Service
of
Responsive
Documents
Any
filings
must
bear
in
all
capital
letters
the
title
``
COMMENTS'',
``
PROTEST'',
or
``
MOTION
TO
INTERVENE'',
as
applicable,
and
the
Project
Number
of
the
particular
application
to
which
the
filing
refers.
An
additional
copy
must
be
sent
to
the
Director,
Division
of
Hydropower
Administration
and
Compliance,
Federal
Energy
Regulatory
Commission,
at
the
above
mentioned
address.
A
copy
of
any
motion
to
intervene
must
also
be
served
upon
each
representative
of
the
Applicant
specified
in
the
particular
application.
Agency
Comments
Federal,
state,
and
local
agencies
are
invited
to
file
comments
on
the
described
application.
A
copy
of
the
application
may
be
obtained
by
agencies
directly
from
the
Applicant.
If
an
agency
does
not
file
comments
within
the
time
specified
for
filing
comments,
it
will
be
presumed
to
have
no
comments.
One
copy
of
an
agency's
comments
must
also
be
sent
to
the
Applicant's
representatives.
David
P.
Boergers,
Secretary.
[
FR
Doc.
01
25497
Filed
10
10
01;
8:
45
am]
BILLING
CODE
6717
01
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
FRL
7078
3]
Agency
Information
Collection
Activities
Up
for
Renewal:
Comment
Request;
State
Program
Adequacy
Determination
Municipal
Solid
Waste
Landfills
(
MSWLFs)
and
Non
Municipal,
Non
Hazardous
Waste
Disposal
Units
That
Receive
Conditionally
Exempt
Small
Quantity
Generator
(
CESQG)
Hazardous
Waste
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice.
SUMMARY:
In
compliance
with
the
Paperwork
Reduction
Act
(
44
U.
S.
C.
3501
et
seq.),
this
document
announces
that
EPA
is
planning
to
submit
the
following
continuing
Information
Collection
Request
(
ICR)
to
the
Office
of
Management
and
Budget
(
OMB):
State
Program
Adequacy
Determination
Municipal
Solid
Waste
Landfills
(
MSWLFs)
and
Non
municipal,
Nonhazardous
Waste
Disposal
Units
that
Receive
Conditionally
Exempt
Small
Quantity
Generator
(
CESQG)
Hazardous
Waste,
ICR
Number
1608.03,
OMB
control
number
2050
0152,
currently
expiring
on
April
30,
2002.
Before
submitting
the
ICR
to
OMB
for
review
and
approval,
EPA
is
soliciting
comments
on
specific
aspects
of
the
proposed
continuing
information
collection
as
described
below.
DATES:
Comments
must
be
submitted
on
or
before
December
10,
2001.
ADDRESSES:
Commenters
must
send
an
original
and
two
copies
of
their
comments
referencing
docket
number
F
2001
SIRP
FFFFF
to:
RCRA
Docket
Information
Center,
Office
of
Solid
Waste
(
5305G),
U.
S.
Environmental
Protection
Agency
Headquarters
(
EPA
HQ),
1200
Pennsylvania
Ave.,
NW.,
Washington,
DC
20460.
Hand
deliveries
of
comments
should
be
made
to
the
Arlington,
VA,
address
below.
Comments
also
may
be
submitted
electronically
through
the
Internet
to:
<
rcra
docket@
epa.
gov>.
Comments
in
electronic
format
also
should
be
identified
by
the
docket
number
F
2001
SIRP
FFFFF.
All
electronic
comments
must
be
submitted
as
an
ASCII
file
avoiding
the
use
of
special
characters
and
any
form
of
encryption.
Commenters
should
not
electronically
submit
any
confidential
business
information
(
CBI).
An
original
and
two
copies
of
CBI
must
be
submitted
under
separate
cover
to:
RCRA
CBI
Document
Control
Officer,
Office
of
Solid
Waste
(
5305W,
U.
S.
EPA,
1200
Pennsylvania
Ave,
SW,
Washington,
DC
20460.
Public
comments
and
supporting
materials
are
available
for
viewing
in
the
RCRA
Information
Center
(
RIC),
located
at
Crystal
Gateway
I,
First
Floor,
1235
Jefferson
Davis
Highway,
Arlington,
VA.
The
RIC
is
open
from
9
a.
m.
to
4
p.
m.,
Monday
through
Friday,
excluding
federal
holidays.
To
review
docket
materials,
it
is
recommended
that
the
public
make
an
appointment
by
calling
(
703)
603
9230.
The
public
may
copy
a
maximum
of
100
pages
from
any
regulatory
docket
at
no
charge.
Additional
copies
cost
$
0.15/
page.
The
index
and
supporting
materials
are
available
electronically.
The
official
record
for
this
action
will
be
kept
in
paper
form.
Accordingly,
EPA
will
transfer
all
comments
received
electronically
into
paper
form
and
place
them
in
the
official
record,
which
will
include
all
comments
submitted
in
writing.
EPA's
response
to
comments,
both
written
and
electronic,
will
be
placed
in
the
official
record.
The
Agency's
response
to
major
comments
may
also
be
published
in
a
notice
in
the
Federal
Register.
EPA
will
not
immediately
reply
to
commenters
VerDate
11<
MAY>
2000
16:
53
Oct
10,
2001
Jkt
197001
PO
00000
Frm
00028
Fmt
4703
Sfmt
4703
E:\
FR\
FM\
11OCN1.
SGM
pfrm02
PsN:
11OCN1
51950
Federal
Register
/
Vol.
66,
No.
197
/
Thursday,
October
11,
2001
/
Notices
electronically
other
than
to
seek
clarification
of
electronic
comments
that
may
be
garbled
in
transmission
or
during
conversion
to
paper
form,
as
discussed
above.
FOR
FURTHER
INFORMATION
CONTACT:
For
general
information,
contact
the
RCRA
Hotline
at
(
800)
424
9346
or
TDD
(
800)
553
7672
(
hearing
impaired).
In
the
Washington,
DC,
metropolitan
area,
call
(
703)
412
9810
or
TDD
(
703)
412
3323.
For
more
detailed
information
on
specific
aspects
of
this
information
collection,
contact
Steven
Levy,
Office
of
Solid
Waste
(
5306W),
1200
Pennsylvania
Ave,
NW.,
Washington,
DC
20460,
(
703)
308
7267,
or
levy.
steve@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
Affected
entities:
Entities
potentially
affected
by
this
action
are
states
that
seek
approval
of
permit
programs
for
MSWLFs
and
for
non
municipal,
nonhazardous
waste
disposal
units
that
receive
CESQG
waste,
or
approval
of
modifications
of
previously
approved
permit
programs
for
MSWLFs.
Title:
State
Program
Adequacy
Determination
Municipal
Solid
Waste
Landfills
(
MSWLFs)
and
Nonmunicipal
Non
hazardous
Waste
Disposal
Units
that
Receive
Conditionally
Exempt
Small
Quantity
Generator
(
CESQG)
Hazardous
Waste,
OMB
Control
No.
2050
0152,
ICR
Number
1608.03,
renewal
of
ICR
Number
1608.02,
which
expires
April
30,
2002.
Abstract:
Section
4010(
c)
of
the
Resource
Conservation
and
Recovery
Act
(
RCRA)
of
1976
requires
that
EPA
revise
the
landfill
criteria
promulgated
under
paragraph
(
1)
of
Section
4004(
a)
and
section
1008(
a)(
3).
Section
4005(
c)
of
RCRA,
as
amended
by
the
Hazardous
Solid
Waste
Amendments
(
HSWA)
of
1984,
requires
states
to
develop
and
implement
permit
programs
to
ensure
that
MSWLFs
and
non
municipal,
nonhazardous
waste
disposal
units
that
receive
household
hazardous
waste
or
CESQG
hazardous
waste
are
in
compliance
with
the
revised
criteria
for
the
design
and
operation
of
nonmunicipal
non
hazardous
waste
disposal
units
under
40
CFR
part
257,
subpart
B
and
MSWLFs
under
40
CFR
part
258.
(
40
CFR
part
257,
subpart
B
and
40
CFR
part
258
are
henceforth
referred
to
as
the
``
revised
federal
criteria''.)
Section
4005(
c)
of
RCRA
further
mandates
the
EPA
Administrator
to
determine
the
adequacy
of
state
permit
programs
to
ensure
owner
and/
or
operator
compliance
with
the
revised
federal
criteria.
A
state
program
that
is
deemed
adequate
to
ensure
compliance
may
afford
flexibility
to
owners
or
operators
in
the
approaches
they
use
to
meet
federal
requirements,
significantly
reducing
the
burden
associated
with
compliance.
In
response
to
the
statutory
requirement
in
section
4005(
c),
EPA
developed
40
CFR
part
239,
commonly
referred
to
as
the
State
Implementation
Rule
(
SIR).
The
SIR
describes
the
state
application
and
EPA
review
procedures
and
defines
the
elements
of
an
adequate
state
permit
program.
The
collection
of
information
from
the
state
during
the
permit
program
adequacy
determination
process
allows
EPA
to
evaluate
whether
a
program
for
which
approval
is
requested
is
appropriate
in
structure
and
authority
to
ensure
owner
or
operator
compliance
with
the
revised
federal
criteria.
The
SIR
does
not
require
the
use
of
a
particular
application
form.
Section
239.3
of
the
SIR,
however,
requires
that
all
state
applications
contain
the
following
five
components:
(
i)
A
transmittal
letter
requesting
permit
program
approval.
(
ii)
A
narrative
description
of
the
state
permit
program,
including
a
demonstration
that
the
state's
standards
for
non
municipal,
non
hazardous
waste
disposal
units
that
receive
CESQG
hazardous
waste
are
technically
comparable
to
the
part
257,
subpart
B
criteria
and/
or
that
its
MSWLF
standards
are
technically
comparable
to
the
part
258
criteria.
(
iii)
A
legal
certification
demonstrating
that
the
state
has
the
authority
to
carry
out
the
program.
(
iv)
Copies
of
state
laws,
regulations,
and
guidance
that
the
state
believes
demonstrate
program
adequacy.
(
v)
Copies
of
relevant
state
tribal
agreements
if
the
state
has
negotiated
with
a
tribe
for
the
implementation
of
a
permit
program
for
non
municipal,
nonhazardous
waste
disposal
units
that
receive
CESQG
hazardous
waste
and/
or
MSWLFs
on
tribal
lands.
The
EPA
Administrator
has
delegated
the
authority
to
make
determinations
of
adequacy,
as
contained
in
the
statute,
to
the
EPA
Regional
Administrator.
The
appropriate
EPA
Regional
Office,
therefore,
will
use
the
information
provided
by
each
state
to
determine
whether
the
state's
permit
program
satisfies
the
statutory
test
reflected
in
the
requirements
of
40
CFR
part
239.
In
all
cases,
the
information
will
be
analyzed
to
determine
the
adequacy
of
the
state's
permit
program
for
ensuring
compliance
with
the
federal
revised
criteria.
An
agency
may
not
conduct
or
sponsor,
and
a
person
is
not
required
to
respond
to,
a
collection
of
information
unless
it
displays
a
currently
valid
OMB
control
number.
The
OMB
control
numbers
for
EPA's
regulations
are
listed
in
40
CFR
part
9
and
48
CFR
chapter
15.
EPA
is
soliciting
comments
to:
(
i)
Evaluate
whether
the
proposed
collection
of
information
is
necessary
for
the
proper
performance
of
the
functions
of
the
Agency,
including
whether
the
information
will
have
practical
utility;
(
ii)
Evaluate
the
accuracy
of
the
agency's
estimate
of
the
burden
of
the
proposed
collection
of
information,
including
the
validity
of
the
methodology
and
assumptions
used;
(
iii)
Enhance
the
quality,
utility,
and
clarity
of
the
information
to
be
collected;
and
(
iv)
Minimize
the
burden
of
the
collection
of
information
on
those
who
are
to
respond,
including
through
the
use
of
appropriate
automated
electronic,
mechanical,
or
other
technological
collection
techniques
or
other
forms
of
information
technology
(
e.
g.,
permitting
electronic
submission
of
responses).
Burden
Statement:
Burden
means
the
total
time,
effort,
or
financial
resources
expended
by
persons
to
generate,
maintain,
retain,
or
disclose
or
provide
information
to
or
for
a
federal
agency.
This
includes
the
time
needed
to
review
instructions;
develop,
acquire,
install,
and
utilize
technology
and
systems
for
the
purposes
of
collecting,
validating,
and
verifying
information,
processing
and
maintaining
information,
and
disclosing
and
providing
information;
adjust
the
existing
ways
to
comply
with
any
previously
applicable
instructions
and
requirements;
train
personnel
to
enable
them
to
respond
to
a
collection
of
information;
search
data
sources;
complete
and
review
the
collection
of
information;
and
transmit
or
otherwise
disclose
the
information.
The
total
burden
for
states,
territories,
and
the
EPA
regions
for
the
collection
and
evaluation
of
information
under
this
ICR
is
estimated
to
be
about
9,568
hours
and
$
424,614.
The
estimated
burden
includes
time
for
reviewing
instructions,
searching
existing
data
sources,
gathering
and
maintaining
necessary
data,
and
completing
and
reviewing
the
collection
of
information.
The
ICR
supporting
statement
describes
the
assumptions
and
information
sources
used
to
develop
the
burden
estimate
for
this
ICR.
For
a
copy
of
the
supporting
statement,
contact
the
RCRA
Hotline
at
the
telphone
numbers
listed
above
or
Steven
Levy
at
(
703)
308
7267,
or
e
mail
<
levy.
steve@
epa.
gov>.
Requests
should
reference
the
document
title,
``
Supporting
Statement
for
EPA
Information
Collection
Request
#
1608.03.''
There
is
no
recordkeeping
burden
associated
with
this
ICR.
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51951
Federal
Register
/
Vol.
66,
No.
197
/
Thursday,
October
11,
2001
/
Notices
Dated:
September
27,
2001.
Elizabeth
A.
Cotsworth,
Director,
Office
of
Solid
Waste.
[
FR
Doc.
01
25588
Filed
10
10
01;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
FRL
7078
4]
Request
for
Nominations
to
the
National
Advisory
Council
for
Environmental
Policy
and
Technology
(
NACEPT)
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice
of
request
for
nominations.
SUMMARY:
The
U.
S.
Environmental
Protection
Agency
(
EPA)
invites
nominations
to
fill
vacancies
on
its
National
Advisory
Council
for
Environmental
Policy
and
Technology
(
NACEPT).
The
Agency
seeks
qualified
senior
level
decision
makers
from
diverse
sectors
throughout
the
United
States
to
be
considered
for
appointments.
DATES:
EPA
expects
to
make
new
appointments
by
the
end
of
the
calendar
year
and
encourages
nomination
submissions
by
Friday,
November
16,
2001.
ADDRESSES:
Submit
nominations
to:
Mr.
Gordon
Schisler,
Deputy
Director,
Office
of
Cooperative
Environmental
Management,
U.
S.
Environmental
Protection
Agency
(
1601A),
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460.
SUPPLEMENTARY
INFORMATION:
NACEPT
is
a
federal
advisory
committee
under
the
Federal
Advisory
Committee
Act,
Public
Law
92463.
NACEPT
provides
advice
and
recommendations
to
the
Administrator
and
other
EPA
officials
on
a
broad
range
of
domestic
and
international
environmental
policy
issues.
The
Administrator
of
EPA
has
asked
NACEPT
to
act
as
a
visionary
group
by
periodically
identifying
emerging
environmental
trends
and
issues
that
could
impact
EPA's
ability
to
protect
public
health
and
the
environment.
EPA
seeks
new
members
with
broad
experience
in
environmental
technology,
futures
planning,
strategic
visioning
and
long
range
planning.
In
addition,
NACEPT
members
may
be
asked
to
advise
the
Administrator
on
other
environmental
policy
priorities
as
needed.
NACEPT
consists
of
a
representative
cross
section
of
EPA's
partners
and
principle
constituents
who
provide
advice
and
recommendations
on
policy
issues
and
serve
as
a
sounding
board
for
new
strategies
that
the
Agency
is
developing.
Maintaining
a
balance
and
diversity
of
experience,
knowledge,
and
judgment
is
an
important
consideration
in
the
selection
of
members.
Potential
candidates
should
possess
the
following
qualifications:
Occupy
a
senior
position
within
their
organization
Broad
experience
outside
of
their
current
position
Experience
dealing
with
public
policy
issues
Membership
in
broad
based
networks
Extensive
experience
in
the
environmental
field
Recognized
expert
in
the
subject
matter
to
be
addressed
by
NACEPT
EPA
is
seeking
nominees
for
representation
from
all
sectors,
especially,
state,
local
and
tribal
agencies,
industry,
academia,
environmental
justice
organizations,
grassroots
organizations,
and
NGOs.
Nominations
for
membership
must
include
a
resume
and
short
biography
describing
the
educational
and
professional
qualifications
of
the
nominee
and
the
nominee's
current
business
address
and
daytime
telephone
number.
FOR
FURTHER
INFORMATION
CONTACT:
Mr.
Peter
G.
Redmond,
Designated
Federal
Officer
for
NACEPT,
U.
S.
Environmental
Protection
Agency
(
1601A),
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460;
telephone
(
202)
564
1292,
email:
redmond.
peter@
epa.
gov.
Dated:
October
4,
2001.
Peter
G.
Redmond,
Designated
Federal
Officer.
[
FR
Doc.
01
25586
Filed
10
10
01;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
OPPTS
42212D;
FRL
6806
3]
Endocrine
Disruptor
Method
Validation
Subcommittee
Under
the
National
Advisory
Council
for
Environmental
Policy
and
Technology;
Notice
of
Public
Meeting
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice.
SUMMARY:
As
mandated
by
the
Federal
Food,
Drug,
and
Cosmetic
Act,
as
amended
by
the
Food
Quality
Protection
Act
of
1996,
EPA
is
implementing
an
Endocrine
Disruptor
Screening
Program
(
EDSP).
As
part
of
the
implementation
of
EDSP,
the
Endocrine
Disruptor
Method
Validation
Subcommittee
(
EDMVS)
under
the
National
Advisory
Council
for
Environmental
Policy
and
Technology
(
NACEPT),
a
Federal
Advisory
Committee,
has
been
established.
This
notice
announces
a
2
day
meeting
of
the
EDMVS.
EDMVS
will
provide
technical
advice
on
the
Tier
1
Screening
and
Tier
2
Testing
methods
for
EPA'sEDSP.
The
meeting
is
open
to
the
public.
Seating
is
on
a
first
come
basis.
Individuals
requiring
special
accommodations
at
this
meeting,
including
wheelchair
access,
should
contact
Jane
Smith
at
the
address
listed
under
FOR
FURTHER
INFORMATION
CONTACT
at
least
5
business
days
prior
to
the
meeting,
so
appropriate
arrangements
can
be
made.
DATES:
The
2
day
meeting
will
be
held
on
October
30,
2001,
from
9
a.
m.
to
5:
15
p.
m.
and
October
31,
2001,
from
9
a.
m.
to
12:
30
p.
m.
Requests
to
participate
in
the
meeting
must
be
received
on
or
before
October
26,
2001.
ADDRESSES:
The
meeting
will
be
held
at
the
Hilton
Washington
Dulles
Airport,
13869
Park
Center
Road,
Herndon,
VA
20171.
The
telephone
number
at
the
Hilton
Washington
is
(
703)
478
2900;
the
fax
number
is
(
703)
478
9286.
Requests
to
participate
may
be
submitted
by
mail,
electronically,
or
in
person.
Please
follow
the
detailed
instructions
for
each
method
as
provided
in
Unit
II.
of
the
SUPPLEMENTARY
INFORMATION.
To
ensure
proper
receipt
by
EPA,
your
request
must
identify
docket
control
number
OPPT
42212D
in
the
subject
line
on
the
first
page
of
your
response.
FOR
FURTHER
INFORMATION
CONTACT:
Jane
Smith,
Designated
Federal
Official,
Office
of
Science
Coordination
and
Policy
(
7203),
Environmental
Protection
Agency,
1200
Pennsylvania
Ave.,
NW.,
Washington,
DC
20460;
telephone
number:
(
202)
260
1597;
fax
number:
(
202)
401
1282;
e
mail
address:
smith.
jane
scott&
epa.
gov.
SUPPLEMENTARY
INFORMATION:
I.
Does
This
Action
Apply
to
Me?
This
action
is
directed
to
the
public
in
general.
This
action
may,
however,
be
of
interest
if
you
produce,
manufacture,
use,
consume,
work
with,
or
import
pesticide
chemicals,
substances
that
may
have
an
effect
cumulative
to
an
effect
of
a
pesticide,
or
substances
found
in
sources
of
drinking
water.
To
determine
whether
you
or
your
business
may
have
an
interest
in
this
notice
you
should
carefully
examine
section
408(
p)
of
the
Federal
Food,
Drug,
and
Cosmetic
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| epa | 2024-06-07T20:31:36.011831 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0028-0001/content.txt"
} |
EPA-HQ-RCRA-2001-0041-0001 | Notice | 2001-11-27T05:00:00 | Agency Information Collection Activities: Submission for OMB Review; Comment Request; Requirements for Generators, Transporters, and Hazardous Waste Management Facilities under the RCRA Hazardous Waste Manifest System, EPA ICR No. 801.14 | 59248
Federal
Register
/
Vol.
66,
No.
228
/
Tuesday,
November
27,
2001
/
Notices
ENVIRONMENTAL
PROTECTION
AGENCY
[
FRL
7108
1]
Agency
Information
Collection
Activities:
Submission
for
OMB
Review;
Comment
Request;
Requirements
for
Generators,
Transporters,
and
Hazardous
Waste
Management
Facilities
Under
the
RCRA
Hazardous
Waste
Manifest
System,
EPA
ICR
No.
801.14
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice.
SUMMARY:
In
compliance
with
the
Paperwork
Reduction
Act
(
44
U.
S.
C.
3501
et
seq.),
this
document
announces
that
EPA
is
planning
to
submit
the
following
proposed
and/
or
continuing
Information
Collection
Request
(
ICR)
to
the
Office
of
Management
and
Budget
(
OMB):
Requirements
for
Generators,
Transporters,
and
Hazardous
Waste
Management
Facilities
Under
the
RCRA
Hazardous
Waste
Manifest
System,
EPA
ICR
No.
801.14,
OMB
Control
Number
2050
0039,
current
expiration
date
3/
31/
2002.
Before
submitting
the
ICR
to
OMB
for
review
and
approval,
EPA
is
soliciting
comments
on
specific
aspects
of
the
proposed
information
collection
described
below.
DATES:
Comments
must
be
submitted
on
or
before
January
28,
2002.
ADDRESSES:
Commenters
must
send
an
original
and
two
copies
of
their
comments
referencing
docket
number
F
2001
RW3P
FFFFF
to
RCRA
Docket
Information
Center,
Office
of
Solid
Waste
(
5305G),
U.
S.
Environmental
Protection
Agency,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue
NW.,
Washington,
DC
20460.
Hand
deliveries
of
comments
should
be
made
to
the
Arlington,
VA,
address
listed
below.
Comments
may
also
be
submitted
electronically
by
sending
electronic
mail
through
the
Internet
to:
rcradocket
epamail.
epa.
gov.
Comments
in
electronic
format
should
also
be
identified
by
the
docket
number
F
2001
RW3P
FFFFF.
All
electronic
comments
must
be
submitted
as
an
ASCII
file
avoiding
the
use
of
special
characters
and
any
form
of
encryption.
Public
comments
and
supporting
materials
are
available
for
viewing
in
the
RCRA
Information
Center
(
RIC),
located
at
Crystal
Gateway
1,
1235
Jefferson
Davis
Highway,
first
floor,
Arlington,
VA.
The
RIC
is
open
from
9
a.
m.
to
4
p.
m.,
Monday
through
Friday,
excluding
federal
holidays.
To
review
docket
materials,
the
public
must
make
an
appointment
by
calling
703
603
9230.
The
public
may
copy
a
maximum
of
100
pages
from
any
regulatory
docket
at
no
charge.
Additional
copies
cost
$.
15/
page.
Copies
of
the
original
ICR
may
be
requested
from
the
docket
address
and
phone
number
listed
above
or
may
be
found
on
the
Internet
at:
http://
www.
epa.
gov/
epaoswer/
hazwaste/
gener/
manifest/
icr
man.
htm.
The
official
record
for
this
action
will
be
kept
in
paper
form.
Accordingly,
EPA
will
transfer
all
comments
received
electronically
into
paper
form
and
place
them
in
the
official
record,
which
will
also
include
all
comments
submitted
directly
in
writing.
The
official
record
is
the
paper
record
maintained
in
the
RCRA
Information
Center
(
the
RIC
address
is
listed
above
in
this
section).
FOR
FURTHER
INFORMATION
CONTACT:
For
general
information,
contact
the
RCRA
Hotline
at
1
800
424
9346
or
TDD
1
800
553
7672
(
hearing
impaired).
In
the
Washington
metropolitan
area,
call
703
412
9610
or
TDD
703
412
3323.
For
technical
information,
contact
Bryan
Groce
at
703
308
8750,
groce.
bryan@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
Title:
Requirements
for
Generators,
Transporters,
and
Hazardous
Waste
Management
Facilities
Under
the
RCRA
Hazardous
Waste
Manifest
System,
OMB
Control
No.
2050
0039;
EPA
ICR
No.
801.14)
expiring
3/
30/
2002.
This
is
an
extension
of
a
currently
approved
collection.
Abstract:
The
Resource
Conservation
and
Recovery
Act
(
RCRA),
as
amended,
establishes
a
national
program
to
assure
that
hazardous
waste
management
practices
are
conducted
in
a
manner
that
is
protective
of
human
health
and
the
environment.
EPA's
authority
to
require
compliance
with
the
manifest
system
stems
primarily
from
RCRA
section
3002(
a)(
5).
This
section
mandates
a
hazardous
waste
manifest
``
system''
to
assure
that
all
hazardous
waste
generated
is
designated
for
and
arrives
at
the
appropriate
treatment,
storage,
and
disposal
facility.
An
essential
part
of
this
manifest
system
is
the
Uniform
Hazardous
Waste
Manifest
(
Form
8700
22A).
The
manifest
is
a
tracking
document
that
accompanies
the
waste
from
its
generation
site
to
its
final
disposition.
The
manifest
lists
the
wastes
that
are
being
shipped
and
the
final
destination
of
the
waste.
The
manifest
system
is
a
self
enforcing
mechanism
that
requires
generators,
transporters,
and
owner/
operators
of
treatment,
storage,
and
disposal
facilities
to
participate
in
hazardous
waste
tracking.
In
addition
the
manifest
provides
information
to
transporters
and
waste
management
facility
workers
on
the
hazardous
nature
of
the
waste,
identifies
wastes
so
that
they
can
be
managed
appropriately
in
the
event
of
an
accident,
spill,
or
leak,
and
ensures
that
shipments
of
hazardous
waste
are
managed
properly
and
delivered
to
their
designated
facilities.
This
system
does
not
ordinarily
involve
intervention
on
the
part
of
EPA
unless
hazardous
wastes
do
not
reach
their
point
of
disposition
within
a
specified
time
frame.
In
most
cases,
RCRA
authorized
States
operate
the
manifest
system,
and
requirements
may
vary
among
authorized
States.
EPA
believes
manifest
requirements
and
the
resulting
information
collection
mitigate
potential
hazards
to
human
health
and
the
environment
by
ensuring
that
hazardous
waste
is
sent
to
and
received
by
appropriate
treatment,
storage,
and
disposal
facilities,
by
initiating
appropriate
response
actions
if
a
shipment
does
not
reach
its
intended
destination,
and
by
providing
necessary
emergency
response
information
in
the
event
of
an
accident,
spill,
or
leak
during
transportation.
An
Agency
may
not
conduct
or
sponsor,
and
a
person
is
not
required
to
respond
to,
a
collection
of
information
unless
it
displays
a
currently
valid
OMB
control
number.
The
OMB
control
numbers
for
EPA's
regulations
are
listed
in
40
CFR
part
9
and
48
CFR
Chapter
15.
The
Agency
notes
that
the
burden
hour
and
cost
estimates
given
below
are
based
on
estimates
approved
by
OMB
during
the
1999
ICR
renewal
process.
The
Agency
did
not
have
the
most
recent
Biennial
Reporting
System
(
BRS)
information
available
at
the
time
of
completion
of
this
ICR.
The
Agency
will
update
these
burden
estimates
using
the
most
recent
BRS
information
and
publish
the
revised
burden
estimates
in
a
second
Federal
Register
notice.
Affected
entities
will
have
an
opportunity
to
comment
on
the
revised
burden
estimates
during
a
comment
period
for
the
second
FR
notice.
EPA
would
like
to
solicit
comments
to:
(
i)
Evaluate
whether
the
proposed
collection
of
information
is
necessary
for
the
proper
performance
of
the
functions
of
the
agency,
including
whether
the
information
will
have
practical
utility;
(
ii)
Evaluate
the
accuracy
of
the
agency's
estimate
of
the
burden
of
the
proposed
collection
of
information,
including
the
validity
of
the
methodology
and
assumptions
used;
(
iii)
Enhance
the
quality,
utility,
and
clarity
of
the
information
to
be
collected;
and
(
iv)
Minimize
the
burden
of
the
collection
of
information
on
those
who
are
to
respond,
including
through
the
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Federal
Register
/
Vol.
66,
No.
228
/
Tuesday,
November
27,
2001
/
Notices
use
of
appropriate
automated
electronic,
mechanical,
or
other
technological
collection
techniques
or
other
forms
of
information
technology,
e.
g.,
allowing
electronic
submission
of
responses.
Burden
Statement:
The
annual
public
reporting
and
recordkeeping
burden
for
this
collection
of
information
is
estimated
to
average
1.26
hours
per
response.
Respondents/
Affected
Entities:
Generators,
transporters,
and
treatment,
storage,
and
disposal
facilities
(
TSDFs).
Estimated
Number
of
Respondents:
105,558.
Frequency
of
Response:
Per
shipment
of
hazardous
waste.
Estimated
Total
Annual
Hour
Burden:
2,920,383
hours.
Estimated
Total
Annualized
Capital,
Operating/
Maintenance
Cost
Burden:
$
1,871,246.
Burden
means
the
total
time,
effort,
or
financial
resources
expended
by
persons
to
generate,
maintain,
retain,
or
disclose
or
provide
information
to
or
for
a
Federal
agency.
This
includes
the
time
needed
to
review
instructions;
develop,
acquire,
install,
and
utilize
technology
and
systems
for
the
purposes
of
collecting,
validating,
and
verifying
information,
processing
and
maintaining
information,
and
disclosing
and
providing
information;
adjust
the
existing
ways
to
comply
with
any
previously
applicable
instructions
and
requirements;
train
personnel
to
be
able
to
respond
to
a
collection
of
information;
search
data
sources;
complete
and
review
the
collection
of
information;
and
transmit
or
otherwise
disclose
the
information.
Dated:
November
20,
2001.
Elizabeth
A.
Cotsworth,
Director,
Office
of
Solid
Waste.
[
FR
Doc.
01
29472
Filed
11
26
01;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
FRL
7109
2]
Notice
of
Availability
for
Draft
Guidance
on
Source
Determinations
for
Combined
Heat
and
Power
Facilities
Under
the
Clean
Air
Act
New
Source
Review
and
Title
V
Programs
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice
of
availability;
reopening
of
comment
period.
SUMMARY:
The
EPA
is
hereby
reopening
for
15
days
the
public
review
and
comment
period
regarding
a
preliminary
draft
of
its
pending
guidance
on
Source
Determinations
for
Combined
Heat
and
Power
(
CHP)
Facilities
under
the
Clean
Air
Act
New
Source
Review
and
Title
V
Programs
(
66
FR
52403,
October
15,
2001).
The
combined
generation
of
heat
and
power,
also
known
as
cogeneration,
has
been
an
energy
supply
option
for
nearly
100
years
and
is
used
in
many
sectors
of
the
economy.
In
light
of
ever
increasing
demand
for
energy,
electric
power
industry
restructuring
and
crossprogram
pollution
prevention
initiatives,
EPA
is
committed
to
improving
the
efficiency
at
which
we
convert
fuels
into
useful
energy.
Properly
designed
and
implemented
CHP
is
a
key
element
to
achieving
the
nation's
energy
goals,
because
CHPs
are
capable
of
independently
providing
power
to
the
grid
or
customers
other
than
the
host
facility
and
therefore
can
help
alleviate
power
shortfalls.
Recognizing
this,
the
Report
of
the
National
Energy
Policy
Development
Group
recommends
``
that
the
President
direct
the
EPA
Administrator
to
promote
CHP
through
flexibility
in
environmental
permitting.''
A
draft
of
EPA's
guidance
is
available
for
public
review
and
comment.
The
EPA
does
not
intend
to
respond
to
individual
comments,
but
rather
to
consider
the
comments
from
the
public
in
the
preparation
of
the
final
guidance.
It
is
important
that
the
draft
guidance
being
made
available
today
for
public
review
and
comment
does
not
represent
official
EPA
policy
or
a
formal
position
on
the
subject
matter
discussed
and
therefore
is
not
to
be
relied
on
in
interpreting
EPA
policy.
DATES:
The
comment
period
on
the
draft
guidance
will
close
on
December
12,
2001.
ADDRESSES:
Written
comments
should
be
sent
to
Pamela
J.
Smith,
Information
Transfer
and
Program
Integration
Division
(
MD
12),
Office
of
Air
Quality
Planning
and
Standards,
U.
S.
EPA,
Research
Triangle
Park,
North
Carolina
27711,
telephone
919
541
0641,
telefax
919
541
5509
or
E
mail
smith.
pam@
epa.
gov.
FOR
FURTHER
INFORMATION
CONTACT:
Kathy
Kaufman,
Office
of
Air
Quality
Planning
and
Standards,
U.
S.
EPA,
MD
12,
Research
Triangle
Park,
NC
27711,
telephone
919
541
0102
or
E
mail
kaufman.
kathy@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
A
copy
of
the
draft
guidance
document
may
be
obtained
by
calling
or
E
mailing
Pamela
J.
Smith.
The
draft
guidance
may
also
be
downloaded
from
the
NSR
Web
Site
http://
www.
epa.
gov/
ttn/
nsr
under
the
topic
``
What's
New
on
NSR.''
Dated:
November
16,
2001.
Jeffrey
Clark,
Acting
Director,
Office
of
Air
Quality
Planning
and
Standards.
[
FR
Doc.
01
29546
Filed
11
26
01;
8:
45
am]
BILLING
CODE
6560
50
P
FEDERAL
COMMUNICATONS
COMMISSION
[
CC
Docket
No.
01
194;
FCC
01
338]
Joint
Application
by
SBC
Communications
Inc.,
Southwestern
Bell
Telephone
Company,
and
Southwestern
Bell
Communications
Services,
Inc.
d/
b/
a
Southwestern
Bell
Long
Distance
To
Provide
In
Region,
InterLATA
Service
in
the
States
of
Arkansas
and
Missouri
AGENCY:
Federal
Communications
Commission.
ACTION:
Notice.
SUMMARY:
In
this
document,
the
Federal
Communications
Commission
(
Commission)
grants
the
section
271
application
of
Southwestern
Bell
Telephone
Company
(
SWBT)
for
authority
to
enter
the
interLATA
telecommunications
market
in
the
States
of
Arkansas
and
Missouri.
The
Commission
grants
SWBT's
application
based
on
our
conclusion
that
Southwestern
Bell
satisfies
all
of
the
statutory
requirements
established
by
Congress
in
section
271
of
the
Communications
Act.
DATES:
Effective
November
26,
2001.
FOR
FURTHER
INFORMATION
CONTACT:
Scott
Bergmann,
Legal
Counsel,
Common
Carrier
Bureau,
at
(
202)
418
1580,
or
via
the
Internet
at
sbergman@
fcc.
gov.
The
full
text
of
the
Order
is
available
for
inspection
and
copying
during
normal
business
hours
in
the
FCC
Reference
Information
Center,
CY
A257,
445
12th
Street,
SW.,
Washington,
DC
20554.
Further
information
may
also
be
obtained
by
calling
the
Common
Carrier
Bureau's
TTY
number:
(
202)
418
0484.
SUPPLEMENTARY
INFORMATION:
This
document
is
a
brief
description
of
the
Commission's
Memorandum
Opinion
and
Order
adopted
November
16,
2001,
and
released
November
16,
2001.
The
full
text
also
may
be
obtained
through
the
World
Wide
Web,
at
<<
http://
www.
fcc.
gov/
Bureaus/
Common_
Carrier/
inregion
applications/
sbcksok/
welcome.
html>>,
or
may
be
purchased
from
the
Commission's
copy
contractor,
Qualex
International
Transcription
Service
Inc.
(
ITS),
CY
B
402,
445
12th
Street,
SW.,
Washington,
DC.
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| epa | 2024-06-07T20:31:36.044190 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2001-0041-0001/content.txt"
} |
EPA-HQ-RCRA-2003-0002-0201 | Supporting & Related Material | 2001-12-17T05:00:00 | null | MRAM
DATA
BASE
Page
1
STUDIES
RECEIVED
69
LIKE
SITE
CHARACTERISTICS:
12
Surface
Mines
and
8
Deep
Mines
8
Groundwater
sites
(
5
surface
and
3
deep
mines)
SITE
CHARACTERISTICS:
40
Surface
Mines
and
15
Deep
Mines
Mine
Characteristics
°
Mine
name
and
location
°
Mine
dimensions
and
volume
°
Placement
dates
and
purpose
°
Regulation
and
time
of
placement
CCB
Placement
Characteristics
°
CCB
Type
°
CCB
Aditives
°
CCB
Placement
Volume
°
Placement
within
Mine
°
Permit
Acreage
°
Placement/
Management
Practice
Mine
Site
Characteristics
°
Soil
°
Bedrock
Stratigraphy
°
General
Topolgy
Page
2
November
13,
2001
ASH
AND
LEACHATE
CHARACTERISTICS:
60
Surface
Mines
and
7
Deep
Mines
°
CCB
Source
°
Solid
Coal
Ash
Chemical
Characteristics
major
constituent
indicators
minor
constituent
indicators
°
Leachate
Chemical
Characteristics
Primary
Drinking
Water
const.
Secondary
Drinking
Water
const.
Other
constituents
pH
GROUNDWATER
CHARACTERISTICS
SUMMARY:
5
Surface
Mines
and
3
Deep
Mines
°
Wells
selected:
Up
gradient,
Placement/
Injection
Area,
Down
gradient
1
or
2
of
each
type
of
well
°
Sample
date
averages:
pre
placement/
injection,
1
Yr,
3
Yr,
5
Yr,
5Yr
+
°
Primary
Drinking
Water
Constituents
°
Secondary
Drinking
Water
Constituents
°
Eco
Toxicity
and
Other
Constituents
°
pH
GROUNDWATER
DATA
DRAFT
LIKE
SITE
CHARACTERISTICS
Page
3
November
13,
2001
Mine
Name,
Location
Highvale
,
Canada
Universal,
IN
Center,
ND
Big
Gorilla,
PA
Knickerbocker
PA
"
City,"
IN
Wilton,
ND
Longridge,
WV
Mine
Type
Surface
Surface
Surface
Surface
Surface
Deep
Deep
Deep
Climatic
Region
Arid
Semiarid
Semiarid
Humid
Humid
Semiarid
Semiarid
Humid
AMD
Unknown
Yes
Yes
Yes
No
No
No
Yes
CCB
Placement
Above
GW
Above
GW
Above
Below
GW
Below
Above
GW
Above
&
Below
GW
Below
Below
CCB
Type
Ash
Ash
Ash
&
FGD
FBC
FBC
FGD
&
Ash
Ash
FBC
Concrete
Additive
No
No
No
No
Yes
Yes
(
lime)
No
Yes
Drainage
Control
Unknown
Cap
and
Runoff
No
No
No
No
No
No
Cap
Material
Unknown
clay
5'
uncompacted
NA
NA
NA
NA
NA
NA
Liner
No
No
No
No
No
No
No
No
AMD
Control
Unknown
Yes
(
NPDES
discharge
pump
at
sedimentation
pond
Natural
acid
buffering
capacity
of
overburden
No
No
No
No
No
GW
Quality
Conclusion/
Assessme
nt
Incconclusive
No
Change
Incconclusive
No
Change
No
Change
Incconclusive
Incconclusive
Degraded
Preinjection
GW
data
None
5/
88
1/
89
5/
77
6/
81
8/
89
7/
97
8/
97
8/
98
1/
94
7/
94
None
1/
98
12/
98
Current/
Pos
t
injection
GW
data
7/
78
4/
01
5/
89
11/
00
3/
78
7/
85
8/
97
2/
99
9/
98
3/
01
10/
94
8/
95
7/
94
4/
95
1/
99
11/
00
MCL
exceedance
None
Pb
As,
Ba,
Cd,
Cr,
Pb,
Se
None
Cd
Cd
None
As,
Cd,
Pb,
Se
Final
PH
Assessme
nt
Neutral
to
Slightly
Basic
Slightly
Acidic
to
Neutral
Neutral
to
Slightly
Basic
Acidic
Slightly
Acidic
to
Neutral
Slightly
Acidic
to
Neutral
Slightly
Acidic
Acidic
| epa | 2024-06-07T20:31:36.206037 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2003-0002-0201/content.txt"
} |
EPA-HQ-RCRA-2003-0003-0046 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:36.238987 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2003-0003-0046/content.txt"
} |
|
EPA-HQ-RCRA-2003-0003-0047 | Supporting & Related Material | 2001-09-17T04:00:00 | null | epa | 2024-06-07T20:31:36.242118 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2003-0003-0047/content.txt"
} |
|
EPA-HQ-RCRA-2003-0018-0001 | Notice | 2001-10-01T04:00:00 | Agency Information Collection Activities: Submission for OMB Review; Comment Request; Criteria for Classification of Solid Waste Disposal Facilities and Practices, Recordkeeping and Reporting Requirements; 40 CFR Part 257, Subpart B; Notice | 61621
Federal
Register
/
Vol.
67,
No.
190
/
Tuesday,
October
1,
2002
/
Notices
Description
of
Alternatives
Construction
of
the
FHWA
preferred
alternative
will
require
removal
and
modification
of
Western's
transmission
system.
Western
evaluated
seven
preliminary
electrical
transmission
reconfiguration
options
as
part
of
the
EIS.
All
options
require
removal
of
existing
spans
and
towers
and
construction
of
new
spans.
Three
of
the
options
would
require
removal
of
the
existing
A&
N
Switchyard
and
replacing
a
single
phase
circuit
with
a
doublephase
circuit
to
the
Mead
Substation
(
phase
two).
Additionally,
the
Sugarloaf
Mountain
Alternative
requires
a
realignment
of
two
of
the
Hoover
Mead
transmission
lines
to
accommodate
the
new
highway
alignment.
Western
determined
the
best
engineering
approach
for
the
phase
one
and
two
modifications
discussed
above
based
on
an
evaluation
of
the
electrical
conditions
on
the
transmission
lines
and
switchyards
and
current
transmission
line
construction
and
electrical
standards.
The
No
Action
Alternative
was
evaluated
in
the
EIS
and
found
to
not
meet
the
Project
purpose
and
need.
Mitigation
Measures
The
Final
EIS
identified
mitigation
measures
needed
to
reduce
the
impacts
of
the
Project.
The
specific
measures
are
discussed
in
the
FHWA
ROD
on
pages
22
to
35
and
in
Chapter
3
of
the
EIS.
Western
is
adopting
those
measures
that
are
applicable
to
its
action
and
will
issue
a
Mitigation
Action
Plan
(
MAP)
prior
to
any
construction
activities
that
will
address
the
adopted
and
standard
mitigation
measures.
Some
of
the
measures
include
restricting
vehicular
traffic
to
existing
access
roads
or
public
roads,
recontouring
and
reseeding
disturbed
areas,
environmental
awareness
training
for
all
construction
and
supervisory
personnel,
and
mitigation
of
radio
and
television
interference
generated
by
transmission
lines.
Long
term
operations
of
the
transmission
line
will
follow
Western's
standard
operating
procedures
and
will
not
be
affected
by
this
action.
The
mitigation
that
applies
to
the
construction
of
the
new
lines
and
the
upgrading
of
the
existing
lines
includes
the
following
provisions:
1.
Protection
of
the
desert
tortoise
and
banded
Gila
monster
through
compliance
with
the
FHWA
Biological
Opinion.
2.
Protection
of
Cultural
and
Historical
resources
as
signators
to
the
Programmatic
Agreement.
3.
Adoption
of
mitigation
measures
as
specified
in
the
FWHA
EIS.
4.
Monitor
actions
for
compliance
with
Western's
standard
mitigation
measures.
This
ROD
has
been
prepared
in
accordance
with
Council
on
Environmental
Quality
regulations
for
implementing
NEPA
(
40
CFR
parts
1500
1508)
and
DOE
Procedures
for
Implementing
NEPA
(
10
CFR
part
1021).
Upon
approval,
the
MAP
will
be
made
available.
Dated:
September
20,
2002.
Michael
S.
Hacskaylo,
Administrator.
[
FR
Doc.
02
24862
Filed
9
30
02;
8:
45
am]
BILLING
CODE
6450
01
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
FRL
7386
6]
Agency
Information
Collection
Activities:
Submission
for
OMB
Review;
Comment
Request;
Criteria
for
Classification
of
Solid
Waste
Disposal
Facilities
and
Practices,
Recordkeeping
and
Reporting
Requirements
40
CFR
Part
257,
Subpart
B
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice.
SUMMARY:
In
compliance
with
the
Paperwork
Reduction
Act
(
44
U.
S.
C.
3501
et
seq.),
this
document
announces
that
the
following
Information
Collection
Request
(
ICR)
has
been
forwarded
to
the
Office
of
Management
and
Budget
(
OMB)
for
review
and
approval:
Criteria
for
Classification
of
Solid
Waste
Disposal
Facilities
and
Practices,
Recordkeeping
and
Reporting
requirements
40
CFR
Part
257,
Subpart
B,
ICR
#
1745.04,
OMB
Control
#
2050
0154,
expiring
September
30,
2002.
The
ICR
describes
the
nature
of
the
information
collection
and
its
expected
burden
and
cost;
where
appropriate,
it
includes
the
actual
data
collection
instrument.
DATES:
Comments
must
be
submitted
on
or
before
October
31,
2002.
ADDRESSES:
Send
comments,
referencing
EPA
ICR
No.
1745.04
and
OMB
Control
No.
2050
0154,
to
the
following
addresses:
Susan
Auby,
U.
S.
Environmental
Protection
Agency,
Collection
Strategies
Division
(
Mail
Code
2822T),
1200
Pennsylvania
Avenue,
NW.,
Washington,
DC
20460
0001;
and
to
Office
of
Information
and
Regulatory
Affairs,
Office
of
Management
and
Budget
(
OMB),
Attention:
Desk
Officer
for
EPA,
725
17th
Street,
NW.,
Washington,
DC
20503.
FOR
FURTHER
INFORMATION
CONTACT:
For
a
copy
of
the
ICR
contact
Susan
Auby
at
EPA
by
phone
at
(
202)
566
1672,
by
e
mail
at
auby.
susan@
epa.
gov,
or
download
off
the
Internet
at
http://
www.
epa.
gov/
icr
and
refer
to
EPA
ICR
No.
1745.04.
For
technical
questions
about
the
ICR
contact
Paul
Cassidy
at
703
308
7281
in
the
Office
of
Solid
Waste.
SUPPLEMENTARY
INFORMATION:
Criteria
for
Classification
of
Solid
Waste
Disposal
Facilities
and
Practices,
Recordkeeping
and
Reporting
Requirements
40
CFR
Part
257,
Subpart
B
,
OMB
Control
No.
2050
0154,
EPA
ICR
No.
1745.04,
expiring
September
30,
2002.
This
is
a
request
for
extension
of
a
currently
approved
collection.
In
order
to
effectively
implement
and
enforce
final
changes
to
40
CFR
part
257,
subpart
B
on
a
State
level,
owners/
operators
of
construction
and
demolition
waste
landfills
that
receive
CESQG
hazardous
wastes
will
have
to
comply
with
the
final
reporting
and
recordkeeping
requirements.
The
1984
Hazardous
and
Solid
Waste
Amendments
(
HSWA)
to
the
Resource
Conservation
and
Recovery
Act
(
RCRA),
as
amended,
mandated
that
the
U.
S.
Environmental
Protection
Agency
(
EPA)
revise
the
Criteria
for
Solid
Waste
Disposal
Facilities
that
may
receive
household
hazardous
wastes
and
conditionally
exempt
small
quantity
generator
(
CESQG)
wastes.
EPA
submitted
a
Report
to
Congress
in
October
1988
that
assessed
the
impacts
on
human
health
and
the
environment
associated
with
Subtitle
D
(
nonhazardous
waste)
units.
While
this
study
found
that
the
revised
Criteria
for
municipal
solid
waste
disposal
units
were
necessary
to
protect
human
health
and
the
environment,
the
report
failed
to
draw
a
conclusion
relating
to
industrial
Subtitle
D
units.
The
limited
data
on
such
units
indicated
that
there
might
be
a
basis
for
concern
and
further
study
was
needed.
An
agency
may
not
conduct
or
sponsor,
and
a
person
is
not
required
to
respond
to,
a
collection
of
information
unless
it
displays
a
currently
valid
OMB
control
number.
The
OMB
control
numbers
for
EPA's
regulations
are
listed
in
40
CFR
part
9
and
48
CFR
chapter
15.
The
Federal
Register
document
required
under
5
CFR
1320.8(
d),
soliciting
comments
on
this
collection
of
information
was
published
on
May
1,
2002
(
67
FR
21668);
no
comments
were
received.
Burden
Statement:
The
annual
public
reporting
and
record
keeping
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20:
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61622
Federal
Register
/
Vol.
67,
No.
190
/
Tuesday,
October
1,
2002
/
Notices
burden
for
this
collection
of
information
is
estimated
to
average
67
hours
per
response.
Burden
means
the
total
time,
effort,
or
financial
resources
expended
by
persons
to
generate,
maintain,
retain,
or
disclose
or
provide
information
to
or
for
a
Federal
agency.
This
includes
the
time
needed
to
review
instructions;
develop,
acquire,
install,
and
utilize
technology
and
systems
for
the
purposes
of
collecting,
validating,
and
verifying
information,
processing
and
maintaining
information,
and
disclosing
and
providing
information;
adjust
the
existing
ways
to
comply
with
any
previously
applicable
instructions
and
requirements;
train
personnel
to
be
able
to
respond
to
a
collection
of
information;
search
data
sources;
complete
and
review
the
collection
of
information;
and
transmit
or
otherwise
disclose
the
information.
Respondents/
Affected
Entities:
Construction
and
demolition
waste
landfill
owners/
operators
and
State
Agencies.
Estimated
Number
of
Respondents:
145.
Frequency
of
Response:
On
occasion.
Estimated
Total
Annual
Hour
Burden:
9,675
hours.
Estimated
Total
Annualized
Capital,
O&
M
Cost
Burden:
$
938.
Send
comments
on
the
Agency's
need
for
this
information,
the
accuracy
of
the
provided
burden
estimates,
and
any
suggested
methods
for
minimizing
respondent
burden,
including
through
the
use
of
automated
collection
techniques
to
the
addresses
listed
above.
Please
refer
to
EPA
ICR
No.
1745.04
and
OMB
Control
No.
2050
0154
in
any
correspondence.
Dated:
September
2,
2002.
Oscar
Morales,
Director,
Collection
Strategies
Division.
[
FR
Doc.
02
24805
Filed
9
30
02;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
UT
001
0050;
FRL
7388
2]
Adequacy
Status
of
the
Utah
County,
Utah
PM10
State
Implementation
Plan
Revision
for
Transportation
Conformity
Purposes
AGENCY:
Environmental
Protection
Agency
(
EPA).
ACTION:
Notice
of
adequacy.
SUMMARY:
In
this
document,
EPA
is
notifying
the
public
that
we
have
found
that
the
motor
vehicle
emissions
budgets
(
for
2010
and
2020)
in
the
Utah
County,
Utah
particulate
matter
of
10
micrograms
in
size
or
smaller
(
PM10)
State
Implementation
Plan
(
SIP)
revision
submitted
on
July
3,
2002,
are
adequate
for
conformity
purposes.
On
March
2,
1999,
the
D.
C.
Circuit
Court
ruled
that
submitted
SIPs
cannot
be
used
for
conformity
determinations
until
EPA
has
affirmatively
found
them
adequate.
As
a
result
of
our
finding,
the
Mountainland
Association
of
Governments,
the
Utah
Department
of
Transportation,
and
the
U.
S.
Department
of
Transportation
are
required
to
use
the
2010
and
2020
motor
vehicle
emissions
budgets
from
this
submitted
SIP
revision
for
future
conformity
determinations.
DATES:
This
finding
is
effective
October
16,
2002.
FOR
FURTHER
INFORMATION
CONTACT:
Kerri
Fiedler,
Air
&
Radiation
Program
(
8P
AR),
United
States
Environmental
Protection
Agency,
Region
8,
999
18th
Street,
Suite
300,
Denver,
Colorado
80202
2466,
(
303)
312
6493.
The
letter
documenting
our
finding
is
available
at
EPA's
conformity
website:
http://
www.
epa.
gov/
oms/
transp/
conform/
adequacy.
htm.
SUPPLEMENTARY
INFORMATION:
Throughout
this
document
wherever
``
we,''
``
us,''
or
``
our''
are
used
we
mean
EPA.
This
action
is
simply
an
announcement
of
a
finding
that
we
have
already
made.
We
sent
a
letter
to
the
Utah
Department
of
Environmental
Quality
on
September
5,
2002
stating
that
the
2010
and
2020
PM10
and
NOX
motor
vehicle
emissions
budgets
in
the
submitted
Utah
County
PM10
SIP
revision
are
adequate.
This
finding
has
also
been
announced
on
our
conformity
website
at
http://
www.
epa.
gov/
oms/
transp/
conform/
adequacy.
htm.
Transportation
conformity
is
required
by
section
176(
c)
of
the
Clean
Air
Act.
Our
conformity
rule
requires
that
transportation
plans,
programs,
and
projects
conform
to
SIPs
and
establishes
the
criteria
and
procedures
for
determining
whether
or
not
they
do.
Conformity
to
a
SIP
means
that
transportation
activities
will
not
produce
new
air
quality
violations,
worsen
existing
violations,
or
delay
timely
attainment
of
the
national
ambient
air
quality
standards.
The
criteria
by
which
we
determine
whether
a
SIP's
motor
vehicle
emission
budgets
are
adequate
for
conformity
purposes
are
outlined
in
40
CFR
93.118(
e)(
4).
Please
note
that
an
adequacy
review
is
separate
from
our
completeness
review,
and
it
also
should
not
be
used
to
prejudge
our
ultimate
approval
of
the
SIP.
Even
if
we
find
a
budget
adequate,
the
SIP
could
later
be
disapproved,
and
vice
versa.
We've
described
our
process
for
determining
the
adequacy
of
submitted
SIP
budgets
in
a
memo
entitled,
``
Conformity
Guidance
on
Implementation
of
March
2,
1999
Conformity
Court
Decision,''
dated
May
14,
1999.
We
followed
this
guidance
in
making
our
adequacy
determination.
Authority:
42
U.
S.
C.
7401
et
seq.
Dated:
September
23,
2002.
Robert
E.
Roberts,
Regional
Administrator,
Region
VIII.
[
FR
Doc.
02
24916
Filed
9
30
02;
8:
45
am]
BILLING
CODE
6560
50
P
ENVIRONMENTAL
PROTECTION
AGENCY
[
FRL
7387
7]
EPA
Science
Advisory
Board,
Notification
of
Public
Advisory
Committee
Meetings
of
the
Contaminated
Sediment
Science
Plan
Review
Panel;
and
Notification
of
Cancelled
Meetings
of
the
Human
Health
Research
Strategy
Review
Panel
Pursuant
to
the
Federal
Advisory
Committee
Act,
Public
Law
92
463,
notice
is
hereby
given
of
three
meetings
of
the
Contaminated
Sediment
Science
Plan
Review
Panel
(
CSSP
Review
Panel)
of
the
U.
S.
Environmental
Protection
Agency's
(
EPA)
Science
Advisory
Board
(
SAB).
The
Panel
will
meet
on
the
dates
and
times
noted
below.
All
times
noted
are
Eastern
Time.
All
meetings
are
open
to
the
public,
however,
seating
is
limited
and
available
on
a
first
come
basis.
For
teleconference
meetings,
available
lines
may
also
be
limited.
Important
Notice:
The
document
that
is
the
subject
of
this
SAB
review,
Contaminated
Sediment
Science
Plan,
June
13,
2002
draft,
is
available
on
the
SAB
Web
site
at
http://
www.
epa.
gov/
sab/
panels/
cssprpanel.
html.
Any
questions
concerning
the
draft
document
should
be
directed
to
the
program
contact
noted
below.
Background
The
background
for
this
review
and
the
charge
to
the
panel
were
published
in
the
67
FR
49336,
July
30,
2002.
The
notice
also
included
a
draft
charge
to
the
panel,
a
call
for
nominations
for
members
of
the
panel
in
certain
technical
expertise
areas
needed
to
address
the
charge
and
described
the
process
to
be
used
in
forming
the
panel.
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| epa | 2024-06-07T20:31:36.288140 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-RCRA-2003-0018-0001/content.txt"
} |
EPA-HQ-SFUND-2001-0006-0001 | Notice | 2001-01-03T05:00:00 | Draft Guidance For National Hazardous Waste Ombudsman and Regional Superfund
Ombudsmen Program | 365
Federal
Register
/
Vol.
66,
No.
2
/
Wednesday,
January
3,
2001
/
Notices
Directors,
and
CSO
communities
can
take
to
address
their
concerns.
The
objective
of
this
guidance
is
to
lay
a
strong
foundation
for
integrating
CSO
long
term
control
planning
with
water
quality
standards
reviews.
Reaching
early
agreement
among
CSO
communities,
States,
EPA,
and
the
public
on
the
data
to
be
collected
and
the
analyses
to
be
conducted
to
support
the
long
term
control
plan
development
and
water
quality
standards
reviews
can
facilitate
the
review
of
water
quality
standards
and
the
reconciliation
of
water
quality
standards
with
an
affordable,
well
designed
and
operated
CSO
control
programs.
The
guidance
describes
the
process
for
integrating
LTCP
development
and
implementation
with
the
water
quality
standards
review.
This
process
is
the
centerpiece
of
EPA's
renewed
commitment
to
assure
that
both
communities
with
combined
sewer
systems
and
States
participate
in
implementing
the
water
quality
based
provisions
in
the
CSO
Control
Policy.
The
CSO
Control
Policy
anticipates
the
``
review
and
revision,
as
appropriate,
of
water
quality
standards
and
their
implementation
procedures
when
developing
CSO
control
plans
to
reflect
site
specific
impacts
of
CSOs.
''
Integrating
CSO
long
term
control
planning
with
water
quality
standards
reviews
requires
extensive
coordination
among
CSO
communities,
States,
EPA,
and
the
public.
Although
this
coordination
is
an
intensive
iterative
process,
it
provides
greater
assurance
that
CSO
communities
will
implement
affordable
CSO
control
programs
that
support
the
attainment
of
appropriate
water
quality
standards.
Dated:
December
20,
2000.
J.
Charles
Fox,
Assistant
Administrator
for
Water.
[FR
Doc.
01±
113
Filed
1±
2±
01;
8:
45
am]
BILLING
CODE
6560±
50±
P
ENVIRONMENTAL
PROTECTION
AGENCY
[FRL±
6928±
8]
Draft
Guidance
for
National
Hazardous
Waste
Ombudsman
and
Regional
Superfund
Ombudsmen
Program
AGENCY:
Environmental
Protection
Agency.
ACTION:
Notice
of
available
draft
guidance
with
request
for
comment.
SUMMARY:
The
Environmental
Protection
Agency
(EPA)
has
developed
and
is
requesting
comment
on
the
``
Draft
Guidance
for
National
Hazardous
Waste
Ombudsman
and
Regional
Superfund
Ombudsmen
Program.
''
The
Office
of
Solid
Waste
and
Emergency
Response
(OSWER)
National
Hazardous
Waste
and
Superfund
Ombudsman
(National
Ombudsman)
and
the
Regional
Superfund
Ombudsmen
(Regional
Ombudsmen)
were
established
to
provide
help
to
the
public
in
resolving
issues
and
concerns
raised
about
the
solid
and
hazardous
waste
programs
administered
by
OSWER.
The
purpose
of
this
draft
guidance
is
to
explain
the
role
of
the
Ombudsmen,
their
scope
of
activity,
and
the
guidelines
under
which
they
coordinate
and
carry
out
their
responsibilities.
EPA
believes
this
draft
guidance
will
improve
the
effectiveness
of
this
program
by
giving
the
Ombudsmen
and
those
who
may
contact
them
a
clear
and
consistent
set
of
operating
policies
and
expectations.
DATES:
To
make
sure
we
consider
your
comments
we
must
receive
them
by
March
5,
2001.
Comments
received
after
that
date
will
be
considered
to
the
extent
feasible;
however,
EPA
will
not
delay
finalizing
the
guidance
to
accommodate
late
comments.
ADDRESSES:
You
may
request
copies
of
the
``
Draft
Guidance
for
National
Hazardous
Waste
Ombudsman
and
Regional
Superfund
Ombudsmen
Program''
by
any
of
the
following
ways:
Mail:
write
to:
Docket
Coordinator,
Headquarters,
U.
S.
EPA,
CERCLA
Docket
Office,
(Mail
Code
5201G),
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460.
Phone:
call:
(703)
603±
9232,
or
(800)
424±
9346.
Internet:
http://
www.
epa.
gov/
swerrims/
whatsnew.
htm
If
you
wish
to
send
us
comments
on
the
guidance,
you
must
send
them
in
any
one
of
the
following
ways:
Mail:
Docket
Coordinator,
Headquarters,
U.
S.
EPA,
CERCLA
Docket
Office,
(Mail
Code
5201G),
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
NW,
Washington,
D.
C.
20460.
Express
Mail
or
courier
(such
as
Federal
Express,
other
overnight
delivery,
or
courier):
Docket
Coordinator,
Headquarters,
U.
S.
EPA,
CERCLA
Docket
Office,
1235
Jefferson
Davis
Highway,
Crystal
Gateway
#1,
First
Floor,
Arlington,
Virginia,
22202.
E
mail:
in
ASCII
format
only
to:
superfund.
docket@
epa.
gov.
FOR
FURTHER
INFORMATION
CONTACT:
Caroline
Previ,
phone
number
(202)
260±
2593,
Office
of
Solid
Waste
and
Emergency
Response
(Mail
Code
5101),
U.
S.
Environmental
Protection
Agency,
Ariel
Rios
Building,
1200
Pennsylvania
Avenue,
N.
W.,
Washington,
D.
C.
20460,
or
the
Superfund
Hotline,
phone
number
(800)
424±
9346
or
(703)
412±
9810
in
the
Washington,
D.
C.
metropolitan
area.
SUPPLEMENTARY
INFORMATION:
I.
Introduction
The
program
managers
and
staff
in
the
Regions
and
at
Headquarters
are
committed
to
implementing
the
federal
solid
waste
and
hazardous
waste
statutes
managed
by
EPA,
being
responsive
to
the
public,
and
resolving
issues
and
concerns
brought
to
their
attention.
In
some
cases,
the
individual
or
group
raising
a
given
concern
does
not
believe
the
official
problem
solving
channels
dealt
fairly
or
fully
with
their
situation.
In
such
cases,
the
individual
or
group
may
request
assistance
from
the
Office
of
Solid
Waste
and
Emergency
Response
(OSWER)
Ombudsman,
an
Agency
official
designated
to
receive
inquiries
and
complaints
about
the
administration
of
OSWER
programs.
The
National
and
Regional
Ombudsmen
receive
many
calls
for
assistance
each
yearÐ
ranging
from
routine
questions
about
hazardous
waste
laws
to
specific
complaints
about
allegedly
improper
activities
conducted
at
a
site
or
facility.
Today's
Federal
Register
notice
introduces
a
policy
entitled
``
Draft
Guidance
for
National
Hazardous
Waste
Ombudsman
and
Regional
Superfund
Ombudsmen
Program''
which
explains
the
role
and
conduct
of
the
OSWER
National
Ombudsman
and
the
Regional
Superfund
Ombudsmen,
scope
of
their
activity,
and
the
guidelines
under
which
they
coordinate
and
carry
out
their
responsibilities.
The
main
objective
in
issuing
this
guidance
is
to
improve
the
effectiveness
of
this
program
by
giving
the
Ombudsmen
and
those
who
may
contact
them
a
clear
and
consistent
set
of
operating
policies
and
expectations.
This
draft
guidance
would
cover
only
the
Ombudsmen
who
work
on
OSWER
related
issues,
and
staff
who
supply
primary
support
or
assistance
to
the
Ombudsmen.
This
guidance,
when
finalized,
is
not
intended
to
be,
and
should
not
be
construed
as
a
rule.
Use
of
the
guidance
would
not
be
legally
binding
on
EPA
managers
or
staff
or
on
other
parties.
EPA
is
seeking
public
comment
at
this
time
to
ensure
hearing
the
widest
range
of
views
and
obtaining
all
information
relevant
to
the
development
of
the
guidance.
II.
Background
The
hazardous
and
solid
waste
management
laws
passed
by
Congress
created
some
of
the
most
complex
programs
administered
by
EPA
and
the
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/
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2
/
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January
3,
2001
/
Notices
States.
Recognizing
this,
Congress
established
a
National
Ombudsman
function
in
1984
as
part
of
amendments
to
the
Resource
Conservation
and
Recovery
Act
(RCRA)
so
that
the
public
would
have
someone
to
come
to
with
questions
and
concerns
about
the
RCRA
program.
Soon
after,
we
issued
the
``
Hazardous
Waste
Ombudsman
Handbook''
to
help
the
newly
created
National
Ombudsman
administer,
and
the
public
understand
what
to
expect
from,
the
Ombudsman
program.
During
the
initial
years
of
the
National
Ombudsman
program,
most
of
the
assistance
sought
by
the
public
was
for
help
understanding
the
complex
RCRA
program.
The
Ombudsman
spent
most
of
his
time
responding
to
general
questions
and
directing
requests
to
the
appropriate
sources.
The
handbook
reflected
this
role.
When
the
statutory
authority
for
the
National
Ombudsman
program
expired
in
1989,
OSWER
retained
the
function
as
a
matter
of
policy.
In
1991,
OSWER
broadened
the
National
Ombudsman's
scope
of
activity
to
include
other
programs
administered
by
OSWER,
particularly
the
Superfund
program.
The
National
Ombudsman
is
located
in
the
EPA
Headquarters
office
in
Washington,
DC.
In
1995,
EPA
created
a
Regional
Superfund
Ombudsman
position
in
each
EPA
Regional
office
as
part
of
the
Superfund
Administrative
Reforms.
The
Regional
Ombudsmen
program,
at
a
minimum,
operates
in
support
of
the
Superfund
program,
butÐ
depending
on
the
RegionÐ
may
also
provide
support
to
other
programs,
including
RCRA,
Underground
Storage
Tanks
(UST),
and
chemical
emergency
prevention
and
preparedness.
Over
the
years,
the
public
gained
a
better
understanding
of
EPA's
hazardous
waste
programs.
Requests
for
answers
to
basic
questions
more
frequently
became
requests
for
resolution
of
complaints.
The
Ombudsman
function
evolved
to
reflect
these
changes.
The
existing
guidance
no
longer
reflects
the
Ombudsman
function
as
it
has
evolved.
In
the
Fall
of
1999,
the
EPA
established
an
internal
workgroup
to
update
the
``
Hazardous
Waste
Ombudsman
Handbook.
''
In
preparing
the
updated
guidance,
the
workgroup
met
with
representatives
of
the
U.
S.
Ombudsman
Association,
and
evaluated
and
considered
guidance
documents
from
this
organization,
as
well
as
other
organizations
with
Ombudsman
programs
and
the
American
Bar
Association's
draft
Standards
for
the
Establishment
and
Operation
of
Ombudsman
Offices.
To
the
extent
possible,
EPA
has
drafted
guidelines
which
reflect
key
aspects
of
various
external
models
in
a
manner
that
supports
the
Ombudsman's
independent
operation
within
the
context
of
a
civil
service
position
within
the
Federal
government
structure.
EPA
developed
these
procedures
to
meet
the
specific
needs
of
the
OSWER
Ombudsman
program
and
they
may
not
be
completely
consistent
with
Ombudsmen
principles
established
by
other
organizations.
The
draft
guidance
explains
to
the
public
the
role
of
the
National
Hazardous
Waste
and
Superfund
Ombudsman
and
Regional
Superfund
Ombudsmen
today,
their
scope
of
activity,
and
the
guidelines
under
which
they
coordinate
and
carry
out
their
responsibilities.
We
believe
the
draft
guidance
will
provide
for
effective
and
fair
implementation
of
OSWER's
Ombudsman
program.
III.
Summary
of
Draft
Guidance
The
draft
``
Guidance
for
the
National
Hazardous
Waste
and
Superfund
Ombudsman
and
Regional
Superfund
Ombudsmen
Program''
puts
forth
our
philosophy
concerning
the
basic
operating
principles
and
procedures
for
the
OSWER
Ombudsman
program.
Ombudsmen
functioning
under
this
guidance
are
authorized
to
provide
information
and
look
into
complaints
and
grievances
related
to
OSWER's
administration
of
the
programs
implemented
under
the
following
authorities:
·
Comprehensive
Environmental
Response,
Compensation
and
Liability
Act
(CERCLA)
or
Superfund
·
Resource
Conservation
and
Recovery
Act
(RCRA),
including
Underground
Storage
Tanks
(UST)
·
Emergency
Planning
and
Community
Right
To
Know
Act
(EPCRA)
or
Superfund
Amendments
and
Reauthorization
Act,
Title
III
·
Oil
Pollution
Act
·
Clean
Air
Act,
Section
112r
The
Ombudsman
may
be
called
to
serve
in
a
number
of
capacities:
(1)
providing
information
and
facilitating
informal
contact
with
EPA
staff,
(2)
conducting
informal
inquiries
and
developing
recommendations
to
address
difficult
problems,
(3)
helping
to
mediate
disputes,
and
(4)
making
recommendations
to
Agency
senior
management
regarding
procedural
and
policy
changes
aimed
at
improving
the
program.
The
goal
of
the
Ombudsman
program
is
to
respond
to
requests
in
an
appropriate,
transparent
and
objective
manner
as
promptly,
informally
and
discretely
as
possible.
The
guidance
briefly
discusses
each
of
these
functions,
but
we
anticipate
that
a
significant
amount
of
the
Ombudsman's
time
will
be
dedicated
to
looking
into
issues
raised
by
the
public
concerning
decisions
that
EPA
has
made.
Because
of
this,
most
of
the
draft
guidance
is
devoted
to
outlining
the
Ombudsman's
responsibilities
in
carrying
out
this
activity.
Overall,
the
Ombudsman's
role
is
to
listen
to
all
sides
in
an
impartial,
objective
manner,
to
provide
assistance
in
trying
to
understand
and
resolve
the
problem,
and,
if
necessary,
to
recommend
possible
solutions
to
senior
Agency
managers.
It
is
important
to
note
that
the
Ombudsman
does
not
have
authority
to
change
decisions
made
by
program
managers
or
staff.
Generally,
the
National
Ombudsman
handles
cases
of
national
significance.
The
Regional
Ombudsmen
handle
the
more
routine
requests
for
assistance
and
conducts
more
informal
inquiries
to
investigate
complaints.
The
guidance
explains
how
the
Ombudsman
will
evaluate
requests
for
assistance,
and
how
inquiries
will
be
conducted.
Whatever
capacity
the
Ombudsman
is
serving
in,
he
is
expected
to
act
with
independence,
impartiality
and
confidentialityÐ
the
basic
operating
principles
of
all
Ombudsmen.
The
guidance
provides
a
brief
description
of
how
the
Ombudsman
will
demonstrate
these
responsibilities
effectively
and
discusses
limitations
with
respect
to
confidentiality
imposed
by
existing
laws
and
regulations
that
the
OSWER
Ombudsman
must
abide
by
as
federal
civil
servant.
Our
goal
is
to
receive
feedback
on
the
draft
guidance
from
the
widest
range
of
interested
parties
possible.
We
welcome
comments
on
any
or
all
aspects
of
the
guidance.
Your
comments
will
help
us
improve
this
document.
We
invite
you
to
provide
your
comments
on
our
approach
and
your
ideas
on
alternative
approaches
we
have
not
considered.
Explain
your
views
as
clearly
as
possible
and
provide
a
summary
of
the
reasoning
you
used
to
arrive
at
your
conclusions.
Tell
us
which
parts
of
the
guidance
you
support,
as
well
as
the
parts
with
which
you
disagree.
Your
comments
must
be
submitted
by
March
5,
2001.
EPA
will
review
the
public
comments
received
on
the
guidance
and
where
appropriate,
incorporate
changes
responsive
to
those
comments.
We
specifically
request
your
comments
on
the
following
three
topics
related
to
the
independence
of
the
Ombudsman.
These
issues
emerged
as
key
issues
during
the
development
of
this
guidance.
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Vol.
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No.
2
/
Wednesday,
January
3,
2001
/
Notices
1.
Does
the
Organizational
Structure
of
the
Ombudsman
Program
Impact
the
Independence
of
the
Ombudsman?
One
of
the
main
principles
an
Ombudsman
operates
under
is
the
ability
to
work
independently
in
determining
which
complaints
to
investigate,
how
an
inquiry
should
proceed
and
what
are
the
findings
of
an
inquiry.
EPA
recognizes
the
importance
of
an
Ombudsman
being
and
appearing
to
be
independent
from
the
organization
he/
she
is
investigating.
EPA
believes
both
the
National
Ombudsman
and
the
Regional
Ombudsmen
are
able
to
look
independently
into
problems
and
facilitate
the
communication
that
can
lead
to
a
solution.
We
do
not
select
which
cases
the
Ombudsman
will
take,
nor
direct
how
the
Ombudsman
will
investigate
a
complaint.
We
do
not
interfere
with
or
attempt
to
influence
the
Ombudsman
as
he
formulates
his
findings
and
recommendations.
From
the
time
Congress
established
the
National
Ombudsman,
this
function
has
been
a
federal
government
employee
reporting
to
a
senior
Agency
official.
Because
the
Ombudsman
is
a
federal
employee,
he/
she
cannot
be
completely
independent
in
the
normal
course
of
relations
between
a
supervisor
and
his/
her
employee.
Currently,
the
National
Ombudsman
reports
directly
to
the
Assistant
Administrator
for
OSWER.
We
believe
this
is
the
appropriate
reporting
structure
for
the
National
Ombudsman.
The
Assistant
Administrator
for
OSWER
is
the
senior
presidential
appointee
responsible
for
the
programs
the
Ombudsman
is
looking
into
and
he/
she
is
in
the
best
position
to
use
the
advice
of
the
National
Ombudsman.
For
the
most
part,
each
Regional
Ombudsman
reports
to
the
appropriate
Regional
Superfund
division
director,
directly
or
through
an
intermediate
supervisor.
No
matter
what
capacity
an
Ombudsman
is
serving
in
at
any
given
time,
we
have
worked
to
ensure
the
Ombudsman's
ability
to
operate
with
maximum
independence.
The
organizational
location
and
operation
of
the
National
Ombudsman
and
the
Regional
Ombudsmen
is
a
matter
of
EPA
discretion.
We
agree
that
it
is
very
important
that
the
Ombudsman
be
and
appear
to
be
independent
from
the
organization
he
is
investigating.
Does
this
structure
ensure
the
appropriate
level
of
interaction
between
the
OSWER
Ombudsman
and
senior
EPA
officials
while
maintaining
enough
independence
for
the
Ombudsman
to
operate
effectively?
2.
Should
the
Ombudsman
Have
Sole
Discretion
To
Decide
How
Cases
Are
To
Be
Handled?
The
guidance
states
that
the
National
and
Regional
Ombudsmen
have
the
discretion
either
to
accept
a
request
for
assistance
or
decline
to
act.
While
the
National
Ombudsman
and
the
Regional
Ombudsmen
work
fairly
autonomously,
coordination
in
this
area
is
crucial.
Requests
for
assistance
may
come
directly
to
either
the
National
or
a
Regional
Ombudsman.
To
avoid
duplication
of
effort,
the
guidance
lays
out
general
procedures
for
evaluating
incoming
requests.
The
guidance
requires
that
before
conducting
an
inquiry
that
is
primarily
related
to
one
Region,
the
National
Ombudsman
will
consult
with
the
relevant
Regional
Ombudsman.
We
believe
this
consultation
will
help
the
National
Ombudsman
make
a
fully
informed
decision
about
whether
it
is
more
appropriate
for
him/
her
to
handle
the
matter,
to
refer
it
to
the
Regional
Ombudsman,
or
to
decline
to
investigate.
Similarly,
a
Regional
Ombudsman
is
expected
to
notify
the
National
Ombudsman
if
he/
she
has
been
requested
to
conduct
an
inquiry
that
may
be
nationally
significant.
The
Regional
Ombudsman
should
discuss
with
the
National
Ombudsman
how
he/
she
plans
to
proceed
with
the
inquiry,
including
the
level
of
involvement
that
the
National
Ombudsman
wishes
to
have
in
the
inquiry.
We
expect
that
a
Regional
Ombudsman
and
the
National
Ombudsman
almost
always
will
agree
on
who
should
handle
an
inquiry.
In
those
rare
situations
when
there
is
not
agreement
the
Assistant
Administrator
or
Deputy
Assistant
Administrator
for
OSWER
will
resolve
the
dispute.
The
guidance
requires
the
Regional
Ombudsman
(in
consultation
with
the
appropriate
Regional
Administrator
or
Deputy
Regional
Administrator)
and
the
National
Ombudsman
will
each
forward
a
memorandum
to
the
Assistant
Administrator
for
OSWER,
or
jointly
hold
a
conference
call
explaining
his/
her
perspective
on
the
disagreement.
The
Assistant
Administrator
or
Deputy
Assistant
Administrator
for
OSWER
will
then
make
the
decision
about
who
should
handle
the
inquiry.
Is
this
the
appropriate
way
to
resolve
such
disputes?
3.
Should
an
Ombudsman's
Scope
of
Inquiry
Be
Restricted
To
Protect
EPA's
Litigation
Position?
We
considered
three
alternative
approaches
to
this
question.
The
approach
we
selected
and
which
is
reflected
in
the
draft
guidance
generally
precludes
the
Ombudsmen
from
investigating
an
issue
or
dispute
which
is
in
litigation,
i.
e.,
pending
before
a
court.
The
presumption
is
that
Ombudsmen
should
not
take
action
on
an
issue
or
dispute
which
is
in
litigation
since
that
issue
is
in
the
hands
of
an
independent
tribunal
for
decision,
as
provided
for
by
the
relevant
statute.
In
addition,
the
public
has
access
to
that
tribunal
to
raise
serious
concerns.
For
example,
in
the
case
of
a
consent
decree
presented
to
a
court,
public
comment
will
be
solicited
on
the
decree,
and
the
court
will
consider
those
comments
and
then
determine
if
it
is
in
the
public
interest
to
enter
the
decree.
In
the
case
of
a
challenge
to
agency
action,
affected
members
of
the
public
can
intervene
and
present
argument
to
the
court,
and
the
court
will
decide
whether
we
demonstrated
an
adequate
basis
for
its
action
and
whether
we
acted
in
a
nonarbitrary
manner
and
in
accordance
with
law.
This
approach
also
avoids
creating
the
false
impression
that
the
Ombudsman's
office
is
an
alternative
forum
for
arguing
controversial
issues,
which
would
result
in
confusion,
inefficiency,
and
potentially
conflicting
statements
about
the
Agency's
position.
The
OSWER
Ombudsman
program
is
not
intended
or
authorized
to
circumvent
existing
channels
of
management
authority
or
established
formal
administrative
avenues
of
appeal.
However,
we
believe
that
there
may
be
situations
where
it
is
appropriate
for
the
Ombudsman
to
investigate
actions
EPA
has
taken,
even
where
those
actions
are
before
a
court
for
review.
For
instance,
the
Ombudsman
may
have
information
to
suggest
that
our
action
at
issue
in
the
legal
proceedings
is
infirm
or
erroneous.
Or
the
Ombudsman
may
bring
to
Agency
management
information
of
significant
public
concern
about
an
Agency
action
at
issue
in
the
courts.
In
either
case,
if
the
Ombudsman
believes
an
inquiry
is
necessary,
he/
she
should
communicate
that
information
to
the
appropriate
Agency
official
before
proceeding
with
his/
her
inquiry.
Such
an
investigation
would
proceed
only
after
concurrence
by
the
Assistant
Administrator
or
Deputy
Assistant
Administrator
for
OSWER
or
the
appropriate
Regional
Administrator
or
Deputy
Regional
Administrator,
in
consultation
with
EPA's
lead
litigation
office,
taking
into
account
its
potential
impact
on
pending
litigation.
It
should
be
noted
that
this
presumption
against
investigations
applies
to
an
``
issue
or
dispute''
that
is
before
a
court
for
consideration.
Thus,
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368
Federal
Register
/
Vol.
66,
No.
2
/
Wednesday,
January
3,
2001
/
Notices
the
fact
that
a
site
or
facility
is
in
litigation
does
not
necessarily
mean
that
the
Ombudsman
should
refrain
from
conducting
an
investigation
of
all
issues
arising
at
that
site
or
facility.
For
instance,
if
the
issue
before
a
court
is
the
authority
of
the
Agency
to
get
access
to
a
piece
of
property,
that
would
not
create
a
presumption
against
an
investigation
of
alleged
deficiencies
regarding
remedy
selection.
For
your
information,
we
are
providing
details
of
the
two
alternative
approaches
to
this
matter
we
considered
but
did
not
select.
The
first
alternative
approach
removed
any
restrictions
on
the
Ombudsman's
ability
to
conduct
an
inquiry
concerning
an
issue
or
dispute
which
is
in
litigation.
The
Ombudsman
would
be
free
to
conduct
an
inquiry
regardless
of
whether
an
issue
or
dispute
was
in
litigation.
The
second
alternative
approach
would
restrain
the
Ombudsman
from
conducting
new
fact
gathering
concerning
decisions
made
based
on
the
administrative
record.
The
Ombudsman
would
remain
able
to
audit
the
existing
information
and
data
that
were
part
of
the
Agency's
factual
record.
Under
this
model,
if
the
Ombudsman
concluded
that
additional
fact
finding
and
data
gathering
were
necessary,
that
would
become
part
of
his
recommendation.
If
the
Agency
agreed
with
this
recommendation,
it
would
conduct
additional
information
gathering
by
utilizing
the
appropriate
program
staff
and
established
procedures.
The
Ombudsman
would
be
precluded
from
undertaking
separate
fact
finding
activities
such
as
public
meetings
and
formal
on
the
record
interviews.
This
approach
would
address
concerns
that
an
Ombudsman's
activities
may
create
a
second
record
outside
of
the
official
administrative
record,
which
could
confuse
and
potentially
mislead
the
public
and
could
damage
the
Agency's
position
during
litigation.
Is
the
chosen
approach
the
most
appropriate?
Dated:
December
27,
2000.
Michael
Shapiro,
Acting
Assistant
Administrator,
Office
of
Solid
Waste
and
Emergency
Response.
[FR
Doc.
01±
112
Filed
1±
2±
01;
8:
45
am]
BILLING
CODE
6560±
50±
P
ENVIRONMENTAL
PROTECTION
AGENCY
[FRL±
6928±
3]
Clean
Water
Act
Section
303(
d):
Availability
of
Total
Maximum
Daily
Loads
(TMDLs)
AGENCY:
Environmental
Protection
Agency
(EPA).
ACTION:
Notice
of
availability.
SUMMARY:
This
notice
announces
the
availability
for
comment
of
the
administrative
record
file
for
88
TMDLs
prepared
by
EPA
Region
6
for
waters
listed
in
Louisiana's
Mermentau
and
Vermilion/
Teche
river
basins,
under
section
303(
d)
of
the
Clean
Water
Act
(CWA).
EPA
prepared
these
TMDLs
in
response
to
a
Court
Order
dated
October
1,
1999,
in
the
lawsuit
Sierra
Club,
et
al.
v.
Clifford
et
al.,
No.
96±
0527,
(E.
D.
La.).
Under
this
court
order,
EPA
is
required
to
prepare
TMDLs
when
needed
for
waters
on
the
Louisiana
1998
section
303(
d)
list
by
December
31,
2007.
DATES:
Comments
on
the
88
TMDLs
must
be
submitted
in
writing
to
EPA
on
or
before
February
2,
2001.
ADDRESSES:
Comments
on
the
88
TMDLs
should
be
sent
to
Ellen
Caldwell,
Environmental
Protection
Specialist,
Water
Quality
Protection
Division,
U.
S.
Environmental
Protection
Agency
Region
6,
1445
Ross
Ave.,
Dallas,
TX
75202±
2733.
For
further
information,
contact
Ellen
Caldwell
at
(214)
665±
7513.
The
administrative
record
file
for
these
TMDLs
is
available
for
public
inspection
at
this
address
as
well.
Copies
of
the
TMDLs
and
their
respective
calculations
may
be
viewed
at
www.
epa.
gov/
region6/
water/
tmdl.
htm,
or
obtained
by
calling
or
writing
Ms.
Caldwell
at
the
above
address.
Please
contact
Ms.
Caldwell
to
schedule
an
inspection.
FOR
FURTHER
INFORMATION
CONTACT:
Ellen
Caldwell
at
(214)
665±
7513.
SUPPLEMENTARY
INFORMATION:
In
1996,
two
Louisiana
environmental
groups,
the
Sierra
Club
and
Louisiana
Environmental
Action
Network
(plaintiffs),
filed
a
lawsuit
in
Federal
Court
against
the
United
States
Environmental
Protection
Agency
(EPA),
styled
Sierra
Club,
et
al.
v.
Clifford
et
al.,
No.
96±
0527,
(E.
D.
La.).
Among
other
claims,
plaintiffs
alleged
that
EPA
failed
to
establish
Louisiana
TMDLs
in
a
timely
manner.
Discussion
of
the
court's
order
may
be
found
at
65
FR
54032
(September
6,
2000).
EPA
Seeks
Comments
on
88
TMDLs
By
this
notice
EPA
is
seeking
comment
on
the
following
88
TMDLs
for
waters
located
within
the
Mermentau
and
Vermilion/
Teche
basins:
Subsegment
Waterbody
name
Pollutant
060205
..........
Bayou
TecheÐ
Headwaters
At
Bayou
Courtableau
to
I±
10
................................
Salinity/
TDS.
060211
..........
West
Atchafalaya
Borrow
Pit
Canal
.....................................................................
Salinity/
TDS.
060301
..........
Bayou
TecheÐ
I±
10
to
Keystone
Locks
and
Dam
...............................................
Salinity/
TDS.
Chlorides.
050201
..........
Bayou
Plaquemine
BruleÐ
Head
Waters
to
Bayou
Descannes
..........................
Ammonia.
050401
..........
Mermentau
RiverÐ
Origin
to
Lake
Arthur
............................................................
Ammonia.
060102
..........
Cocodrie
Lake
......................................................................................................
Noxious
Aquatic.
Plants
&
Ammonia.
Chlorides.
Sulfate.
060204
..........
Bayou
CourtableauÐ
Origin
to
West
Atchafalaya
Borrow
Pit
Canal
...................
Ammonia.
Salinity/
TDS.
060203
..........
Chicot
Lake
..........................................................................................................
Noxious
Aquatic.
Plants
&
Nutrients.
050101
..........
Bayou
Des
CannesÐ
Headwaters
to
Mermentau
River
......................................
Nutrients.
050301
..........
Bayou
NezpiqueÐ
Headwaters
to
Mermentau
River
...........................................
Nutrients.
060202
..........
Bayou
Cocodrie
....................................................................................................
Nutrients.
060208
..........
Bayou
BoeufÐ
Headwaters
To
Bayou
Courtableau
............................................
Nutrients.
060211
..........
West
Atchafalaya
Borrow
Pit
Canal
.....................................................................
Sulfates.
060301
..........
Bayou
TecheÐ
I±
10
to
Keystone
Locks
and
Dam
...............................................
Sulfates.
050101
..........
Bayou
Des
CannesÐ
Headwaters
to
Mermentau
River
......................................
Total
Suspended
Solids
(TSS).
050102
..........
Bayou
Joe
Marcel
................................................................................................
TSS.
050103
..........
Bayou
Mallet
.........................................................................................................
TSS.
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| epa | 2024-06-07T20:31:36.301804 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-SFUND-2001-0006-0001/content.txt"
} |
EPA-HQ-SFUND-2001-0007-0001 | Proposed Rule | 2001-06-14T04:00:00 | National Priorities List for Uncontrolled Hazardous Waste Sites, Proposed Rule No. 36. | \
Federal
Register/
Vol.
66,
No.
115/
Thursday,
June
14,
2001/
Proposed
Rules
32287
community
added
will
be
the
boundary
of
the
Census
Designated
Place,
or
other
area
designation,
used
by
the
Alaska
Department
of
Labor
for
census
purposes
for
that
community
or
area.
Copies
of
the
boundary
map
will
be
available
in
the
park
headquarters
office.
from
the
aircraft
prohibition
for
subsistence
use?
(3)
What
communities
are
exempted
*x
***
Dated:
June
5,2001.
Marshall
Jones,
Jr,,
Acting
Assistant
to
the
Assistant
SecretaT,
Fish
and
Wildlife
and
Parks.
[FR
Doc.
01
14787
Filed
6
13
01;
8:
45
am]
BILLING
CODE
4310
70
P
ENVIRONMENTAL
PROTECTION
AGENCY
40
CFR
Part
52
[DE053
1029b;
FRL
6996
61
Approval
and
Promulgation
of
Air
Quality
Implementation
Plans;
Delaware;
Conversion
of
the
Conditional
Approval
of
the
NOx
RACT
Regulation
to
a
Full
Approval
and
Approvaj
of
NOX
RACT
Determinations
for
Three
Sources
AGENCY:
Environmental
Protection
Agency
(EPA).
ACTION:
Proposed
rule.
SUMMARY:
EPA
is
proposing
to
approve
revisions
to
the
Delaware
State
Implementation
Plan
(SIP)
submitted
by
the
Delaware
qepartment
of
Natural
Resources
and
Environmental
Control
(DNREC).
These
revisions
were
submitted
to
satisfy
the
condition
imposed
bv
EPA
in
its
conditional
withdraw
the
direct
final
rule
and
it
will
not
take
effect.
EPA
will
address
all
public
comments
in
a
subsequent
final
rule
based
on
this
proposed
rule.
EPA
will
not
institute
a
second
comment
period
on
this
action.
Any
parties
interested
in
commenting
on
this
action
should
do
so
at
this
time.
DATES:
Comments
must
be
received
in
writing
by
July
16,2001.
ADDRESSES:
Written
comments
should
be
addressed
to
David
L.
Arnold,
Chief,
Air
Quality
Planning
and
Information
Services
Branch,
Mailcode
3AP21,
U.
S.
Environmental
Protection
Agency,
Region
111,
1650
Arch
Street,
Philadelphia,
Pennsylvania
19103.
Copies
of
the
documents
relevant
to
this
action
are
available
for
public
inspection
during
normal
business
hours
at
the
Air
Protection
Division,
U.
S.
Environmental
Protection
Agency,
Region
111,1650
Arch
Street,
Philadelphia,
Pennsylvania
19103;
and
the
Delaware
Department
of
Natural
Resources
&
Environmental
Control,
89
Kings
Highway,
Dover,
Delaware
19901.
FOR
FURTHER
INFORMATION
CONTACT:
Rose
Quinto,
(215)
814
2182,
and
Melik
Spain,
(215)
814
2299,
at
the
EPA
Region
I11
address
above,
or
by
e
mail
at
quinto.
rose@
epa.
gov
and
spain.
melik@
epa.
gov.
SUPPLEMENTARY
INFORMATION:
For
further
information,
please
see
the
information
provided
in
the
direct
final
action
with
the
same
title
that
is
located
in
the
"Rules
and
Regulations"
section
of
this
Federal
Register
publication.
Elaine
B.
Wright,
Acting
Regional
Administrator,
Region
III.
[FR
Doc.
01
14899
Filed
6
13
01;
8:
45
am]
Dated
May
31,2001.
BILLING
CODE
656040
P
priorities
among
the
known
releases
or
threatened
releases
of
hazardous
substances,
pollutants,
or
contaminants
throughout
the
United
States.
The
National
Priorities
List
("
NPL")
constitutes
this
list,
and
is
intended
primarily
to
guide
the
Environmental
Protection
Agency
("
EPA"
or
"the
Agency")
in
determining
which
sites
warrant
further
investigation.
This
rule
proposes
to
add
10
new
sites
to
the
General
Superfund
Section
of
the
NPL.
These
sites
will
be
assessed
to
determine
the
nature
and
extent
of
public
health
and
environmental
risks
associated
with
them,
and
to
determine
what
CERCLA
financed
remedial
action(
s),
if
any,
may
be
appropriate.
DATES:
Comments
regarding
any
of
these
proposed
listings
must
be
submitted
(postmarked)
on
or
before
August
13,
2001.
ADDRESSES:
By
Postal
Mail:
Mail
original
and
three
copies
of
comments
(no
facsimiles
or
tapes)
to
Docket
Coordinator,
Headquarters;
U.
S.
Environmental
Protection
Agency;
CERCLA
Docket
Office:
(Mail
Code
5201G);
1200
Pennsylvania
Avenue
N
W
.,
Washington,
DC
20460.
By
Express
Mail
or
Courier:
Send
original
and
three
copies
of
comments
(no
facsimiles
or
tapes)
to
Docket
Coordinator,
Headquarters;
U.
S.
Environmental
Protection
Agency;
CERCLA
Docket
Office:
1235
Jefferson
Davis
Highway;
CrystaI
Gateway
#1,
First
Floor;
Arlington,
VA
22202.
only
may
be
mailed
directly
to
superfund.
docket@
epa.
gov.
E
mailed
comments
must
be
followed
up
by
an
original
and
three
copies
sent
by
mail
or
express
mail.
For
additional
Docket
addresses
and
By
E
Mail:
Comments
in
ASCII
format
limited
approval
of
Delaware's
regulation
requiring
reasonably
available
control
technolow
IRACT)
for
AGENCY
further
details
on
their
contents,
see
section
11,
"Public
Review/
Public
NVIRONMENTALPROTECTION
Comment,"
of
the
Supplementary
i
Information
portion
of
this
preamble.
major
sources
of
nitrogen
;;;
tides
(~0
x
1
.
EPA
is
proposing
to
convert
its
conditional
limited
approval
of
Delaware
Regulation
12,
Control
of
NOx
Emissions,
to
a
full
approval.
EPA
is
also
proposing
t?
approve
three
source
specific
NOxm
RACT
determinations.
In
@e
"Rules
and
Regulations"
section
of
this
Federal
Register,
EPA
is
approving
the
State's
SIP
submittal
as
a
direct
final
rule
without
`prior
proposal
because
the
Agency
views
this
as
a
noncontroversial
submittal
and
anticipates
no
adverse
comments.
A
detailed
rationale
for
the
approval
i
s
set
forth
in
the
direct
final
rule.
If
EPA
receives
no
adverse
comments,
EPA
willlnot
take
further
action
on
this
proposed
rule.
If
EPA
receives
adverse
comments,
EPA
will
40
CFR
Part
300
[FRL
6994
51
FOR
FURTHER
INFORMATION
CONTACT:
Yolanda
Singer,
phone
(703)
603
8835,
State,
Tribal
and
Site
Identification
Center,
Office
of
Emergency
and
National.
Pri0rities
List
for
Uncontrolled
Remedial
Response
(Mail
Code
5204G);
Hazardous
Waste
Sites,
Proposed
Rule
U.
S.
Environmental
Protection
Aeencv:
No.
36
u
,`
1200
Pennsvlvania
Avenue
NW..
AGENCY:
EnvironmentalProtection
Washingto;,
DC
20460;
or
the
`
Agency.
ACTION:
Proposed
rule.
Superfund
Hotline,
Phone
(800)
424
9346
or
(703)
412
9810
in
the
Washington,
DC,
metropolitan
area.
SUMMARY:
TheComprehensive
SUPPLEMENTARYINFORMATION:
Environmental
Response,
Compensation,
and
Liability
Act
("
CERCLA"
or
"the
Act"),
requires
that
the
National
Oil
and
Hazardous
Substances
Pollution
Contingency
Plan
("
NCP")
include
a
list
of
national
Table
of
Contents
I.
Background
A.
What
Are
CERCLA
and
SARA?
B.
What
Is
the
N
B
?
C.
What
Is
the
National
Priorities
List
(NPL)?
32288
Federal
Register/
Vol.
66,
No.
115/
Thursday,
June
14,
2001
/Proposed
Rules
D.
How
Are
Sites
Listed
on
the
NPL?
E.
What
Happens
to
Sites
on
the
NPL?
F.
How
Are
Site
Boundaries
Defined?
G.
How
Are
Sites
Removed
From
the
NPL?
H.
Can
Portions
of
Sites
Be
Deleted
From
I.
What
Is
the
Construction
Completion
List
the
NPL
as
They
Are
Cleaned
Up?
(CCL)?
11.
Public
Review/
Public
Comment
A.
Can
I
Review
the
Documents
Relevant
B.
How
Do
I
Access
the
Documents?
C.
What
Documents
Are
Available
for
Public
Review
at
the
Headquarters
Docket?
D.
What
Documents
Are
Available
for
Public
Review
at
the
Regional
Dockets?
E.
How
Do
I
Submit
My
Comments?
F.
What
Happens
to
My
Comments?
G.
What
Should
I
Consider
When
H.
Can
I
Submit
Comments
After
the
Preparing
My
Comments?
Public
Comment
Period
Is
Over?
I.
Can
I
View
Public
Comments
Submitted
by
Others?
J.
Can
I
Submit
Comments
Regarding
Sites
Not
Currently
Proposed
to
the
NPL?
to
This
Proposed
Rule?
III.
Contents
of
This
Proposed
Rule
A.
Proposed
Additions
to
the
NPL
B.
Status
of
NPL
A.
What
Is
Executive
Order
12866?
B.
Is
This
Proposed
Rule
Subject
to
Executive
Order
12866
Review?
N
.
Executive
Order
12866
V.
Unfunded
Mandates
Act
(UMRA)?
Rule?
A.
What
Is
the
Unfunded
Mandates
Reform
B.
Does
UMRA
Apply
to
This
Proposed
VI.
Effect
on
Small
Businesses
A.
What
Is
the
Regulatory
Flexibility
Act?
B.
Has
EPA
Conducted
a
Regulatory
Flexib,
ility
Analysis
for
This
Rule?
VII.
National
Technology
Transfer
and
A.
What
Is
the
National
Technology
Advancement
Act
Transfer
and
Advancement
Act?
B.
Does
the
National
Technology
Transfer
and
Advancement
Act
Apply
to
This
Proposed
Rule?
VIII.
Executive
Order
12898
A.
What
Is
Executive
Order
12898?
B.
Does
Executive
Order
12898
Apply
to
\
This
Proposed
Rule?
E.
Executive
Order
13045
A.
What:
Is
Executive
Order
13045?
B.
Does
Executive
Order
13045
Apply
to
This
Proposed
Rule?
X.
Paperwork
Reduction
Act
A.
What
is
tlie
Paperwork
Reduction
Act?
B.
Does
the
Paperwork
Reduction
Act
Apply
to
this
Proposed
Rule?
What
Are
the
Executive
Orders
on
XI.
Executive
Orders
on
Federalism
Federalism
and
Are
They
Applicable
to
Tiiis
Proposed
Rule?
Applicable
to
this
Proposed
Rule?
XII.
Executive
Order
13175
What
is
Executive
Order
13175
and
Is
It
I.
Background
A.
What
Are
CERCU
and
SARA?
In
1980,
Congress
enacted
the
Comprehensive
Environmental
Response,
Compensation,
and
Liability
Act,
42
U.
S.
C.
9601
9675
("
CERCLA"
or
"the
Act"),
in
response
to
the
dangers
of
uncontrolled
releases
of
hazardous
substances.
CERCLA
was
amended
on
October
17,1986,
by
the
Superfund
Amendments
and
Reauthorization
Act
("
SARA'.
'),
Public
Law
99499,100
Stat.
1613
et
seq.
B.
What
Is
the
NCP?
promulgated
the
revised
National
Oil
and
Hazardous
Substances
Pollution
Contingency
Plan
("
NCP"),
40
CFR
part
300,
on
July
16,1982
(47
FR311801,
.
pursuant
to
CERCLA
section
105
and
Executive
Order
12316
(46
FR
42237,
August
20,1981).
The
NCP
sets
guidelines
and
procedures
for
responding
to
releases
and
threatened
releases
of
hazardous
substances,
pollutants,
or
contaminants
under
CERCLA.
EPA
has
revised
the
NCP
on
several
occasions.
The
most
recent
comprehensive
revision
was
on
March
8,1990
(55
FR
8666).
105(
a)(
8)(
A]
ofCERCLA,
the
NCP
also
includes
"criteria
for
determining
priorities
among
releases
or
threatened
releases
throughout
the
United
States
for
the
purpose
of
taking
remedial
action
and,
to
the
extent
practicable,
taking
into
account
the
potential
urgency
of
such
action
for
the
purpose
of
taking
removal
action."
"Removal"
actions
are
defined
broadly
and
include
a
wide
range
of
actions
taken
to
study,
clean
up,
prevent
or
otherwise
address
releases
and
threatened
releases
(42
U.
S.
C.
9601(
23)).
C.
What
Is
the
National
Priorities
List
(NPL)?
The
NPL
is
a
list
of
national
priorities
among
the
known
or
threatened
releases
of
hazardous
substances,
pollutants,
or
contaminants
throughout
the
United
States.
The
list,
which
is
appendix
B
of
the
NCP
(40
CFR
part
300),
was
required
under
section
105(
a)(
8)(
B)
of
CERCLA,
as
amended
by
SARA.
Section
105(
a)(
8)(
B)
defines
the
NPL
as
a
list
of
"releases"
and
the
highest
priority
"facilities"
and
requires
that
the
NPL
be
revised
at
least
annually.
The
NPL
is
intended
primarily
to
guide
EPA
in
determining
which
sites
warrant
further
investigation
to
assess
the
nature
and
extent
of
public
health
and
environmental
risks
associated
with
a
release
of
hazardous
substances.
The
NPL
is
only
of
limited
significance,
however,
as
it
does
not
assign
liability
to
any
party
or
to
the
owner
of
any
specific
property.
Neither
does
placing
a
site
on
the
NPL
mean
that
any
remedial
or
removal
action
necessarily
need
be
taken.
See
Report
of
the
Senate
To
implement
CERCLA,
EPA
As
required
under
section
,.
Committee
on
Environment
and
Public
Works,
Senate
Rep.
No.
96
848,96th
Cong.,
zd
Sess.
60
(1980),
48
FR
40659
(September
8,1983).
includes
two
sections,
one
of
sites
that
are
generally
evaluated
and
cleaned
up
by
EPA
(the
"General
Superfund
Section"),
and
one
of
sites
that
are
owned
or
operated
by
other
Federal
agencies
(the
"Federal
Facilities
Section").
With
respect
to
sites
in
the
Federal
Facilities
section,
these
sites
are
generally
being
addressed
by
other
Federal
agencies.
Under
Executive
Order
12580
(52
FR
2923,
January
29,
1987)
and
CERCLA
section
120,
each
Federal
agency
is
responsible
for
carrying
out
most
response
actions
at
facilities
under
its
own
jurisdiction,
custody,
or
control,
although
EPA
is
responsible
for
preparing
an
HRS
score
and
determining
whether
the
facility
is
placed
on
the
NPL.
EPA
generally
is
not
the
lead
agency
at
Federal
Facilities
Section
sites,
and
its
role
at
such
sites
is
accordingly
less
extensive
than
at
other
sites.
D.
How
Are
Sites
Listed
on
the
NPL?
There
are
three
mechanisms
for
placing
sites
on
the
NPL
for
possible
remedial
action
(see
40
CFR
300.4250
of
the
NCP):
(1)
A
site
may
be
included
on
the
NPL
if
it
scores
sufficiently
high
on
the
Hazard
Ranking
System
("
HRS"),
which
EPA
promulgated
as
appendix
A
of
the
NCP
(40
CFR
part
300).
The
HRS
serves
as
a
screening
device
to
evaluate
the
relative
potential
of
uncontrolled
hazardous
substances
to
pose
a
threat
to
human
health
or
the
environment.
On
December
14,1990
(55
FR
51532),
EPA
promulgated
revisions
to
the
HRS
partly
in
response
to
CERCLA
section
105(
c),
added
by
SARA.
The
revised
HRS
evaluates
four
pathways:
Ground
water,
surface
water,
soil
exposure,
and
air.
As
a
matter
of
Agency
policy,
those
sites
that
score
28.50
or
greater
on
the
HRS
are
eligible
for
the
NPL;
(2)
Each
State
may
designate
a
single
site
as
its
top
priority
to
be
listed
on
the
NPL,
regardless
of
the
HRS
score.
This
mechanism,
provided
by
the
NCP
at
40
CFR
300.425(~)(
2)
requires
that,
to
the
extent
practicable,
the
NPL
include
withitn
the
100
highest
priorities,
one
facility
designated
by
each
State
representing
the
greatest
danger
to
public
health,
welfare,
or
the
environment
among
known
facilities
in
the
State
(see
42
U.
S.
C.
9605(
a)(
8)(
B));
(3)
The
third
mechanism
for
listing,
included
in
the
NCP
at
40
CFR
300.
'425(~)(
3),.
allows
certain
sites
to
be
listed
regardless
of
their
HRS
score,
if
all
of
the
following
conditions
are
met:
For
purposes
of
listing,
the
NPL
Federal
Register
/Vol.
66,
No.
115
/Thursday,.
June
14,
2001
/Proposed
Rules
32289
The
Agency
for
Toxic
Substances
and
Disease
Registry
(ATSDR)
of
the
US.
Public
Health
Service
has
issued
a
health
advisory
that
recommends
dissociation
of
individuals
from
the
release,
EPA
determines
that
the
release
poses
a
significant
threat
to
public
health.
cost
effective
to
use
its
remedial
authority
than
to
use
its
removal
authority
to
respond
to
the
release.
EPA
promulgated
an
original
NPL
of
406
sites
on
September
8,1983
(48
FR
40658).
The
NPL
has
been
expanded
since
then,
most
recently
on
December
1,2000
(65
FR
75179).
E.
What
Happens
to
Sites
on
the
NPL?
A
site
may
undergo
remedial
action
financed
by
the
Trust
Fund
established
under
CERCLA
(commonly
referred
to
as
the
"Superfund")
only
after
it
is
placed
on
the
NPL,
as
provided
in
the
NCP
at
40
CFR
300.425&
1)(
1).
("
Remedial
actions"
are
those
"consistent
with
permanent
remedy,
taken
instead
of
or
in
addition
to
removal
actions.
*
*
*"
42U.
S.
C.
9601(
24).)
However,
under
40
CFR
300.425(
b)(
2)
placing
a
site
on
the
NPL
"dues
not
imply
that
monies
will
be
expended."
EPA
may
pursue
other
appropriate
authorities
to
remedy
the
releases,
including
enforcement
action
under
CERCLA
and
other
laws.
F.
How
Are
Site
Boundaries
Defined?
precise
geographical
terms;
it
would
be
neither
feasible
nor
consistent
with
the
limited
purpose
of
the
NPL
(to
identify
releases
that
are
priorities
for
further
evaluation),
for
it
to
do
so.
Although
a
CERCLA
"facility"
is
broadly
defined
to
include
my
area
where
a
hazardous
substance
release
has
"cohe
`to
be
located"
(CERCLA
section
101(
9)),
the
listing
process
itself
is
not
intended
to
define
or
reflect
the
boundaries
of
such
facilities
or
releases.
Of
course,
HRS
data
(if
the
HRS
is
used
to
list
a
site)
upon
which
the
NPL
placement
was
based
will,
to
some
extent,
describe
the
release(
s)
at
issue.
That
is,
the
NPL
site
would
include
all
releases
evaluated
as
part
of
that
HRS
anal
sis,
Wpen
a
site
is
listed,
the
approach
genwally
used
to
describe
the
relevant
release(
s)
is
to
delineate
a
geographical
area
usually
the
area
within
an
installation
or
plant
boundaries)
and
identify
the
site
by
reference
to
that
areal
As
a
legal
matter,
the
site
is
not
coe%
tensive
with
that
area,
and
the
boundaries
of
the
installation
or
plant
are
not
the
"b~
oundaries"
of
the
site.
EPA
anticipates
that
it
will
be
more
The
NPL
does
not
describe
releases
in
Rather,
the
site
consists
of
all
contaminated
areas
within
the
area
used
to
identify
the
site,
as
well
as
any
other
location
to
which
contamination
from
that
area
has
come
to
be
located,
or
from
which
that
contamination
came.
terms
are
often
used
to
designate
the
site
(eg.,
the
"Jones
Co.
plant
site")
in
terms
of
the
property
owned
by
a
particular
r
party,
the
site
properly
understood
is
not
limited
to
that
property
(e+
it
may
extend
beyond
the
property
due
to
contaminant
migration),
and
conversely
may
not
occupy
the
full
extent
of
the
property
(eg.,
where
there
are
uncontaminated
parts
of
the
identified
property,
they
may
not
be,
strictly
speaking,
part
of
the
"site").
The
"site"
is
thus
neither
equal
to
nor
confined
by
the
boundaries
of
any
specific
property
that
may
give
the
site
its
name,
and
the
name
itself
should
not
be
read
to
imply
that
this
site
is
coextensive
with
the
entire
area
within
the
property
boundary
of
the
installation
or
plant.
The
precise
nature
and
extent
of
the
site
are
typically
not
known
at
the
time
of
listing.
Also,
the
site
name
is
merely
used
to
help
identify
the
geographic
location
of
the
contamination.
For
example,
the
"Jones
Co.
plant
site,"
does
not
imply
that
the
Jones
company
is
responsible
for
the
contamination
located
on
the
plant
site.
EPA
regulations
provide
that
the
"nature
and
extent
of
the
problem
presented
by
the
release"
will
be
determined
by
a
Remedial
Investigation/
Feasibility
Study
("
RUFS")
as
more
information
is
developed
on
site
contamination
(40
CFR
300.5).
During
the
RI/
FS
process,
the
release
may
be
found
to
be
larger
or
smaller
than
was
originally
thought,
as
more
is
learned
about
the
source(
s)
and
the
migration
of
the
contamination.
However,
this
inquiry
focuses
on
an
evaluation
of
the
threat
posed;
the
boundaries
of
the
release
need
not
be
exactly
defined.
Moreover,
it
generally
is
impossible
to
discover
the
full
extent
of
where
the
contamination
"has
come
to
be
located"
before
all
necessary
studies
and
remedial
work
are
completed
at
a
site.
Indeed,
the
boundaries
of
the
contamination
can
be
expected
to
change
over
time.
Thus,
in
most
cases,
it
may
be
impossible
to
describe
the
boundaries
of
a
release
with
absolute
certainty.
Further,
as
noted
above,
NPL
listing
does
not
assign
liability
to
any
party
or
to
the
owner
of
any
specific
property.
Thus,
if
a
party
does
not
believe
it
is
liable
for
releases
on
discrete
parcels
of
property,
supporting
information
can
be
submitted
to
the
Agency
at
any
time
In
other
words,
while
geographic
after
a
party
receives
notice
it
is
a
potentially
responsible
party.
For
these
reasons,
the
NPL
need
not
be
amended
as
further
research
reveals
more
information
about
the
location
of
the
contamination
or
release.
G.
How
Are
Sites
Removed
From
the
NPL?
EPA
may
delete
sites
from
the
NPL
where
no
further
response
is
appropriate
under
Superfund,
as
explained
in
the
NCP
at
40
CFR
300.425(
e).
This
section
also
provides
that
EPA
shall
consult
with
states
on
proposed
deletions
and
shall
consider
whether
any
of
the
following
criteria
have
been
met:
(i)
Responsible
parties
or
other
persons
have
implemented
all
appropriate
response
actions
required;
(ii)
All
appropriate
Superfund
financed
response
has
been
implemented
and
no
further
response
action
is
required;
or
(iii)
The
remedial
investigation
has
shown
the
release
poses
no
significant
threat
to
public
`health
or
the
environment,
and
taking
of
remedial
measures
is
not
appropriate.
As
of
May
21,2001,
the
Agency
has
deleted
232
sites
from
the
NPL.
H.
Can
Portions
of
Sites
Be
Deleted
From
the
NPL
as
They
Are
Cleaned
Up?
In
November
1995,
EPA
initiated
a
new
policy
to
delete
portions
of
NPL
sites
where
cleanup
is
complete
(60
FR
55465,
November
1,1995).
Total
site
cleanup
may
take
many
years,
while
portions
of
the
site
may
have
been
cleaned
up
and
available
for
productive
use.
As
of
May
21,2001,
EPA
has
deleted
portions
of
23
sites.
I.
What
Is
the
Construction
Completion
List
(CCL)?
construction
completion
list
("
CCL")
to
simplify
its
system
of
categorizing
sites
and
to
better
communicate
the
successful
completion
of
cleanup
activities
(58
FR
12142,
March
2,1993).
Inclusion
of
a
site
on
the
CCL
has
no
legal
significance.
Sites
qualify
for
the
CCL
when:
(1)
Any
necessary
physical
construction
is
complete,
whether
or
not
final
cleanup
levels
or
other
requirements
have
been
achieved;
(2)
EPA
has
determined
that
the
response
action
should
be
limited
to
measures
that
do
not
involve
construction
(eg.,
institutional
controls);
or
(3)
The
site
qualifies
for
deletion
from
the
NPE.
As
of
May
21,2001,
there
are
a
total
of
766
sites
on
the
CCL.
For
the
most
up
to
date
information
on
the
CCL,
see
EPA's
Internet
site
at
http://
www.
epa.
gov/
supe@
und.
EPA
also
has
developed
an
NPL
11.
Public
ReviewDublic
Comment
A.
Can
I
Review
the
Documents
Relevant
to
This
Proposed
Rule?
Yes,
docunients
that
form
the
basis
for
EPA's
evaluation
and
scoring
of
the
sites
in
this
rule
are
contained
in
dockets
located
both
at
EPA
Headquarters
in
Washington,
DC
and
in
the
Regional
offices.
B.
How
Do
I
Access
the
Documents?
You
may
view
the
documents,
by
appointment
only,
in
the
Headquarters
or
the
Regional
dockets
after
the
appearance
of
this
proposed
rule.
The
hours
of
operation
for
the
Headquarters
docket
are
from
9
a.
m.
to
4
p.
m.,
Monday
through
Friday
excluding
Federal
holidays.
Please
contact
the
Regional
dockets
for
hours.
Following
is
the
contact
information
for
the
EPA
Headquarters
docket:
Docket
Coordinator,
Headquarters,
U.
S.
EPA
CERCLA
Docket
Office,
Crystal
Gateway
#1,
1st
Floor,
1235
Jefferson
Davis
Highway,
Arlington,
VA
22202,
7031603
9232,
(Please
note
this
is
a
visiting
address
only.
Mail
comments
to
EPA
Headquarters
as
detailed
at
the
beginning
of
this
preamble.)
The
contact
information
for
the
Regional'
dockets
is
as
follows:
Ellen
Culhane,
Region
1
(CT,
ME,
MA,
NH,
RI,
VT),
U.
S.
EPA,
Superfund
Records
Center,
Mailcode
HSC,
One
Congress
Street,
Suite
1100,
Boston,
Ben
Conetta,
Region
2
[NJ,
NY,
PR,
VI),
U.
S.
EPA,
290
Broadway,
New
York,
Dawn
Shellenberger
(ASRC),
Region
3
(DE,
DC,
MD,
PA,
VA,
WV),
U.
S.
EPA,
Library,
1650
Arch
Street,
Mailcode
3PM52,
Philadelphia,
PA
19103;
2151
MA
02114
2023;
617I918
1225.
NY
10007
1866;
21216374435.
814
5364.
Joellen
O'Neill,
Region
4
(AL,
FL,
GA,
KY,
MS,
NC,
SC,
TN),
U.
S.
EPA,
61
Forsyth
Street,
SW.,
9th
floor,
Atlanta,
GA
30303;
404156243127.
Janet
Pfundheller,
Region
5
(IL,
IN,
MI,
MN,
OH,
WI),
U.
S.
EPA,
Records
Center,
Superfund
Division
SMR
7J,
MetcaJfe
Federal
Building,
77
West
Jackson
Boulevard,
Chicago,
IL
60604;
312/
353+
821.
Brenda
Gook,
Region
6
[AR,
LA,
NM,
OK,
TF],
U.
5.
EPA,
1445
Ross
Avenue,
Mailcode
6SF
RA,
Dallas,
Michelle
Quick,
Region
7
(IA,
KS,
MO,
NE),
U.
S.,
EF?
A,
901
North
5th
Street,
Kansas
City,
KS
66101;
9131551
7335.
David
Williams,
Region
8
(CO,
MT,
ND,
SD,
UT,
U
T
),
U.
S.
EPA,
999.18th
Street,
Syitei
500,
Mailcode
8EPR
SA,
Denver,
CO'80202
2466;
3031312
6757.
TX
75202
2733;
2141665
7436.
32290
Federal
Register/
Vol.
66,
No.
115/
Thursday,
June
14,
2001/
Proposed
Rules
Carolyn
Douglas,
Region
9
(AZ,
CA,
HI,
N
V
,
AS,
GU),
U.
S.
EPA,
75
Hawthorne
Street,
San
Francisco,
CA
94105;
4151
Robert
Phillips,
Region
10
(AK,
ID,
OR,
WA),
U.
S.
EPA,
11th
Floor,
1200
6th
Avenue,
Mail
Stop
ECL
110,
Seattle,
You
may
also
request
copies
from
EPA
Headquarters
or
the
Regional
dockets.
An
informal
request,
rather
than
a
formal
written
request
under
the
Freedom
of
Information
Act,
should
be
the
ordinary
procedure
for
obtaining
copies
of
any
of
these
documents.
~
C.
What
Documents
Are
Available
for
Public
Review
at
the
Headquarters
Docket?
The
Headquarters
docket
for
this
rule
contains:
HRS
score
sheets
for
the
proposed
sites;
a
Documentation
Record
for
the
sites
describing
the
information
used
to
compute
the
score;
information
for
any
sites
affected
by
particular
statutory
requirements
or
EPA
listing
policies;
and
a
list
of
documents
referenced
in
the
Documentation
Record.
D.
What
Documents
Are
Available
for
Public
Review
at
the
Regional
Dockets?
The
Regional
dockets
for
this
rule
contain
all
of
the
information
in
the
Headquarters
docket,
plus,
the
actual
reference
documents
containing
the
data
principally
relied
upon
and
cited
by
EPA
in
calculating
or
evaluating
the
HRS
score
for
the
sites.
These
reference
documents
are
available
only
in
the
Regional
dockets.
E.
How
Do
I
Submit
My
Comments?
Headquarters
as
detailed
at
the
beginning
of
this
preamble
in
the
ADDRESSES
section.
Please
note
that
the
addresses
differ
according
to
method
of
delivery.
There
are
two
different
addresses
that
depend
on
whether
comments
are
sent
by
express
mail
or
by
postal
mail.
F.
What
Happens
to
M
y
Comments?
EPA
considers
all
comments
received
during
the
comment
period.
Significant
comments
will
be
addressed
in
a
support
document
that
EPA
will
publish
concurrently
with
the
Federal
Register
document
if,
and
when,
the
site
is
listed
on
the
NPL.
G.
What
Should
I
Consider
When
Preparing
My
Comments?
Comments
that
include
complex
or
voluminous
reports,
or
materials
prepared
for
purposes
other
than
HRS
scoring,
should
point
out
the
specific
information
that
EPA
should
consider
744
2343.
WA
98101;
206/
553
6699.
Comments
must
be
submitted
to
EPA
and
how
it
affects
individual
HRS
factor
values
or
other
listing
criteria
[Northside
Sanitary
Landfill
v.
Thomas,
849
F.
2d
1516
(D.
C.
Cir.
1988)).
EPA
will
not
address
voluminous
comments
that
are
not
specifically
cited
by
page
number
and
referenced
to
the
HRS
or
other
listing
criteria.
EPA
will
not
address
comments
unless
they
irldicate
which
component
of
the
HRS
documentation
record
or
what
particular
point
in
EPA's
stated
eligibility
criteria
is
at
issue.
H.
Can
I
Submit
Comments
After
the
Public
Comment
Period
Is
Over?
Generally,
EPA
will
not
respond
to
late
comments.
EPA
can
only
guarantee
that
it
will
consider
those
comments
postmarked
by
the
close
of
the
formal
comment
period.
EPA
has
a
policy
of
not
delaying
a
final
listing
decision
solely
to
accommodate
consideration
of
late
comments.
I.
Can
I
View
Public
Comments
Submitted
by
Others?
During
the
comment
period,
comments
are
placed
in
the
Headquarters
docket
and
are
available
to
the
public
on
an
"as
received"
basis.
A
complete
set
of
comments
will
be
available
for
viewing
in
the
Regional
docket
approximately
one
week
after
the
formal
comment
period
closes.
J.
Can
I
Submit
Comments
Regarding
Sites
Not
Currently
Proposed
to
the
NPL?
In
certain
instances,
interested
parties
have
written
to
EPA
concerning
sites
which
were
not
at
that
time
proposed
to
the
NPL.
If
those
sites
are
later
proposed
to
the
NPL,
parties
should
review
their
earlier
concerns
and,
if
still
appropriate,
resubmit
those
concerns
for
consideration
during
the
formal
comment
period.
Site
specific
correspondence
received
prior
to
the
period
of
formal
proposal
and
comment
will
not
generally
be
included
in
the
docket.
ILL
Contents
of
This
Proposed
Rule
A.
Proposed
Additions
to
the
NPL
proposing
to
add
10
new
sites
to
the
NPL;
all
to
the
General
Superfund
Section
of
the
NPL.
The
sites
in
this
proposed
rulemaking
are
being
proposed
based
on
HRS
scores
of
28.50
or
above.
The
sites
are
presented
in
Table
1
which
follows
this
preamble.
B.
Status
of
NPL
A
final
rule
published
elsewhere
in
today's
Federal
Register
finalizes
10
sites
to
the
NPL;
resulting
in
an
NPLof
1,236
final
sites;
1,076
in
the
General
With
today's
proposed
rule,
EPA
is
Federal
Register/
Vol.
66,
No.
115/
Thursday,
June
14,
2001/
Proposed
Rules
32291
Superfund
Section
and
160
in
the
Federal
Facilities
Section.
With
this
proposal
of
10
new
sites,
there
are
now
67
sites
proposed
and
awaiting
final
agency
action,
61
in
the
General
Superfund
Section
and
6
in
the
Federal
Facilities
Section.
Final
and
proposed
sites
now
total
1,303.
(These
numbers
reflect
the
status
of
sites
as
of
May
21,
2001.
Site
deletions
occurring
after
this
date
may
affect
these
numbers
at
time
of
publication
in
the
Federal
Register.)
IV.
Executive
Order
12866
A.
WhatIs
Execqtive
Order
12866?
51735
(October
4,1993))
the
Agency
must
determine
whether
a
regulatory
action
is
"significant"
and
therefore
subject
to
OMB
review
and
the
requirements
of
the
Executive
Order.
The
Order
defines
"significant
regulatory
action"
as
one
that
is
likely
to
result
in
a
rule
that
may:
(1)
Have
an
annual
effect
on
the
economy
of
$100
million
or
more
or
adversely
affect
in
a
material
way
the
economy,
a
sector
of
the
economy,
productivity,
competition,
jobs,
the
environment,
public
health
or
safety,
or
State,
local,
or
tribal
governments
or
communities;
(2)
create
a
serious
inconsistency
or
otherwise
interfere
with
an
action
taken
or
planned
by
another
agency;
(3)
materially
alter
the
budgetary
impact
of
entitlements,
grants,
user
fees,
or
loan
programs
or
the
rights
and
obligations
of
recipients
thereof;
or
(4)
raise
novel
legal
or
policy
issues
arising
out
of
legal
mandates,
the
President's
priorities,
or
the
principles
set
forth
in
the
Executive
Order.
B.
Is
This
Proposed
Rule
Subject
to
Executive
Order
12866
Review?
No,
the
Office
of
Management
and
Budget
(OMB)
has
exempted
this
regulatory
action
from
Executive
Order
12868
review.
V.
Unfunded
Mandates
A.
What
Is
the
Unfunded
Mandates
Reform
Act
(UMRA]?
Tihe
I1
of
the
Unfunded
Mandates
Reform
Act
of
1995
(UMRA),
Public
Law
104
4,
establishes
requirements
for
Federal
Agencies
to
assess
the
effects
of
theirsregulatory
actions
on
State,
local,
and
tribal
governments
and
the
private
sector.
Under
section
202
of
the
UMRA,
EPA
generally
must
prepare
a
written
statement,
including
,a
cost
benefit
.
analysis,
for
proposed
and
final
rules
witE!``
Federal
mandates"
that
may
resuft
in
expenditures
by
State,
local,
and
fribal
governments,
in
the
aggregate,
or
by
the
private
sector,
of
$100
million
or
more
in
any
one
year.
Before
EPA
Under
Executive
Order
12866,
(58
FR
promulgates
a
rule
for
which
a
written
statement
is
needed,
section
205
of
the
UMRA
generally
requires
EPA
to
identify
and
consider
a
reasonable
number
of
regulatory
alternatives
and
adopt
the
least
costly,
most
cost
effective,
or
least
burdensome
alternative
that
achieves
the
objectives
of
the
rule.
The
provisions
of
section
205
do
not
apply
when
they
are
inconsistent
with
applicable
law.
Moreover,
section
205
allows
EPA
to
adopt
an
alternative
other
than
the
least
costly,
most
cost
effective,
or
least
burdensome
alternative
if
the
Administrator
publishes
with
the
final
rule
an
explanation
why
that
alternative
was
not
adopted.
Before
EPA
establishes
any
regulatory
requirements
that
may
significantly
or
uniquely
affect
small
governments,
including
tribal
governments,
it
must
have
developed
under
section
203
of
the
UMRA
a
small
government
agency
plan.
The
plan
must
provide
for
notifying
potentially
affected
small
governments,
enabling
officials
of
affected
small
governments
to
have
meaningful
and
timely
input
in
the
development
of
EPA
regulatory
proposals
with
significant
Federal
intergovernmental
mandates,
and
informing,
educating,
and
advising
small
governments
on
compliance
with
the
regulatory
requirements.
B.
Does
UMRA
Apply
to
This
Proposed
Rule?
No,
EPA
has
determined
that
this
rule
does
not
contain
a
Federal
mandate
that
may
result
in
expenditures
of
$100
million
or
more
for
State,
local,
and
tribal
governments
in
the
aggregate,
or
by
the
private
sector
in
any
one
year.
This
rule
will
not
impose
any
federal
intergovernmental
mandate
because
it
imposes
no
enforceable
duty
upon
State,
tribal
or
local
governments.
Listing
a
site
on
the
NPL
does
not
itself
impose
any
costs.
Listing
does
not
mean
that
EPA
necessarily
will
undertake
remedial
action.
Nor
does
listing
require
any
action
by
a
private
party
or
determine
liability
for
response
costs.
Costs
that
arise
out
of
site
responses
result
from
site
specific
decisions
regarding
what
actions
to
take,
not
directly
from
the
act
of
listing
a
site
on
the
NPL.
For
the
same
reasons,
EPA
also
has
determined
that
this
rule
contains
no
regulatory
requirements
that
might
significantly
or
uniquely
affect
small
governments.
In
addition,
as
discussed
above,
the
private
sector
is
not
expected
to
incur
costs
exceeding
$100
million.
EPA
has
fulfilled
the
requirement
for
analysis
under
the
Unfunded
Mandates
Reform
Act.
VI.
Effect
on
Small
Businesses
A.
What
Is
the
Regulatory
Flexibility
Act?
Pursuant
to
the
Regulatory
Flexibility
Act
(5
U.
S.
C.
601
et
seq.,
as
amended
by
the
Small
Business
Regulatory
Enforcement
Fairness
Act
(SBREFA)
of
1996)
whenever
an
agency
is
required
to
publish
a
notice
of
rulemaking
for
any
proposed
or
final
rule,
it
must
prepare
and
make
available
for
public
comment
a
regulatory
flexibility
analysis
that
describes
the
effect
of
the
rule
on
small
entities
(Le.,
small
businesses,
small
organizations,
and
small
governmental
jurisdictions).
However,
no
regulatory
flexibility
analysis
is
required
if
the
head
of
an
agency
certifies
the
rule
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
SBREFA
amended
the
Regulatory
Flexibility
Act
to
require
Federal
agencies
to
provide
a
statement
of
the
factual
basis
for
certifying
that
a
rule
will
not
have
a
significant
economic
impact
on
a
substantial
number
of
small
entities.
B.
Has
EPA
Conducted
a
Regulatory
Flexibility
Analysis
for
This
Rule?
No.
The
RFA
does
not
apply
to
NPL
listings
(See
65
FR
46135
(July
27,
2000)).
The
RFA
generally
requires
an
agency
to
prepare
a
regulatory
flexibility
analysis
of
any
rule
for
which
an
agency
must
publish
a
notice
of
general
rulemaking
under
the
Administrative
Procedure
Act
or
any
other
statute.
Under
RFA
section
601(
2),
however,
the
term
"rule"
means
any
rule
for
which
the
agency
publishes
a
general
notice
of
rulemaking
but
does
not
include
a
rule
of
"particular
applicability
relating
to
facilities
*
*
*"
5
U.
S.
C.
601(
2).
Here,
each
proposed
listing
is
based
on
determinations
unique
to
individual
sites
and
each
of
the
proposed
listings
applies
only
to
one
facility
or
site.
Consequently,
each
proposed
listing,
if
finalized
will
be
a
rule
of
particular
applicability
and
thus,
the
RFA
does
not
apply
to
the
proposed
'
listing
of
these
individual
sites
on
the
NPL.
individual
sites
on
the
NPL
will
not
impose
any
obligations
on,
small
entities
or
any
other
identifiable
group.
The
proposed
rule
would
establish
no
standards
or
a
regulatory
regime
that
any
small
entity
must
meet.
The
proposed
listings
will
impose
no
liability
or
costs
on
any
small
entity
(65
FR
46135
(July
27,2000)).
Whether
an
entity,
small
or
otherwise,
is
liable
for
response
costs
for
a
release
of
hazardous
substances
depends
on
whether
that
entity
is
liable
under
CERCLA
107(
a).
**x
Moreover,
the
listing
of
these
32292
Federal
Register/
Vol.
66,
No.
115/
Thursday,
June
14,
2001/
Proposed
Rules
Any
such
liability
exists
no
matter
whether
the
site
is
listed
on
the
NPL.
VII.
National
Technology
Transfer
and
Advancement
Act
A.
What
Is
the
National
Technology
Transfer
and
Advancement
Act?
Section
12(
d)
of
the
National
Technology
Transfer
and
Advancement
Act
of
1995
(NTTAA),
Public
Law
104
113,
section
12(
d)
(15
U.
S.
C.
272
note),
directs
EPA
to
use
voluntary
consensus
standards
in
its
regulatory
activities
unless
to
do
so
would
be
inconsistent
with
applicable
law
or
otherwise
impractical.
Voluntary
consensus
standards
are
technical
standards
(e.
g..
materials
specifications,
test
methods,
sampling
procedures,
and
business
practices)
that
are
developed
or
adopted
by
voluntary
consensus
standards
bodies.
The
NTTAA
directs
EPA
to
provide
Congress,
through
OMB,
explanations
when
the
Agency
decides
not
to
use
available
and
applicable
voluntary
consensus
standards.
B.
Does
the
National
Technology
Transfer
and
Advancement
Act
Apply
to
This
Proposed
Rule?
No.
This
proposed
rulemaking
does
not
involve
technical
standards.
Therefore,
EPA
did
not
consider
the
use
of
any
voluntary
consensus
standards.
VIII.
Executive
Order
12898
A.
What
is
Executive
Order
12898?
Under
Executive
Order
12898,
"Federal
Actions
to
Address
Environmental
Justice
in
Minority
Populations
and
Low
Income
Populations,"
as
well
as
through
EPA's
April
1995,
"Environmental
Justice
Strategy,
OSWER
Environmental
Justice
Task
Force
Action
Agenda
Report,"
and
National
Environmental
Justice
Advisory
Council,
EPA
has
undertaken
to
incorporate
environmental
justice
into
its
policies
and
programs.
EPA
is
committed
to
addressing
environmental
justice
concerns,
and
is
assuming
a
leadership
role
in
environmental
justice
initiatives
to
enhance
environmental
quality
for
all
residents
of
the
United
States.
The
Agency's
goals
are
to
ensure
that
no
segment
of
the
population,
regardless
of
race,
color,
national
origin,
or
income,
bears
disproportionately
high
and
adverse
human
health
and
environmental
effects
as
a
result
of
EPA's
policies,
programs,
and
activities,
and
all
people
live
in
clean
and
sustainable
communities.
B.
Does
Executive
Order
12898
Apply
to
this
Proposed
Rule?
No.
While
this
rule
proposes
to
revise
the
NPL,
no
action
will
result
from
this
proposal
that
will
have
disproportionately
high
and
adverse
human
health
and
environmental
effects
on
any
segment
of
the
population.
E.
Executive
Order
13045
A.
What
Is
Executive
Order
13045?
Executive
Order
13045:
"Protection
of
Children
from
Environmental
Health
Risks
and
Safety
Risks"
(62
FR
19885,
April
23,1997)
applies
to
any
rule
that:
(1)
Is
determined
to
be
"economically
significant"
as
defined
under
Executive
Order
12866,
and
(2)
concerns
an
environmental
health
or
safety
risk
that
EPA
has
reason
to
believe
may
have
a
disproportionate
effect
on
children.
If
the
regulatory
action
meets
both
criteria,
the
Agency
must
evaluate
the
environmental
health
or
safety
effects
of
the
planned
rule
on
children,
and
explain
why
the
planned
regulation
is
preferable
to
other
potentially
effective
and
reasonably
feasible
alternatives
considered
by
the
Agency.
B.
Does
Executive
Order
13045
Apply
to
This
Proposed
Rule?
This
proposed
rule
is
not
subject
to
Executive
Order
13045
because
it
is
not
an
economically
significant
rule
as
defined
by
Executive
Order
12866,
and
because
the
Agency
does
not
have
reason
to
believe
the
environmental
he'alth
or
safety
risks
addressed
by
this
proposed
rule
present
a
disproportionate
risk
to
children.
X.
Paperwork
Reduction
Act
A.
What
Is
the
Paperwork
Reduction
Act?
According
to
the
Paperwork
Reduction
Act
(PRA),
44
U.
S.
C.
3501
et
seq.,
an
agency
may
not
conduct
or
sponsor,
and
a
person
is
not
required
to
respond
to
a
collection
of
information
that
requires
OMB
approval
under
the
PRA,
unless
it
has
been
approved
by
OMB
and
displays
a
currently
valid
OMB
control
number.
The
OMB
control
numbers
for
EPA's
regulations,
after
initial
display
in
the
preamble
of
the
final
rules,
are
listed
in
40
CF'R
part
9.
The
information
collection
requirements
related
to
this
action
have
already
been
approved
by
OMB
pursuant
to
the
PRA
under
OMB
control
number
2070
0012
(EPA
ICR
No.
574).
B.
Does
the
Paperwork
Reduction
Act
Apply
to
This
Proposed
Rule?
does
not
apply
because
this
rule
does
not
contain
any
information
collection
requirements
that
require
approval
of
the
OMB.
No.
EPA
has
determined
that
the
PRA
XI.
Executive
Orders
on
Federalism
What
Are
the
Executive
Orders
on
Federalism
and
Are
They
Applicable
to
This
Proposed
Rule?
Executive
Order
13132,
entitled
"Federalism"
(64
FR
43255,
August
10,
1999),
requires
EPA
to
develop
an
accountable
process
to
ensure
"meaningful
and
timely
input
by
State
and
local
officials
in
the
development
of
regulatory
policies
that
have
federalism
implications."
"Policies
that
have
federalism
implications"
is
defined
in
the
Executive
Order
to
include
regulations
that
have
"substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
States,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government."
Under
section
6
of
Executive
Order
13132,
EPA
may
not
issue
a
regulation
that
has
federalism
implications,
that
imposes
substantial
direct
compliance
costs,
and
that
is
not
required
by
statute,
unless
the
Federal
government
provides
the
funds
necessary
to
pay
the
direct
compliance
costs
incurred
by
State
and
local
governments,
or
EPA
consults
with
State
and
local
officials
early
in
the
process
of
developing
the
proposed
regulation.
EPA
also
may
not
issue
a
regulation
that
has
federalism
implications
and
that
preempts
State
law,
unless
the
Agency
consults
with
State
and
local
officials
early
in
the
process
of
developing
the
proposed
regulation.
This
proposed
rule
does
not
have
federalism
implications.
It
will
not
have
substantial
direct
effects
on
the
States,
on
the
relationship
between
the
national
government
and
the
States,
or
on
the
distribution
of
power
and
responsibilities
among
the
various
levels
of
government,
as
specified
in
Executive
Order
13132.
Thus,
the
requirements
of
section
6
of
the
Executive
Order
do
not
apply
to
this
rule.
XII.
Executive
Order
13175
What
Is
Executive
Order
131
75
and
Is
It
Applicable
to
This
Proposed
Rule?
On
November
6,2000,
the
President
issued
Executive
Order
13175
(65
FR
67249)
entitled,
"Consultation
and
Coordination
with
Indian
Tribal
Governments."
Executive
Order
13175
took
effect
on
January
6,2001,
and
revokes
Executive
Order
13084
(Tribal
Consultation)
as
of
that
date.
EPA
developed
this
proposed
rule,
however,
during
the
period
when
Executive
Order
13084
was
in
effect;
thus,
EPA
addressed
tribal
considerations
under
Executive
Order
13084.
EPA
will
Federal
Register/
Vol.
66,
No.
115/
Thursday,
June
14,
2001/
Proposed
Rules
32293
analyze
and
fully
comply
with
the
requirements
of
Executive
Order
13175
before
promulgating
the
final
rule.
Under
Executive
Order
13084,
EPA
may
not
issue
a
regulation
that
is
not
required
by
statute,
that
significantly
or
uniquely
affects
the
communities
of
Indian
tribal
governments,
and
that
imposes
substantial
direct
compliance
costs
on
those
communities,
unless
the
Federal
government
provides
the
funds
necessary
to
pay
the
direct
compliance
costs
incurred
by
the
tribal
governments,
or
EPA
consults
with
those
governments.
If
EPA
complies
by
consulting,
Executive
Order
13084
requires
EPA
to
provide
to
the
Office
of
Management
and
Budget,
in
a
separately
identified
section
of
the
preamble
to
the
rule,
a
description
of
the
extent
of
EPA's
prior
consultation
with
representatives
of
affected
tribal
governments,
a
summary
of
the
nature
of
their
concerns,
and
a
statement
supporting
the
need
to
issue
the
regulation.
In
addition,
Executive
Order
13084
requires
EPA
to
develop
an
effective
process
permitting
elected
officials
and
other
representatives
of
Indian
tribal
governments
"to
provide
meaningful
and
timely
input
in
the
development
of
regulatory
policies
on
matters
that
significantly
or
uniquely
affect
their
communities."
This
proposed
rule
does
not
significantly
or
uniquely
affect
the
communities
of
Indian
tribal
governments
because
it
does
not
significantly
or
uniquely
affect
their
communities.
The
addition
of
sites
to
the
NPL
will
not
impose
any
substantial
direct
compliance
costs
on
Tribes.
While
Tribes
may
incur
costs
from
participating
in
the
investigations
and
cleanup
decisions,
those
costs
are
not
compliance
costs.
Accordingly,
the
requirements
of
section
3(
b)
of
Executive
Order
13084
do
not
apply
to
this
proposed
rule.
TABLE
1
.
NATIONAL
PRIORITIES
LIST
PROPOSED
RULE
NO.
36,
GENERAL
SUPERFUND
SECTION
State
CA
.....................
IL
.......................
MS
.....................
NY
.....................
PA
.....................
PA
.....................
TX
......................
TX
......................
UT
.....................
VT
......................
Site
name
Citykounty
CasmaliaResources
................................................................................................
Louisville.
American
Creosote
Works,
Inc
................................................................................
LaSalle.
Matthiessen
and
Hegeler
Zinc
Company
.................................................................
Casmalia.
Valmont
TCE
............................................................................................................
Hazle
Township
and
West
Hazleton.
Watson
Johnson
Landfill
..........................................................................................
Richland
Township.
PatrickBayou
...........................................................................................................
Deer
Park.
R
&
H
Oil
Company
..................................................................................................
Eureka
Mills
..............................................................................................................
San
Antonio.
Vershire.
Ely
Copper
Mine
.......................................................................................................
Eureka.
MacKenzie
Chemical
Works,
Inc
.............................................................................
Central
Islip.
Number
of
Sites
Proposed
to
General
Superfund
Section:
10.
List
of
Subjects
in
40
CFR
Part
300
Environmental
protection,
Air
pollution
control,
Chemicals,
Hazardous
substances,
Hazardous
waste,
Intergovernmental
relations,
Natural
resources,
Oil
pollution,
Penalties,
Reporting
and
recordkeeping
requirements,
Superfund,
Water
pollution
control,
Watel:
supply.
Authority:
33
U.
S.
C.
1321(
c)(
2);
42
U.
S.
C.
9601
9657;
E.
O.
12777,56
FR
54757,3
CFR,
1991
Comp.,
p.
351;
E.
O.
12580,52
FR
2923,
3
CFR,
1987
Comp.,
p.
193.
Dated
June
1,
2001.
Michael
H.
Shapiro,
ActingAssistantAdministrator,
office
of
Solid
Waste
and
Emergency
Response.
[FR
Doc.
01
14617
Filed
6
13
01;
8:
45
am]
BILLING
CODE
656040
P
FEDERAL
EMERGENCY
MANAGEMENTAGENCY
44
CFR
Parts
59
and
64
RIN
3067
AD18
Changes
to
General
Provisions
and
Communities
Eligible
for
the
Sale
of
Insurance
That
Include
Future
Conditions
Flood
Hazard
Information
on
Flood
Maps
AGENCY:
Federal
Emergency
Management
Agency
(FEMA).
ACTION:
Proposed
rule.
SUMMARY:
This
Proposed
Rule
will
revises
the
National
Flood
Insurance
Program
(NFIP)
regulations
to
include
definitions
for
future
conditions
hydrology
and
for
the
floodplains
that
may
be
shown
on
Flood
Insurance
Rate
Maps
(FIRMS),
for
informational
purposes
,at
the
request
of
the
community,
to
reflect
future
conditions
hydrology;
and
establish
the
zone
symbol
to
be
used
to
identify
future
conditions
flood
hazard
areas
on
the
FIRMS.
DATES:
We
invite
comments
on
this
Proposed
Rule.
Please
submit
written
comments
on
or
before
August
13,
2001.
ADDRESSES:
Please
send
written
comments
to
the
Rules
Docket
Clerk,
Office
of
the
General
Counsel,
Federal
Emergency
Management
Agency,
500
C
Street
SW.,
Washington,
DC;
facsimile
(202)
6464536.
FOR
FURTHER
INFORMATION
CONTACT:
Matthew
B.
Miller,
P.
E.,
Chief,
Hazards
Study
Branch,
500
C
Street
SW.,
Washington,
DC
20472;
by
telephone
at
(202)
646
3461,
by
facsimile
at
(202)
6464596
(not
toll
free
calls),
or
by
e
mail
at
matt.
miller@
fema.
gov.
SUPPLEMENTARY
INFORMATION:
Background
Congress,
in
enacting
the
Flood
Insurance
Act
of
1968,
to
"encourage
State
and
local
governments
to
make
appropriate
land
use
adjustments
to
constrict
the
development
of
land
which
is
exposed
to
flood
damage
and
minimize
damage
caused
by
flood
losses,
and
guide.
the
development
of
proposed
future
construction,
where
practicable,
away
fkom
locations
which
are
threatened
by
flood
hazards
*
*
*"
42
U.
S.
C.
4001(
e).
These
proposed
revisions
to
the
NFIP
regulations
are
a
result
of
the
continuing
reappraisal
of
the
NFIP
for
the
purpose
of
encouraging
sound
floodplain
management
to
reflect
that
intent.
Historically,
flood
hazard
information
presented
on
NFIP
flood
maps
has
been
based
on
the
existing
conditions
of
the
floodplain
and
watershed.
When
the
It
was
the
expressed
intent
of
the
U.
S.
| epa | 2024-06-07T20:31:36.316792 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-SFUND-2001-0007-0001/content.txt"
} |
EPA-HQ-SFUND-2001-0009-0001 | Supporting & Related Material | 2001-09-12T04:00:00 | null | i
SFUND
2001
0009
0001
FINAL
HAZARD
RANKING.
SYSTEM
PACKAGE
CALLAHAN
MINE
BROOKSVILLE,
MAINE
CERCLIS
ID
NO.:
MED980524128
Prepared
For:
U.
S.
Environmental
Protection
Agency
Region
I
Office
of
Site
Remediation
and
Restoration
1
Congress
Street,
Suite
1100
Boston,
MA
021
14
2023
CONTRACT
NO.
68
W
00
097
TDD
NO.
01
05
0161
PCS
No.
2660
DC
NO.
A
2045
Prepared
by:
Roy
F.
Weston,
Inc.
(WESTON@)
Superfund
Technical
Assessment
and
Response
Team
(START)
37
Upton
Drive
Wilmington,
MA
01
887
HRS
DOCUMENTATION
RECORD
Name
of
Site:
Callahan
Mine
EPA
Region:
Region
I
Date
Prepared:
16
July
200
1
Street
Address
of
Site:
Harborside
(mine
entrance
at
end
of
Old
Mine
Lane
Road)
City,
County,
State:
Brooksville
(Cape
Rosier),
Hancock
County,
Maine
General
Location
in
the
State:
Coastal,
south
of
Bangor,
Maine
TopographicMap:
U.
S.
Geological
Survey
CapeRosier,
Maine
7
x
15
minute
TopographicMap.
1973,
photoinspected
1979.
Latitude:
44"
21'
05.9"
NorthLongitude:
68
"
48'
36.5"
West
Ref:
Latitude
and
Longitude
were
measured
fiom
the
entrance
to
the
property
[4].
See
Figure
2
in
Attachment
A
for
the
location
of
the
latitudeflongitude
measurement
point.
Scores
Air
Pathway
Ground
Water
Pathway
Soil
Exposure
Pathway
Surface
Water
Pathway
HRS
SITE
SCORE
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
NS
NS
NS
100
50
16
July
2001
1
HRS
DOCUMENTATION
RECORD
COVER
SHEET
Name
of
Site:
Callahan
Mine
EPA
ID
No.
MED980524128
Contact
Persons
Site
Investigation:
Roy
F.
Weston,
Inc.
(WESTON,)/
Superfund
Technical
Assessment
and
Response
Team
(START)
(Mr.
Thomas
A.
Campbell)
Documentation
Record:
EPA
New
England
(Mr.
Matthew
Audet)
(Ms.
Nancy
Smith)
978
657
5400
617
918
1449
617
918
1436
Pathwavs,
Components.
or
Threats
Not
Scored
The
calculation
of
the
HRS
site
score
for
the
Callahan
Mine
site
is
based
on
threats
posed
by
the
site
to
the
surface
water
migration
pathway.
After
review
ofthe
four
pathways,
it
was
determined
that
the
ground
water
migration,
soil
exposure,
and
air
migration
pathways
do
not
contribute
significantly
to
the
overall
HRS
site
score.
Therefore,,
these
three
pathways
have
not
been
included
in
this
m
S
package.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
V
16
July
2001
TABLE
OF
CONTENTS
Section
Page
SITEDESCRTPTION
.........................................................................
111
I
...
HRSDOCUMENTATIONRECO
..............................................................
1
WORKSHEET
FOR
COMPUTING
HRS
SITE
SCORE
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
2
NOTESTOTHEREADER
...........................................................
7
REFERENCES
....................................................................
8
SOURCECHARACTERIZATION
...................................................
11
SOURCE1
..........
......................................................
11
SOURCE2
................................................................
18
SURFACEWATERPATHWAY
....................................................
26
Attachments
ATTACHMENT
A
FIGURES
ATTACHMENT
B
NPLCHARACTERISTICSDATACOLLECTIONFORM
ATTACHMENT
C
RE~
ERENCE
DOCUMENTS
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
11
16
July
2001
SITE
DESCRIPTION
The
Callahan
Mine
site
(the
"site")
(CERCLIS
ID
No.
MED980524128)
is
located
approximately
1,000
feet
east
southeast
of
Harborside
Village
in
the
Town
ofBrooksville,
Hancock
County,
Maine
(See
Attachment
A,
Figures
1
and
2)
[3;
16,
p.
11.
No
street
address
is
available
for
the
site.
The
site
is
the
former
location
of
a
zinc/
copper
open
pit
mine
[25,
p.
2;
34,
p.
21.
The
mining
operations
were
conducted
adjacent
to
and
beneath
Goose
Pond,
atidal
estuary
[16,
p.
1;
34,
p.
21.
The
Callahan
Mine
was
reputedly
the
only
intertidal
heavy
metal
mine
in
the
world
at
the
time
of
its
operation
[34,
p.
21.
The
property
comprises
150
acres
and
is
located
in
a
coastal,
rural
setting
on
the
Cape
Rosier
peninsula
[16,
p.
11.
The
property
abuts
Goose
Pond
to
the
east,
and
private
properties
to
the
west,
south,
and
north
(See
Attachment
A,
Figure
2)
[3;
16,
p.
11.
Site
features
include
large
waste
piles
(waste
rock
piles),
a
tailings
pond,
and
mine
operations
buildings
and
structures
(relic
buildings
and
structures)
(See
Attachment
A,
Figure
3)
[l
l
,
p.
21.
The
open
pit
mine
ceased
operations
in
1972
and
was
flooded
by
opening
a
dam
at
Goose
Falls
[6,
pp.
6,7].
The
mine
is
currently
under
water
and
is
subject
to
daily
tidal
exchange
in
Goose
Pond
[ll,
p.
2;
34,
p.
21.
Goose
Pond
is
connected
to
Goose
Cove
to
the
north
by
a
reversing
falls
known
as
Goose
Falls
[3;
16,
p.
4;
22,
pp.
5,
Map
15;
34,
p.
21.
Goose
Cove
is
located
on
the
southern
part
of
Penobscot
Bay
[34,
p.
21.
The
zindcopper
sulfide
deposit
was
discovered
in
1880
at
low
tide
by
a
clam
digger
[7,
p.
11
279;
8,
p.
1821.
The
main
components
of
this
deposit
were
sphalerite
(ZnS)
and
chalcopyrite
(CuFeSJ,
accompanied
by
abundant
pyrite
(FeSJ
and
lesser
amounts
of
pyrrhotite
(FeS)
[8,
p.
1821.
The
first
mine
operated
until
1887
when
a
price
drop
closed
this
and
most
other
mines
in
Maine
[6,
p.
21.
Ore
was
mined
from
three
shafts
[7,
pp.
11
279,
II
280].
Efforts
were
made
to
mine
the
ore
sporadically
through
1964
[6,
pp.
2
3;
7,
p.
II
2801.
Callahan
Mining
Corporation
geologists
became
interested
in
the
potential
ofthe
property
in
1964
and
subsequently
open
pit
mining
operations
commenced
in
1968
[6,
p.
31.
Two
dams
were
constructed
at
the
saltwater
inlet
and
freshwater
inlet
of
Goose
Pond.
Fresh
water
which
normally
flowed
into
Goose
Pond
was
diverted
south
to
Wier
Cove
via
a
drainage
ditch.
Goose
Pond
was
subsequently
drained
to
allow
for
the
excavation
of
the
mine
[6,
p.
41.
The
open
pit
mine
was
approximately
600
to
1,000
feet
(ft)
indiameterand
320
ft
in
depth
[6,
p.
5;
12,
p.
51.
Approximately
5
million
tons
of
non
ore
bearing
waste
rock
and
798,000
to
800,000
tons
of
ore
bearing
rock
were
removedfromthemine[
6,
p.
5;
25,
p.
21.
Wasterockwasremoved
andpiledthroughout
the
property,
but
predominantly
in
an
area
south
of
Dyer
Cove
16,
p.
5;
11,
p.
21.
This
area
has
been
referred
to
as
"Callahan
Mountain",
due
to
the
large
volume
ofwaste
rock
located
in
this
area
[6,
p.
51.
In
addition,
a
large
amount
of
marine
clay
(200,000
to
225,000
tons)
was
dumped
on
the
lower
portions
of
"Callahan
Mountain"
after
a
mud
slide
occurred
at
the
open
pit
mine
[6,
p.
14;
7,
p.
11
2831.
Dyer
Cove,
currently
a
small
part
of
the
Goose
Pond
estuary,
was
a
fully
enclosed
area
used
to
temporarily
store
water
pumped
from
the
open
pit
mine.
Particulates
were
allowed
to
settle
out
prior
to
pumping
the
water
from
this
cove
to
Goose
Cove
[9,
p.
41.
Sediment
laden
water
from
the
mine
was
also
pumped
through
a
16
inch
pipe
line,
discharging
directly
into
Goose
Cove,
north
of
Goose
Pond
[7,
p.
11
282;
34,
Figure
1;
401.
Ore
was
trucked
from
the
mine
to
an
ore
storage
area
[6,
p.
5;
7,
p.
11
2811.
From
here,
the
ore
was
loaded
into
a
series
of
crushers
and
mills
which
reduced
the
rock
to
the
consistency
of
fine
sand
and
silt
[6,
p.
51.
The
small
,particles
containing
zinc
and
copper
were
then
recovered
by
a
process
called
"flotation."
The
ore
was
passed
through
flotation
cells
into
which
chemicals
were
introduced
which
caused
the
minerals
to
float
on
bubbles
[6,
pp.
5,6].
Chemicals
which
were
used
in
the
flotation
process
included:
dithiophosphate
salts,
aryl
phosphorodithioate,
cyclohexanol,
and
cresol
[16,
p
51.
The
floatation
process
creates
a
"froth"
which
lifts
(through
surface
tension)
the
mineral
particles
and
depresses
or
allows
to
sink
the
remaining
rock
[12,
p.
41.
The
mineral
rich
froth
was
collected,
washed,
dried,
and
stockpiled
in
a
portion
of
the
mill
where
it
awaiting
transportation
to
a
smelter.
[12,
p.
41.
The
ore
was
processed
in
the
concentrating
mill
[25,
p.
21.
The
average
ore
grade
was
1.30%
copper,
4.91%
zinc,
0.35%
lead,
and
0.50
ounces
per
ton
of
silver
[25,
p.
21.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
111
...
16
July
2001
SITE
DESCRIPTION
(CONCLUDED)
The
remaining
non
mineral
particles
and
residues
of
the
chemical
reagents
were
discharged
to
the
tailings
pond
[6,
pp.
5,6;
12,
pp.
4,5].
The
approximately
11
acre
tailings
pond
is
located
in
the
southern
portion
ofthe
property,
adjacent
to
Goose
Pond
[6,
pp.
5,6;
11,
p.
2;
16,
p.
11.
A
series
of
dams
were
constructed
as
material
was
added
to
the
tailings
pond.
The
final
height
of
the
dam
is
82
feet
[6,
p.
10,
Figure
21.
Mining
operations
ceased
in
June
1972
due
to
the
depletion
ofthe
mineral
reserve.
Milling
ceased
in
July
1972
[25,
p.
21.
A
study
completed
by
the
Maine
Department
ofMarine
Resources
in
1975
examined
bio
accumulation
of
trace
elements
in
selected
marine
organisms
located
in
Goose
Cove
[3
11.
Levels
of
cadmium,
copper,
lead,
and
zinc
were
detected
at
several
times
to
several
orders
of
magnitude
higher
in
Goose
Cove
biota
and
sediments
than
in
samples
collected
from
other
Maine
midcoastal
and
river
locations
[31,
p.
11.
The
most
recent
sampling
event
was
conducted
by
the
Maine
Department
ofEnvironmental
Protection
in
October
1999
[18,
p.
I].
Twelve
soil
samples,
five
tailings
pond
samples
(source
samples),
three
tailings
pile
samples
(source
samples),
eight
waste
rock
pile
samples
(source
samples),
10
sediment
samples,
and
10
surface
water
samples
were
collected
[18,
pp.
4
61.
Onexample
from
the
tailings
pond
was
collected
47
feet
below
ground
surface
(bgs);
the
remaining
soil,
source,
and
sediment
samples
were
collected
at
depths
ranging
from
0
to
6
inches
bgs
[18,
p.
1
21.
Soil
samples
were
collected
from
the
mine
entrance
and
the
mine
operations
areas
[18,
p.
21.
Sediment
samples
were
collected
from
Goose
Pond,
Dyer
Cove,
and
Horseshoe
Cove
(a
background
sample
location)
[
18,
p.
21.
Samples
were
submitted
to
the
State
of
Maine
Health
and
Environmental
Testing
Laboratory
for
metals
analysis.
The
data
were
validated
according
to
EPA
New
England
Regional
Functional
Guidelines,
Modified
Tier
III
requirements
[20,
p.
11.
The
analytical
results
for
these,
samples
are
used
to
associate
hazardous
substances
with
the
sources
and
attribute
hazardous
substances
to
the
site.
The
sediment
samples
documentLeve1
II
actual
contamination
sensitive
environment
targets
and
Level
II
actual
contamination
fishery
targets
in
Goose
Pond.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
iv
16
July
2001
WORKSHEET
FOR
COMPUTING
HRS
SITE
SCORE
1.
GroundWaterMigrationPathwayScore
(S,)
(fi
om
Table
3
1,
line
13)
2a.
SurfaceWaterOverland/
FloodMigrationComponent
(SJ
(fi
om
Table
4
1,
line
30)
2b.
GroundWater
to
SurfaceWaterMigrationComponent
(S,,,)
@om
Table
4
25,
line
28)
2c.
SurfaceWaterMigrationPathwayScore
(SSw)
Enter
the
larger
of
lines
2a
and
2b
as
the
pathway
score.
3.
SoilExposurePathwayScore
(S,)
(fiom
Table
5
1,
line
22)
4.
AirMigrationPathwayScore
(S3
(fi
om
Table
6
1,
line
12)
5.
Total
of
S,:
+
S,:
+
S$
+
S:
6
.
HRS
Site
Score
Divide
the
value
on
line
5
by
4
and
take
the
square
root
NS
=
Notscored
S
S2
NS
NS
100
10,000
NS
NS
100
10,000
NS
NS
NS
NS
10,000
50
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
2
16
July
200
1
TABLE
4
1
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORESHEET
DRINKING
WATER
THREAT
Factor
Categories
and
Factors
Maximum
Value
Likelihood
of
Release
1.
ObservedRelease
2.
Potential
to
Release
by
Overland
Flow
550
I
550
2a.
Containment
NS
500
2d.
Potential
to
Release
by
Overland
Flow
(lines
2a
X
[2b
+
2cl)
NS
25
2c.
Distance
to
Surface
Water
NS
25
2b.
Runoff
NS
10
3.
Potential
to
Release
by
Flood
3a.
Containment
(Flood)
NS
500
3c.
Potential
to
Release
by
Flood
(lines
3a
x
3b)
NS
50
3b.
Flood
Frequency
NS
10
4.
Potential
to
Release
(lines
2d
+
3c,
subject
to
a
maximum
of
500)
'
500
NS
5.
Likelihood
of
Release
(higher
of
lines
1
and
4)
550
550
Waste
Characteristics
6
.
ToxicityIPersistence
NS
100
8.
WasteCharacteristics
NS
a
7.
HazardousWasteQuantity
NS
a
Targets
9.
NearestIntake
10.
Population
NS
50
loa.
LevelIConcentrations
NS
b
12.
Targets
(lines
9
+
10d
+
11)
NS
5
11.
Resources
NS
b
10d.
Population(
lines
loa+
10b
+
1Oc)
NS
b
1
Oc.
PotentialContamination
NS
b
.
lob:
LevelI1Concentrations
NS
b
Drinking
Water
Threat
Score
13.
Drinking
Water
Threat
Score
([
lines
5
X
8
X
121
f
82,500,
subject
to
a
maximum
of
100)
NS
100
Callahan
Mine
HRS
Documentation
Record
*
16
July
2001
CERCLIS
No.
MED980524128
3
TABLE
4
1
(Continued)
SURFACE
WATER
OVERLANDELOOD
MIGRATION
COMPONENT
SCORESHEET
HUMAN
FOOD
CHAIN
THREAT
Factor
Categories
and
Factors
Value
Assigned
Maximum
Value
Likelihood
of
Release
14.
Likelihood
of
Release
(same
value
as
line
5
)
550
550
Waste
Characteristics
15.
ToxicityPersistenceA3ioaccumulation
1,000
1,000
17.
WasteCharacteristics
1x106
a
16.
Hazardous
Waste
Quantity
2
x
lo8
a
Targets
18.
Food
Chain
Individual
19.
Population
I
50
45
19a.
Level
I
Concentrations
0.03
0.03
19d.
Population
(lines
19a
+
19b
+
19c)
0
b19c.
PotentialHumanFoodChainContamination
0.03
0.03
19b.
Level
I1
Concentrations
0
b
20.
Targets
(lines
18
+
19d)
b
45.03
Human
Food
Chain
Threat
Score
2
1.
Human
Food
Chain
Threat
Score
([
lines
14
x
17
X
201
+
82,500,
subject
to
a
maximum
of
100)
100
100
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
4
16
July
2001
TABLE
4
1
(Concluded)
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORESHEET
ENVIRONMENTAL
THREAT
I
Factor
Categories
and
Factors
I
Maximum
Value
I
Value
Assigned
Likelihood
of
Release
22.
Likelihood
of
Release
(same
value
as
line
5)
'.
550
550
I
Waste
Characteristics
23.
Ecosystem
ToxicityPersistenceBioaccumulation
1x106
a
24.
Fazardous
Waste
Quantity
2x
los
a
I
25.
I
1,000
I
1,000
Targets
26.
SensitiveEnvironments
26a.
Level
I
Concentrations
I
0
b
26.
SensitiveEnvironments
26a.
Level
I
Concentrations
55
b
26d.
Sensitive.
Environments(
lines26a
+
26b
+
26c)
0
b
'
26c.
PotentialContamination
55
b26b.
Level
11
Concentrations
0
b
27.
Targets
(value
from
26d)
b
55
26b.
Level
11
Concentrations
55
b
26d.
Sensitive.
Environments(
lines26a
+
26b
+
26c)
0
b
'
26c.
PotentialContamination
55
b
I
27.
Targets
(value
from
26d)
I
55
I
b
Environmental
Threat
Score
28.
Environmental
Threat
Score
([
lines
22
x
25
x
271
f
82,500,
subject
to
a
maximum
of
60)
60
60
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORE
FOR
A
WATERSHED
29.
WatershedScorec
(lines
13
+
21
+
28,
subject
to
a
maximum
of
100)
100
100
I
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORE
~~
30.
Component
Score
(SJ
(highest
score
from
line
29
for
all
watersheds
evaluated,
subject
to
a
maximum
of
100)
100
100
"Maximum=
value
applies
to
waste
characteristics
category.
bMaximum
value
not
applicable.
"Do
not
round
to
nearest
integer.
Callahan
Mine
HRSDocumentation
Record
CERCLIS
NO.
ME0980524128
5
16
July
2001
BASE
MAP
IS
A
PORTION
OF
THE
FOLiOWlNG
7.5
X
I$
U.
S.
b:
S.
QUADW\
WGLG($
j:
CAPER&&;
MAINE.
1973
REVISED
1979.
'
Note:
only
the
most
downstream
and
most
upstream
probable
points
of
entry
are.
depictedfor
cfaidiy.
+
0
..
.
.
..
t
1
Miles
I
auriowuw;
LE
LDCA'IION
1
SITE
LOCATION
MAP
03
CALLAHAN
MINE
HARBORVIEW
BROOKSVILLE,
MAINE
TDD
#
REGLON
I
SUPERFUND
TECHNICAL
ASSESSMENT
AND
RESPONSE
TEAM
DMWN
BY:
DATE:
00
06
0020
07/
12/
2000
CAMPBELL
F
I
E
NAME
€:\
ARC
APRS\
STARTZ\
CALLAHAN.
APR
FIGURE
2
1
I
I
I
Callahan
Mine
HRS
Documentation
Record
CFRCIJS
hin
MFn98n53419R
6
28
June
2001
NOTES
TO
THE
READER
All
reference
citations
used
to
document
the
HRS
score
will
follow
the
following
conventions:
42
=
Reference
No.
42
(all
referencescited
by
number)
P.
=
single
page
PP
=
multiplepages(
pp.
2
5,9
or
pp.
A
1
to
A
10)
11.
I
t
=
next
reference
For
example:
"Source
No.
1
is
located
in
the
southern
portion
of
the
site
at
a
topographic
high
(4,
Plate
3;
5,
pp.
15
21,23),"
means
that
the
information
presented
is
documented
in
Reference
No.
4
on
Plate
3
and
Reference
No.
5
onpages
15
through
2
1
and
page
23.
Referenced
text
has
been
either
quoted
or
paraphrased
for
clarity.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
7
16
July
200
1
Ref
No.
1.
2.
3.
4.
5
.
6.
7
8.
9.
10.
11.
12.
13.
14.
15.
16.
REFERENCES
Description
of
the
Reference
U.
S.
Environmental
Protection
Agency.
Hazard
Ranking
Svstem:
Final
Rule,,
40
CFR
Part
300,
Appendix
A.
December
14,1990.137
pages.
U.
S.
Environmental
Protection
Agency.
Suuerfund
Chemical
Data
Matrix.
June
1996.
Excerpt.
9
pages.
U.
S.
GeologicalSurvey.
CapeRosierQuadrangle,
Maine
7.5minuteSeriesTopographicMap.
1973,
photorevised
1979.
1
sheet.
Sklaney,
C.
(
Roy
F.
Weston,
Inc.).
Memorandum
RE:
Callahan
Mine
property
coordinates
calculations.
TDD
No.
00
06
0020.
July
5,2000.
2
pages.
Parrish,
C.
C.
G.
(MaineDepartment
of
EnvironmentalProtection,
Division
of
TechnicalServices).
Memorandum,
RE:
Soil
and
sediment
sampling
at
the
Callahan
Mine,
Brooksville,
Maine.
April
3,2000.
15
pages.
F.
M.
Beck,
Inc.
MinesiteEnvironmentalReview,
Harborside,
'
Maine,
forArrowheadHoldings
Coruoration,
N
Y
,
NY.
July
1986.
92
pages.
Beck,
F.
M.
(Callahan
Mining
Corp.)
Marine
Challenges
Encountered
bv
a
Small
Mine
on
the
Maine
Coast.
Offshore
Technology
Conference.
1970.
8
pages.
Howd,
F.
H.
(University
of
Maine,
Orono)
and
D.
P.
Drake
(Kerramerican,
Inc.).
Economic
Deuosits
at
Blue
Hill.
Undated.
9
pages.
Fuller,
G.
(OHMS
I,
Maine
Department
of
Environmental
Protection).
Memorandum
RE:
Site
Inspection
Report,
Callahan
Mine,
Harborside,
Maine
Site
Number
MED980524129.
May
28,
1987.
18
pages.
Roy
F.
Weston,
Inc.
Field
Logbook
for
the
Callahan
Mine,
No.
01000
S.
TDD
No.
00
05
0080.
June
1,
2000.
19
pages.
Lloyd,
E.
(
MaineDepartmentofEnvironmentalProtection,
GIs
Unit).
Memorandum,
RE:
Area
Calculations
for
Callahan
Mine
Site,
Brooksville,
Maine.
June
28,2000.2
pages.
Beck,
F.
Memorandum
to
DEP
Staff,
RE:
Mining
lecture
and
field
trip
to
mine
sites
in
Blue
Hill
and
Brooksville,
Maine.
November
9,
1989.
10
pages.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Phone
Conversation
Record
With
Mr.
John.
Williams
(Staff,
Maine
Marine
Patrol
11),
RE:
Finfish
fisheries
in
the
vicinity
of
Callahan
Mine.
TDD
No.
00
06
0020.
July
17,
2000.
1page.
Campbell,
T.
(
RoyF.
Weston,
Inc.).
PhoneConversationRecordWithMr.
RobertGoodwin(
Marine
Scientist,
Maine
Department
of
Marine
Resources),
RE:
Shellfish
fisheries
and
Callahan
Mine
site.
TDD
No.
00
06
0020.
July
17,2000.
1page.
National
Oceanic
and
Atmospheric
Administration.
NOAA's
Estuarine
Eutrophication
Survey.
Volume
3:
North
Atlantic
Region.
July
1997.
3
pages.
Firth,
J.
(Maine
Department
of
Environmental
Protection).
Final
Site
Insuection
Prioritization
for
Callahan
Mining
Corn.,
Brooksville,
Maine,
CERCLIS
No.
MED980524128.
March
30,
1995.
24
pages.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
8
16
July
200
1
REFERENCES
(Continued)
Ref
No.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
Descriution
of
the
Reference
Firth,
J.
Project
Manager.
Maine
Department
of
Environmental
Protection,
Bureau
of
Remediation
and
WasteManagement,
Division
of
Remediation,
SiteAssessmentandSupportServicesUnit.
Oualitv
Assurance
Proiect
Plan
for
Callahan
Mine.
Brooksville
Samuling
Event
for
the
Exuanded
Site
Insuection
Report.
CERCLIS
No.
MED980524128.
September
1,1999.
24
pages.
Firth,
J.
EnvironmentalSpecialist.
MaineDepartment
of
EnvironmentalProtection.
Memorandum
to
Callahan
Mine,
Brooksville
Site
File.
Trip
Report,
Sampling
for
the
ESI
Report.
November
23,1999.
6
pages.
Maine
Department
of
Environmental
Protection.
Field
Logbook
for
the
Callahan
Mine,
Number
550F.
October
4,
1999.
pp.
60
to
74.
Fasolino,
M.
(Roy
F.
Weston,
Inc.).
Project
Note
for
Callahan
Mine
Hazard
Ranking
System
Project
File,
RE:
Adjusted
Values
for
Soil/
Sediment
Samples
Data,
Case
7743,
TDD
No.
01
05
0161.
June
20,
2001.
80
pages.
Campbell,
T.
(
RoyF.
Weston,
Inc.).
PhoneConversationRecordWith
Mr.
PhilipFarr(
Sanctuary
Manager),
RE:
Description
of
Holbrook
Island
Sanctuary
State
Park.
TDD
No.
00
06
0020.
July
25,2000.
1
page.
The
Maine
Atlas
and
Gazetter.
DeLorme
Mapping
Co.
1988.
86
pages
(3
provided).
Smith,
T.
(Bureau
of
Hazardous
Materials
and
Solid
Waste
Control,
Division
of
Technical
Services,
Maine
Department
of
Environmental
Protection).
Memorandum
to
Jean
Firth
(ES
111,
Uncontrolled
Sites,
Maine
Department
of
EnvironmentalProtection)
RE:
TripReport,
October4
6,
1999,
CallahanMineSite,
Brooksville,
Maine.
November
18,
1999.
8
pages.
Maine
Department
of
Environmental
Protection.
Field
Logbook
for
the
Callahan
Mine.
October
5
6,
1999.
pp;
94
98.
Beck,
F.
M.
(Callahan
Mining
Corporation).
Reclamation
Plan,
Goose
Pond.
Brooksville,
Maine.
August
15,1972.
4
pages.
Maine
Revised
Statutes
Annotated.
Volume
16A,
Titles
37
to
37
B,
Title
38,
Q
Q
1
to
1060.
1964.
pp.
357,
383.
MaineDepartment
of
Conservation,
MaineBureau
of
ParksandLands.
HolbrookIslandSanctuary
information.
InternetaccessedonJune2,
2000.
httu://
www.
state.
me.
us/
doc/
prkslnds/
holbrook.
htm.
4
pages.
Parrish,
C.
C.
G.
(Division
of
TechnicalServices,
MaineDepartment
of
EnvironmentalProtection).
Memorandum
to
Jean
Firth
(Envir.
Spec.
111,
Division
of
Remediation,
Maine
Department
of
Environmental
Protection)
RE:
Wetland
Delineation
at
Callahan
Mine,
Harborside,
Maine.
June
20,2000.
3
pages.
U.
S.
Fish
and
Wildlife
Service,
A
portion
of
the
Cape
Rosier
Quadrangle
National
Wetlands
Inventory
Map.
Internet
accessed.
ht@://
www.
nwi.
fws.
nov/
arcdatdbannor/
cauero.
eOO.
1
page.
Mortimer,
C
.
(CallahanMiningCorporation).
Memorandum
to
FredBeck,
RE:
Revegetation
of
the
Harborside
Site:
Brief
Description
and
Cost
Estimates.
June
22,
1973.
5
pages.
Nelson,
D.
E.
and
J.
W.
Hurst,
Jr.
(Maine
Department
of
Marine
Resources).
Bio
Accumulation
of
Trace
Elements
in
Selected
Marine
Organisms,
Annual
Report,
20
November
1974
to
19
November
1975.
42
pages.
Callahan
Mine
HRS
Documentation
Record
16
July
2001
CERCLIS
No.
MED980524128
9
REFERENCES
(Concluded)
32.
Hurlbut,
Jr.,
C.
S.
Dana's
Manual
of
Mineralow,
18"
edition.
John
Wiley
&
Sons,
Inc.
NewYork.
1971.
579
pages
(pp.
242
265
included).
33.
The
Mineral
Gallery
Acanthite/
Argentite
(Silver
Sulfide).
httr,:
l/
mineral.
gailleries
.com/
mineralslsuIfides/
acanthit/
acanthit.
htm.
Internet
accessed
on
November
6,2000.
2
pages.
34.
35.
36.
37.
38.
39.
40.
41.
42.
43.
44.
45.
46.
Boeckeler,
A.
J.
(Department
of
Earth
Sciences,
University
of
New
Hampshire).
Ouantifving
Point
source
Trace
Metal
Contamination
in
Coastal
Maine
as
a
Result
of
Past
Zinc
and
Comer
Mining.
Undated.
21
pages.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Phone
Conversation
Record
With
Ms.
Lee
Doggett
(Marine
Biologist,
MaineDepartment
of
EnvironmentalProtection,
Bureau
of
LandandWaterQuality),
RE:
Water
Classification
and
Clean
Water
Act
status
of
Goose
Pond.
TDD
No.
0Or06
0O20.
September
5,
2000.
1
page
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Project
Note
for
Callahan
Mine,
RE:
GIs
Distance
Measurements
for
the
Surface
Water
Pathway
section,
Callahan
Mine,
Brooksville,
Maine.
TDD
No.
00
06
0020.
November
10,2000.
3
pages.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
PhoneConversationRecordWithJeanFirth(
Environmental
Specialist,
Maine
Department
of
Environmental
Protection),
RE:
Sample
depth
of
background
soil
samples:
99
BKSS
01,
02,
03.
TDD
No.
00
06
0020.
September
7,2000.
1
page.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Project
Note
for
Callahan
Mine,
RE:
15
mile
downstream
pathway
arc
methodolgy,
Callahan
Mine,
Brooksville,
Maine.
TDD
No.
00
06
0020.
August
31,2000.
3
pages.
Attard's
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Aguilarite
Mineral
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httr,:
lwebmineral.
com/
data/
a~
uilarite.
shtrn1.
Internet
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on
November
6,2000.
2
pages.
Callahan
Mining
Corporation.
Penobscot
Unit
Industrial
Area,
Site
Survey
Map.
May
1972.
1
sheet.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Phone
Conversation
Record
With
Mercuria
Cumbl
(Microbiologist,
Maine
Department
of
Marine
Resources),
RE:
Lobster
fishery
and
Callahan
Mine
Site.
TDD
No.
00
06
0020.
January
24,2001.
1
page.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Project
Note
for
Callahan
Mine,
RE:
GIs
Distance
Measurement
for
the
Soil
Exposure
Pathway,
Callahan
Mine,
Brooksville,
Maine.
TDD
No.
00
06
0020.
January
24,2001,
3
pages.
Maine
Marine
Environmental
Monitoring
Program.
Marine
Monitoring
Baseline
Data,
Final
Reuort.
June
1993.
12
pages.
Campbell,
T.
(Roy
F.
Weston,
Inc.).
Project
Note
for
Callahan
Mine,
RE:
GIs
Distance
Measurements
for
the
Surface
Water
Pathway
section,
Callahan
Mine,
Brooksville,
Maine.
TDD
No.
00
06
0020.
June
19,
2001,3
pages.
T
h
e
M
i
n
e
r
a
l
G
a
l
l
e
r
y
Clausthalite
(Lead
Selenide).
httD:
llmineral.
galleries
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mineralslsulfides/
clausthaklaustha.
htm.
Internet
accessed
on
June
18,2001.
1
pages.
S
u
r
f
Y
o
u
r
W
a
t
e
r
s
h
e
d
W
a
t
e
r
s
h
e
d
I
n
f
o
r
m
a
t
i
o
n
M
a
i
n
e
C
o
a
s
t
a
l
(E
P
A
).
httr,:~~~~~.
rv.
er,
a.
8ov/
surf3/
hucslOI
0500021
Internet
accessed
on
June
28,2001.
4
pages.
16
July
200
1
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
1
0
2.2
SOURCECHARACTERIZATION
2.2.1
SOURCE
IDENTIFICATION
Name
of
source:
Waste
Rock
Piles
Number
of
source:
1
Source
Tvue:
Pile
Description
and
Location
of
Source
(with
reference
to
a
map
of
the
site):
Thesiteincludesthelocation
of
azinclcopperopen
pitminewhichwasoperated
by
the
CallahanMining
Corporation
(Callahan)
from
February
1968
to
June
1972
[6,
p.
5;
34,
pp.
1
21.
The
main
components
of
this
ore
depositweresphalerite(
ZnS),
andchalcopyrite
(CuFeS,),
accompaniedbyabundantpyrite(
FeS,)
andlesser
amounts
of
pyrrhotite
(FeS)
[6,
p.
14;
8,
p.
1821.
The
average
ore
grade
was
1.30%
copper,
4.91%
zinc,
0.35%
lead,
and
0.50
ounces
per
ton
of
silver
[25,
p.
21.
At
the
time
of
discovery
of
the
ore
deposits,
surface
ore
outcrops
were
entirely
below
high
tide
levels
[7,
p.
11
2791:
The
saltwater
entrance
to
Goose
Pond
was
dammed
at
the
north
end
of
the
pond,
and
the
freshwater
entrance
was
dammed
at
the
south
end
[6,
p.
41.
The
fresh
waters,
which
normally
flowed
into
Goose
Pond,
were
diverted
south
through
a
drainage
ditch
into
Wier
Cove
on
the
south
side
of
Cape
Rosier
[6,
p.
41.
Thus,
with
no
new
water
flowing
into
Goose
Pond,
Goose
Pond
was
pumped
dry,
and
open
pit
mining
was
undertaken
in
a
normal
fashion
[6,
p.
41.
The
open
pitminewasapproximately600
to
1,000
ft
in
diameterand320
ft
indepth[
6,
p.
5
;
12,
p.
51.
Approximately
5
million
tons
of
non
ore
bearing
waste
rock
and
798,000
to
800,000
tons
of
ore
bearing
rock
were
removed
from
the
mine
and
processed
[6,
p.
5;
25,
p.
21.
Waste
rock
was
deposited
in
a
waste
pile
now
"Callahan
Mountain"
(Waste
Rock
Pile)
and
two
adjacent
piles
(Waste
Rock
Pile
2
and
the
Tailings
Pile)
along
the
estuary
[6,
p.
5;
11,
pp.
1,2].
In
addition,
200,000
to
225,000
tons
of
marine
clay
were
deposited
on
the
slopes
and
first
terrace
of
Waste
Rock
Pile
after
ainud
slide
occurred
into
the
open
pit
mine
[6,
p.
14;
7,
p.
11
2831.
During
a
1
June
2000
site
reconnaissance
conducted
by
Roy
F.
Weston,
Inc.
(WESTON)
Superfund
Technical
Assessment
and
Response
Team
(START)
personnel,
the
waste
rock
material
was
observed
throughout
the
site
[lo,
pp.
4,6,7].
The
Waste
Rock
Piles
(Source
1)
comprise
three
piles
of
waste
rock,
known
as
Waste
Rock
Pile,
Waste
Rock
Pile
2,
and
the
Tailings
Pile
(see
Figure
3
in
Attachment
A
of
this
document)
[l
1
,
pp.
1,2].
This
source
has
been
evaluated
as
a
"pile"
because
the
mining
process
resulted
in
the
deposition
of
the
overlying
nonmetal
bearing
waste
rock
(dump
rock)
as
waste
rock
piles
[6,
pp.
5,
141.
All
three
piles
are
composed
of
the
same
waste
rock:
volcanic
agglomerate
and
rhyolite
with
minor
amounts
of
carbonate,
talc
and
talc
chlorite
rock
with
varying
amounts
of
associated
disseminated
pyrite
[6,
p.
14;
10,
pp.
8,
131.
Within
the
waste
rock
piles,
an
occasional
piece
of
ore
rock
can
be
found,
consisting
of
chalcopyrite
and
sphalerite
within
a
chloritic
or
talcose
matrix
[6,
p.
141.
The
three
waste
rock
piles
will
be
evaluated
as
one
source
because
they
have
similar
waste
characteristics
and
containment
features.
Waste
Rock
Pile,
also
known
as
"Callahan
Mountain,"
is
the
largest
of
the
three
piles
and
is
located
south
of
Dyer
Cove
and
approximately
200
ft
west
of
Goose
Pond
(see
Figure
3
in
Attachment
A
of
this
document)
[3;
6,
p.
5;
11,
p.
21.
The
area
of
Waste
Rock
Pile
was
determined
by
the
Maine
Department
of
Environmental
Protection
(ME
DEP)
to
be
980,231
square
feet
(ft')
[ll,
p.
21.
Waste
Rock
Pile
2
is
located
southwest
and
west
of
Dyer
Cove,
adjacent
to
the
mine
access
road,
and
north
of
the
former
mine
operations
buildings
[l
l
,
p.
21.
The
area
of
Waste
Rock
Pile
2
was
determined
by
ME
DEP
to
be
271,597
ft'
[l
l
,
p.
21.
The
Tailings
Pile,
which
contains
the
same
waste
rock
material
found
in
Waste
Rock
Pile
and
Waste
Rock
Pile
2,
is
located
adjacent
to
and
southeast
of
Waste
.
Rock
Pile
and
approximately
200
ft
west
of
Goose
Pond,
and
was
determined
by
ME
DEP
to
be
74,575
ftz
[lo,
p.
10;
11,
p.
2;
19,
pp.
62,63,64].
Mining
and
millingoperationsceasedinJune1972,
and
areclamationprogramwasbegunthatincluded
the
following
components:
grading,
seeding,
and
planting
of
waste
dump
piles,
removal
of
the
freshwater
dam,
and
flooding
of
the
320
foot
deep
open
pit
by
opening
18
inch
sluice
boards
at
the
Goose
Falls
Dam
[6,
pp.
6,
71.
Following
the
mineclosure,
ahydroseedingfirmwashired
to
hydroseed
those
areaswheresomechance
of
revegetation
might
occur
following
regrading
[6,
pp.
8,
91.
These
efforts
were
only
partially
successful,
as
much
of
the
site
is
still
barren
of
any
vegetation
[9,
p.
11.
Waste
Rock
Pile
is
covered
with
occasional
clumps
of
grasses
and
young
trees
[lo,
p.
81.
Waste
Rock
Pile
2
is
sparsely
vegetated
with
grasses
and
saplings
[lo,
p.
31.
The
Tailings
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
h4ED980524128
11
16
July
2001
Source
No:
1
Pile
comprises
a
waste
rock
embankment
[lo,
p.
lo].
There
is
no
engineered
cover,
run
on
control
system,
or
runoff
management
system
present
on
Source
1
[lo,
pp.
4,
8,
131.
2.2.2
HAZARDOUS
SUBSTANCES
ASSOCIATED
WITH
.THE
SOURCE
SourceSamples:
On
4
October
1999,
ME
DEP
collected
11
shallow
soil
samples
(99
WRP
19,20,21,
22;
99
WRP2
06,
10,47,48;
and
99
TPL
16,
17,
18)
from
Source
1[
11,
p.
2;
18,
pp.
1,
5;
19,
pp.
60
641.
The
soil
samples
were
collected
in
accordance
with
the
Quality
Assurance
Project
Plan
dated
1
September
1999
[18,
p.
11.
The
shallow
soil
samples
were
collected
from
depths
of
0
to
6
inches
[lS,
p.
1;
19,
pp.
60
641.
The
soil
samples
were
analyzed
byME
DHS
HETL
for
seven
metals
(cadmium,
copper,
lead,
mercury,
silver,
selenium,
and
zinc),
percent
solids,
and
grain
size
[17,
p.
3,
15;
18,
p.
1;
201.
Analyseswereperformedinaccordancewith
ME
DHS
HETL
S0P:
EVMETALS
Analysis
of
Trace
Metals
in
Environmental
Water,
November
1996
and
SOP:
DW245
Analysis
of
Mercury,
July
1997
methods
[18,
p.
3;
20,
Attachment
A,
p.
13.
The
seven
metal's
analytical
results
were
validated
at
Modified
Tier
III
Level
according
to
EPA
New
England
Regional
Functional
Guidelines
[20,
Attachment
A,
p.
11.
For
the
purposes
of
this
evaluation,
five
soil
samples
(99
WRP
22,99
WRP2
06,99
WRP2
10,99
WRP2
47,
and
99
TPL
16)
were
selected
to
confirm
the
presence
of
hazardous
substances
contained
in
Source
1.
Callahan
Mine
`hRS
Documentation
Record
CERCLIS
No.
MED980524128
1
2
16
July
2001
.*
0
m
h
a
.
m
0
3
.e
m
0
Source
No:
I
2.2.3
HAZARDOUS
SUBSTANCES
AVAILABLE
TO
A
PATHWAY
Containment
Containment
Description
References
Factor
Value
Gas
release
to
air:
NS
NS
Particulate
release
to
air:
NS
NS
Release
to
groundwater:
NS
NS
Release
via
overland
migration
andlor
flood:
Neither
of
the
following
is
present:
maintained
engineered
cover
or
functioning
and
maintained
run
on
control
system
and
runoff
management
system.
10
1,
pp.
51595,
5
1596,
Section
3.1.2.1,
Table
3
2;
I
I
10,
pp.
4,
8,
13
Notes:
NS
=
Not
Scored
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
15
16
July
200
1
SourceNo:
1
2.4.2
HAZARDOUS
WASTE
QUANTITY
The
Hazardous
Waste
Quantity
for
Source
1
was
assigned
based
on
the
Hazardous
Wastestream
Quantity
Factor
Value
[l,
p.
51591,
Section
2.4.2.1.3,
Table
2
51.
The
Hazardous
Constituent
Quantity
Value
and
Volume
were
not
evaluated
for
Source
1
because
insufficient
information
was
available
[l,
pp
51590,
51591,
Table
2
5,
Sections
2.4.2.1.1
and
2.4.2.1.21.
The
Hazardous
Wastestream
Quantity
Factor
Value
is
greater
than
the
Area
Factor
Value,
and
thus
is
assigned
as
the
Hazardous
Waste
Quantity
Value
for
Source
1
[l,
p.
51591,
Section
2.4.2.1.51.
2.4.2.1.1
Hazardous
Constituent
Quantity
Description
There
is
insufficient
information
to
evaluate
the
source
for
Hazardous
Constituent
Quantity.
Hazardous
Substance
References
Constituent
Quantity
(pounds)
NS
(Insufficient
information)
Sum
(pounds):
Hazardous
Constituent
Quantity
Assigned
Value:
NS
2.4.2.1.2
Hazardous
Wastestream
Quantity
Description
About
5
million
tons
of
non
metal
bearing
waste
rock
were
mined
and
deposited
in
waste
piles
along
the
estuary
[6,
p.
51.
The
three
piles
are
composed
of
the
same
waste
rock
materials
[lo,
pp.
8,
131.
The
waste
rock
consists
largely
of
volcanic
agglomerate
and
rhyolite
with
minor
amounts
of
carbonate,
talc
and
talc
chlorite
rock
with
varying
amounts
of
associated
disseminated
pyrite
[6,
p.
141.
Within
the
waste
rock
piles,
an
occasional
piece
of
ore
rock
can
be
found,
consisting
of
chalcopyrite
and
sphalerite
within
a
chloritic
or
talcose
matrix
[6,
p.
141.
Wastestream
quantity
calculation
equals:
5
X
lo6
tons
X
2,000
pounds/
ton
=
1
X
10"
pounds
[l,
p.
51591,
Table
2
51
Hazardous
Wastestream
Quantity
References
Wastestream
Quantity
(pounds)
Waste
Rock
(containing
cadmium,
copper,
pp.
5,6
lead,
mercury,
selenium,
silver,
and
zinc)
6,
pp.
5,
14;
20,
1
x
1O'O'
Sum
(pounds):
1
x
10"
Sum
of
Wastestream
Quantity/
5,000
(Table
2
5):
2
x
lo6
Hazardous
Wastestream
Quantity
Assigned
Value:
2
x
lo6
2.4.2.1.3
Volume
Description
There
is
insufficient
information
to
evaluate
the
source
for
volume.
Description
I
Units
I
References
I
I
Sum
(tons):
Equation
for
Assigning
Value
(Table
2
5):
2.4.2.1.4
Area
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
ED980524128
16
Volume
Assigned
Value:
0
16
July
2001
Description
The
areas
of
the
waste
rock
piles
were
calculated
by
ME
DEP
personnel
using
a
Geographic
Positioning
System
(GPS)
unit
and
ESRI
Geographic
Information
Software
(GIs)
which
calculates
area
fi
om
polygon
themes
based
on
the
data's
spatial
location
and
projected
units
[ll,
p.
11.
Source
Type
References
Units
(ff)
Waste
Rock
Pile
271,597
Waste
Rock
Pile
2
11,
p.
2
980,231
11,
p.
2
74,575
Tailings
Pile
11,
p.
2
Sum
(ft'):
1,326,403
ft2
Equation
for
Assigning
Value
(1,
p.
51591,
Section
2.4.2.1.1,
Table
2
5):
Area
of
pile
+
13;
1,326,403
ft2
f
13
=
102,031
Area
Assigned
Value:
102,03
1
2.4.2.1.5
Source
Hazardous
Waste
Quantity
Value
Highest
assigned
value
assigned
from
Table
2
5:
2
X
lo6
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
17
16
July
2001
Source
2
2.2.1
SOURCEIDENTIFICATION
Name
of
source:
Tailings
Pond
Number
of
source:
2
Source
Type:
Surface
Impqundment
DescriDtion
and
Location
of
Source
(with
reference
to
a
map
of
the
site):
The
Tailings
Pond
(Source
2)
is
located
south
of
Waste
Rock
Pile
and
the
Tailings
Pile,
and
is
adjacent
to
and
west
of
Goose
Pond
(see
Figure
3
in
Attachment
A
of
this
document)
[l
1,
p.
21.
This
source
has
also
been
referred
to
as
the
"tailings
storage
pond,"
"tailings,"
and
"tailings
area"
in
previous
investigations
[6,
pp.
10,
121.
Fine
sand
and
silt
sized
pulverized
rocks
which
constitute
the
unwanted
waste
from
the
milling
process
were
deposited
into
the
Tailings
Pond
[6,
pp.
5,6,
lo].
The
area
of
the
Tailings
Pond
was
calculated
by
ME
DEP
to
be
506,908
ft*
[l
1,
p.
21.
The
center
of
the
Tailings
Pond
contains
ponded
water
and
wetland
vegetation,
while
the
majority
of
the
Tailings
Pond
is
dry
and
is
consists
of
a
silty
powder
[lo,
p.
91.
The
milling
process
at
the
Callahan
Mine
began
when
ore
was
trucked
from
the
open
pit
mine
to
an
ore
storage
area
adjacent
to
the
mill
[6,
p.
5;
7,
11
2811.
From
this
location,
the
ore
was
loaded
into
a
series
of
crushers
and
mills
which
reduced
the
rock
to
the
consistency
of
fine
sand
and
silt
[6,
p.
51.
Following
mill
pulverizing,
small
particles
containing
zinc
and
copper
were
recovered
in
the
concentrating
mill
by
a
process
called
"flotation"
[6,
p.
51.
The
ore
was
passed
through
flotation
cells
into
which
chemicals
were
introduced
which
caused
the
mineral
particles
to
float
on
bubbles
[6,
p.
6;
12,
pp.
3,
4,
51.
Chemicals
which
were
used
in
the
flotation
process
included:
dithiophosphate
salts,
aryl
phosphorodithioate,
cyclohexanol,
and
cresol
[16,
p.
51.
The
floating
mineral
was
then
collected
and
dried
to
produce
the
zinc
and
copper
concentrates.
The
average
ore
grade
was
1.30%
copper,
4.91%
zinc,
0.35%
lead,
and
0.50
ounces
per
ton
silver
[25,
p.
21.
The'remaining
non
mineral
particles
and
residues
of
the
chemical
reagents
were
discharged
to
the
tailings
pond
[6,
pp.
5,6].
To
the
extent
possible,
the
frothing
reagents
were
recycled
within
the
mill.
However,
certain
amounts
of
these
reagents
accompanied
the
tailings
to
the
tailings
storage
pond
(Tailings
Pond)
[6,
p.
61.
Personnel
from
American
Cyanamid,
the
source
of
the
reagents,
stated
that
they
were
unaware
of
any
environmental
hazards
associated
with
the
reagents
and
that
no
toxicity
problems
have
been
reported
[6,
p.
111.
A
1972
analysis
of
the
tailings
documented
the
presence
of
the
following
hazardous
substances:
cadmium,
copper,
lead,
silver,
and
zinc
[6,
pp.
10
1
11.
As
tailings
were
deposited
in
the
Tailings
Pond,
a
series
of
dams
were
constructed
along
the
eastern
boundary
of
the
Tailings
Pond
to
contain
the
tailings
waste
16,
p.
10,
Figure
2;
16,
p.
11.
These
dams
were
constructed
with
an
outer
layer
of
coarse
rubble
and
an
inner
layer
of
coarse
mill
tailings
and
clay
[6,
Figure
21.
The
final
height
of
the
dam
was
82
A
above
the
original
ground
surface
[6,
p.
101.
The
Tailings
Pond
was
also
constructed
with
a
decant
pipe,
which
was
presumed
by
START
to
be
designed
to
drain
free
liquids
in
the
Tailings
Pond
to
the
Goose
Pond
estuary
[6,
Figure
21.
In
1972,
in
order
to
provide
drainage
of
surface
water
from
the
Tailings
Pond
(tailings),
a
drainage
ditch
was
excavated
from
the
center
to
the
north
end
ofthe
Tailings
Pond
(tailings)
[6,
p.
12;
7,
Figure
31.
START
observed
a
breach
area
through
a
waste
rock
embankment
in
the
north
end
of
the
Tailings
Pond
[lo,
pp.
9,
101.
Evidence
of
previous
water
flow
(wash
out)
was
observed
by
START
along
the
embankment
southeast
towards
Goose
Pond
[
10,
p.
121.
At
the
cessation
of
mining,
Callahan
undertook
several
efforts
to
restoreheclaim
the
site,
including
grading,
hydroseeding,
and
planting
trees
and
shrubs.
These
efforts
were
only
partially
successful
as
much
of
the
site
is
still
barren
of
any
vegetation
[9,
p.
11.
The
Tailings
Pond
area,
designed
to
contain
mine
processing
wastes,
is
leaking
slowly
at
the
base
in
several
observed
locations.
Water
seeping
from
this
area
and
discharging
to
the
Goose
Pond
estuary
contains
cadmium
and
zinc
at
concentrations
above
EPA
or
ME
DHS
drinking
water
standards
[9,
p.
31.
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
18
16
July
2001
2.2.2
HAZARDOUS
SUBSTANCES
ASSOCIATED
WITH
THE
SOURCE
Source
Samples:
On
6
October
1999,
ME
DEP
collected
shallow
soil
samples
from
Source
2
[18,
pp.
1,2,5;
24,
pp.
97,981.
The
soil
samples
were
collected
in
accordance
with
the
EPA
approved
Quality
Assurance
Project
Plan
dated
1
September
1999
[17,
pp.
3,
9,
12,
15;
18,
p.
1;
20;
24,
pp.
97,981.
The
shallow
soil
samples
were
collected
from
depths
of
0
to
6
inches
[lS,
p.
1;
24,
pp.
97,981.
The
soil
samples
were
analyzed
by
ME
DHS
HETL
for
seven
metals
(cadmium,
copper,
lead,
mercury,
silver,
selenium,
and
zinc),
grain
size,
and
percent
solids
[17,
p.
3,
15;
18,
p.
11.
Analyses
were
performed
inaccordance
with
ME
DHS
HETL
S0P:
EVMETALS
Analysis
of
Trace
Metals
in
Environmental
Water
and
SOP:
DW245
Analysis
of
Mercury
methods
[
18,
p.
3;
20,
Attachment
A,
p.
11.
The
analytical
data
were
validatedatModifiedTier
HI
Levelaccording
to
EPANewEnglandRegionalFunctionalGuidelines
[20,
Attachment
A,
p.
11.
For
the
purposes
of
this
evaluation,
one
source
sample
(TPD
12)
was
selected
to
confirm
the
presence
of
'hazardous
substances
contained
in
Source
2.
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
1
9
16
July
2001
I1
%
E
M
.M
0
N
Source
2
2.2.3
HAZARDOUS
SUBSTANCES
AVAILABLE
TO
A
PATHWAY
Containment
Description
Gas
release
to
air:
NS
Particulate
release
to
air:
NS
Release
to
groundwater:
NS
Release
via
overland
migration
and/
or
flood:
Neither
of
the
following
is
present:
maintained
engineered
cover
or
functioning
and
maintained
run
on
control
system
and
runoff
I
management
system.
Notes:
NS
=
NotScored
Containment
Factor
Value
NS
NS
NS
10
Reference
1,
p.
51595,51596,
Section
3.1.2.1,
Table
3
2;
10,
pp.
9,
10,
and
12
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
2
1'
16
July
2001
Source
2
2.4.2
HAZARDOUS
WASTE
QUANTITY
The
Hazardous
Waste
Quantity
for
Source
2
was
assigned
based
on
the
Area
Factor
Value
of
surface
impoundment
[l,
pp.
51590,
51591,
Section
2.4.2.1.3,
Table
2
51.
The
Hazardous
Constituent
Quantity,
Hazardous
Wastestream
Quantity,
and
Volume
Values
were
not
evaluated
for
Source
2
because
insufficient
information
was
available
[
1,
p.
51591,
Sections
2.4.2.1.1
and
2.4.2.1.2,
Table
2
51.
2.4.2.1.1
Hazardous
Constituent
Quantity
Descriution.
There
is
insufficient
information
to
evaluate
the
source
for
Hazardous
Constituent
Quantity.
Hazardous
Substance
References
Constituent
Quantity
(pounds)
NS
(Insufficient
information)
Sum
(pounds):
Hazardous
Constituent
Quantity
Assigned
Value:
NS
2.4.2.1.2
Hazardous
Wastestream
Quantity
Description
There
is
insufficient
information
to
evaluate
the
source
for
Hazardous
Wastestream
Quantity.
Hazardous
Wastestream
References
~
Wastestream
Quantity
(pounds)
NS
(Insufficient
information)
Sum
(pounds):
Sum
of
Wastestream
Quantity/
5,000
(Table
2
5):
Hazardous
Wastestream
Quantity
Assigned
Value:
NS
2.4.2.1.3Volume
Description
There
is
insufficient
information
to
evaluate
the
source
for
Volume.
SourceTypeDescription
(#
drums
or
dimensions)
I
Units(
yd3/
gal)
I
References
1
I
1
I
NS
I
I
Sum
(yblgal):
Equation
for
Assigning
Value
(Table
2
5):
VolumeAssignedValue:
0
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
22
16
July
2001
Source
.2
2.4.2.1.4
Area
Description
The
Tailings
Pond
occupies
an
area
calculated
by
ME
DEP
to
be
506,908
ft2
[l
1,
p.
21.
Source
Type
References
Units
(ft')
Surface
Impoundment
(filled
with
tailings
containing
zinc)
20,
p.
19
cadmium,
copper,
lead,
mercury,
selenium,
silver,
and
1,
p.
51591;
11,
p.
2;
506,908
Sum
(ft'):
506,908
f
t
z
Equation
for
Assigning
Value
(1,
p.
51591,
Section
2.4.2.1.1,
Table
2
5):
Area
of
Surface
Impoundment
f
13;
506,908
ft'
f
13
=
38,992.9
AreaAssignedValue:
38,992.9
2.4.2.1.5
Source
Hazardous
Waste
Quantity
Value
Highest
assigned
value
assigned
.from
Table
2
5:
38,992.9
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
23
16
July
2001
SUMMARY
OF
SOURCE
DESCRIPTIONS
Source
Containment
Factor
Value
by
Pathway
Source
Surface
Water
(SW)
Ground
Constituent
Hazardous
Hazardous
Water
Quantity
Waste
Air
Source
(Table
6
9)
(Table
6
3)
(Table
3
2)
(Table
4
2)
Particulate
Gas
GW
to
SW
Overland/
flood
(Table
(GW)
3
2)
WW
Value
No.
Complete?
Quantity
1
NS
NS
NS
10
NS
N
2
x
lo6
2
,
NS
NS
NS
10
NS
N
38,992.9
Descriution
of
Other
Potential
Sources
Contaminated
Soil:
The
mine
(property)
entrance
area
was
noted
by
ME
DEP
personnel
to
be
a
53,187
ft2
area
at
the
northern
portion
of
the
property
[l
l
,
p.
21.
The
mine
operations
area,
a
17,206
ff
area,
wasnoted
to
includethePumpHouse,
Metal
Shop
Building,
AssayLaboratory,
ConcentrationMill,
andPrimaryCrusher
[l
1,
p.
2;
16,
p.
41.
In
1987,
fourabandoned
underground
storage
tanks
were
removed
from
the
vicinity
of
the
Metal
Shop
Building
[6,
p.
19;
16,
p.
43.
In
October
1999,
ME
DEP
personnel
collected
nine
surface
soil
samples
from
the
mine
entrance
area
(mill
entrance
area)
and
mine
operations
area
(mill
operations
area)
[l
l
,
p.
2;
18,
pp.
2,
41.
Hazardous
substances
detected
in
the
samples
included
cadmium,
copper,
lead,
mercury,
and
zinc
[l
1,
p.
2;
18,
p.
2,4;
20,
p.
6,7].
This
potential
source
was
not
evaluated
because
the
Hazardous
Waste
Quantity
Factor
Value
for
the
contaminated
soil
is
relatively
small
compared
with
the
other
sources
at
the
site,
and
therefore,
the
source
would
not
contribute
significantly
to
the
overall
site
score.
Dyer
Cove
iformer
settling
pond):
Dyer
Cove
is
a
shallow
cove
located
within
the
central
west
portion
of
Goose
Pond
Estuary
[17,
p.
41.
During
operation
the
cove
was
separated
from
the
open
pit
mine
by
a
causeway
[17,
p.
41.
Dyer
Cove
was
used
as
a
settling
pond
for
water
pumped
from
the
open
pit
mine
while
the
mine
was
operational
[17,
p.
41.
In
1986
and
1999,
elevated
levels
of
cadmium,
copper,
lead,
and
zinc
were
found
in
the
sediments
[17,
p.
4;
20;
p.
71.
This
potential
source
was
not
evaluated
because
the
Hazardous
Waste
Quantity
Factor
Value
for
the
contaminated
soil
is
relatively
small
compared
with
the
other
sources
at
the
site,
and
therefore,
the
source
would
not
contribute
significantly
to
the
overall
site
score.
Mine
Pit
Located
in
the
northwest
comer
of
Goose
Pond,
the
roughly
circular,
600
ft
diameter
by
320
ft
deep,
pitwasallowed
to
fill
withwaterafterminingoperationsceased
[6,
pp.
5,
71.
Between
1968
and
1972
approximately
5
million
tons
of
non
metal
bearing
and
798,000
tons
of
ore
bearing
rock
were
removed
from
the
mine
[6,
p.
51.
Thispotentialsourcewas
notevaluatedbecauseof
the
lack
of
informationregarding
hazardous
substances
associated
with
the
source.
Goose
Cove
Outfall:
A
16
inch
effluent
discharge
pipe
from
Dyer
Cove
(the
former
settling
pond)
discharged
into
Goose
Cove
approximately
450
ft
north
of
Goose
Falls
dam
[6,
pp.
15,
16;
401.
Rock
"flour"
and
silt
that
had
not
settled
out
in
Dyer
Cove
were
discharged
via
this
pipe
[6,
p.
161.
This
material
eventually
covered
the
bottom
of
Goose
Cove
to
an
average
thickness
of
about
8
inches
[6,
p.
161.
The
total
quantity
of
the
settled
material
discharged
is
about
2,500
cubic
yards
[6,
p.
161.
The
average
values
for
heavy
metals
in
the
settled
materials
were
3,200
parts
per
million
(ppm)
of
copper,
900
pprn
of
lead,
9,000
ppm
of
zinc,
and
30
pprn
of
cadmium
[6,
p.
161.
Cadmium
values
are
approximately
the
same
as
in
underlying
"pre
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
24
16
July
2001
Goose
Cove
Outfall:
[concluded)
Trash
Piles:
SUMMARY
OF
SOURCE
DESCRIPTIONS
(Concluded)
mine"
sediment;
the
other
values
are
much
higher
than
in
underlying
sediment
[6,
p.
161.
Permits
to
remove
the
contaminated
sediment
by
dredging
have
apparently
been
denied
since
1980
by
the
Maine
Department
of
Marine
Resources
[6,
p.
161.
This
potential
source
was
not
evaluated
because
the
association
of
hazardous
substances
with
the
source
is
not
supported
by
evidence
of
sufficient
quality
(a
study
conducted
in
1993
contains
data
thatcurrently
donotprovidesufficientlaboratoryqualityassurance
documentation),
and
the
source
would
not
add
significantly
to
the
overall
site
score
[43].
There
were
two
or
three
domestic
trash
piles
generated
and
utilized
in
association
with
the
mine
[6,
p.
201.
The
trash
piles
contained
trash
and
junk
of
the
type
normally
accepted
by
a
town
dump
[6,
p.
201.
The
trash
piles
were
covered
with
waste
rock
during
post
mining
gradingactivities[
6,
p.
201.
According
to
personsknowledgeable
of
CallahanMine
operations,
no
toxic
materials
were
placed
in
these
trash
dumps,
with
the
possible
exception
of
paintcans,
thinners,
etc.,
which'
may
nothavebeencompletely
empty
.[
6,
p.
201.
Reportedly,
no
evidence
of
pollution
from
the
trash
dumps
has
been
observed
[6,
p.
201.
This
potential
source
was
not
evaluated
because
the
Hazardous
Waste
Quantity
Factor
Value
for
the
trashpilesisrelativelysmallcomparedwiththeothersourcesatthesite,
and
therefore,
thesourcedoesnotcontributesignificantlyto
the
overallsitescore.
Further,
hazardoussubstanceshave
notbeenassociatedwith
the
sourcebymorethananecdotal
evidence.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
25
16
July
2001
4.0
SURFACE
WATER
MIGRATION
PATHWAY
4.1
OVERLANDELOOD
MIGRATION
COMPONENT
4.1.1.1
Definition
of
Hazardous
Substance
Migration
Path
for
OverlandFlood
Component
The
Callahan
Mine
property
is
located
on
the
Cape
Rosier
peninsula
and
is
adjacent
to
Goose
Pond
Estuary
(see
Figure
2
in
Attachment
A
of
this
document)
[9,
p.
1;
16,
p.
I].
The
Callahan
Mine
site
is
dominated
by
waste
rock
,piles
(Source
l),
of
which
"Callahan
Mountain"
(Waste
Rock
Pile)
is
the
largest
[6,
p.
5;
11,
p.
21.
In
addition,
a
Tailing
Pond
(Source
2)
is
located
on
the
southern
portion
of
the
site
[ll,
p.
21.
Sampling
conducted
by
ME
DEP
has
documented
that
these
sources
are
contaminated
with
metals
[18,
pp.
1
3;
20,
pp.
5,6].
Both
sources
are
located
within
200
feet
of
Goose
Pond
Estuary
[36].
The
most
upstream
probable
point
of
entry
(PPE)
to
the
surface
water
pathway
is
along
Goose
Pond
at
the
southeast
comer
of
the
Tailings
Pond
(Source
2)
[lo,
p.
11;
11,
p.
21.
Multiple
PPEs
to
the
surface
water
pathway
were
noted
along
the
Goose
Pond
shoreline,
extending
from
the
most
upstream
PPE
to
the
surface
water
pathway
to
the
most
downstream
PPE
to
the
surface
water
pathway,
located
north
of
the
flooded
open
pit
mine
and
directly
east
of
the
most
southerly
residence
along
Old
Mine
Lane
[lo,
p.
111.
Figure
3
in
Attachment
A
of
this
document
only
depicts
the
most
upstream
PPE
and
the
most
downstream
PPE.
Three
seep
areas
from
Source
2
were
investigated
by
ME
DEP
personnel
[9,
p.
31.
According
to
the
ME
DEP,
in
all
likelihood,
water
seeping
from
the
tailings
storage
pond
(Source
2)
discharges
eventually
to
the
Goose
Pond
Estuary
[9,
p.
31.
Water
samples
collected
from
two
seep
areas
at
the
base
of
Source
2
contained
cadmium
and
zinc
[9,
p.
31.
Dyer
Cove,
a
shallow
cove
of
Goose
Pond,
was
also
impacted
by
mining
operations
[6,
p.
15;
11,
p.
21.
During
the
mining
operations,
Dyer
Cove
was
separated
from
Goose
Pond
by
a
causeway
(since
removed)
and
utilized
as
a
settling
basin
for
water
which
was
pumped
from.
the
open
pit
mine
[6,
p.
151.
As
of
1987,
Dyer
Cove
was
once
again
part
of
the
Goose
Pond
estuary
[9,
p.
41.
The
southwest
bank
of
Dyer
Cove
abuts
portions
of
Source
1
(Waste
Rock
Pile
and
Waste
Rock
Pile
2),
and
shows
evidence
of
discolored
waste
rock
material
extending
to
the
water's
edge
of
Dyer
Cove
[lo,
pp.
3,
13,
141.
START
inferred
that
the
discoloration
indicated
minerals
were
leaching
out
of
the
waste
rock
material
[lo,
p.
31.
The
Penobscot
River
mouth
is
located
approximately
4
miles
south
of
Bucksport,
Maine
[15,
p.
21.
Beyond
this
point
is
the
Penobscot
Bay,
a
seawater
zone
[15,
p.
21.
Goose
Pond
is
designated
as
Estuarine
and
Marine
Class
SB
by
the
State
of
Maine
[26,
p.
383;
351.
Goose
Pond,
at
the
PPEs
to
the
surface
water
pathway,
is
considered
part
of
the
Penobscot
Bay
seawater
zone.[
15,
pp.
2,3].
The
mean
annual
flow
rate
of
Goose
Pond
is
not
applicable,
because
an
estuary
is
evaluated
as
coastal
tidal
waters
[l
,
pp.
51605,
Section
4.0.2,51613,
Table
4
13].
Approximately
1,000
ft
downstream
of
the
most
downstream
PPE,
Goose
Pond
discharges
into
Goose
Cove
(see
Figure
3
in
Attachment
A
of
this
document)
[34,
p.
21.
"Goose
Falls,"
which
connects
Goose
Pond
and
Goose
Cove,
is
a
tidally
influenced
"reversing
falls"
[16,
p.
4;
22,
pp.
5,
Map
151.
Goose
Cove
is
connected
to
the
eastern
side
of
Penobscot
Bay
south
of
Holbrook
Island
[3;
34,
p.
21.
The
remainder
of
the
surface
water
pathway
comprises
part
of
Penobscot
Bay.
The
mean
annual
flow
rate
of
Penobscot
Bay
is
not
applicable,
as
a
bay
is
evaluated
as
coastal
tidal
waters
[l,
pp.
51605,
Section
4.0.2,
51613,
Table
4
13].
There
are
multiple
15
mile
downstream
termini
[38].
The
southern
terminus
of
the
15
mile
downstream
surface
water
pathway
is
an
arc
that
extends
across
Penobscot
Bay
from
2
miles
south
of
the
Ducktrap
River
in
Lincolnville,
Maine,
across
North
Haven
Island
and
Deer
Isle,
to
Cape
Carter
in
Brooklin,
Maine
(see
Figure
4
in
Attachment
A
of
this
document)
[38].
The
northern
terminus
is
an
arc
that
extends
across
Penobscot
River
at
the
northern
end
of
Verona
Island,
Maine
(see
Figure
4
in
Attachment
A
of
this
document)
[38].
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
26
16
July
2001
4.1.2.1
Likelihood
of
Release
Observed
releases
have
been
documented
by
chemical
analysis
[19,
pp.
70,71;
20,
pp.
8,9,
10,
12,
13,
14,
15,
161.
4.1.2.1.1
Observed
Release
Chemical
Analvsis
The
following
tables
summarize
analytical
results
which
document
an
observed
release
by
chemical
analysis.
Background
Concentrations:
On
October
5
and
6,
1999,
ME
DEP
personnel
conducted
sediment
sampling
at
the
Callahan
Mine
site
[
18,
pp.
2
61.
Background
samples
included
three
sediment
samples
(99
BKSD
23,
99
BKSD
24,
and
99
BKSD
25)
collected
from
Horseshoe
Cove,
located
approximately
1.5
miles
east
of
the
site
(see
Figure
5
in
Attachment
A
of
this
document)
[5,
Attachment
2,
p.
1;
18,
pp.
2,
61.
Because
of
the
natural
variability
of
metals
in
sediments,
three
background
sediment
samples
were
collected
[18,
p.
61.
The
sediment
samples
were
collected
in
accordance
with
the
EPA
approved
Quality
Assurance
Project
Plan
dated
1
September
1999
[17;
18,
pp.
1
61.
The
sediment
samples
were
analyzed
by
ME
DHS
HETL
for
seven
metals
(cadmium,
copper,
lead,
mercury,
silver,
selenium,
and
zinc),
sieve
[grain]
size,
and
percent
solids
[17,
pp.
3,
161.
Analyses
were
performed
in
accordance
with
ME
DHS
HETL
S0P:
EVMETALS
Analysis
of
Trace
Metals
in
Environmental
Water,
November
1996
and
SOP:
DW245
Analysis
of
Mercury,
July
1997
methods
[18,
pp.
1
3;
20,
Attachment
A,
p.
11.
The
analytical
data
were
validated
at
Modified
Tier
I11
Level
according
to
EPA
New
England
Regional
Functional
Guidelines
[20,
p.
11.
Following
data
review,
positive
mercury
results
were
estimated
(J)
and
non
detected
mercury
results
were
rejected
(R)
due
to
low
mercury
spikematrixrecoveryandexceedance
of
mercuryanalysisholdingtime[
20,
pp.
3,
5,
61.
Inaddition,
some
modifications
to
the
analytical
data
were
conducted
by
WESTON
to
meet
the
criteria
of
the
EPA
Headquarters
guidelines
for
using
qualified
data
to
document
an
observed
release
and
observed
contamination
[20,
p.
11.
Background
samples
were
collected
from
locations
that
represent
similar
depositional
environments
from
where
samples
were
collected
in
Goose
Pond
[5,
p.
11.
Grain
size
analysis
was
conducted
to
determine
if
any
geologic
variabilityexistedbetweenbackgroundanddownstreamsedimentsamples
[5,
p.
11.
Thebackgroundsediment
samples
collected
from
Horseshoe
Cove
were
described
as
undifferentiated
silt
and
clay
with
an
average
of
19%
sand
[5,
p.
11.
Sample
Sample
ID
Reference
Date
Depth
Sample
Location
Medium
99
BKSD
23
18,
pp.
2,4;
19.
p.
71
October
6,
1999
0
to
6
inches
Horseshoe
Cove
sediment
99
BKSD
25
18,
pp.
2,4;
19,
p.
71
October
6,
1999
0
to
6
inches
Horseshoe
Cove
sediment
99
BKSD
24
18,
pp.
2,
6;
19,
p.
71
October
6,
1999
0
to
6
inches
Horseshoe
Cove
sediment
The
background
sediment
samples
were
used
to
document
background
concentrations
of
hazardous
substances
in
sediments
in
the
vicinity
of
Goose
Pond
[18,
p.
61.
The
following
table
summarizes
the
analytical
results
for
the
background
sediment
samples
collected
from
Horseshoe
Cove;
values
in
bold
type
were
selected
as
the
background
concentrations
for
the
listed
hazardous
substance.
Hazardous
Sample
Adjusted
Concentration
Sample
ID
Reference
Detection
Limit
Concentration
Substance
99
BKSD
23
20,
p.
5,
8,
12
1.0
,
mg/
kg
ND
m
g
k
Cadmium
Lead10
m&
g
20,
p.
5
,
8,
12
8
mgkg
49
mg/
kg
Zinc
20,
p.
5
,
8,
12
4
mgkg
ND
m
g
k
Selenium
20,
p.
5,
8,
12
2
mgkg
Copper
20,
p.
5,
8,
12
5.1
mgkg
(17)
mgkg"
14
J
mgkg
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
27
16
July
2001
Hazardous
Copper
Selenium
Zinc
99
BKSD
25Cadmium
Selenium
ND
=
Not
detected.
Concentration
Adjusted
Concentration
Sample
Detection
Limit
1.0
mg/
kg
4.9
m
a
g
2
mg/
kg
8
mgkg
1.0
mgkg
4.9mg/
kg
4
m@
g
2
m&
g
4
mg/
kg
8
Reference
20,
p.
5,
8,
13
20,
p.
5
,8
,
13
20,
p.
5,8,
13
20,
p.
5
,8
,
13
20,
p.
5,
8,
13
20,
p.
6,9,
13
20,
p.
6,9,
13
20,
p.
6,9,
13
20,
p.
6,9,
13
20,
p.
6,9,
13
mgkg
=
milligramskilogram.
a
Copper
result
was
estimated
following
data
review.
Copper
result
had
an
unknown
bias,
and
has
been
0
Adjusted
value.
adjusted
by
multiplying
by
an
adjustment
factor
of
1.22
[20,
pp.
12,
131.
Note:
EPA
Quick
Reference
Fact
Sheet
Using
Qualified
Data
to
Document
an
Observed
Release
and
Observed
Contamination
was
used
to
adjust
the
original
concentration
values
[20,
Attachment
Dl.
Contaminated
Samples:
On
October
5,
1999,
ME
DEP
personnel
collected
sediment
samples
99
SD
29,99
SD
31,99
SD
33,99
SD
35,99
SD
37(
d),
and
99
SD
39(
d)
from
Goose
Pond
and
Dyer
Cove
[18,
pp.
1,
2,
6;
19,
p.
65,
66,
67,
701.
All
of
the
sediment
samples
were
collected
from
a
depth
of
0
to
6
inchesCl8,
p.
21.
Samples
99
SD
29,99
SD
31,99
SD
37(
d)
and
99
SD
39(
d)
were
described
as
dark
grey,
fine
silt
and
clay,
with
organic
matter
[19,
p.
65,701.
Sample
99
SD
33
was
described
as
light
brown,
fine
sand
and
silt,
with
black
organic
rich
lenses
at
1
inch
[19,
p.
661.
Sample
99
SD
35wasdescribed
as
brownsiltandclaywithfew
fine
sand[
19,
p.
661.
Thesampleswerecollectedin
accordance
with
the
EPA
approvedQualityAssuranceProjectPlandated
1
September1999[
17;
18,
p.
11.
The
sediment
samples
were
analyzed
by
ME
DHS
HETL
for
seven
metals
(cadmium,
copper,
lead,
mercury,
silver,
selenium,
and
zinc),
sieve
[grain]
size,
and
percent
solids
[17,,
pp.
3,
161.
Analyses
were
performed
in
accordance
with
ME
DHS
HETL
S0P:
EVMETALS
Analysis
of
Trace
Metals
in
Environmental
Water,
November
1996
and
SOP:
DW245
Analysis
of
Mercury,
July
1997
methods
[18,
pp.
1
3;
20,
Attachment
A,
p.
11;
The
analytical
data
were
validated
at
Modified
Tier
III
Level
according
to
EPA
New
England
Regional
Functional
Guidelines
[20,
p.
11.
In
addition,
some
modifications
to
the
analytical
data
were
conducted
by
WESTON
to
meet
the
criteria
of
the
EPA
Headquarters
guidelines
for
using
qualified
data
to
document
an
observed
release
and
observed
contamination
[20,
p.
11
Grainsizeanalysiswasconducted
to
determine
if
any
geologicvariabilityexistedbetweenbackground
and
downstream
sediment
samples
[5,
p.
11.
The
background
sediment
samples
collected
from
Horseshoe
Cove
were
described
as
undifferentiated
silt
and
clay
with
an
average
of
19%
sand
[5,
p.
11.
The
sediment
samples
(99
SD
29,
99
SD
31,99SD
33,
and
99
SD
35)
collected
from
Goose
Pond
were
described
as
undifferentiated
silt
and
clay
with
varying
amounts
of
sand
[5,
p.
11.
The
sand
content
in
99
SD
29,
99
SD
31,
and
99
SD
33
ranges
from
2
to
9%.
Sample
99
SD
35
contains
a
higher
percentage
of
sands,
35%.
The
sieve
analysis
indicate
that
the
samples
are
similar
in
composition.
They
are
predominately
silts
and
clay.
Because
of
silts
and
clay's
strong
affinity
for
metals,
if
inorganic
contaminants
were
transported
to
Goose
Pond
from
Callahan
Mine,
the
analytical'
results
should
reflect
this
impact
[5,
pp.
1,2].
The
sediment
samples
[99
SD
37(
d)
and
99
SD
39(
d)]
collected
from
Dyer
Cove
were
described
as
poorly
sorted
sand,
silt,
and
clay,
with
some
gravel
[5,
p.
21.
In
comparison
to
the
background
sediment
samples,
the
sediment
samples
collected
from
Dyer
Cove
were
much
coarser
[5,
p.
21.
As
a
result,
any
elevated
concentrations
of
metals
detected
in
the
Dyer
Cove
sediment
sample
are
particularly
significant,
considering
the
tendency
for
finer
grained
background
sediment
samples
to
be
naturally
higher
in
metals
[5,
p.
21.
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
28
16
July
2001
Sample
MediumLocation
99
SD
29
sediment
Goose
Pond
99
SD
31
sediment
Goose
Pond
99
SD
33
sediment
Goose
Pond
99
SD
35
sediment
Goose
Pond
99
SD
37(
d)
sediment
Dyer
Cove
(Goose
Pond)
99
SD
39(
d)
sediment
Dyer
Cove
(Goose
Pond)
Distance
from
Upstream
Depth
0
feet
0
to
6
October
5,
inches
1999
700
feet
0
to
6
October
5,
inches
1999
1,475
feet
0
to
6
October
5,
inches
1999
2,208
feet
0
to
6
October
5,
.
inches
1999
3,960
feet
0
to
6
October
5,
inches
1999
3,960
feet
0
to
6
October
5,
inches
1999
Reference
3;
18,
pp.
2,6;
19,
p.
65;
44
3;
18,
pp.
2,6;
19,
p.
65;
44
3;
18,
pp.
2,6;
19,
p.
66;
44
3;
18,
pp.
2,6;
19,
p.
66;
44
3;
18,
pp.
2,6;
19,
p.
70;
36
3;
18,
pp.
2,6;
19,
p.
70;
36
The
following
table
compares
the
highest
concentrations
of
hazardous
substances
detected
in
sediment
samples
99
SD
29,99
SD
31,99
SD
33,99
SD
35,99
SD
37(
d)
and
99
SD
39(
d)
with
the
highest
background
concentrations
established
by
review
of
the
highest
background
sediment
sample
analytical
results
[l,
p.
51589,
Table
2
31.
A
review
of
analytical
results
of
hazardous
substances
detected
in
sediment
samples
99
SD
29,
99
SD
31,
99
SD
33,
99
SD
35,99
SD
37(
d),
and
99
SD
39(
d)
indicated
that
all
sediment
samples
contained
concentrations
of
hazardous
substances
which
meet
observed
release
criteria.
Mercury
results
for
all
three
background
sediment
samples
were
rejected;
therefore,
since
no
background
concentration
are
available
for
comparison,
mercury
results
are
not
used
to
establish
an
observed
release
[20,
pp.
12
14].
Sample
ID
39
SD
29
99
SD
3
1
99
SD
33
Hazardous
Substance
Cadmium
Copper
Lead
Selenium
Silver
Zinc
Cadmium
Copper
Lead
Selenium
Silver
Zinc
Cadmium
Copper
Lead
Selenium
Silver
Zinc
Concentration
33
mgikg
1,800
J
mg/
kg"
770
mg/
kg
6.9
mg/
kg
4.6
mg/
kg
6,900
mg/
kg
27
mgncg
1,200
J
mg/
kg"
590
mg/
kg
5.7
mg/
kg
3.2
mg/
kg
5,400
mg/
kg
5.2
mg/
kg
1,900
J
mg/
kg"
210
mg/
kg
ND
mg/
kg
3,100
mg/
kg
ND
m&
g
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
Sample
Detection
1.0
m&
g
(990)
mg/
kg"
5.2
mg/
kg
2
mg/
kg
2.1
mg/
kg
4
mg/
kg
8
m
g
k
1.0
mg/
kg
(1,600)
mgikg"
4.9
mg/
kg
2
m&
g
1.9
mg/
kg
4
mg/
kg
8
m
g
k
2
9
Reference
20,
p.
5,
8,
14
20,
p.
5,
8,
14
20,
p.
5,
8,
14
20,
p.
5,
8,
14
20,
p.
5,
8,
14
20,
p.
5,
8,
14
20,
p.
7,
10,
14
20,
p.
7,
10,
14
20,
p.
7,
10,
14
20,
p.
7,
10,
14
20,
p.
7,
10,
14
20,
p.
7,
10,
14
20,
p.
7,
10,
15
20,
p.
7,
10,
15
20,
p.
7,
10,
15
20,
p.
7,
10,
15
20,
p.
7,10,
15
20,
p.
7,
10,
15
16
July
2001
Hazardous
99
SD
35
Cadmium
Copper
Lead
Selenium
Silver
Zinc
99
SD
37(
d)
Cadmium
Copper
'Lead
Selenium
Silver
/
zinc
99
SD
39(
d)
Cadmium
Copper
Lead
Selenium
Silver
Notes:
Concentration
3.9
mgkg
170
J
mgkg"
52
mgkg
ND
mgkg
ND
mgkg
840
mglkg
5.5
mgkg
190
3
mg/
kga
120
mgkg
ND
mgkg
N
D
mgkg
1,400
mgkg
7.3
mgkg
350
J
mgikg"
150
mgkg
ND
mgkg
ND
mgkg
1,700
mgkg
Sample
Adjusted
Detection
1.1
mgkg
(140)
mgkg"
5.5m&
g
2
mgkg
4
mgkg
8
mgkg
2.2
mgkg
(160)
mgkg"
(290)
mgkg"
20,
p.
7,
10,
15
20,
p.
7,
10,
15
20,
p.
7,
10,
15
20,
p.
7,
10,
15
20,
p.
7,
10,15
20.
D.
7.
10.
15
20,
p..
7,
10,
16
20,
p.
7,
10,
16
20,
p.
7,
10,
16
20,
p.
7,
10,
16
20,
p.
7,
10,
16
20.
I).
7.
10.
16
20,
p.
7,
10,
€6
20,
p.
7,
10,
16
20,
p.
7,
10,
16
20,
p.
7,
10,
16
20,
p.
7,
10,
16
20.
n.
7.10.
16
mgkg
=
milligrandkilogram.
N
D
=
Notdetected.
U
Substancenotdetected
at
the
indicated
SDL.
a
Copperresultwasestimatedfollowingdatareview.
Copperresulthad
an
unknownbias,
and
has
been
adjusted
by
dividing
by
an
adjustment
factor
of
1.22
[20,
pp.
14,
15,
161.
0
=
Adjustedvalue.
Note:
EPA
Quick
Reference
Fact
Sheet
Using
Qualified
Data
to
Document
an
Observed
Release
and
Observed
Contamination
was
used
to
adjust
the
original
concentration
values
[20,
Attachment
Dl.
I
CallahanMine
H
R
S
DocumentationRecord
CERCLIS
No.
MED980524128
30
16
July
2001
Attribution
Attribution
of
hazardous
substances
in
the
surface
water
at
the
site
is
based
on
historical
information
and
chemical
analysis.
Historically,
the
site
includes
the
location
of
a
zinclcopper
open
pit
mine
which
wasoperatedby
the
Callahan
Mining
Company
from
February
1968
to
June
1972
[6,
p.
5;
34,
pp.
1
21.
During
this
period
Callahan
excavated
a
total
of
about
5
million
tons
of
non
metal
bearing
waste
rock
(Source
1)
and
798,000
to
800,000
tons
of
metal
bearing
"ore"
rock
[6,
p.
51.
For
every
ton
of
ore
extracted,
six
tons
of
waste
had
to
be
removed
and
deposited
in
waste
piles
[
6,
p.
51.
The
main
components
of
this
ore
deposit
were
sphalerite
(ZnS)
and
chalcopyrite
(CuFeS,),
accompanied
by
abundant
pyrite
(FeS,)
and
lesser
amounts
of
pyrrhotite
(FeS)
[6,
p.
14;
8,
p.
1821.
The
average
ore
grade
was
1.30%
copper,
4.91%
zinc,
0.35%
lead,
and
0.50
ounces
per
ton
of
silver
[25,
p.
21.
Mining
and
milling
operations
ceased
in
June
1972,
and
a
reclamatich
program
was
begun
that
included
removal
of
the
freshwater
dam,
and
flooding
of
the
320
foot
deep
open
pit
by
opening
18
inch
sluice
boards
at
the
Goose
Falls
Dam
[6,
pp.
6,
71.
Within
the
waste
rock
piles
(Source
l),
an
occasional
piece
of
ore
rock
can
be
found,
consisting
of
chalcopyrite
and
sphaleritewithinachloriticortalcosematrix
[6,
p.
141.
WithintheTailingsPond(
Source2),
the
unwanted
components
of
the
floatation
process
(which
separated
ore
from
non
ore)
were
accumulated
[6,
pp
5,6].
Cadmium
is
usually
present
in
small
amounts
in
sphalerite
[32,
p.
2501.
Galena
(PbS),
a
lead
sulfide
mineral,
is
commonly
foundwithsphalerite
and
hasbeencollectedfromthe
tailings
piles
at
the
site
[32,
pp.
250
251;
34,
p.
51.
Clausthalite
(PbSe),
lead
selenide,
is
very
similar
to
galena
[45,
p.
11.
Acanthite
is
a
silver
sulfide
associated
with
galena
and
aguilarite
is
another'silver
sulifide
which
also
contains
selenium
[33;
391.
In
addition,
selenium
is
found
as
a
trace
element
in
many
copper
sulfide
minerals
especially
pyrite
and
coal
[45,
p.
13.
Therefore,
the
hazardous
substances
cadmium,
copper,
lead,
selenium,
silver,
and
zinc
are
attributable
to
the
site
based
on
their
association
with
the
ore
deposit
wastes
mined
at
the
site.
Areas
in
Mid
Coastal
Maine
have
been
mined
for
copper
and
zinc
since
the
later
part
of
the
1800's
[34,
p.
11.
A
second
mine
in
the
area,
now
abandoned,
was
the
Kerramerica
(Blue
Hill)
mine
located
approximately
10
miles
northeast
of
the
Callahan
Mine
[X,
p.
171;
34,
p.
11.
Blue
Hill's
distance
from
Callahan
Mine
makes
it
unlikely
it
contributed
to
the
contaminationdetectedattheCallahanMinesite.
TheBlueHillmineisnotlocatedalong
Callahan
Mine's
15
mile
downstream
surface
water
pathway
[38].
The
two
mines
are
located
in
the
same
major
watershed,
Maine
Coastal
[46].
On
4
and
6
October
1999,
ME
DEP
collected
shallow
soil
samples
from
Source
1
and
2
[l
l
,
p.
2;
18,
pp.
1,2,
5;
19,
pp.
60
64;
24,
pp.
97,
981.
The
soil
samples
were
collected
in
accordance
with
the
Quality
Assurance
Project
Plan
dated
1
September
1999
[ls].
The
soil.
samples
were
analyzed
by
ME
DHS
HETL
for
seven
metals
(cadmium,
copper,
lead,
mercury,
silver,
selenium,
and
zinc),
percent
solids,
and
grain
size
[17,
p.
31.
Analyses
were
performed
in
accordancewith
ME
DHS
HETL
S0P:
EVMETALS
Analysis
of
TraceMetals
inEnvironmentalWater,
November
1996
and
SOP:
DW245
Analysis
of
Mercury,
July
1997
methods
[18,
p.
3;
20,
Attachment
A,
p.
11.
The
seven
metal's
analytical
results
were
validated
at
Modified
Tier
I11
Level
according
to
EPA
New
England
Regional
FunctionalGuidelines[
20,
Attachment
A,
p.
11.
Thehazardoussubstancesdetected
in
Source1
andSource2
included
cadmium,
copper,
lead,
mercury,
selenium,
silver,
and
zinc
[20,
pp.
17
20].
On
October
5
,
1999,
ME
DEP
personnel
collected
sediment
samples
99
SD
29,
99
SD
31,
99
SD
33,
99
SD
35,
99
SD
37(
d),
and
99
SD
39(
d)
from
Goose
Pond
and
Dyer
Cove
[18,
pp.
1,2;
19,
p.
65,66,67,
701.
The
samples
were
collected
in
accordance
with
the
EPA
approved
Quality
Assurance
Project
Plan
dated
1
September
1999
[17,
pp.
3,13,
16,
18
22;
18,
p.
2;
19,
p.
701.
The
samples
were
analyzed
by
ME
DHS
HETL
for
seven
metals
(cadmium,
copper,
lead,
mercury,
silver,
selenium,
andzinc),
grainsize,
andpercentsolids
byMEDHS
HETL
S0P:
EVMETALS
Analysis
of
Trace
Metals
in
Environmental
Water
and
SOP:
DW245
Analysis
of
Mercury
methods
[20,
Attachment
A,
p.
11.
The
data
were
validated
at
Modified.
Tier
DI
Level
according
to
EPANew
EnglandRegionalFunctionalGuidelines
[ZO,
AttachmentA,
p.
11.
Hazardoussubstancesdetectedinsediment
samples
included
cadmium,
copper,
lead,
selenium,
silver,
and
zinc
[20,
pp.
14,
15,
161;
These
hazardous
substances
(cadmium,
copper,
lead,
selenium,
silver,
and
zinc)
are
attributable
to
the
site
based
on
their
detection
in
samples
collected
from
the
Source
1
and
Source
2.
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
31
16
July
2001
Hazardous
Substances
Released
Based
on
the
analytical
results
of
sedimeht
samples
99
SD
29,
99
SD
31,
99
SD
33,
99
SD
35,
99
SD
37(
d)
and
99
SD
39(
d),
the
following
hazardous
substances
attributed
to
the
site
have
been
released
to
the
surface
water
pathway:
cadmium,
copper,
lead,
selenium,
silver,
and
zinc
[20,
pp.
`12,
13,
14,
15,
161.
The
analytical
data
which
documents
an
observed
release
to
the
surface
water
pathway
is
evidence
of
hazardous
substance
migration
from
the
source
areas;
a
Containment
Factor
Value
of
10
is
assigned
to
such
sources
[
1,
pp.
5
1609,
51610,
Table
4
11.
Since
Source
1
and
Source
2
have
containment
factors
greater'than
0,
all
hazardous
substances
(cadmium,
copper,
lead,
mercury,
selenium,
silver,
and
zinc)
associated
with
Source
1
and
Source
2
willbeused
to
evaluate
the
Waste
Characteristics
Factor
Category
for
the
surface
water
pathway
[l,
pp.
5161
1,
Section
4.1.2.21.
Surface
Water
Observed
Release
Factor
Value:
550
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
h4ED980524128
32
16
July
2001
'
4.1.3.2
Human
Food
Chain
Threat
Waste
Characteristics
4.1.3.2.1
Toxicity/
Persistence/
Bioaccumulation
The
following
substances
are
attributed
to
the
site
by
documented
waste
disposal
history
and
chemical
analysis.
Hazardous
substances
attributed
to
the
site
are
considered
associated
with
both
sources
based
on
waste
disposal
history
and
chemical
analysis.
The
Toxicity
Factor
Value,
the
Persistence
Factor
Value,
and
the
Bioaccumulation
Factor
Value
are
assigned
to
the
hazardous
substances
associated
with
the
sources
and
releases
at
the
site
based
on
the
values
presented
in
Superfund
Chemical
Data
Matrix
(SCDM)
[2,
pp.
B
4,
B
6,
B
13,
B
201.
Because
all
of
the
downstream
hazardous
substance
migration
pathway
comprises
saltwater
bodies,
bioaccumulation
factor
values
for
saltwater
are
used.
Factor
Value"
Cadmium
122
10,000
Copper
L
2
NL
1
Lead
1,2
10,000
1
Mercuxy
1,2
10,000
0.4
Selenium
1,2
100
1
Silver
1,2
100
1
Zinc
1,2
10
1
Toxicity/
Persistence/
BioaccumulationBioaccumulation
Value""
5,000
5
x107
2,
p.
B
4
50,000
NA
2,
p.
B
6
5,000
5
x107
2,
p.
B
13
50,000
2
x
108
2,
p.
B
13
50
5,000
2,
p.
B
17
50
5,000
2,
p.
B
17
50,000
5
x105
2,
p.
B
20
NL
=
NotlistedinSCDM
JLJN96.
NA
=
Notavailable.
*=
PersistencevalueforRivers.
**
=
Bioaccumulation
factor
valuefor
Salt.
A
Toxicity
Factor
Value
of
10,000
and
a
Persistence
Factor
Value
of
0.4
are
assigned
a
ToxicityPersistence
Factor
Value
of
4,000
[l,
p.
51613,
Table
4
12].
A
ToxicityPersistence
Factor
Value
of
4,000
and
a
Bioaccumulation
Potential
Factor
Value
of
50,000
are
assigned
a
ToxicityRersistenceBioaccumulation
Factor
Value
of
2
X
10'
[l,
pp.
5
1618,5
1619,
Table
4
16].
The
hazardous
substances
with
the
highest
ToxicityPersistenceBioaccumulation
Factor
Value
(mercury)
was
used
to
assign
the
ToxicityPersistenceBioaccumulation
Factor
Value
for
the
watershed
[l
,
pp.
51618,
Section
4.1.3.2.1.41
ToxicityRersistenceiBioaccumulation
Factor
Value:
2
x
10'
4.1.3.2.2
Hazardous
Waste
Quantity
Source
No.
._
I
SourceTypeSourceHazardous
Waste
Quantity
I
I
II
I
I
I
1
2
x
lo6
Tailings
Pile
1
2
I
Surface
Impoundment
I
38,992.9
It
Sum
of
Values:
2.04
x
IO6
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
33
16
July
2001
The
sum
of
the
source
hazardous
waste
quantity
values
is
assigned
as
the
Hazardous
Waste
Quantity
Factor
Value
[l,
p.
51591,
Section
2.4.2.21.
A
Hazardous
Waste
Quantity
Factor
Value
of
1
X
lo6
is
assigned
to
a
site
when
the
sum
of
the
hazardous
waste
quantity
values
is
greater
than
1
x
lo6
[1,
p.
51591,
Table
2
61.
Hazardous
Waste
Quantity
Factor
Value:
1
x
lo6
4.1.3.2.3
Waste
Characteristics
Factor
Category
Value
The
ToxicityPersistence
Factor
Value
for
mercury
(4,000)
is
multiplied
by
the
Hazardous
Waste
Quantity
Factor
Value
for
the
watershed
(1
x
lo6)
in
order
to
determine
the
Waste
Characteristics
Product.
This
product
is
subject
to
a
maximum
value
of
1
x
10'
[l,
pp,
51620,516241.
(4,000)
X
(1
X
lo6)
=
4
x
lo9.
ToxicityPersistence
Factor
Value
x
Hazardous
Waste
Quantity
Factor
Value:
4
x
lo9
The
product
of
this
ToxicityPersistence
Factor
Value
x
Hazardous
Waste
Quantity
Factor
Value
is
subject
to
a
maximum
product
of
1
x
10'and
therefore
the
maximum
value
of
1
x
10'
is
assigned
to
this
calculation
[l,
p.
516201.
The
product
of
the
ToxicityPersistence
Factor
Value
and
Hazardous
Waste
Quantity
Factor
Value
for
the
watershed
is
multiplied
by
the
Bioaccumulation
Potential
Factor
Value
for
mercury
(50,000),
subject
to
a
maximum
value
of
1
x
10"
[l,
Table
2
71.
(1
x
10')
x
(50,000)
=
5
x
10".
(ToxicityPersistence
Factor
Value
x
Hazardous
Waste
Quantity
Factor
Value)
x
Bioaccumulation
Potential
Factor
Value:
5
x
10"
Theproduct
of
this
(ToxicityPersistence
FactorValue
x
HazardousWasteQuantityFactorValue)
x
Bioaccumulation
Potential
Factor
Value
is
subject
to
a
maximum
product
of
1
x
10''and
therefore
the
maximum
value
of
1
x
10''
is
assigned
to
this
calculation
[l,
p.
515921.
From
HRS
Table
2
7,
a
Waste
Characteristics
Product
1
X
10''is
assigned
a
Waste
Characteristics
Factor
Category
Value
of
1,000
[l,
p.
515921.
Waste
Characteristics
Factor
Category
Value:
1,000
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
16
July
200
1
3
4
4.1.3.3
Human
Food
Chain
Threat
Targets
Goose
Pond
and
Goose
Cove
are
designated
closed
shellfish
fisheries
and
Penobscot
Bay
is
a
designated
finfish
and
shellfish
fishery
by
the
Maine
Department
of
Marine
Resources
[13;
14;
211.
Species
harvested
include
lobster,
sea
urchins,
scallops,
mackerel,
and
striped
bass
[13].
START
personnel
observed
lobster
pot
buoys
in
Goose
Cove
during
the
on
site
reconnaissance,
providing
further
evidence
of
a
lobster
fishery
in
Goose
Cove
[lo,
p.
51.
Annual
harvest
information
for
the
above
species
was
not
available
to
START.
Maine
Department
of
Marine
Resources
personnel
indicated
that
the
shellfish
fisheries
in
Goose
Pond
and
Goose
Cove
.have
been
closed
due
to
high
fecal
bacteria
counts
and.
heavy
metal
concentrations
[14].
Species
affected
by
this
closure
include
mussels,
surf
clams,
hard
shell
clams,
and
oysters
[14].
Lobsters
are
not
affected
in
this
closure
because
they
are
not
filter
feeders
[41].
In
addition,
START
personnel
observed
signs
placed
by
Maine
Marine
Patrol
prohibiting
the
harvesting
of
shellfish
in
Goose
Pond
and
indicating
that
the
Goose
Pond
shellfish
fishery
was
closed
due
to
heavy
metal
contamination
from
Callahan
Mine
[lo,
p.
5,
14;
141.
For
the
purposes
of
this
evaluation,
Goose
Pond
will
be
evaluated
as
a
fishery
subject
to
actual
human
food
chain
contamination.
Goose
Pond
fishery
satisfies
the
following
HRS
criteria:
the
fishery
is
closed
and
a
hazardous
substance
for
which
the
fishery.
has
been
closed
has
been
documented
in
an
observed
release
[l,
p.
51620,
Section
4.1.3.31.
Actual
Human
Food
Chain
Contamination
Sediment
Samples
On
5
October
1999,
ME
DEP
personnel
collected
sediment
samples
99
SD
29,99
SD
31,99
SD
33,99
SD
35,99
SD
37(
d)
and
99
SD
39(
d)
from
Goose
Pond
and
Dyer
Cove
[18,
pp.
1,
2,
6;
19,
p.
65,
66,
67,
701.
Analytical
results
indicate
the
observed
release
of
cadmium,
copper,
lead,
selenium,
silver,
and
zinc
above
background
sediment
sample
concentrations
in
accordance
with
Section
2.3,
Table
2
3
of
the
H
R
S
[l,
p.
51589,
Section
2.3,
Table
2
3;
20,
pp.
5
10,
12
16].
Distance
2,
p.
B
4;
3;
18,
pp.
2,6;
19,
p.
65;
44
5,000
Cadmium
0
feet
References
Factor
Value*
Substance
from
PPE
Bioaccumulation
Hazardous
Copper
50,000
2,
p.
B
6;
3;
18,
pp.
2,6;
19,
p.
65;
44
Lead
5,000
50
Selenium
2,
p.
B
13;
3;
18,
pp.
2,6;
19,
p.
65;
44
2,
p.
B
20;
3;
18,
pp.
2,6;
19,
p.
65;
44
50,000
Zinc
2,
p.
B
17;
3;
18,
pp.
2,6;
19,
p.
65;
44
.
50
Silver
!
2,
p.
B
17;
3;
18,
pp.
2,6;
19,
p.
65;
44
700
feet
2,
p.
B
4;
3;
18,
pp.
2,6;
19,
p.
65;
44
5,000
Cadmium
Copper
50,000
2,
p.
B
13;
3;
18,
pp.
2,6;
19,
p.
65;
44
5,000
.
.
Lead
2,
p.
B
6;
3;
18,
pp.
2,6;
19,
p.
65;
44
2,
p.
B
20;
3;
18,
pp.
2,6;
19,
p.
65;
44
50,000
Zinc
2,
p.
B
17;
3;
18,
pp.
2,6;
19,
p.
65;
44
50
Silver
2,
p.
B
17;
3;
18,
pp.
2,6;
19,
p.
65;
44
50
Selenium
1,475
feet
2,
p.
B
13;
3;
18,
pp.
2,6;
19,
p.
66;
44
5,000
Lead
2,
p.
B
6;
3;
18;
pp.
2,6;
19,
p.
66;
44
50,000
Copper
2,
p.
B
4;
3;
18,
pp.
2,
6;
19,
p.
66;
44
5,000
Cadmium
zinc
2,
p.
B
20;
3;
18,
pp.
2,6;
19,
p.
66;
44
50,000
2,208
feet
2,
p.
B
4;
3;
18,
pp.
2,6;
19,
p.
66;
44
5,000
Cadmium
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
35
16
July
2001
Sample
ID
I
Saltwater
Bioaccum
Sample
Medium
sediment
sediment
Distance
I
Hazardous
I
Bioaccuniulation
I
1
1
from
PPE
References
.
Factor
ValueX
Substance
Copper
2,
p.
B
6;
3;
18,
pp.
2,6;
19,
p.
66;
44
50,000
Lead
5,000
~~~~~
2,
p.
B
13;
3;
18,
pp.
2,6;
19,
p.
66;
44
zinc
2,
p.
B
20;
3;
18,
pp.
2,6;
19,
p.
66;
44
50,000
3,960
feet
2,
p.
B
6;
3;
18,
pp.
2,6;
19,
p.
70;
36
50,000
Copper
2,
p.
B
4;.
3;
18,
pp.
2,6;
19,
p.
70;
36
5,000
Cadmium
Lead
2,
p.
B
13;
3;
18,
pp.
2?
6;
19,
p.
70;
36
5,000
zinc
2,
p.
B
20;
3;
18,
pp.
2,6;
19,
p.
70;
36
50,000
.
3,960
feet
2,
p.
B
4;
3;
18,
pp.
2,6;
19,
p.
7i);
36
5,000
Cadmium
.
Copper
50,000
5,000
Lead
2,
p.
B
6;
3;
18,
pp.
2,6;
19,
p.
70;
36
2,
p.
B
20;
3;
18,
pp.
2,6;
19,
p.
70;
36
50,000
Zinc
2,
p.
B
13;
3;
18,
pp.
2,6;
19,
p.
70;
36
ition
Factor
used.
ClosedFisheries:
Shellfish
fisheries
in
Goose
Pond
are
closed
due
to
high
fecal
bacteria
counts
and
heavy
metal
concentrations
[14].
Sediment
samples
99
SD
37(
d)
and
99
SD
39(
d)
were
collected
3,960
ft
downstream
from
the
most
upstream
PPE,
located
north
of
Waste
Pile
1
and
east
of
Waste
Pile
2
[3;
11,
p.
2;
361.
Identity
of
Distance
Fishery
References
Hazardous
Substance
from
PPE
Sample
ID
Goose
Pond
10,
p.
5;
14;
20,
pp.
5
10,
Cadmium,
copper,
3,960
feet
99
SD
37(
d)
99
SD
39(
d)
12
14;
36
NA
=
notapplicable.
Most
Distant
Level
I1
Sample
The
Goose
Pond
fishery
is
subject
to
actual
contamination,
based
on
the
release
of
hazardous
substances
(copper,
cadmium,
lead,
and
zinc)
to
the
fishery
indicated
by
chemical
analyses
of
sediment
samples'99
SD
37(
d)
and
99
SD
39(
d)
[l,
p.
51620,
Section
4.1.3.3;
20,
pp.
5,6,
8,9,
10,12,
13,
141.
An
observed
release
of
attributable
hazardous
substances
(cadmium,
copper,
lead,
and
zinc)
each
having
a
Bioaccumulation
Factor
Value
of
500
or
greater
(5,000;
,
50,000;
5,000;
and
50,000;
respectively)
to
the
in
water
segment
for
the
watershed
containing
fisheries
has
been
established
[l,
p.
51589,
Section
2.3;
2,
pp.
B
4,
B
6,
B
20;
11,
p.
2;
20,
pp.
5,
6,
8,
9,
10,
12,
13,
141.
Fisheries
determined
to
meet
actual
contamination
target
criteria
based
on
the
chemical
analysis
of
sediment
samples
are
evaluated
as
subject
to
Level
I1
contamination,
since
no
health
based
benchmarks
are
available
for
sediment
samples
[l,
p.
51592,
Section
2.51.
Sample
ID:
99
SD
37(
d)
and
99
SD
39(
d)
Distance
from
the
probable
point
of
entry:
3,960
feet
Reference:
[l
l
,
p.
2;
361
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
16
July
2001
3
6
Level
I1
Fisheries
Extent
of
Level
I1
Fishery
Identity
of
Fishery
References
(Relative
to
PPE
or
Level
I
Fishery)
Goose
Pond
Fishery
11,
p.
2;
14;
36
3,960
feet
4.1.3.3.1
Food
Chain
Individual
The
Goose
Pond
fishery
is
subject
to
actual
contamination,
based
on
the
release
of
hazardous
substances
(copper,
cadmium,
lead,
selenium,
silver,
and
zinc)
to
the
fishery
indicated
by
chemical
analyses
of
sediment
samples
99
SD
29,99
SD
31,99
SD
33,99
SD
35,99
SD
37(
d)
and
99
SD
39(
d)
[1,
p.
51620,
Section
4.1.3.3;
14;
20,
pp.
5,6,
8,
9,
10
,12,
13,
141.
An
observed
release
of
attributable
hazardous
substances
(cadmium,
copper,
lead,
and
zinc)
each
having
a
Bioaccumulation
Factor
Value
of
500
or
greater
(5,000;
50,000;
5,000;
and
50,000;
respectively)
to
the
in
water
segment
for
the
watershed
containing
fisheries
has
been
established
[1,
p.
51589,
Section
2.3;
2,
pp.
B
4,
B
6,
B
20;
11,
p.
2;
14;
20,
pp.
5,6,8,9,10,
12,
13,
141.
Fisheries
determined
to
meet
actual
contamination
target
criteria
based
on
the
chemical
analysis
of
sediment
samples
are
evaluated
as
subject
to
Level
I1
contamination,
since
no
health
based
benchmarks
are
established
for
sediment
samples
[l,
p.
51592,
Section
2
51.
Therefore,
a
Food
Chain
Individual
Factor
Value
of
45
is
assigned
[l,
p.
51620,
Section
4.1.3.3.11.
Sample
ID:
99
SD
29,99
SD
3
1,99
SD
33,99
SD
35,99
SD
37(
d),
and
99
SD
39(
d)
Level
ILevel
II/
or
Potential:
Level
I1
Hazardous
Substances:
Cadmium;
Copper;
Lead;
Zinc
Bioaccumulation
Potential:
5,000;
50,000;
5,000;
50,000
Identity
of
Fishery
1,
p.
51613,
Table
0.0001
Coastal
Tidal
Waters
Goose
Pond
Fishery
References
.
Dilution
Weight
(Table
4
13)
Type
of
Surface
Water
Body
4
3;
14;
15
Food
Chain
Individual
Factor
Value:
45
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
16
July
2001
37
4.1.3.3.2Population
4.1.3.3.2.2
Level
I1
Concentrations
Goose
Pond
is
a
closed
shellfish
fishery
[14].
Annual
harvest
(production)
when
the
fishery
was
open
is
unknown;
.
for
the
purposes
of
this
evaluation,
annual
production
will
be
considered
to
have
been
greater
than
0
pounds
[
131
Annual
Production
Human
Food
Chain
Identity
of
Fishery
Population
Value
(Table
4
18)
References
(pounds)
Goose
Pond
Fishery
0.03
1,
p.
51621;
13
>O
Sum
of
Level
II
Human
Food
Chain
Population
Values:
0.03
Level
I1
Concentrations
Factor
Value:
0.03
4.1.4.2
Environmental
Threat
Waste
Characteristics
4.1.4.2.1Ecosystem
Toxicity/
Persistence/
Bioaccumulation
The
following
substances
are
attributed
to
the
site
by
documented
waste
disposal
history
and
chemical
analysis.
Hazardous
substances
attributed
to
the
site
are
considered
associated
with
both
sources
based
on
waste
disposal
history
and
chemical
analysis.
The
Ecosystem
Toxicity
Factor
Value,
the
Persistence
Factor
Value,
and
the
Ecosystem
Bioaccumulation
Factor
Value
are
assigned
to
the
hazardous
substances
associated
with
the
sources
and
releases
at
the
site
based
on
the
values
presented
in
Superfund
Chemical
Data
Matrix
(SCDM)
[2,
pp.
B
4,
B
6,
B
13,
B
201.
Because
all
of
the
downstream
hazardous
substance
migration
pathway
comprises
saltwater
bodies,
bioaccumulation
factor
values
for
saltwater
are
used.
I
Hazardous
Substance
Cadmium
Copper
Selenium
Silver
Zinc
I
I
I
I
Ecosystem
Ecosystem
Value**
Factor
Value*
Factor
Value
Number
.
mulation
Persistence
Toxicity
Source
Bioaccu
Ecosystem
Toxicity/
Persistence/
Bioaccumulation
Factor
Value
(Table
4
21)
1,2
5
X
lo5
50
1
10,000
1,2
5,000
50
1
100
1,2
2
x
10s
50,000
0.4
10,000
L
2
5
x
106
5,000
1
1,000
1,2
5
x
106
50,000
1
100
1,
2
5
x
106
5,000
1
1,000
1,2
I
100
I
1
I
50,000
I
5
x
106
Notes:
*
Persistence
value
for
Rivers.
**
Bioaccumulation
factor
value
for
Salt.
References
2,
p.
B
4
2,
p.
B
6
2,
p..
B
13
2,
p.
B
13
2.
p.
B
17
2,
p.
B
17
2,
p.
B
20
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
16
July
2001
3
8
.
"
."
.~
.
An
Ecosystem
Toxicity
Factor
Value
of
10,000
and
a
Persistence
Factor
Value
of
0.4
are
assigned
an
Ecosystem
ToxicityiPersistence
Factor
Value
of
4,000
[l,
p.
51622,
Table
4
20].
An
Ecosystem
ToxicityiPersistence
Factor
Value
of
4,000
and
an
Ecosystem
Bioaccumulation
Potential
Factor
Value
of
50,000
are
assigned
an
Ecosystem
ToxicityiPersistenceh3ioaccumulation
Factor
Value
of
2
X
10'
(1,
pp.
51622,
51623,
Table
4
21].
The
hazardous
substances
with
the
highest
Ecosystem
ToxicityiPersistenceBioaccumulation
Factor
Value
(mercury)
was
used
to
assign
the
Ecosystem
ToxicityPersistenceh3ioaccumulation
Factor
Value
for
the
watershed
[l,
pp.
51622,
Section
4.1.4.2.1.41
Ecosystem
ToxicityiPersistenceIBioaccumulation
Factor
Value:
2
x
10'
4.1.4.2.2.
Hazardous
Waste
Quantity
SourceNumberSource
Type
I
SourceHazardousWasteQuantity
I
I
.
II
I
I
II
Waste
Pile
2
x
106
I
2
I
Surface
I1
Sum
of
Values:
2.04
x
lo6
The
sum
of
the
source
hazardous
waste
quantity
values
is
assigned
as
the
Hazardous
Waste
Quantity
Factor
Value
[l,
p.
51591,
Section
2.4.2.21.
A
Hazardous
Waste
Quantity
Factor
Value
of
1
x
lo6
is
assigned
to
a
site
when
the
sum
of
the
hazardous
waste
quantity
values
is
greater
than
1
x
lo6
[l,
p.
51591,
Table
2
61.
Hazardous
Waste
Quantity
Factor
Value:
1
x
lo6
4.1.4.2.3
Waste
Characteristics
Factor
Category
Value
TheEcosystemToxicityiPersistenceFactorValue
for
mercury(
4,000)
ismultiplied
by
the
HazardousWaste
Quantity
Factor
Value
for
the
watershed
(1
X
lo6)
in
order
to
determine
the
Waste
Characteristics
Product.
This
product
is
subject
to
a
maximum
value
of
1
x
10'
[l,
pp.
516241.
(4,000)
x
(1
x
IO6)
=
4
x
10'.
Ecosystem
ToxicityPersistence
Factor
Value
x
Hazardous
Waste
Quantity
Factor
Value:
4
X
lo9
The
product
of
this
Ecosystem
ToxicityPersistence
Factor
Value
x
Hazardous
Waste
Quantity
Factor
Value
is
subject
to
a
maximum
product
of
1
X
lo8
and
therefore
the
maximum
value
of
1
x
10'
is
assigned
to
this
calculation
[I,
p.
516241.
The
product
ofthe
Ecosystem
ToxicityPersistence
Factor
Value
and
Hazardous
Waste
Quantity
Factor
Value
for
the
watershed
is
multiplied
by
the
Ecosystem
Bioaccumulation
Potential
Factor
Value
for
mercury
(50,000),
subject
to
a
maximum
value
of
1
x
10"
[l,
p.
516241.
(1
x
10')
x
(50,000)
=
5
x
10".
(EcosystemToxicityiPersistenceFactorValue
x
HazardousWasteQuantityFactorValue)
x
Ecosystem
Bioaccumulation
Potential
Factor
Value:
5
x
10"
The
product
of
this
(Ecosystem
ToxicityPersistence
Factor
Value
x
Hazardous
Waste
Quantity
Factor
Value)
x
Ecosystem
Bioaccumulation
Potential
Factor
Value
is
subject
to
a
maximum
product
of
1
x
10"
and
therefore
the
.maximum
value
of
1
x
10"
is
assigned
to
this
calculation
[l,
p.
516241.
From
HRS
Table
2
7,
a
Waste
Characteristics
Product
1
x
10"
is
assigned
a
Waste
Characteristics
Factor
Category
Value
of
1,000
[l,
p.
515921.
Waste
Characteristics
Factor
Category
Value:
1,000
Callahan
Mine
H
R
S
Documentation
Record
CERCLIS
No.
MED980524128
3
9
16
July
2001
4.1.4.3
Environmental
Threat
Targets
GoosePondisdesignated
as
EstuarineandMarineClass
SB
by
theStateof
Maine
[35].
Class
SB
waters
as
designated
by
the
state
are
"...
suitable
for
the
designated
uses
of
recreation.
in
and
on
the
water,
fishing,
aquaculture,
propagation
and
harvesting
of
shellfish,
industrial
process
and
cooling
water
supply,
hydroelectric
power
generation
and
navigation
and
as
habitat
for
fish
and
other
estuarine
and
marine
life"
[26,
p.
3571.
The
Maine
standards
of
classification
of
water
bodies
offer
protection
under
the
U.
S.
Clean
Water
Act
statutes
[35].
The
Holbrook
Island
Sanctuary,
a
state
park,
borders
Goose
Pond
to
the
east
of
the
Callahan
Mine
site
[
1
1,
p.
2;
27,
p.
2
of
41.
The
sanctuary
is
a
scenic
natural
area
containing
a
diverse
set
of
ecosystems
which
provides
habitat
for
numerous
species
of
wildlife
and
plant
life
[27,
pp.
1
41.
A
wetlands
delineation
was
conducted
by
a
ME
DEP
specialist
on
1
June
2000
[28,
p.
11.
Wetlands
were
identified
by
vegetative
type
and
hydrologic
setting
and
located
using
a
GPS
unit.
U.
S.
Fish
and
Wildlife
Service
wetland
classifications
types
were
identified
fi
om
the
Cape
Rosier,
Maine
National
Wetlands
Inventory
Map
[29].
Wetlands
presentadjacent
to
GoosePondincludepalustrineemergentandpalustrinescrub
shrubwetlands[
29].
Approximately
0.77
miles
of
wetlands
frontage
exists
downstream
of
the
most
upstream
PPE
along
Goose
Pond
[28;
361.
Most
Distant
Level
LI
Sample
On
6
October
1999,
ME
DEP
personnel
collected
sediment
samples
99
SD
37(
d)
and
99
SD
39(
d)
in
Dyer
Cove
(Goose
Pond)
[18,
pp.
2,6].
Sediment
samples
99
SD
37(
d)
and
99
SD
39(
d)
were
collected
3,960
ft
downstream
of
the
most
upstream
PPE
to
surface
water
from
the
site,
located
at
the
southeast
corner
of
the
tailings
pond
(Source
2)
(see
Figure
3
in
Attachment
A
of
this
document)
[l
l
,
p.
2;
10,
p.
11;
361.
Analytical
results
of
samples
99
SD
37(
d)
and
99
SD
39(
d)
indicate
the
detection
of
cadmium,
copper,
lead,
and
zinc
at
concentrations
greater
than
the
background
concentrations
of
the
same
hazardous
substances
[20,
pp.
5,6,
8,9,
10,
12,
13,
141.
Sample
ID:
99
SD
37(
d)
and
99
SD
39(
d)
Distance
from
the
probable
point
of
entry:
3,960
ft
Reference:
[ll,
p.
2;
361
4.1.4.3.1
Sensitive
Environments
4.1.4.3.1.2.
Level
I1
Concentrations
Sensitive
Environments
Sensitive
Environment
State
designated
Natural
Area
Holbrook
Island
Sanctuary
State
Park
State
designated
areas
for
the
protection
and
maintenance
of
aquatic
life
under
the
Clean
Water
Act
Goose
Pond
Distance
from
PPE
to
Nearest
Sensitive
Environment
300
feet
0
Sum
of
Level
I1
Sensitive
Environments
Value:
30
I
Sensitive
Environment
Value
References
(Table
4
23)
1,
p.
5
1624,
Table
4
23;
11,
p.
2;
27
25
1,
p.
51624,
Table
4
23;
3;
11,
p.
2;
35
5
Callahan
Mine
HRS
Documentation
Record
CERCLIS
No.
MED980524128
16
July
2001
40
F_"
Wetlands
I!
Wetland
I
Wetland
Frontage
(miles)
I
References
!I
Goose
Pond
0.77
28;
36
Sum
of
Level
11
Wetland
Frontages:
0.77
Wetlands
Value
(1,
p.
51625,
Table
4
24):
25
Sum
of
Level
I1
Sensitive
Environments
Value
+
Wetlands
Value:
30
+
25
=
55
Level
11
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| epa | 2024-06-07T20:31:36.350190 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/EPA-HQ-SFUND-2001-0009-0001/content.txt"
} |
FAA-2001-11128-0002 | Proposed Rule | 2001-12-17T05:00:00 | U.S.DOT/FAA - Noise Limitations for Aircraft Operations in the Vicinity of Grand Canyon National Park (Working Draft) | XXXX 2001
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 93
[Docket No. XXXX; Amendment No. 93- ]
Noise Limitations for Aircraft Operations in the Vicinity of Grand
Canyon National Park
AGENCY: Federal Aviation Administration (FAA), DOT.
ACTION: Supplemental notice of proposed rulemaking.
____________________________________________________________
SUMMARY: This supplemental proposal amends the notice of proposed
rulemaking (NPRM) published on December 31, 1996 (61 FR 69334; Notice
96-15) which proposed to establish noise efficiency limitations for
certain aircraft operations in the vicinity of Grand Canyon National
Park (GCNP). The NPRM is being re-examined because Congress passed
legislation that directed the FAA to Specifically, the FAA has
reexamined the December 1996 proposal in light of the direction provided
in Section 804, Quiet Aircraft Technology for Grand Canyon, of the
Wendell H. Ford Aviation Investment and Reform Act for the 21st Century
(Pub. L. 106-181). Under the mandate, the Administrator shall designate
reasonably achievable requirements for quiet technology in commercial
air tour aircraft at GCNP. This SNPRM proposes standards for quiet
technology that are reasonably achievable. fixed-wing and helicopter
aircraft necessary for such aircraft to be considered as employing quiet
aircraft technology for purposes of this section. The proposed quiet
technology designations require air tour aircraft to be categorized
according to each aircraft's noise efficiency. The eventual goal is The
standards for quiet technology proposed in this SNPRM will be used to
assist the National Park Service (NPS) in achievingachieve its statutory
mandate mandate imposed by Public Law 100-91 to provide for the
substantial restoration of natural quiet and experience in the GCNP.
This proposed rulemaking is related to and consistent with other
rulemaking actions being implemented by the FAA concerning the GCNP.
The SNPRM also serves to disposes of the comments that had beenwere
received in response to the December 1996 NPRM.
This SNPRM drops the three noise efficiency categories that were
proposed in the December 1996. This SNPRM only proposes to designate as
quiet technology those aircraft complying with what was formerly
described as Category C. This SNPRM does not include any incentive
flight corridors through the park as proposed in December 1996 nor does
it propose any phase-out of air tour aircraft that do not satisfy the
quiet technology designation. The SNPRM does not propose to implement
the provision of the National Air Tour Management Act of 2000 that would
permit a lifting of the cap on commercial sightseeing air tour
operations in the Park. The implementation of incentive flight
corridors and cap removal for quiet technology aircraft will be the
subject of future rulemaking as the FAA, in consultation with the NPS,
works with an advisory group composed of representatives of general
aviation, commercial air tour operations, environmental concerns, and
Indian Tribes.
DATES: Comments must be received on or before <fill in date>.
ADDRESSES: Address your comments to the Docket Management System, U.S.
Department of Transportation, Room PL401, 400 Seventh Street, SW.,
Washington, DC 20590-0001. You must identify Docket Number
FAA-2001-XXXX at the beginning of your comments.
You may also submit comments through the Internet to
http://dms.dot.gov. You may also review the entire public docket for
this SNPRM at that same site.
You may also review the public docket in person in the Docket Office
between 9 9 a.m. and 5 5 p.m., Monday through Friday, except Federal
holidays. The Docket Office is on the plaza level.
FOR FURTHER INFORMATION CONTACT: Mr. Thomas L. Connor, AEE-100, Federal
Aviation Administration, 800 Independence Avenue, S.W., Washington, DC
20591; Telephone: (202) 267-8933.
SUPPLEMENTARY INFORMATION:
Comments Invited
The FAA invites interested persons to participate in this rulemaking by
submitting written comments, data, or views. We also invite comments
relating to the economic, environmental, energy, or federalism impacts
that might result from adopting the proposals in this document. The
most helpful comments reference a specific portion of the proposal,
explain the reason for any recommended change, and include supporting
data. We ask that you send us two copies of written comments.
Interested persons are invited to participate in this proposed
rulemaking by submitting such written data, views, or arguments, as they
may desire. Comments relating to the environmental, energy, federalism,
or economic impact that may result from adopting the proposals in this
notice are also invited. Comments that provide the factual basis
supporting the views and suggestions presented are particularly helpful
in developing reasoned regulatory decisions. Communications should
identify the regulatory docket number and be submitted in triplicate to
the above-specified address. We will file in the docket all comments we
receive, as well as a report summarizing each substantive public contact
with FAA personnel concerning this proposed rulemaking.All
communications and a report summarizing any substantive public contact
with FAA personnel on this rulemaking will be filed in the docket. The
docket is available for public inspection both before and after the
closing date for receiving comments. Before taking any final action on
this proposal, the Administratorwe will consider all comments made on or
before the closing date for comments, and the proposal may be changed in
light of the comments received.
If you want the FAA to The FAA will acknowledge receipt of a your
comments if the commenteron this proposal, includes with your comments a
selfpre-addressed, stamped postcard on which the docket number
appearswith the comment. The postcard should be marked ‘‘Comments
to No. XXXXX.’’ When the FAA receives the comment, the postcard will
be dated, time stamped, and returned to the commenter.We will stamp the
date on the postcard and mail it to you.
Availability of the SNPRM
You can get an electronic copy using the Internet by taking the
following steps:
(1) Go to the search function of the Department of Transportation's
electronic Docket Management System (DMS) web page
(http://dms.dot.gov/search).
(2) On the search page type in the last four digits of the Docket
number shown at the beginning of this notice. Click on "search."
(3) On the next page, which contains the Docket summary information for
the Docket you selected, click on the document number for the item you
wish to view.
You can also get an electronic copy using the Internet through the
Office of Rulemaking’s web page at http://www.faa.gov/avr/armhome.htm
or the Federal Register's web page at
http://www.access.gpo.gov/su_docs/aces/aces140.html.
You can also get a copy by submitting a request to the Federal Aviation
Administration, Office of Rulemaking, ARM-1, 800 Independence Avenue
SW., Washington, DC 20591, or by calling (202) 267-9680. Make sure to
identify the docket number, notice number or amendment number of this
rulemaking.
Any person may obtain a copy of this SNPRM by submitting a request to
the Federal Aviation Administration, Office of Rulemaking, 800
Independence Avenue SW., Washington, DC 20591, or by calling (202)
267–9677. Communications must identify the notice number of this
SNPRM. Persons interested in being placed on a mailing list for future
FAA NPRM’s should request a copy of Advisory Circular No. 11–2A,
Notice of Proposed Rulemaking Distribution System, which describes
application procedures. An electronic copy of this document may be
downloaded using a modem and suitable communications software from the
FAA regulations section of the Fedworld electronic bulletin board
service (telephone: 703–321–3339) or the Federal Register’s
electronic bulletin board service (telephone: 202–512– 1661).
Internet users may reach the FAA’s web page at http://www.faa.gov or
the Federal Register’s web page at http://www.access.gpo.gov/suldocs
for access to recently published rulemaking documents.
History
Table 1 provides a timeline of events related to the effort to
designate quiet technology requirements for air tour operations in Grand
Canyon National Park (GCNP). These events are described in this and
succeeding sections.
Beginning in the summer of 1986, the FAA initiated regulatory action to
address increasing air traffic over GCNP. On March 26, 1987, the FAA
issued Special Federal Aviation Regulation (SFAR) No. 50 (subsequently
amended on June 15, 1987; 52 FR 22734) establishing flight regulations
in the vicinity of the Grand CanyonGCNP. The purpose of the SFAR was to
reduce the risk of midair collision, reduce the risk of terrain contact
accidents below the rim level, and reduce the impact of aircraft noise
on the park environment.
Table 1. Timeline of Events related to the Designation of Quiet
Technology for Air Tour Operations in GCNP (Part 1 of 2)
Year Month Event
1987 March/June The FAA publishes SFAR No. 50 to establish special
flight regulations in vicinity of GCNP (52 FR 22734)
August Congress enacts National Parks Overflights Act (Pub. L. 100-91)
December The DOI transmits "Grand Canyon Aircraft Management
Recommendation" to the FAA
1988 May/June The FAA publishes SFAR No. 50-2 to revise flight
procedures in GCNP airspace (53 FR 20264)
1994 March The FAA and the NPS jointly issue ANPRM seeking public
comment on quiet technology and incentives (59 FR 12740)
September The DOI submits to Congress "Report on Effects of Aircraft
Overflights on the National Park Systems”
1995 June The FAA extends SFAR No. 50-2 until June 15, 1997
(60 FR 31608)
July The DOI report to Congress is published.
1996 April The President publishes a memorandum directing the
substantial restoration of natural quiet in GCNP
July The FAA publishes NPRM (Notice 96-11) to amend 14 CFR part 93 to
codify SFAR No. 50-2 (61 FR 40120)
December The FAA publishes final rule to codify SFAR 50-2 into a new
subpart U of 14 CFR part 93 (61 FR 69302)
December The FAA publishes NPRM (Notice 96-15) on noise limitations for
air tour operations in GCNP (61 FR 69334)
December The FAA publishes notice of availability of proposed
commercial air tour routes (61 FR 69356)
1997 February The FAA delays the effective date of 14 CFR sections
93.301, 93.305, and 93.307 and reinstates portions of SFAR No 50-2
(62 FR 8862)
May The FAA publishes NPRM (Notice 97-6) to establish Bright Angel
incentive corridor and the National Canyon corridor for air tour routes
(62 FR 26902)
October The FAA publishes clarification of its reevaluation of the
economic and environmental impacts of the final rule published on
12/31/96 (62 FR 58898)
December The FAA further delays the effective date of 14 CFR sections
93.301, 93.305, and 93.307 and reinstates portions of SFAR No 50-2
(62 FR 66248)
1998 July The FAA withdraws the National Canyon corridor proposal
(63 FR 38232)
July The FAA also withdraws Notice 97-6, which proposed two quiet
technology incentive corridors (63 FR 38233)
December The FAA delays the effective date of 14 CFR sections 93.301,
93.305, and 93.307 and reinstates portions of SFAR No 50-2
(63 FR 67544)
1999 January The NPS publishes a notice of agency policy, "Evaluation
Methodology for Air Tour Operations Over Grand Canyon National Park"
(64 FR 3969)
February The FAA delays the effective of 14 CFR sections 93.301,
93.305, and 93.307 and reinstates portions of SFAR No 50-2
(64 FR 5152)
July The FAA published an NPRM (Notice 99-11) to modify the dimensions
of the GCNP SFRA (64 FR 37296)
July The FAA also published NPRM (Notice 99-12) to limit the number of
commercial air tours conducted in GCNP (64 FR 37304)
July The NPS evaluation methodology becomes effective (64 FR 38006)
Table 1. Timeline of Events related to the Designation of Quiet
Technology for Air Tour Operations in GCNP (Part 2 of 2)
Year Month Activity
2000 February The FAA delays the effective of 14 CFR sections 93.301,
93.305, and 93.307 and reinstates portions of SFAR No 50-2
(65 FR 5395)
April The FAA publishes the commercial air tour limitations final rule
(65 FR 17708)
April The FAA publishes the airspace modification final rule
(65 FR 17736)
April Congress enacts the National Parks Air Tour Management Act of
2000 (Pub. L. 106-181, Title VIII)
May The commercial air tour limitations final rule becomes effective
(14 CFR §§ 93.315, 93.317, 93.319, 93.321, 93.323, and 93.325)
November The FAA delays the effective date of the airspace modification
final rule (65 FR 69846)
2001 January The FAA delays the effective date of the airspace
modification final rule (66 FR 1002)
March The FAA and the NPS jointly issue a notice establishing the NPOAG
(66 FR 14429)
March The FAA delays the effective date of the airspace modification
final rule (66 FR 16582)
April The airspace modifications final rule becomes effective (14 CFR
§§ 93.301, 93.305, 93.307, and 93.309)
June The FAA and the NPS announce the NPOAG membership (66 FR 32974)
ANPRM Advanced Notice of Proposed Rulemaking
CFR Code of Federal Regulations
FR Federal Register
NPOAG National Parks Overflights Advisory Group
NPRM Notice of Proposed Rulemaking
SFAR Special Federal Aviation Regulation
In August 1987, Congress enacted Public Law (Pub. L.) 100-91, commonly
known as the National Parks Overflights Act (or the Overflights Act).
The Overflights Act stated, in part, that noise associated with aircraft
overflights at GCNP was causing “a significant adverse effect on the
natural quiet and experience of the park and current aircraft operations
at the Grand Canyon National Park have raised serious concerns regarding
public safety, including concerns regarding the safety of park users.”
Section 3 of the Overflights Act required the Department of the Interior
(DOI) to submit to the FAA recommendations to protect resources in the
Grand CanyonGCNP from adverse impacts associated with aircraft
overflights. The law mandated that the recommendations: (1) provide
for substantial restoration of the natural quiet and experience of the
park and protection of public health and safety from adverse effects
associated with aircraft overflight, (2) with limited exceptions,
prohibit the flight of aircraft below the rim of the canyon, and (3)
designate flight-free zones except for purposes of administration and
emergency operations.
In December 1987, the DOI transmitted its “Grand Canyon Aircraft
Management Recommendation” to the FAA. The Overflights Act required
the FAA to prepare and issue a final plan for the management of air
traffic above the Grand CanyonGCNP, implementing the recommendations of
the DOI without change unless the FAA determined that executing the
recommendations would adversely affect aviation safety.
On May 27, 1988, the FAA issued SFAR No. 50-2 revising the procedures
for operation of aircraft in the airspace above the Grand CanyonGCNP (53
FR 20264). SFAR No. 50-2 established a Special Flight Rules Area (SFRA)
from the surface to 14,499 feet above mean sea level (MSL) in the area
of the Grand CanyonGCNP. The SFAR prohibited flight below a certain
altitude in each of five sectors of this area, with certain exceptions.
The SFAR established four flight-free zones from the surface to 14,499
feet MSL covering large areas of the park. The SFAR provided for
special routes for commercial sightseeing operators. These operators
are required to conduct sightseeing operations under either part 121 or
part 135 of Title 14 of the Code of Federal Regulations (CFR) as
specified in their operations specifications. Finally, the SFAR
SFAR 50-2 contained certain terrain avoidance and communications
requirements for flights in the area.
In March 1994, the two agencies jointly issued an advance notice of
proposed rulemaking (ANPRM) seeking public comment on policy
recommendations addressing the effects of aircraft overflights on
national parks, including GCNP (59 FR 12740). The recommendations
presented for comment included: (1) voluntary measures, (2) altitude
restrictions, (3) flight-free periods, (4) flight-free zones, (5)
allocation of noise equivalencies, and (6) incentives to encourage use
of quiet aircraft technology. In response to the ANPRM, the FAA
received 644 comments that specifically addressed GCNP.
A second major provision of section 3 of the Overflights Act required
the DOI to submit a report to Congress discussing whether SFAR No. 50
“has succeeded in substantially restoring the natural quiet in the
park; and such other matters, including possible revisions in the plan,
as may be of interest.” The report was to include comments by the FAA
“regarding the effect of the plan's implementation on aircraft
safety.” The Overflights Act mandated a number of studies related to
the effect of overflights on parks.
On September 12, 1994, the DOI submitted its final report and
recommendations to Congress. This report “Report on Effects of
Aircraft Overflights on the National Park System,” was published in
July 1995. The report recommended numerous revisions to SFAR No. 50-2
in order to substantially restore natural quiet in GCNP. Recommendation
No. 10, “Improve SFAR 50-2 to Effect and Maintain the Substantial
Restoration of Natural Quiet at Grand Canyon National Park,” is of
particular interest to this rulemaking. This recommendation
incorporated the following general concepts: (1) simplification of the
commercial sightseeing route structure, (2) expansion of flight-free
zones, (3) accommodation of the forecast growth in the air tour
industry, (4) phased-in use of quieter aircraft technology, (5) temporal
restrictions (“flight-free” time periods), (6) use of the full range
of methods and tools for problem solving, and (7) institution of changes
in approaches to park management, including the establishment of an
acoustic monitoring program by the NPS in coordination with the FAA. On
June 15, 1995, the FAA published a final rule that extended the
provisions of SFAR No. 50-2 to June 15, 1997 (60 FR 31608). This action
allowed the FAA sufficient time to review the NPS recommendations and to
initiate and complete appropriate rulemaking action.
President's Memorandum
The President, on April 22, 1996, issued a Memorandum for the Heads of
Executive Departments and Agencies to address the significant impacts on
visitor experience in national parks. Specifically, the President
directed the Secretary of Transportation to issue proposed regulations
for the Grand Canyon National Park that would appropriately limit
sightseeing aircraft to reduce the noise immediately and to further
restore natural quiet, as defined by the Secretary of the Interior,
while maintaining aviation safety in accordance with the Overflights
Act.
On July 31, 1996 the FAA published an NPRM (61 FR 40120; Notice 96-11)
to reduce the impact of aircraft noise on GCNP and to assist the NPS in
achieving its statutory mandate imposed by the Overflights Act to
provide for the substantial restoration of natural quiet and experience
in GCNP. A final rule was issued on December 31, 1996 (61 FR 69302) to
amend 14 CFR part 93 with a new subpart U (Sections 93.301 to 93.317).
The amendment adopted the following: (1) modification of the dimensions
of the GCNP SFRA, (2) establishment of new flight-free zones and flight
corridors, as well as modification of existing flight-free zones and
flight corridors, (3) establishment of flight-free periods (curfews) in
the Dragon and Zuni Point Corridors, and (4) establishment of reporting
requirements for commercial sightseeing companies operating in the SFRA.
In addition, the FAA sought comments on a number of questions and
alternatives regarding curfews and caps, as well as on the issue of
quiet aircraft technology. This final rule also placed a temporary
limit on the number of aircraft that could be used for commercial
sightseeing operations in the GCNP SFRA. These provisions were to
become effective on May 1, 1997. Only the reporting requirements, and
aircraft cap were actually implemented. Implementation of the remaining
provisions had been delayed.
Additionally, on December 31, 1996, the FAA published an NPRM on Noise
Limitations for Aircraft Operations in the Vicinity of Grand Canyon
National Park (61 FR 69334; Notice 96-15), and a Notice of
Availability of Proposed Commercial Air Tour Routes in the Federal
Register (61 FR 69356). These two documents were part of an overall
strategy to reduce further the impact of aircraft noise on the park
environment and to assist the NPS in achieving its statutory mandate
imposed by the Overflights Act.
1996 Proposal for Quiet Technology Designation
In the 1996 NPRM, Noise Limitations for Aircraft Operations in the
Vicinity of Grand Canyon National Park, FAA proposed to establish noise
limitations for certain aircraft operating in the vicinity of GCNP. The
proposed aircraft noise limitations rule generally would have required
air tour aircraft to be categorized according to each aircraft’s noise
efficiency. The 1996 proposal had three parts: (1) incentive flight
corridor through the National Canyon, (2) categorize aircraft by noise
efficiency, and (3) removal of the aircraft cap for the most noise
efficient aircraft.
The first part was to provide incentives for the use of quieter aircraft
within the GCNP. The proposed rule would have implemented incentives
for conversion to the most noise efficient category of air tour
aircraft. The NPRM also provided an incentive route for the use of
noise efficient aircraft within the GCNP by establishing the National
Canyon Corridor, a route within the newly expanded Toroweap/Shinumo
Flight-free Zone.
The second part was to establish additional aircraft noise limitations
to further reduce the impact of aircraft noise on the GCNP environment.
The NPRM proposed to divide air tour aircraft into three categories
according to their level of noise efficiency, as measured by the
relationship between the certificated noise level of the aircraft and
the number of passenger seats on the typical configuration of that
aircraft type. The noise efficiency concept not only has had much in
common with the FAA’s historic approach to aircraft noise standards
but also supported the theme that the use of quieter, larger aircraft
would provide a two-fold benefit. The replacement of a tour aircraft
with a larger, more noise efficient aircraft would both reduce the noise
of each operation and reduce the number of air tour operations while
still accommodating the same number of passengers. This theme is in
accord with the FAA’s general policy of using cumulative aircraft
noise as an appropriate measure of potential impacts accounting for the
number of flights and intensity of their noise. The FAA began to
explore a noise efficiency approach as an incentive for operators to
utilize aircraft equipped with the best available noise abatement
technology in the GCNP. Additionally, the NPRM would have phased-out
the use of the least noise efficient aircraft. The NPRM defined the
three categories of noise efficiency as, Category A, the least noise
efficient; Category B, more noise efficient than Category A; and,
Category C, the most noise efficient.
The third element was to minimize or eliminate the impact of the
aircraft cap on operators using the quietest aircraft in the GCNP by
lifting the immediate temporary cap placed on the number of aircraft
permitted to be used for commercial sightseeing operations in the GCNP
for Category C air tour aircraft, the most noise efficient aircraft.
The intended goal of the 1996 NPRM requirements was to reduce the impact
of air tour aircraft noise in the GCNP and to assist the NPS in
achieving the statutory mandate to provide for the substantial
restoration of natural quiet and experience in the GCNP.
The FAA’s findings and recommendations were presented in full detail
in the publication of the NPRM. Following the publication of the NPRM,
as well as a number of other related rulemakings at the end of December
1996, the FAA and NPS jointly agreed that the best approach to
substantially restore natural quiet in GCNP was to devote their
resources to the development of those final rules that addressed
critical near-term needs. Thus, priority was given to the promulgation
of final rules on changes to the airspace over GCNP and establishment of
operational operations limitations for air tour flights. The agencies
delayed work on the final rule for noise limitations until the airspace
and operations limitation final rules were promulgated. They once again
began workingfocused on the quiet technology rulemaking immediately
following publication of the final rulesas soon as the airspace and
operations limitation final rules were published in April 2000.
Related Federal Rulemaking and Policies since 1996
On Feb. ruary 26, 1997, the FAA published a final rule (62 FR 8862) that
amended the effective date of modifications to the GCNP SFRA that were
codified in an earlier final rule published on December 31, 1996. This
action delayed the effective date for 14 CFR Sections 93.301, 93.305,
and 93.307 of the final rule and reinstated portions of and amended the
expiration date of SFAR No. 50–2.
On May 15, 1997, the FAA published an NPRM (62 FR 26902; Notice 97-6),
which proposed to amend two of the Flight-Free Zones within the GCNP by
establishing two corridors through the Flight-free Zones. The first
corridor through the Bright Angel Flight-free Zone would have been an
incentive corridor to be used only by the most noise efficient aircraft.
The second corridor in the Toroweap/Shinumo Flight-free Zone through
the National Canyon area would create a marketable air tour route in the
central section of the Park while addressing some concerns of the Native
Americans.
On October 31, 1997, the FAA published a notice of clarification (62 FR
58898) to set forth its reevaluation of the economic and environmental
impacts associated with the Special Flight Rules in the Vicinity of
Grand Canyon National Park (GCNP) Final Rule, published on December 31,
1996. After implementation of certain provisions of the final rule, the
FAA discovered that it had underestimated the number of commercial air
tour aircraft operating in GCNP in 1995. The FAA reevaluated the
economic and environmental analyses completed for the final rule in
light of this new information. The FAA determined that the changes were
not of such magnitude as to affect the Agency’s position on the
implementation of the final rule.
On July 15, 1998, the FAA published a supplemental amendment (63 FR
38232) to the NPRM Notice 96-15 published on December 31, 1996, which
proposed to establish noise limitations for certain aircraft operating
in the vicinity of GCNP. Specifically, the FAA removed two sections
from the 1996 NPRM that proposed to establish a corridor in the
Toroweap/Shinumo Flight-free Zone through the National Canyon area as an
incentive route for quiet technology aircraft. The FAA, in consultation
with the NPS, removed these two sections from the NPRM because the
agencies determined not to proceed with an air tour route in the
vicinity of National Canyon and instead were considering alternatives to
this route. Comments submitted by the air tour operators, the
environmentalists, and the Native Americans led the 2 two agencies to
conclude that the National Canyon air tour route was not a viable
option. The supplemental amendment did not affect any other provisions
contained in the 1996 NPRM. At the same time, the FAA withdrew NPRM
Notice 97-6, which had proposed 2 quiet technology incentive corridors
in the Park (63 FR 38233).
On January 26, 1999, the NPS published a public notice of agency policy,
“Evaluation Methodology for Air Tour Operations Over Grand Canyon
National Park” (64 FR 3969). The intent of the notice was to solicit
comments on refinements to NPS’ noise evaluation (i.e., impact
assessment) methodology for air tour operations over GCNP.
Specifically, the refinements contemplated a two-zone system for
assessing impacts related to substantial restoration of natural quiet at
GCNP. In Zone One, which would encompass about one-third of the
Park’s area, the threshold of noticeability previously used in noise
modeling for environmental analyses related to GCNP air tours would
continue to be used (i.e., the average A-weighted natural ambient level
plus 3 decibels). In Zone Two, which would encompass about two-thirds
of the Park’s area, the threshold for the onset of impact would be
audibility (i.e., the level at which aircraft can begin to be heard by
people with normal hearing, determined to be 8 decibels below the
average A-weighted natural ambient level at GCNP). Because the noise
model used to assess air tour overflight noise in the park is based upon
A-weighted data, the adjustments of +3 and –8 dB are the respective
conversion factors related to the thresholds of noticeability and
audibility in terms of the noise frequency on the one-third octave band.
This noise assessment methodology became effective on July 14, 1999 (64
FR 38006).
On July 9, 1999, the FAA published an NPRM to modify the dimensions of
the GCNP SFRA (64 FR 37296; Notice 99-11). At the same time, the FAA
proposed a rulemaking (64 FR 37304; Notice 99-12) to limit the number of
commercial air tours that may be conducted in the GCNP SFRA and to
revise the reporting requirements for commercial air tours in the SFRA.
A final rule was published on April 4, 2000 (65 FR 17708). The final
rule enables the FAA and the NPS to limit and further assess the impact
of aircraft noise on the GCNP. In addition, this rule adopts
non-substantive changes to 14 CFR part 93, subpart U to improve the
organization and clarity of the rule. The rule temporarily limits
commercial air tours in the SFRA at the level reported to the FAA by the
operators for the year May 1, 1997–April 30, 1998 (the base year),
pending implementation of the comprehensive noise management plan.
During the implementation of the commercial air tour limitation, the FAA
and the NPS will collect further information regarding commercial SFRA
operations and aircraft noise in the GCNP. The NPS and the FAA will use
the information collected during this time to determine whether the
“substantial restoration of natural quiet” had been achieved at the
GCNP. In the event that the agencies determine that the statutory goal
is not met through the various noise mitigation techniques adopted, the
FAA and NPS will need to take further steps to achieve the substantial
restoration of natural quiet. This could mean that the commercial air
tour limitation will become permanent and/or that commercial air tours
will be further limited. The commercial air tour limitation replaces
the current aircraft cap set forth in § 93.316(b).
On April 4, 2000, the FAA also published a final rule (65 FR 17736)
modifying the airspace in the SFRA. This rule went into effect on April
19, 2001.
The National Parks Air Tours Management Act of 2000
The National Parks Air Tour Management Act of 2000 (the Air Tour Act)
was enacted on April 5, 2000, as Title VIII of Public Law 106–181
(Pub. L. 106–181). The Air Tour Act applies to ‘‘commercial air
tour operations’’ occurring over a unit of the national park system
or tribal lands within or abutting a national park. Section 804 of the
Air Tour Act states that within 12 months after the date of its
enactment (April 5, 2000), the Administrator shall designate reasonably
achievable requirements for fixed-wing and helicopter aircraft necessary
for such aircraft to be considered as employing quiet aircraft
technology for purposes of this section. If the Administrator
determines that it is not possible to make such designation before April
5, 2001, the Administrator shall transmit to Congress a report on the
reasons for not meeting such time period and the expected date of such
designation. Additionally, Congress mandated that once such a
designation had been made, those commercial air tour operators who
employ quiet aircraft technology shall not be subject to the operational
flight allocations at Grand Canyon National Park, "...provided that the
cumulative impact of such operations does not increase noise at Grand
Canyon." Finally, the Air Tour Act also directsed that "...the
Administrator shall establish, by rule, routes or corridors for
commercial air tour operations...by fixed-wing or helicopter aircraft
that employ quiet aircraft technology..." at Grand Canyon National Park,
"...provided that such routes or corridors can be located in areas that
will not negatively impact the substantial restoration of natural quiet,
tribal lands, or safety."
National Parks Overflights Advisory Group (NPOAG)
On March 12, 2001, the NPS and FAA in accordance with the Air Tour Act,
invited persons interested in participating on the NPOAG to send a
letter to the FAA by April 2, 2001 (66 FR 14429). The NPOAG membership
was announced on June 19, 2001 (66 FR 32974).
In accordance with the Air Tour Act, the advisory group will provide
advice, information, and recommendations to the Administrator and the
Director—
(1) On the implementation of this title [the Air Tour Act] and the
amendments made by this title;
(2) On commonly accepted quiet aircraft technology for use in commercial
air tour operations over a national park or tribal lands, which will
receive preferential treatment in a given air tour management plan;
(3) On other measures that might be taken to accommodate the interests
of visitors to national parks; and
(4) At the request of the Administrator and the Director, safety,
environmental, and other issues related to commercial air tour
operations over a national park or tribal lands.
The Air Tour Act also requires FAA to consult with the advisory group
and the NPS on the establishment of routes or corridors for commercial
air tour operations by fixed-wing and helicopter aircraft that employ
quiet aircraft technology for--
(1) tours of the Grand Canyon originating in Clark County, Nevada; and
(2) `local loop' tours originating at the Grand Canyon National Park
Airport, in Tusayan, Arizona.
GCNP Aircraft Noise Model Validation Study
The noise modeling used in all of the GCNP environmental documents to
date, remains the best science currently available and produces results
consistent with available data. However, as noise modeling is a
constantly evolving technology, both agencies are committed to making
appropriate adjustments to the approaches and methodologies as new
knowledge or science becomes available. In 1999, the NPS and the FAA
jointly funded a noise model validation study to determine the degree of
accuracy and precision of existing computer models. This study compares
the existing candidate models of for assessing air tour noise exposure
with noise measurements taken in GCNP. The ongoing noise model
validation effort is part of the FAA and NPS commitment to work
cooperatively to meet the mandated goal of a substantial restoration of
natural quiet in GCNP. The final results of this project, when they
become available, could have an effect on both the determination of
substantial restoration of natural quiet already achieved and in the
evaluation of alternative means of implementing quiet technology.
The candidate models being validated are:
The FAA’s Integrated Noise Model, which has been modified to address
air tour aircraft noise exposure in GCNP and is referred to as the GCNP
Integrated Noise Model (GCINM).
The NPS’s National Park Service Overflight Decision Support System
(NODSS) designed and programmed specifically for park applications where
audibility, significant changes in terrain elevation, and shielding due
to terrain must be addressed.
NOISEMAP Simulation Model (NMSIM) developed by the US Air Force and the
National Aeronautics and Space Administration (NASA) to simulate
aircraft single event noise levels.
As part of the Noise Model Validation Study efforts, the agencies
jointly formed the Technical Review Committee (TRC) to review and
comment on various technical issues that may arise related to the
measurement, quantification and analysis of soundscapes. The TRC is
composed of 8 acoustics and statistical experts from academia, private
companies, and government agencies.
Environmental Review
In accordance with FAA Order 1050.1D, Appendix 4, Paragraph 4.j, the
FAA has determined that this proposed rulemaking is categorically
excluded from environmental review. The proposed rulemaking establishes
quiet technology designations for air tour aircraft operating in GCNP.
It does not impose a phase-out or any alteration of any air tour
operator’s fleet of aircraft. In addition, the proposed rulemaking
does not lift the operations limitation, alter any flight corridors
through the Park, or make any change to the SFRA. Finally, the FAA
notes that this proposed rulemaking has no impact on substantial
restoration of natural quiet at GCNP and environmental and economic
impacts will depend upon other future incentives yet to be defined.
Accordingly, this proposed rulemaking will not individually or
cumulatively have a significant effect on the human environment.
The FAA has determined that this proposal does not instigate any
adverse environmental effects, which would require the preparation an
environmental assessment (EA) for this rulemaking effort to assure
conformance with the National Environmental Policy Act of 1969 (NEPA).
As directed by the Air Tour Act, this proposal does not “relieve or
diminish-- (1) the statutory mandate imposed upon the Secretary of the
Interior and the Administrator of the Federal Aviation Administration
under Public Law 100-91 (16 U.S.C. 1a-1 note) to achieve the substantial
restoration of the natural quiet and experience at the Grand Canyon
National Park.” The reasoning behind the FAA determination include:
The proposal simply establishes quiet technology designations for air
tour aircraft operating in the Park. It does not impose a phaseout or
any alteration of any air tour operator’s fleet of aircraft.
The proposal does not lift the operational cap, alter any flight
corridors through the Park, or make any change to the SFRA.
As the eventual goal of this proposed rulemaking is the substantial
restoration of natural quiet in the GCNP, the FAA has conducted some
analyses to assess potential progress towards the goal. The FAA
analysis included the use of the GCINM and with data input from the
preferred alternative operational scenario found in the February 2000
Final Supplemental Environmental Assessment. The analysis found that by
replacing the entire current fleet of air tour aircraft that do not meet
the quiet technology designation with equipment meeting the designation,
almost 58% of the park area would achieve substantial restoration of
natural quiet on an average annual day. By comparison, the mixed fleet
used for the calculations in the 2000 assessment achieved about 44%
substantial restoration for an annual average day. This estimate
provides a relative measure of the gains that might be achieved with the
one-for-one conversion to quiet technology aircraft.
Consultation with Affected Indian Tribes
Six Native American communities represented by eight separate tribal
governments have ancestral ties to the Grand Canyon. Three of these
communities have reservations that border the GCNP, the Navajo Nation to
the east, and the Havasupai and Hualapai Tribes to the south. The
Department of Transportation (DOT), FAA, DOI, NPS, Advisory Council on
Historic Preservation (ACHP), Bureau of Indian Affairs (BIA), and
Arizona State Historic Preservation Officer (SHPO) have consulted with
these tribes, on a government-to-government basis,The Department of
Transportation (DOT) and the DOI have consulted with these tribes, on a
government-to-government basis, according to the provisions of the NEPA,
the National Historic Preservation Act (NHPA), and the Council on
Environmental Quality (CEQ) regulations and other applicable laws and
Executive Orders.
In accordance with Section 106 of the NHPA, the FAA issued a
Determination of No Adverse Effect to the Traditional Cultural
Properties (TCPs) for all of the tribes and/or nations, except the
Hualapai Tribe, for the April 2000 rulemaking actions associated with
the SFRA in the vicinity of the GCNP. As to the Hualapai Tribe, the FAA
along with the NPS, the Advisory Council on Historic Preservation, the
Hualapai Tribal Historic Preservation Officer (THPO) and the Hualapai
Department of Cultural Resources signed a Programmatic Agreement on
January 24, 2000 related to Section 106 compliance and their TCPs.As to
the Hualapai Tribe, the FAA along with the NPS, the Advisory Council on
Historic Preservation and the Hualapai Department of Cultural Resources
signed a Programmatic Agreement on January 24, 2000 related to Section
106 compliance and their TCPs.
Due to new safety concerns raised by the Air Tour Operators related to
the proposed route and airspace modifications on the East End of the
SFRA, only those modifications from west of the Dragon Corridor were
implemented on April 19, 2001. In accordance with Section 106 of the
NHPA, if significant modifications are proposed for the East End
commercial air tour routes and airspace related to address the new
safety concerns, raised are proposed for the East End, consultation with
the Navajo Nation and the other interested Native American tribes,
specifically the Hopi Tribe and Pueblo of Zuni will be
re-initiatednotified.
Public Input
The FAA has reexamined the December 1996 proposal in light of the
direction provided in Section 804 of the Air Tour Act. Under the
mandate, the Administrator shall designate reasonably achievable
requirements for fixed-wing and helicopter aircraft necessary for such
aircraft to be considered as employing quiet aircraft technology for
purposes of this section. The proposed quiet technology designations
require air tour aircraft to be categorized according to each aircraft's
noise efficiency. The eventual goal is to assist the National Park
Service (NPS) in achieving its statutory mandate imposed by Public Law
100-91 to provide for the substantial restoration of natural quiet and
experience in the GCNP. This proposed rulemaking is related to and
consistent with other rulemaking actions being implemented by the FAA
concerning the GCNP.
In addition, the SNPRM does not propose to implement the provision of
the National Parks Air Tour Management Act of 2000 that would permit a
lifting of the cap on commercial sightseeing air tour operations in the
Park. The implementation of any quiet technology incentive flight
corridors and the removal of operations limitation for quiet technology
aircraft will be the subject of future rulemaking as the FAA, in
consultation with the NPS, works with an advisory group composed of
representatives of general aviation, commercial air tour operations,
environmental concerns, and Indian Tribes.
The SNPRM also serves to disposes of the comments that had beenwere
received in response to the December 1996 NPRM (61 FR 69334). The 1996
NPRM proposed to establish noise limitations for certain aircraft
operated in the vicinity of Grand Canyon National Park. The 1996
proposal had three parts: (1) incentive flight corridor through the
National Canyon, (2) categorize aircraft by noise efficiency, and (3)
removal of the aircraft cap for the most noise efficient aircraft.
The first part of the 1996 proposal provided an incentive for the use
of noise efficient aircraft within the GCNP by establishing a National
Canyon Corridor within the newly expanded Toroweap/Shinumo Flight-free
Zone. This SNPRM does not propose any incentive corridors.
The second part of the 1996 proposal divided aircraft into three
categories according to their level of noise efficiency and proposed to
phase-out aircraft in the two least noise efficient categories
(Categories A and B). Category A is the least noise efficient, Category
B is more noise efficient than Category A, and Category C is the most
noise efficient. This SNPRM drops proposes to replace the three
categories and proposes to designate as quiet technology those aircraft
that comply with what was formerly described as Category C, the most
noise efficient category.
The third part of the 1996 proposal lifted the cap placed on the number
of aircraft permitted to be used for commercial sightseeing operations
in GCNP for the most noise efficient aircraft (Category C). This SNPRM
does not include this part of the 1996 proposal as explained in a later
section of this notice.
Interested persons were invited to participate in this the rulemaking
action by submitting written data, views, or argumentscomments. The
comment period for the NPRM closed March 31, 1997. The comment period
for the draft Environmental Assessment also closed on March 31, 1997.
In response to the NPRM the FAA received 107 comments. All comments
received were considered before issuing this SNPRM. An analysis of the
comments is summarized below.
The comments presented in the subsections below were to the December
1996 NPRM. As one of the purposes of this SNPRM is to dispose of the
1996 comments, the FAA responses take into account related Federal
actions since 1996. Commenters include air tour operators and their
representatives, environmental groups, sightseeing organizations, Native
American tribes, pilots and pilot associations, and individuals. Most
commenters do not support some or all aspects of the proposal.
Generally, air tour operators who do not currently operate quiet
aircraft are against a phase-out of noisier aircraft as proposed in
1996; one Native American tribe is was against the 1996 proposal to
reintroduce a flight route through the National Canyon; while
environmental organizations argue that by itself the 1996 proposal would
not adequately restore the natural quiet to GCNP.
1. General Comments on Proposal
The FAA received a number of general comments on the NPRM, including
comments related to statutory issues, procedural complaints, and
environmental concerns. Eagle Canyon Airlines (Eagle) (54), Vision Air
(Vision) (61), and King Airlines, Inc. (King) (56) state that the NPRM
failed to state the basis for the FAA's statutory authority for the
proposed rulemaking. They state that the FAA cited the Overflights Act
as part of the statutory authority for the NPRM but that the final rule
(December 31, 1996) did not cite the Overflights Act as statutory
authority.
These three commenters state that the Overflights Act gave the FAA the
legal authority to issue SFAR 50, but not to take further action beyond
that. These commenters also state that the FAA's cited authority from
the FAA Act does not give the FAA authority to protect "environmental
values" or to promulgate a noise management plan.
The Helicopter Association International (HAI) (63) states that the
proposals are arbitrary and capricious because unbiased data demonstrate
that natural quiet has been restored at GCNP and air tour aircraft
currently operating at GCNP are fully certificated by the FAA and in
compliance with all applicable FAA safety and operating regulations.
The General Aviation Manufacturers Association (GAMA) (64) states that
the NPRM does not contain the necessary scientific data or
substantiation to prove that the proposal will accomplish its goal.
GAMA believes that basing a rulemaking on a broad and indefinite range
of terms and objectives, such as "interference" or "annoyance" of
visitors and "substantial restoration of natural quiet," is subjective
and arbitrary. GAMA fears that introducing noise limitations and
forced attrition for aircraft presently operating in the vicinity of
GCNP could be the beginning of a process that could progressively tear
down the entire U.S. aviation system. GAMA believes that, if FAA's
strategy were applied to the vast holding of federal lands, federal
parks, state lands and state parks, it would severely impact the use of
general aviation aircraft and some commercial airliners as well.
Twin Otter (45) believes that quiet technology is the solution to the
problem of achieving substantial restoration of natural quiet to the
GCNP. However, the alternative, caps, curfews and ever more limitations
on how air tours can be conducted, is totally unacceptable.
Lake Mead Air (26, 53) suggests that protecting the park experience
from noise will be more effectively accomplished by routing traffic away
from the park visitors than by use of quiet technology and altitude.
Clark County Department of Aviation and the Las Vegas Convention and
Visitors Authority (Clark County) (62) believe that the piecemeal nature
of the FAA's Grand Canyon rulemaking makes it impossible for the public
to meaningfully comment on the proposals. Clark County suggests that
the FAA propose its entire Grand Canyon strategy -- flight-free zones,
tour routes, quiet aircraft requirements, and other measures -- as one
package, so that the public can assess the best overall program.
The United States Air Tour Association (USATA) (60) states that all of
the various regulatory actions being implemented by the FAA should be
combined into a single rulemaking effort to ensure that all the relevant
issues are addressed as an integrated whole.
Bell Helicopter Textron (91) and the Professional Helicopter Pilots
Association (85) believe that there are substantial issues in
controversy in this proposal, which should necessitate the use of
negotiated rulemaking by means of the Aviation Rulemaking Advisory
Committee (ARAC) process.
The Sierra Club, Angeles and Grand Canyon Chapters (38, 75, 76),
opposes the permissive growth of the air tour industry in the GCNP. The
level of flight operations should be reduced to the levels, which
existed in the Park in 1975.
The Sierra Club, Grand Canyon Chapter, believes that the Noise
Limitations NPRM can be part of an acceptable plan, but would not by
itself substantially restore natural quiet at GCNP. The proposal would
not bring GCNP into compliance with the Overflights Act, nor would it
bring the park into compliance with the management objectives of the
GCNP General Management Plan. Furthermore, the proposal would not
implement the actions directed by President Clinton in his Earth Day
memorandum (April 1996). The Overflights Act directs the FAA to
implement the recommendations of the NPS, revised only for safety. The
FAA has ignored the law in this regard and continues to promote the air
tour industry.
FAA response
The Overflights Act charged the FAA, in concert with the DOI, to enact
rulemaking and take what action is necessary to substantially restore
the natural quiet and experience of our national parks, and to protect
the public health and safety from adverse effects associated with
overflights. This mandate imbued the FAA with the necessary authority
to carry out any measure recommended by the NPS that did not have safety
issues and was necessary to effect the substantial restoration of the
natural quiet and experience, which is an NPS designated “resource or
value” of the park, and to protect the public safety. The practical
effect of this second requirement is the implementation of operational
rules for aircraft that facilitate the safe overflight of the Grand
CanyonGCNP. In accordance with the Air Tour Act, the FAA has
established the NPOAG to provide advice and counsel on the
implementation of quiet aircraft technology at Grand CanyonGCNP.
The FAA agencies acknowledges that the SNPRM on noise, alone, is
inadequate to accomplish its stated goal and mandate under the
Overflights Act. It is for this reason that the FAA has adopted rules
to enhance flight free zones, modify the route structure, and limit the
number of air tours in GCNP.
2. Natural Quiet
A number of commenters address the question of whether the proposals
would contribute to the substantial restoration of natural quiet in the
GCNP. Grand Canyon Trust (Trust) (72) makes the following general
observations:
(1) Whatever regulatory scheme is ultimately implemented, that scheme
must comply with the Overflights Act and that NPS, not the FAA, must
determine whether and when natural quiet is substantially restored.
(2) The FAA must implement rules that immediately restore natural quiet
to the canyon.
(3) The proposed rule must be substantially revised and strengthened
because it will permit an immediate degradation of natural quiet.
(4) Any revisions will have to include an immediate conversion to the
quietest aircraft and a cap on the number of tour operators at well
below the 1987 level.
The Sierra Club, Grand Canyon Chapter (76), states that the
detectability level (D'L) for defining natural quiet should be less than
5, rather than 17, which is used by NPS. The higher criterion shows an
unrealistic prevalence of natural quiet. Furthermore, the definition of
"substantial restoration of natural quiet" is flawed. A more
appropriate definition would require natural quiet all of the time in
most of the park, and would require natural quiet most of the day in the
rest of the park. Congress mandated action to restore natural quiet and
to reduce negative impact from aircraft. The FAA and NPS policy of
ignoring the effects of all aircraft except tour aircraft is
inappropriate.
HAI (63) states that banning some aircraft is not necessary to achieve
"restoration of natural quiet" in GCNP, even when natural quiet is
measured in the terms used by the NPS. HAI points out that the FAA's
Draft Environmental Assessment (DEA), which accompanied the December
1996 NPRM, states that natural quiet at GCNP is within 1% of the NPS's
goals without the imposition of any aircraft ban. HAI also believes
that, in estimating aircraft operational and performance data, the FAA
used inaccurate data and incorrect assumptions, thereby substantially
overestimating the sound generated by the aircraft used in tour
operations at GCNP. HAI further states that the FAA substantially
underestimated the degree to which natural quiet has been restored under
SFAR 50-2, and that, if the impact of aircraft overflight sound is
measured in terms of visitor experience at GCNP, the data demonstrate
that natural quiet has been restored to the Park. HAI believes that the
FAA's aircraft sound prediction model substantially underestimates
ground attenuation effects and that FAA estimates of ambient sound at
GCNP are unrealistically low.
Bell Helicopter Textron (91) states that the ambient noise projections
assigned to different areas of the Park are unrealistically low. This
has the resultant effect of greatly overstating how long the aircraft's
sound is detectable. Equally as damaging as this unrealistic projection
is the assumption that there is no lateral attenuation of aircraft sound
in the Grand Canyon. Such false assumptions understate the substantial
restoration of natural quiet that currently exists in the GCNP.
Clark County (62) comments that the FAA has provided no adequate basis
to demonstrate the reasonableness of the defined "natural quiet" goal.
Further, the FAA's "time audible" metric does not reasonably measure
natural quiet. Clark County also states that the models used to
estimate aircraft audibility have not been adequately explained and may
overstate the extent to which aircraft can be heard.
FAA Response:
Since the issuance of the 1996 NPRM, the NPS published a public notice
of agency policy (64 FR 3969) titled Evaluation Methodology for Air Tour
Operations Over Grand Canyon National Park. The policy refined the
NPS’ noise evaluation (i.e., impact assessment) methodology for air
tour operations over GCNP. Specifically, the refinements included a
two-zone system for assessing impacts related to substantial restoration
of natural quiet at GCNP.
The ongoing noise model validation effort is also part of the FAA and
NPS commitment to work cooperatively to meet the mandated goal of a
substantial restoration of natural quiet in GCNP. The noise modeling
used in all of the GCNP environmental documents to date, remains is the
best science currently available. However, as noise modeling is a
constantly evolving technology, both agencies are committed to making
appropriate adjustments to the approaches and methodologies as new
knowledge or science becomes available.
With regard to the ambient noise database and the lateral attenuation
calculation, the GCNP aircraft noise model validation project will
address these facets. All existing evidence, including field
measurements, support both the choice of an ambient noise level data
file for the Park and the decision to suppress INM's lateral attenuation
algorithm for GCNP noise modeling.
3. Native American Tribal Concerns
The Hualapai Tribe (52) states that it supports the use of quiet
technology and generally supports the NPRM with the following
exceptions: (1) the FAA has failed to consult with the Hualapai Tribe
on a government-to-government basis as required by federal law, (2) the
multiple rulemakings published by the FAA on the GCNP make the comment
process more cumbersome, more expensive and obscures the cumulative
impact of the respective parts of the rulemakings, (3) there has been a
double standard with respect to testing noise impact since no
on-the-ground noise testing and modeling has been undertaken with
respect to the Hualapai Reservation, in collaboration with the Tribe,
(4) the FAA needs to look at alternatives to quiet technology such as
location of air tour routes and caps, (5) there need to be "Tribal
Flight Free Zones" to protect cultural resources and practices, natural
resources, and tourism industry, as well as limitations on the number of
NPS flights over the Hualapai Reservation, (6) the FAA should delegate
to, or share with, the Hualapai Tribe oversight authority to make sure
that the quiet technology rules are being complied with over the
Reservation, and (7) there needs to be an exemption from quiet
technology requirements for tribal administrative flights, analogous to
the NPS exemption, to avoid burdening the Tribe's sovereign authority to
run its own government and administer its lands.
FAA Response:
The FAA has been consulting with the Hualapai in accordance with the
provisions of the President's April 24, 1994, memorandum on
Government-to-Government Consultation with Native American Tribes and
Section 106 of the NHPA. The FAA has had numerous meetings with
representatives of the tribe’s natural resources and cultural
resources agencies since 1996. Additionally, the Hualapai have been
part of the FAA and the NPS ongoing discussions with the other
individual tribes. The Hualapai have also commented on several issues
that have been addressed in previous rulemaking and were a cooperating
agency on the February 2000 Final Supplemental Environmental Assessment.
Concerning the flight-free zones over the Hualapai Reservation, although
the Overflights Act does not expressly prohibit creation of flight free
zones over the reservation, the Congress instructed the FAA to accept
the recommendations of the NPS for substantially restoring natural quiet
in the GCNP, unless safety was at issue. Moreover, with few exceptions,
the general policy of the United States is that the skies should be
generally open to aviation. Further, the routes over the Hualapai have
developed under this general policy of open skies since the 1920s. The
FAA began to document the de facto routes and established an SFAR in
1987. In light of the broad Federal policy favoring open skies, the
FAA does not intend to create broad flight-free zones over the Hualapai
reservation. Rather, the FAA can reduce effects of air tour operations
through a number of other means, including but not limited to the
introduction of quiet technology, the alignment and altitude of routes,
and the number and time of operations. The FAA removed the National
Canyon route from the routes notice consideration, in July 1998, in
response to comments.
In accordance with Section 106 of the NHPA, the FAA issued a
Determination of No Adverse Effect to the Traditional Cultural
Properties (TCPs) for all of the tribes and/or nations, except the
Hualapai Tribe, for the rulemaking actions associated with the SFRA in
the vicinity of the GCNP. As to the Hualapai Tribe, the FAA along with
the National Park ServiceNPS, the Advisory Council on Historic
Preservation, the Hualapai THPO, and the Hualapai Department of Cultural
Resources signed a Programmatic Agreement on January 24, 2000 related to
Section 106 compliance and their TCPs. Concerning the flight-free zones
over the Hualapai Reservation, with few exceptions, the general policy
of the United States is that the skies should be generally open to
aviation. The FAA removed the National Canyon route from the routes
notice consideration, in July 1998, in response to comments.
In response to the request for an exemption to conduct administrative
flights, the FAA reiterates that this and other rulemakings and affect
only flights satisfying the definition of a commercial air tour
operation contained in 14 CFR §93.303. Moreover, this rule does not
phase-out aircraft that do not meet the designation as quiet technology.
The FAA encourages the Hualapai, and other government agencies that use
public aircraft, to use quiet technology.
4. Classification of Aircraft by Noise Characteristics
A number of commenters address the issues related to classification
based on aircraft certification, as well as the 3 categories of aircraft
classification.
Lake Mead Air (26, 53) believes that the standard for quiet aircraft
should not be linked to the Aircraft Noise Certification provisions
prescribed in 14 CFR part 36, and listed in AC 36-1F, since it is
possible for aircraft to be reconfigured and flown differently than AC
36-1F. The FAA should make sound measuring equipment available at Las
Vegas and Grand Canyon for determining actual flyover sound levels in
the tour "cruise configuration." If Category A aircraft can be
retrofitted to Category B it should be encouraged since such a
conversion would be more easily implemented than direct conversion to
Category C.
Clark County Department of Aviation and the Las Vegas Convention and
Visitors Authority (Clark County) (62) states that the NPRM will
unreasonably and arbitrarily burden air tour operators and the Las Vegas
tourist economy. However if the FAA based its categorization of
aircraft on noise performance, rather than on certification, and
provided options for compliance flexibility, there would be
significantly less burden on tour operators, airborne visitors, and the
economy of the Las Vegas area. Clark County states that it conducted a
study of actual ambient and aircraft noise in GCNP in an attempt to
validate FAA's methodology and found that using certification data, as a
basis does not accurately represent aircraft noise levels in the GCNP,
because it does not account for actual atmospheric and operational
conditions in the GCNP. As a result, the FAA has placed aircraft in the
noisier A or B Categories that should belong in the B or C Categories.
Clark County states that the NPRM provides no means for operators to
comply with the performance standards through the use of retrofitted
equipment, quiet operating procedures, or other enforceable steps to
reduce noise. This is at odds with the Federal government's increasing
attempt to use performance standards and provide compliance flexibility
to reduce regulatory burden.
An airline transport pilot (40) states that the noise propagation of a
propeller driven airplane is largely dependent on the design and speed
of its propeller. Design and speed are responsible for a greater share
of the decibel level discernible in the hearing range than exhaust
output, wing shape, loading of the airplane, cowl and airframe
vibration, or accessory operation (e.g., flap extension, gear drag and
parasitic friction). Since the design and speed factors affect all
aircraft operating in the Grand Canyon a simple change, for example,
operating a Cessna 207 at 2300 RPM instead of 2400 or 2500 RPM, can
affect whether an aircraft should be placed in one category or another,
if the categories are defined by noise values.
Lake Mead Air (26, 53) states that the decibel range for quiet Category
C helicopters starts at 80dB whereas the fixed wing threshold is 69dB.
If 80 dB meets Category C standards for helicopters it should also meet
Category C standards for fixed wing.
Eagle (54) states that its F27 aircraft would not be covered under the
NPRM. Size (48 passenger), noise tests, and decibel adjustments do not
take the F27 into consideration.
Professional Helicopter Pilots Association (85) states that the
existence of aircraft capable of achieving the lower sound levels is
still in the developmental stage such that only one manufacturer has any
such helicopters available which have the performance capability for air
tour operations. As a result the NPRM is premature and should not be
implemented until technology improves.
The Grand Canyon River Guides (GCRG) (50) state that helicopters, which
are generally accepted to be the most obnoxious of aircraft and carry
fewer people, should not fall into Category B, but should be put into
Category A.
Twin Otter (45) states that it is appropriate to take into account both
the flyover sound level and aircraft passenger seating capacity in
establishing which models qualify as Category C aircraft because a
single Vistaliner replaces two flights with the nine passenger Cessna
402/Piper Chieftain, nearly three flights in the seven passenger Cessna
207 and four flights in the 4-5 passenger Bell Jetranger.
Twin Otter adds that the Beechcraft C-99 and the Piper Chieftain could
be retrofitted with four bladed props, as have the Vistaliners, thus
converting them to Category C aircraft.
Air Vegas (57) believes that its 15 Beechcraft C-99 aircraft should be
deemed Category C since it utilizes the same basic power plant, the
PT-6, as the Caravan and the Vistaliner, and has been modified for
sightseeing operations to include extra windows. The average price for
these aircraft, configured to meet Air Vegas specifications, is in
excess of $1,300,000. These aircraft are adequately available and have
proven to be cost effective. Furthermore, the FAA studies, which placed
the Beechcraft C-99 into Category B, were based on max RPM level 2200
RPM. If the RPM is reduced to 1900 (a reduction of 14%), there is an
equal reduction of 14% in the dB level of the propeller, thus 68.2 dB.
Air Vegas operations specifications require pilots to maintain propeller
RPM at 1900 and with this power setting a Beechcraft C-99 is well below
the Category C cut off of 78 dB for a 15 passenger aircraft. Air Vegas
believes there should be an incentive for decreasing the percent of time
audible for the aircraft. Because of the higher speeds achievable by
the Beechcraft C-99, as compared to the Vistaliner, the C-99s have an
impact for less time.
Scenic Airlines (74) states that the deHavilland DHC-6-300 Twin Otter
with quiet propellers and the Cessna 208 (A & B models) must be
classified as quiet aircraft technology (Category C). Furthermore, in
developing Sound Exposure Level (SEL) dB limits, consideration must be
given to the speed of an aircraft. Since disruption of natural quiet is
measured in terms of "Time of exposure" the faster of two aircraft with
the same dB output should be shown as the quieter.
The Grand Canyon Trust (72) states that by defining the aircraft
categories in terms of sound exposure level per passenger seat, the FAA
obscures the fact that some Category C aircraft (e.g., the Vistaliner)
are noisier than some Category A or B aircraft. The Trust further
states that unless a cap is established on the number of operations
Category C can fly, ultimately there will be no advantage to conversion
to certain Category C aircraft. Therefore, the Trust's additional
comments assume that such a cap will be implemented.
Clark County (62) states that the FAA should set default noise levels
and GCNP noise categories for the aircraft operating in GCNP using
methodologies that accurately reflect conditions in GCNP and should
validate the noise levels through field-testing. If this were done,
some aircraft, such as the Beechcraft C-99 would actually meet Category
C standards.
Eagle (54), King (56), and Vision (61) state that the FAA's formulation
of the aircraft categories in the NPRM is arbitrary and capricious for
the following reasons:
(1) The FAA fails to justify its placement of the dividing line between
categories and has not consulted operators on this issue before
establishing the categories.
(2) Use of part 36 test results is not appropriate (see discussion
under "Links to aircraft noise certification").
(3) The proposed 4 decibel distinction between Category A and Category
C is inappropriate since it attempts to draw distinctions that cannot be
discerned by most humans.
(4) Distinctions between categories fail to account for the effect of
speed on aircrafts' ”noiseprint.”
(5) Tests that serve as a certification basis do not simulate actual
operating conditions.
(6) Categories discriminate against propeller driven airplanes.
(7) Proposed Category C could be met by only two types of existing
aircraft, one of which is unavailable while the other is prohibitively
expensive.
Bell Helicopter Textron (91) states that the FAA's noise analysis
incorrectly assumed that there is no lateral attenuation of aircraft
sound. The effect of this false assumption is great considering that if
the sound exposure levels attributed to aircraft were even 5 dB less,
then up to six additional aircraft would be in compliance with the
proposed Category C noise efficiency criteria.
FAA Response:
While this SNPRM drops replaces the three noise efficiency categories
proposed in the December 1996 NPRM, the currently proposed quiet
technology designation is based upon the same rationale and criteria.
The FAA criteria for “reasonably achievable” quiet technology
requirements include what is technologically practicable, economically
reasonable, appropriate to the aircraft type design, and, in the final
analysis, environmentally beneficial. The FAA also set forth the
followingthat as desired attributes for the quiet technology
designation, the designation should:
Is Be based on aircraft noise certification (14 CFR part 36)
Judges fixed- and rotary-wing aircraft on a common basis
Correlates with aircraft performance and operation at GCNP
Offers basis for incentives
Is Be manageable
Levels Noise levels obtained from aircraft noise certification represent
the highest quality of data available. The flight tests are conducted
under controlled conditions with an FAA representative or designee in
attendance to witness the test setup and test activities. Data obtained
during these flight tests are corrected to standard reference conditions
as prescribed in 14 CFR part 36. The certification tests are designed
to acquire noise levels representing the noisiest flight configurations
for small propeller-driven airplanes and helicopters. FAA believes that
this is appropriate for the GCNP situation as the certification flight
configurations are also the noisiest configurations that could be used
over the park. Thus, the sightseeing aircraft can be judged equally,
fairly, and without the concern that the noise levels are undervalued.
The airport community has many years of experience using the
certificated noise levels. FAA publishes these levels in Advisory
Circular (AC) 36-1, "Noise Levels for U.S. Certificated and Foreign
Aircraft." The current version of this AC is 36-1F1G, dated June 5,
1992August 27, 1997. These data have been used to establish use
restrictions, curfews, and noise budgets at some airports in the
country. The certificated noise levels are not only available in the
advisory circulars, which are updated and published periodically, but
the levels are readily available to the aircraft owners from the
aircraft flight manuals (AFM).
Thus tThe quiet technology designation based on certificated noise
levels is proposed not only because of the long-standing precedent, but
it also because it eliminates the need for someone to make such
measurements in the field. Years of experience with using data obtained
from airport noise monitoring systems have shown that noise levels
obtained under uncontrolled conditions are highly variable. This
problem can only be overcome by obtaining very large samples of measured
data to reduce the statistically uncertainty. Thus, FAA believes that a
quiet technology designation based on measured data taken at GCNP would
be economically unreasonable and susceptible to statistical error.
Unfortunately there is no single method applicable to all aircraft for
determining the certificated noise level. Depending on date of
application for type certificate and whether the aircraft is a
helicopter or small propeller-driven airplane, the noise level could
have been obtained from one of 4 different tests. With measurements
taken for different flight operations, at 3 different altitudes, and in
3 different units of noise, it is not possible to directly compare
certificated noise levels obtained for helicopters with those of small
propeller-driven airplanes. As reported in the study, "Methodology to
Categorize the Noise Efficiency of Air Tour Aircraft in GCNP," FAA
developed a procedure for: (1) extrapolating from the controlled
conditions of a certification test to the operating conditions at GCNP
and (2) converting levels to a common noise unit, thus making it
possible to judge fixed- and rotary-wing aircraft on a common basis
under conditions that pertain to air tour operations over GCNP. As a
result of the study, FAA found that it is possible to extrapolate from
the certification conditions applicable to helicopters and small
propeller-driven airplanes to produce a consistent set of noise levels
under conditions similar to those at GCNP.
FAA finds that the noise efficiency concept, which was proposed in the
December 1996 NPRM and re-proposed in this SNPRM, albeit modified to
designate quiet technology, exhibits all of the desired attributes for
the quiet technology designation. The concept is technically sound as
it takes into account aircraft design, flight configuration, acoustic
characteristics, productivity, and economic reasonableness. As the
concept is based upon the certificated noise levels, the FAA is able to
judge the noise of the commercial sightseeing aircraft consistently,
fairly, and without the additional cost and technical problems found in
field monitoring. In concert with related actions with respect to the
airspace and air tour operations, the quiet technology designation can
be an effective means toward achieve the substantially restoration
restoringof natural quiet at GCNP.
5. Phase-Out of Less Noise Efficient Aircraft
A number of commenters addressed the proposal to phase-out noisier
aircraft to further reduce noise impacts in GCNP. As described in the
1996 NPRM, the less noise efficient aircraft would have been gradually
phased-out starting in the year 2000 with the phase-out of Category A
aircraft and continuing through to the end of 2008 at which point all
Category B aircraft would be phased-out and only Category C aircraft
would remain. The phase-out would have limited future use of less noise
efficient aircraft in GCNP and would also have provided an incentive for
the use of the most noise efficient aircraft.
Air Vegas (57) believes that from a business perspective there is no
reason for an interim conversion from Category A to Category B aircraft.
Air Vegas supports the alternative proposal that the upgrade to
Category C should be the only choice for either new entrants or existing
operators.
Air Vegas supports the use of incentives to encourage operators to
invest in the best available aircraft to reduce aircraft noise intrusion
and the number of flights in GCNP. For the incentives to be of benefit
they must be available to any operator who wishes to invest in the
available technology. The only two aircraft identified as quiet are the
Vistaliner and the Cessna Caravan. By exclusive leasing contract the
Vistaliners are not available to any operators in the southwest area
other than Scenic and Grand Canyon Airlines. The Cessna Caravan, a 9
seat aircraft, is not economically practicable since it costs in excess
of $1,000,000 when other 9 passenger aircraft sell for less than
$100,000.
Lake Mead Air (26, 53) states that the availability of used single
engine Category C aircraft is rare. The only other aircraft listed as
fixed wing is the Raisback Conversion deHavilland Twin Otter, and the
supply is limited and the fleet is aged.
Lake Mead Air says that conversion from Category A to Category B is
less burdensome than direct conversion to Category C. It is possible
that simply changing propellers will convert Category A to Category B.
Conversion of three Cessna 207 aircraft ($180,000 for 18-21 seats -
i.e., $10,000/seat) to two Cessna 208 Caravans ($2.4 million for 18
seats - i.e., $133,000/seat), for a net reduction of 5 dB, is not
sensible or cost effective. Lake Mead Air (26, 53) believes that there
will be no noise-reduction effect of conversion to quiet aircraft.
Lake Mead Air adds that for operators to pay the debt service on
"quieter aircraft" they may be forced to make more flights per day.
Lake Mead points out that the Cessna T207, which seats 8 passengers,
generates the same decibels as the Vistaliner, which seats 19. The
Vistaliner is deemed a noise efficient aircraft according to the NPRM
based on the noise per seat accounting. However, to pay for the
Vistaliners the operators must make up to 5 or 6 round trip flights per
day.
Papillon (55) states that conversion from Category A to Category B is
less burdensome since at the present time there is limited availability
of Category C aircraft. With regard to helicopters the cost is higher
by approximately 20-30% for new Category C aircraft as compared with
purchasing Category B aircraft. With used Category B helicopters
available the cost to convert to a new Category C aircraft is
approximately 125% higher compared to purchasing a used Category B.
This commenter says that there are presently no used Category C aircraft
available for the helicopter industry.
Papillon states that in some cases it would be sound business practice
to go directly from Category A to Category C to spread the acquisition
costs over more years. The direct conversion from Category A to
Category C would accelerate the transition to greater quiet, since the
Category A aircraft have the loudest sound signature, however it would
prove to be a significant economic hardship on some operators and an
impossibility for others.
Papillon states that, once operators do acquire Category C aircraft, no
cap should apply, and they should be permitted to increase the number of
Category C aircraft in their fleet until such time as further expansion
would endanger aviation safety. However, quiet technology would not
stop here since through further advancement in technology there is the
prospect of Category D and beyond.
Eagle (54), King (56), and Vision (61) state that the NPRM
unnecessarily discourages the transfer of aircraft between operators or
other business combinations among air tour operators.
Eagle states that the existence of new part 119 may make it most
efficient for an operator to split its operations between companies
based on aircraft size (e.g., > 9 passengers).
GAMA (64) objects to the proposal because it will force the near term
phase-out of 75% or more of the airplanes currently operating in the
vicinity of GCNP. GAMA cites a NASA statement that a quantum leap in
technology is required to produce any measurable future noise reduction
and states that FAA is aware that it will be years before the necessary
research and development is completed and industry can begin to apply
new noise reduction technologies that will make measurable improvement
over today's technology.
Scenic Airlines (74) agrees with the FAA recommendation that new
entrant operators be required to use Category C aircraft. However,
current operators of Category A aircraft should not be forced to convert
directly to Category C aircraft. They should be allowed to convert from
Category A to Category B to Category C. Furthermore, operators should
only be permitted to convert from Category A to Category B aircraft if
the aircraft can be used for a minimum of five years, otherwise the
transition should be directly to Category C.
GCRG (50) states that it would hasten the reduction of noise in the
GCNP if operators were required to convert from Category A directly to
Category C. New entrants should not be allowed to start operations even
with Category C aircraft. They should be required to buy existing
operations only. Furthermore, the GCRG state that the temporary cap on
growth of the air tour industry should not be removed for Category C
aircraft, as this would negate the intended gains made by the conversion
to quieter aircraft. Category C aircraft are not quiet. Any changes in
the cap should be stayed until the comprehensive noise management plan
is completed.
The Grand Canyon Trust (72) states that if the FAA decides to allow
Category B replacements, the FAA must, at a minimum, "retain its
proposal to phase-out an increment of 25 percent of Category B aircraft
every two years from 2002 to 2008...."
The National Parks Conservation Association (NPCA) (65) believes
strongly that tour operators should be required to convert Category A
aircraft directly to Category C aircraft, rather than allowing the
interim substitution of Category B aircraft, because the FAA must do
whatever is necessary and safe to restore natural quiet.
However, NPCA believes that the conversion to Category C aircraft may
constitute little or no progress toward reducing noise in the Grand
Canyon because, contrary to the premise of the NPRM, some Category C
aircraft, such as the Vistaliner, are in fact no more quiet than many
Category A or B aircraft. NPCA states that the FAA obscures this point
by defining the categories in terms of sound exposure per passenger
seat. To the ground visitor whose visit is disrupted by overflight
noise, the number of passengers a plane is carrying is irrelevant; it is
the absolute amount of noise generated by each flight and the number of
flights that matters.
The Sierra Club, Grand Canyon Chapter (76), recommends that the
transition to quieter aircraft should be accomplished in five years.
FAA Response:
This SNPRM only proposes to define quiet aircraft technology
designation. The quiet technology designation is predicated on the
notion that the use of larger, relatively quieter aircraft (on a per
seat basis) is helpful in reaching the goal of substantial restoration
of natural quiet through a combination of reduction of noise at the
source and reduction in number of tour operations necessary to meet
demand. Under the provisions of Section 804 of the Air Tour Act, all
incentives to replace current aircraft with those satisfying the
definition must be recommended by the NPOAG. Thus, all proposals to
encourage the transition to quiet technology will be addressed in
subsequent FAA rulemaking in consultation with the NPS and the NPOAG.
Upon promulgation of a quiet aircraft technology designation for GCNP,
the FAA, in consultation with the NPS and the NPOAG, will address the
implementation of quiet technology in the Park. A phaseout is one of
the options that will be addressed.
As described in the section “Environmental Review,” the FAA has done
some preliminary calculations and found that almost 58% of the park area
would achieve substantial restoration of natural quiet on an average
annual day if all the air tour operations met the quiet technology
designation. This compares to 44% substantial restoration level
calculated in the final supplemental environmental assessment (SEA)
accompanying the final rules issued on April 4, 2000 (65 FR 17708 and
65 FR 17736). The 58% estimate assumes that the current non-quiet
technology in the Grand Canyon air tour fleet would be replaced
one-for-one with quiet technology aircraft. Any judgment on this
initial finding must be tempered with the knowledge that the ongoing
model validation effort could reveal the need to re-calibrate the noise
model if it is over representing the amount of substantial restoration
achieved.
The assumption of an airplane-for-airplane replacement, used in the
above analysis, will need to be addressed in any implementation of the
quiet technology designation. The quiet technology designation is
predicated on the notion that the use of larger, relatively quieter
aircraft (on a per seat basis) achieves the goal of substantial
restoration of natural quiet through a combination of reduction of noise
at the source and reduction in number of tour operations necessary to
meet demand. Thus, any implementation of the quiet technology
designation should include a mechanism to achieve the two-fold benefit
described in the previous sentence. The assumption of the average
annual day, also used in the above analysis, has been the subject of
continuing debate and will require further consideration when it comes
time to assess the rulemaking proposal. The NPS and some commenters to
the earlier GCNP environmental assessments have expressed concerns that
the average annual day is not the most appropriate measure to assess
aircraft noise impact on the Park. With the highly seasonal use
patterns in GCNP, some parties believe substantial restoration of
natural quiet should be present any day of the year, thus peak day
rather than average annual day is the more appropriate measure.
6. Removal of Temporary Cap
A number of commenters addressed the proposal to remove the cap on air
tour aircraft for all Category C aircraft. This change was proposed as
an incentive for conversion to noise efficient aircraft.
NPCA (65) believes that the cap on the number of tour aircraft should
not be lifted and that operators should be allowed only a one-to-one
replacement of Category A with Category C aircraft. Further, to be
effective in restoring natural quiet, the cap must be imposed on tour
flights, rather than on the number of tour aircraft; otherwise,
operators will conduct more flights and extend the tour season, thereby
destroying the natural quiet throughout the year. Finally, to restore
natural quiet to the 1987 level, the number of operations should be
reduced. By using Category C aircraft that carry more passengers, it
would be possible to reduce the number of operations, while still
increasing the number of passengers.
The Havasupai Tribe (71) opposes the proposal to lift the cap on
Category C aircraft. Lifting the cap would only permit more aircraft to
fly over the Reservation. According to the Tribe, "the largest
operators at the Grand Canyon have either converted to quiet technology
or are in the process of converting" and thus lifting the cap in the
future would not create an incentive since the conversion has already
begun or taken place. The air tours over the GCNP have nearly doubled
in the ten years ending in 1996 and without the temporary cap on all
aircraft it will only continue to grow. Not only will the noise impact,
but also the visual impact, on the reservation will be greater without
the cap. The Tribe agrees with the statement in the DEA that "the
visual impact of air traffic on the scenic vistas of GCNP and over
cultural areas, including sacred sites and historic sites, in the GCNP
and surrounding lands is of concern."
Grand Canyon Trust (72) states that the cap on the number of aircraft
should not be lifted. At most, operators should be allowed a one-to-one
replacement of Category A with Category C aircraft. Since Category C
aircraft are not necessarily quieter than the aircraft they are
replacing (noise efficiency is a function of per seat and not per
aircraft) operators should not be allowed a greater number of Category C
aircraft than the number of "noisier aircraft" they are replacing.
Furthermore, any caps must be applied to the number of flights and not
the number of aircraft.
The Sierra Club, Angeles Chapter (38, 75) opposes the proposal to lift
the caps on Category C aircraft. The Sierra Club believes that at a
minimum the cap on fleet size should remain in effect until the
completion of the comprehensive noise management plan, however, it would
be more appropriate to apply the cap to the number of flights, rather
than the number of aircraft. Along with the proposed caps the Sierra
Club supports the curfews and recommends that additional curfews be
proposed to create flight-free season(s) or period(s).
The Sierra Club, Grand Canyon Chapter (76), recommends a permanent cap
on the number of all air tour flights. There is no reason to allow one
interest--the air tour industry--continued growth while all other
activities have reasonable limits. Initially the number of operations
should be capped at the 1996 level. By 2008 the number of operations
should be reduced to the level of 1987, and by 2018 they should be
reduced to the number of operations prevailing in 1975.
Scenic Airlines (74) agrees with the proposal to remove the cap on
Category C aircraft. The comprehensive noise management plan should
address any future restrictions on number of aircraft.
FAA Response:
Since the 1996 NPRM, the FAA has issued a final rule that replaced the
cap on the number of air tour aircraft with a capan operations
limitation on the annual number of commercial air tour operations in the
GCNP SFRA (65 FR 17708). As documented in the February 2000 Final SEA
accompanying the commercial air tour limitation final rule, only 44% of
the Park (on an annual average day) achieves substantial restoration of
natural quiet upon implementation of the air tour limitations and
changes to routes and airspace adopted in April 2000. The FAA has
evaluated whether the designation of quiet technology requirements,
contained in this SNPRM, will enable the FAA to relieve commercial air
tour operators from the present commercial air tour operations
limitations. More specifically, the FAA conducted studies to determine
the extent to which use of quiet technology aircraft could possibly
enable air tour operators to increase operations without increasing
cumulative noise levels at Grand Canyon National ParkGCNP pursuant to
section 804 of the Air Tour Act.
The FAA test was conducted by assessing the sensitivity of the
25% TA12hr contour to increases in quiet technology aircraft operations
using the GCINM. The 25% TA12hr contour has been the measure used in
the environmental assessments associated with all GCNP SFRA rulemaking
to assess progress towards the goal of substantial restoration of
natural quiet. The particular GCNP air tour scenario chosen for this
test was the preferred alternative of the February 2000 Ffinal SEA that
accompanied the April 2000 final rules (65 FR 17708 and
65 FR 17736). Two separate runs of the GCINM were performed; fixed
wing aircraft operations on Zuni Reverse and helicopter operations on
the Green 1 loop. The analysis found that adding less than 4 annual
fixed wing operations or 3 annual helicopter operations would increase
the 25% TA12hr contour area by 0.01 sq. mi. FAA chose a hundredth of a
square mile as the threshold of significance because contour areas in
the GCNP EA documents have been reported to that significant digit.
The above result supports the FAA’s preliminary finding that operators
using aircraft that meet the quiet technology designation operating
without operations limitation will likely cumulatively increase noise in
the GCNP. not enable Given that a condition of relief from the
operations limitation is that the cumulative impact of such operations
does not increase noise at GCNP, the FAA would likely be unable to
relieve these operators from the commercial air tour operations
limitations. This analysis suggests that the operational cap can only
be lifted through a mechanism in which an air tour operator replaces a
current fleet not meeting the quiet technology designation with quiet
technology aircraft by some replacement ratio that reduces aircraft
noise exposure towards the goal. That is, the reduction in noise gained
through the conversion to quiet technology aircraft might allow for a
limited number of additional operations of the quiet technology aircraft
should this reduction exceed the amount needed to reach the goal of
substantial restoration of natural quiet. Such a mechanism must ensure
fair and equitable treatment of current and future operators under the
condition that the cumulative effect of any change in the operations
must not increase noise in the Park. Thus, rRemoval of the operational
operations limitation will be addressed in subsequent FAA rulemaking in
consultation with the NPS and the NPOAG as directed by the Air Tour Act.
7. Other or Alternative Incentives
A number of commenters responded to the FAA's request for comments
regarding alternative or additional incentives for operators to convert
to noise efficient technology.
Lake Mead Air (26, 53) states that with the conversion to "quieter
aircraft" several companies will not be able to meet the standard and
will sell or close. Other incentives for quiet aircraft technology
should be considered such as tax credits or subsidies, for example the
FAA could pay the air tour operators not to fly Category A aircraft,
similar to soil banks. Furthermore, more noise efficient aircraft
should be phased phased-in rather than phasing phasing-out the less
noise efficient aircraft.
Twin Otter (45) states that it is an oversight that the FAA has not
provided for a quiet aircraft corridor in the eastern section of the
canyon. Twin Otter then comments on routes proposed in 1996 that are no
longer part of this rulemaking.
Twin Otter recommends the following additional incentives for Category
C aircraft: (1) lift the aircraft cap immediately on the number of
Category C aircraft that may be operated, (2) eliminate the curfew for
Category C aircraft, and if this is not possible, then permit Category C
aircraft to operate one hour before and one hour later than curfew hours
for conventional aircraft (official sunrise at GCNP is two hours earlier
than the curfew permits for most of the summer), (3) roll back the
overflights fee for Category C aircraft as an additional incentive, and
(4) require helicopters to fly at the highest possible altitude in the
Zuni Corridor so that fixed wing aircraft can conduct tours at a lower
altitude and establish the lowest fixed wing tours in the Zuni for
Category C qualifying aircraft.
Grand Canyon Airlines (GCA) (46) supports the concept of the proposed
amendment to part 93. GCA also believes that the FAA needs to provide
quiet aircraft incentive routes in the eastern region. Category B
helicopters are permitted to operate at the lowest possible altitude in
the eastern region and they are even encouraged to fly in the most
sensitive Dragon Corridor with the lowest altitudes and shortest direct
routes. This makes the fixed wing Category C air tours less attractive
than the noisier Category B helicopters in this region. To correct this
disparity the Category C aircraft should be given the lowest possible
routes in the eastern region. GCA makes the following recommendations:
(1) provide a Category C incentive route over the existing Black 1
route, (2) minimize advantages to Category B helicopter routes by
creating new Category C routes that provide superior tour features, (3)
waive overflight fees to Category C aircraft, and (4) eliminate caps and
curfews on Category C aircraft.
Papillon (55) also supports the time frame for transition to quiet
technology and the guidelines for qualifying aircraft as quiet
technology, but recommends 35 dB as the threshold of substantial natural
quiet for the GCNP. Further incentives for quiet technology should be
implemented for Category C aircraft only: (1) eliminate the GCNP
overflight fee, (2) create route across the North Rim (through the
Bright Angel Flight-free Zone), (3) permit Category C aircraft to use
alternate routes that may enter flight-free zones to show specific
landmarks, (4) establish new curfews of one hour after sunrise and one
hour before sunset, and (5) restore the two-way helicopter loop in the
Zuni Corridor.
An individual commenter (68) states that more incentives need to be
utilized to help air tour operators convert to quiet technology. This
commenter suggests the following incentives: (1) waiving overflight
fees and park admission fees for passengers, (2) offering and approving
low-cost government loans and tax credits, and (3) establishing new
quality view corridors through which only Category C aircraft could fly
at lower altitudes.
Scenic Airlines (74) states that while 75% of the passengers it flew in
1996 were flown in Category C aircraft about one half of its air tour
fleet are Category A aircraft. While Scenic would like to convert these
Category A to Category C it must be provided with incentives, in the
form of privileges that operators and passengers can value, before it
would voluntarily do so. Operators have only invested in Category C
aircraft in the past based on the promise by the NPS that they will be
rewarded in the future. If no such rewards materialize there will be a
disincentive to convert to Category Cs in the future.
Scenic states that the following Category C incentives should be
provided: (1) a route through the northern portion of the expanded
Bright Angel Flight-free Zone using the existing Black 1A and Green 1A
(SFAR 50-2), (2) a route along the current Brown 3 (SFAR 50-2) departure
which goes through the north-west corner of the Toroweap Flight-free
Zone, (3) waiver of curfews in Dragon and Zuni corridors to extend the
hours of operation to Daylight hours, (4) waiver of overflight fees, (5)
investment tax credits, and (6) low cost government loans.
AirStar Helicopters, Inc. (84) states that the following incentives for
transition to noise efficient aircraft should be considered: low cost
loans, overflight fee rebates or investment tax credits. AirStar also
states that it has already begun the transition to quiet technology.
The Grand Canyon Trust (72) proposes the use of Dragon and Zuni
Corridors as quiet aircraft incentives routes for Category C aircraft
only.
FAA Response:
This SNPRM only proposes to define quiet aircraft technology
designation. Under the provisions of Section 804 of the Air Tour Act,
all incentives to replace current aircraft with those satisfying the
definition must be recommended by the NPOAG. Thus, all proposals to
encourage the transition to quiet technology will be addressed in
subsequent FAA rulemaking in consultation with the NPS and the NPOAG.
Under the conditions established in Section 804, the NPOAG will provide
advice and recommendations on, among other things, the establishments of
routes and corridors for the operation of quiet technology aircraft for
tours originating in Clark County, Nevada and for “local loop” tours
originating at the GCNP Airport in Tusayan, Arizona.
8. Draft Environmental Assessment (DEA)
Some commenters addressed their concerns regarding the draft
environmental assessment that accompanied the December 1996 NPRM. For
example, several commenters raise concern over compliance with NEPA and
the NHPA. The Hualapai Tribe (35) states that the DOT must assess
socio-cultural impacts of the regulation under NEPA and potential
impacts to integrity of cultural resources under NHPA.
Region IX of the U.S. Environmental Protection Agency (EPA) (70)
encourages the FAA and NPS to undertake all reasonable efforts to ensure
that environmental concerns expressed by the Native American tribes
potentially affected by the proposed action are fully reflected in the
Final Environmental Assessment (FEA). The EPA also criticizes the FAA
for considering only two alternatives in the DEA -- no action and the
proposed action. The EPA believes that, in terms of substantially
restoring natural quiet of GCNP, an earlier phase-out date for Category
A and B aircraft would be a more environmentally preferable alternative
that the FAA should consider in the FEA.
The Havasupai Tribe (71) states that the conclusions of the DEA are
either disingenuously misleading or false. While the Reservation is
within the SFRA, the Reservation is deleted from the analysis area
depicted in the DEA. Therefore the conclusion about "substantial
improvement" and "continued improvement" in natural quiet do not apply
to the Reservation or to the entire SFRA.
The Havasupai Tribe states that the DEA is inadequate and grossly
deficient under NEPA and should be rewritten and distributed again for
public comment. Furthermore, with respect to the proposal to lift the
temporary cap on Category C aircraft the DEA does not discuss whether
more noise would be created by one overflight of a Category A aircraft,
as compared with 3, 5, or 10 overflights of Category C aircraft.
According to the Tribe, an impact statement must "set forth sufficient
information for the general public to make an informed evaluation, . . .
and for the decision-maker to 'consider fully the environmental factors
involved and to make a reasoned decision after balancing the risks of
harm to the environment against the benefits to be derived from the
proposed action.'"
Clark County (62) comments that the DEA narrowly construes the purpose
and need of this rulemaking to include only the reduction of aircraft
noise and improperly ignores the important Congressional goals of
ensuring the value of air tours and the safety of aircraft in GCNP.
Also, despite correctly identifying its duty to rigorously review
alternatives, the FAA failed to comply by limiting its review to only
two alternatives. The FAA should also have considered alterations in
the flight-free zones or tour routes, the use of retrofit equipment to
meet the quiet aircraft standards, the use of limitations on aircraft
operating parameters to reduce noise, the use of lower altitudes, or
other steps to minimize non-natural noise in GCNP.
The American Helicopter Society (AHS) Acoustics Technical Committee
(48) comments that current FAA modeling has demonstrated that the No
Action Alternative has effectively achieved the goal of restoration of
the natural quiet because the results show a deficiency of less than 1
percent, a statistically insignificant amount. Further, the goal would
be reached by the year 2000 with the elimination of all Category A
aircraft alone, so phase-outs of Category B aircraft are not needed.
AHS suggests alternatives that the FAA should consider, such as careful
scheduling of air tour flights to achieve overlapping audibility or
allowing helicopters to fly below the rim and take advantage of the
acoustic shielding provided by canyon features.
The Grand Canyon Air Tour Council (Council) (77) states that it is
difficult to comment on the DEA for the following reasons:
(1) The FAA has not yet determined whether a finding of no significant
impact will be issued or an environmental impact statement will be
required.
(2) The comprehensive noise management plan is yet to be developed.
(3) Meanings of "natural quiet" and "substantial restoration of the
natural quiet" have not been resolved.
(4) Full consultation with tribal governments cannot have occurred
since at least one tribe has initiated legal proceedings.
FAA Response:
In accordance with FAA Order 1050.1D, the FAA has determined that this
proposed rulemaking is categorically excluded from environmental review
under section 102(2)(C) of the National Environmental Policy Act of 1969
(NEPA). The proposed rule is categorically excluded under FAA Order
1050.1D, Appendix 4, Paragraph 4.j, which covers regulations
“excluding those which if implemented may cause a significant impact
on the human environment.” Unlike the DEA completed with the 1996
NPRM, this proposed rulemaking simply establishes quiet technology
designations for air tour aircraft operating in GCNP. It does not
impose a phaseout or any alteration of any air tour operator’s fleet
of aircraft. In addition, the proposed rulemaking does not lift the
operations limitation, alter any flight corridors through the Park, or
make any change to the SFRA. Finally, the FAA notes that this proposed
rulemaking alone has no impact on substantial restoration of natural
quiet at GCNP and environmental and economic impacts will depend upon
other future incentives yet to be defined. Accordingly, this proposed
rulemaking will not individually or cumulatively have a significant
effect on the human environment.
The FAA has determined that the action proposed in this SNPRM does not
require environmental assessment. The FAA has determined that this
proposal does not instigate any adverse environmental effects, which
would require the preparation an environmental assessment (EA) for this
rulemaking effort to assure conformance with NEPA. As directed by the
Air Tour Act, this proposal does not “relieve or diminish-- (1) the
statutory mandate imposed upon the Secretary of the Interior and the
Administrator of the Federal Aviation Administration under Public Law
100-91 (16 U.S.C. 1a-1 note) to achieve the substantial restoration of
the natural quiet and experience at the Grand Canyon National Park.”
The reasoning behind the FAA determination include:
The proposal simply establishes quiet technology designations for air
tour aircraft operating in the Park. It does not impose a phaseout or
any alteration of any air tour operator’s fleet of aircraft.
The proposal does not lift the operational cap, alter any flight
corridors through the Park, or make any change to the SFRA.
ECONOMIC SUMMARY
Proposed changes to Federal regulations must undergo several economic
analyses. First, Executive Order 12866 directs that each Federal agency
shall propose or adopt a regulation only upon a reasoned determination
that the benefits of the intended regulation justify its costs. Second,
the Regulatory Flexibility Act of 1980 requires agencies to analyze the
economic impact of regulatory changes on small entities. Third, the
Trade Agreements Act (19 U.S.C. section 2531-2533) prohibits agencies
from setting standards that create unnecessary obstacles to the foreign
commerce of the United States. In developing U.S. standards, this Trade
Act requires agencies to consider international standards and, where
appropriate, that they be the basis of U.S. standards. And fourth, the
Unfunded Mandates Reform Act of 1995 requires agencies to prepare a
written assessment of the costs, benefits and other effects of proposed
or final rules that include a Federal mandate likely to result in the
expenditure by State, local or tribal governments, in the aggregate, or
by the private sector, of $100 million or more, in any one year
(adjusted for inflation.)
However, for regulations with an expected minimal impact the
above-specified analyses are not required. The Department of
Transportation Order DOT 2100.5 prescribes policies and procedures for
simplification, analysis, and review of regulations. If it is
determined that the expected impact is so minimal that the proposal does
not warrant a full Evaluation, a statement to that effect and the basis
for it is included in proposed regulation. Since this SNPRM serves only
to refine the quiet technology definition applied to air tour aircraft
operating in GCNP developed in the 1996 NPRM and removes all compliance
requirements proposed in that NPRM, the expected outcome is to have a
minimal impact.
The SNPRM retains the “noise efficiency” concept defined by the
relationship between the certificated noise level of an aircraft and the
number of passenger seats on the typical configuration of that aircraft
type as initially proposed in the 1996 NPRM. However, the three
principal rulemaking elements of 61 FR 69334 have been eliminated. The
SNPRM drops replaces the three noise efficiency categories that were
proposed in the December 1996 NPRM and proposes to temporarily continue
to rely on the designation of quiet technology aircraft, those that were
formerly described as Category C. Furthermore, the SNPRM does not
propose any phase-out of air tour aircraft that do not comply with the
Category C quiet technology designation. Nor does it include any
incentive flight corridors through the park as proposed in December
1996. Finally, as noted above, the SNPRM does not lift the cap
operations limitation on commercial air tour operations conducted in the
Park that has replaced the 1996 aircraft cap for those aircraft meeting
the Category C noise efficiency standard.
Therefore, this SNPRM is essentially a definition of quiet technology
and has negligible economic impact on the operators of GCNP air tours.
The FAA seeks public comment before moving to future FAA rulemaking in
consultation with the NPS. Future rulemaking would be coordinated with
an advisory group composed of representatives of general aviation,
commercial air tour operations, environmental concerns, and Native
American interests.
Regulatory Flexibility determination
The Regulatory Flexibility Act of 1980 (RFA) establishes “as a
principle of regulatory issuance that agencies shall endeavor,
consistent with the objective of the rule and of applicable statutes, to
fit regulatory and informational requirements to the scale of the
business, organizations, and governmental jurisdictions subject to
regulation.” To achieve that principle, the RFA requires agencies to
solicit and consider flexible regulatory proposals and to explain the
rationale for their actions. The RFA covers a wide-range of small
entities, including small businesses, not-for-profit organizations and
small governmental jurisdictions.
Agencies must perform a review to determine whether a proposed or final
rule will have a significant economic impact on a substantial number of
small entities. If the determination is that it will, the agency must
prepare a regulatory flexibility analysis as described in the RFA.
However, if an agency determines that a proposed or final rule is not
expected to have a significant economic impact on a substantial number
of small entities, section 605(b) of the RFA provides that the head of
the agency may so certify and a regulatory flexibility analysis is not
required. The certification must include a statement providing the
factual basis for this determination, and the reasoning should be clear.
This action merely defines quiet technology but does not impose any
requirements. Therefore, the FAA does not expect this rule to impose
any cost on small entities. Consequently, the FAA certifies that the
rule will not have a significant economic impact on a substantial number
of small air tour operators.
International Trade Impact Analysis
The Trade Agreement Act of 1979 prohibits Federal agencies from engaging
in any standards or related activities that create unnecessary obstacles
to the foreign commerce of the United States. Legitimate domestic
objectives, such as safety, are not considered unnecessary obstacles.
The statute also requires consideration of international standards and
where appropriate, that they be the basis for U.S. standards.
In accordance with the above statute, the FAA has assessed the potential
effect of this final rule to be minimal and therefore has determined
that this rule will not result in an impact on international trade by
companies doing business in or with the United States.
Unfunded Mandates Reform Act
The Unfunded Mandates Reform Act of 1995 (the Act), enacted as Pub. L.
104-4 on March 22, 1995, is intended, among other things, to curb the
practice of imposing unfunded Federal mandates on State, local, and
tribal governments. Title II of the Act requires each Federal agency to
prepare a written statement assessing the effects of any Federal mandate
in a proposed or final agency rule that may result in a $100 million or
more expenditure (adjusted annually for inflation) in any one year by
State, local, and tribal governments, in the aggregate, or by the
private sector; such a mandate is deemed to be a “significant
regulatory action.”
This final rule does not contain such a mandate. Therefore, the
requirements of Title II of the Unfunded Mandates Reform Act of 1995 do
not apply.
Federalism Implications
The regulations herein would not have substantial direct effects on the
states, on the relationship between the national government and the
states, or on the distribution of power and responsibilities among the
various levels of government. Therefore, in accordance with Executive
Order 12866, it is determined that this rule does not have sufficient
federalism implications to warrant the preparation of a Federalism
Assessment.
Paperwork Reduction Act
In accordance with the Paperwork Reduction Act of 1995 (Pub. L.
104-13), there are no requirements for information collection associated
with the SNPRM.
List of Subjects in 14 CFR Part 93
14 CFR Part 93
Air traffic control, Airports, Navigation (Air), Reporting and record
keeping requirements.
Adoption ofThe Amendments
AccordinglyFor reasons set forth above, the Federal Aviation
Administration amends 14 CFR part 93, in chapter I of Title 14, Code of
Federal Regulations, as follows:
PART 93--SPECIAL AIR TRAFFIC RULES AND AIRPORT TRAFFIC PATTERNS
1. The authority citation for part 93 continues to read as follows:
Authority: 49 U.S.C. 106(g), 40103, 40106, 40109, 40113, 44502, 44514,
44701, 44719, 46301.
2. Section 93.303 is revised to add the definition to read as follows:
§ 93.303 Definitions.
* * *
(d) Quiet technology aircraft means an aircraft that is subject to
§93.301 and has been shown to comply with the noise limit specified in
appendix A of this part.
* * *
3. Appendix A is added to read as follows:
Appendix A - GCNP Aircraft Quiet Technology Designation
This appendix contains procedures for determining the quiet technology
status for each aircraft subject to §93.301 determined during the noise
certification process as prescribed under part 36 of this chapter.
Where no certificated noise level is available, the Administrator may
approve an alternative measurement procedure.
1. Aircraft Noise Limit for Quiet Technology
A. For helicopters with a flyover noise level obtained in accordance
with the measurement procedures prescribed in Appendix H of 14 CFR part
36, the limit is 80 dB for helicopters having 2 or fewer passenger
seats, increasing at 3 decibels per doubling of the number of passenger
seats for helicopters having 3 or more passenger seats. The limit at
number of passenger seats of 3 or more can be calculated by the formula:
EPNL(H) = 80 +10log(# PAX seats/2) dB
B. For helicopters with a flyover noise level obtained in accordance
with the measurement procedures prescribed in Appendix J of 14 CFR part
36, the limit is 77 dB for helicopters having 2 or fewer passenger
seats, increasing at 3 decibels per doubling of the number of passenger
seats for helicopters having 3 or more passenger seats. The limit at
number of passenger seats of 3 or more can be calculated by the formula:
SEL(J) = 77 +10log(# PAX seats/2) dB
C. For propeller-driven airplanes with a measured flyover noise level
obtained in accordance with the measurement procedures prescribed in
Appendix F of 14 CFR part 36 without the performance correction defined
in Sec. F35.201(c), the limit is 69 dB for airplanes having 2 or fewer
passenger seats, increasing at 3 decibels per doubling of the number of
passenger seats for airplanes having 3 or more passenger seats. The
limit at number of passenger seats of 3 or more can be calculated by the
formula:
LAmax(F) = 69 +10log(# PAX seats/2) dB
D. In the event that a flyover noise level is not available in
accordance with Appendix F of 14 CFR part 36, the noise limit for
propeller-driven airplanes with a takeoff noise level obtained in
accordance with the measurement procedures prescribed in Appendix G is
74 dB for airplanes having 2 or fewer passenger seats, increasing at 3
decibels per doubling of the number of passenger seats for airplanes
having 3 or more passenger seats. The limit at number of passenger
seats of 3 or more can be calculated by the formula:
LAmax(G) = 74 +10log(# PAX seats/2) dB
Issued in Washington, DC on
The provisions of SFAR No. 50-2 have been extended numerous times
(62 FR 8862; 62 FR 66248; 63 FR 67544; 64 FR 5152; 65 FR 5395)
with the last extension in January 2001 (66 FR 1002).
The effective date for 14 CFR Sections 93.301, 93.305, and 93.307 was
delayed by subsequent amendments (62 FR 66248; 63 FR 67544;
64 FR 5152; 65 FR 5395; 65 FR 69846; 66 FR 1002) until finally
becoming effective on April 19, 2001.
The effective date for the airspace modification rule was delayed by
subsequent amendments (65 FR 69846; 66 FR 1002; 66 FR 16582) until
finally becoming effective on April 19, 2001.
The candidate models being validated are:
The FAA’s Integrated Noise Model, which has been modified to address
air tour aircraft noise exposure in GCNP and is referred to as the GCNP
Integrated Noise Model (GCINM).
The NPS’s National Park Service Overflight Decision Support System
(NODSS) designed and programmed specifically for park applications to
consider audibility, significant changes in terrain elevation, and
shielding due to terrain.
NOISEMAP Simulation Model (NMSIM) developed by the US Air Force and the
National Aeronautics and Space Administration (NASA) to simulate
aircraft single event noise levels.
The time above (TA) metric provides the duration that aircraft related
noise exceed specified sound threshold. For assessment of aircraft
noise in GCNP, the %TA12h represents the percentage of time aircraft are
audible during the 12-hour daytime period of primary visitor activity.
The 25 %TA12h contour (the area where aircraft are audible greater 25%
of the time) measures the extent that the criterion for substantial
restoration of natural quiet is met. When the 25 %TA12h contour for a
particular alternative occupies less than half of the area of GCNP then
that alternative has achieved substantial restoration of natural quiet
at the Park.
Sierra Club v. Army Corps of Engineers, 701 F.2d 1011, 1029 (2d Cir.
1983).
This is a working DRAFT only. It is not a final proposal, and may or
may not become a final proposal.
DRAFT 7 revised: SAVEDATE \* MERGEFORMAT 09/28/2001 7:15
AM09/26/2001 8:14 AM
PAGE 1
| faa | 2024-06-07T20:31:36.549693 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/FAA-2001-11128-0002/content.doc"
} |
FDA-1998-D-0037-0003 | Notice | 2001-10-01T04:00:00 | Content and Format for Geriatric Labeling | fda | 2024-06-07T20:31:36.938274 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/FDA-1998-D-0037-0003/content.txt"
} |
|
FDA-1999-D-1301-0001 | Notice | 2001-11-20T05:00:00 | Information Request and Discipline Review Letters Under the Prescription Drug User Fee Act | fda | 2024-06-07T20:31:36.940591 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/FDA-1999-D-1301-0001/content.txt"
} |
|
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| fda | 2024-06-07T20:31:36.972568 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/FDA-2000-N-0044-0004/content.htm"
} |
FDA-2001-N-0202-0002 | Notice | 2001-10-10T04:00:00 | Workshop on Preclinical Testing for Endovascular Grafts |
[Federal Register: July 2, 2001 (Volume 66, Number 127)]
[Notices]
[Page 34945]
From the Federal Register Online via GPO Access [wais.access.gpo.gov]
[DOCID:fr02jy01-87]
[[Page 34945]]
-----------------------------------------------------------------------
DEPARTMENT OF HEALTH AND HUMAN SERVICES
Food and Drug Administration
Workshop on Preclinical Testing for Endovascular Grafts
AGENCY: Food and Drug Administration, HHS.
ACTION: Notice of meeting.
-----------------------------------------------------------------------
This notice announces the forthcoming workshop on preclinical
testing for endovascular grafts, sponsored by the Food and Drug
Administration (FDA). The meeting will be open to the public.
Date and Time: The meeting will be held on July 31, 2001, 9 a.m. to
6 p.m., and August 1, 2001, 9 a.m. to 5 p.m.
Location: Gaithersburg Holiday Inn, Walker-Whetstone Room, Two
Montgomery Village Ave., Gaithersburg, MD.
Contact: The workshop organizers are Megan Moynahan, 301-443-8517,
ext. 171, mbm@cdrh.fda.gov, and Dorothy Abel, 301-443-8262, ext. 165,
dba@cdrh.fda.gov, Center for Devices and Radiological Health (HFZ-450),
Food and Drug Administration, 9200 Corporate Blvd., Rockville, MD
20850.
Agenda: The workshop will concern endovascular grafts used in the
treatment of abdominal aortic aneurysms. The goal of the workshop is to
find ways to improve how these grafts are tested. Participants of the
workshop will first be asked to describe the environment to which these
grafts are exposed. Then they will identify the failure modes of the
grafts and examine how the devices have been tested to date. Finally,
the participants will be asked to suggest ways to modify the testing of
these devices by taking into consideration the graft environment.
Workshop participation is by invitation only and is therefore
limited. However, the public may observe as audience members.
Background information for the workshop will be available to the public
on the Internet at http://www.fda.gov/cdrh/meetings/
073101workshop.html.
Procedure: Members of the public who are interested in attending as
audience members should contact the workshop organizers by July 13,
2001.
If you need special accommodations due to a disability, please
contact either one of the contact persons listed above at least 7 days
in advance.
Dated: June 25, 2001.
Margaret M. Dotzel,
Associate Commissioner for Policy.
[FR Doc. 01-16471 Filed 6-29-01; 8:45 am]
BILLING CODE 4160-01-S
| fda | 2024-06-07T20:31:36.995705 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/FDA-2001-N-0202-0002/content.htm"
} |
OSHA-S775A-2006-0731-0035 | Supporting & Related Material | 2001-08-31T04:00:00 | null |
Comment Info: =================
General Comment:BARFIELD GENE, ASSE; BARFIELD GENE, ASSE; BARFIELD GENE, ASSE; BARFIELD GENE, ASSE
| osha | 2024-06-07T20:31:37.532753 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/OSHA-S775A-2006-0731-0035/content.txt"
} |
USCG-1998-3798-0009 | Supporting & Related Material | 2001-03-15T05:00:00 | null |
Comment Info: =================
General Comment:
| uscg | 2024-06-07T20:31:37.713415 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/USCG-1998-3798-0009/content.txt"
} |
DOT-OST-1995-165-0004 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.031798 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-165-0004/content.doc"
} |
DOT-OST-1995-219-0020 | Notice | 2002-08-26T04:00:00 | Notice of Action Taken re: Aeromexpress, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on August 26, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1995-219
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROMEXPRESS, S.A. de C.V.
Date Filed: August 5, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct scheduled, all-cargo service between
Mexico City, Mexico, and Atlanta, Georgia.
If renewal, date and citation of last action: August 8, 2001, in this
Docket.
Applicant representative(s): William C. Evans, 202-371-6030
Responsive pleadings: None.
DISPOSITION
Action: Approved. Action
date: August 26, 2002
Effective dates of authority granted: August 26, 2002, through August
26, 2003.
Basis for approval: United States-Mexico Air Transport Services
Agreement
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Remarks:
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
_______________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.047012 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-219-0020/content.doc"
} |
DOT-OST-1995-243-0012 | Notice | 2002-09-06T04:00:00 | Notice of Action Taken re: Aeromexpress, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on September 6, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1995-243
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROMEXPRESS, S.A. de C.V.
Date Filed: August 21, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct all-cargo charter operations between
Mexico and the United States, and other all-cargo charters in accordance
with 14 CFR Part 212.
If renewal, date and citation of last action: August 28, 2001, in this
Docket.
Applicant representative(s): William C. Evans, 202-371-6030
Responsive pleadings: None.
DISPOSITION
Action: Approved. Action date:
September 6, 2002
Effective dates of authority granted: September 6, 2002, through
September 6, 2003.
Basis for approval: United States-Mexico Air Transport Services
Agreement
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Remarks:
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
_______________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.051303 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-243-0012/content.doc"
} |
DOT-OST-1995-427-0002 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.062724 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-427-0002/content.doc"
} |
DOT-OST-1995-428-0002 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.067195 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-428-0002/content.doc"
} |
DOT-OST-1995-554-0013 | Notice | 2002-05-30T04:00:00 | Notice of Action Taken re: U.S. Airways, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on May 30, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-95-554
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of US Airways, Inc. filed 5/7/2002 to:
XX Amend its exemption under 49 U.S.C. 40109 to provide the following
service:
Scheduled foreign air transportation of persons, property, and mail
between a point or points in the United States, on the one hand, and a
point or points in St. Maarten, Netherlands Antilles, and points beyond,
on the other. USAirways states that it initially plans to offer San
Juan, Puerto Rico-St. Maarten and beyond service pursuant to a
code-share agreement with Daystar Airways, Ltd. d/b/a Nevis Express.
USAirways further states that it plans to begin this service on or about
June 2002.
Applicant rep: Joel Stephen Burton (202) 383-5300 DOT Analyst:
Linda Senese (202) 366-2367
D I S P O S I T I O N
XX Granted
The above action was effective when taken: May 30, 2002, through May
30, 2004.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted is consistent with the aviation agreement
between the United States and the Netherlands Antilles.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
(See Reverse Side)
2
________________________________________________________________________
____________
On the basis of data officially noticeable under Rule 24(g) of the
Department's regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the exemption authority was consistent with the
public interest; and (3) grant of the authority would not constitute a
major regulatory action under the Energy Policy and Conservation Act of
1975. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
Attachment
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
USAirways has an existing exemption to conduct scheduled foreign air
transportation of persons, property, and mail between Charlotte, NC,
Philadelphia, PA, and Baltimore/Washington, on the one hand, and St.
Maarten, Netherlands Antilles, on the other. (See Notice of Action Taken
in this docket dated
June 8, 2001.)
We note that although Daystar Airways Ltd. d/b/a Nevis Express may
conduct the requested operations on behalf of USAirways under its
worldwide charter authority, it may not serve these points using it own
code (i.e. on a scheduled basis) until its pending application in Docket
OST-99-5062 for an amendment to its certificate for Route 786 has been
approved and an amended certificate of public convenience and necessity
has been issued.
| dot | 2024-06-07T20:31:38.074503 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-554-0013/content.doc"
} |
DOT-OST-1995-594-0004 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.081210 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-594-0004/content.doc"
} |
DOT-OST-1995-595-0008 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.086111 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-595-0008/content.doc"
} |
DOT-OST-1995-752-0010 | Notice | 2002-07-03T04:00:00 | Notice of Action Taken re: Skyservice Airlines Inc./Lignes Aeriennes Skyservice Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on July 3, 2002
NOTICE OF ACTION TAKEN – DOCKET OST-1995-752
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: SKYSERVICE AIRLINES INC./LIGNES AERIENNES SKYSERVICE INC.
Date Filed: June 6, 2001
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct charter foreign air transportation of
persons, property and mail between Canada and the United States, and
other charter operations in accordance with 14 CFR Part 212.
If renewal, date of last action: June 8, 2000; in this Docket.
Applicant representative(s): Aaron A. Goerlich and Don H. Hainbach,
202-822-9070
Responsive pleadings: None
DISPOSITION
Action: Approved.
Action date: July 3, 2002
Effective dates of authority granted: July 3, 2002, through July 3,
2004.
Basis for approval: United States-Canada Air Transport Agreement.
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions
Special conditions/Remarks:
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
_______________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such
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7
| dot | 2024-06-07T20:31:38.094990 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-752-0010/content.doc"
} |
DOT-OST-1995-758-0010 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.100769 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1995-758-0010/content.doc"
} |
DOT-OST-1996-1195-0018 | Notice | 2002-06-12T04:00:00 | Notice of Action Taken re: Servicios Aereos Regiomontanos, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 12, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1996-1195
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: SERVICIOS AEREOS REGIOMONTANOS, S.A. de C.V.
Date Filed: May 22, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
Applicant representative(s): Lee A. Bauer, 202-331-3300
Date of last action: June 5, 2001, in this Docket.
Responsive pleadings: None.
DISPOSITION
Action: Approved
Action date: June 12,
2002
Effective dates of authority granted: June 12, 2002, through June 15,
2003
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is
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| dot | 2024-06-07T20:31:38.112697 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1195-0018/content.doc"
} |
DOT-OST-1996-1196-0020 | Notice | 2002-10-21T04:00:00 | Notice of Action Taken re: Federal Express Corporation |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on October 21, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-1996-1196
_____________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Federal Express Corporation filed 9/12/02 to:
XX Renew for two years exemption under 49 U.S.C. 40109 to provide the
following service:
Scheduled foreign all-cargo air transportation between a point or points
in the United States and certain named points in Brazil, either directly
or via intermediate points, and beyond Brazil to points in Argentina,
Uruguay, Paraguay, and Chile.
Applicant rep.: M. Rush O’Keefe, Jr. 901-434-8584 DOT analyst:
Sylvia Moore, 202-366-6519
DISPOSITION
XX Granted (subject to conditions, see below)
The above action was effective when taken: October 21, 2002, through
October 21, 2004, or until 90 days after final Department action on
Federal Express’ corresponding certificate application in Docket
45985, whichever occurs earlier.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted is consistent with the aviation agreements
between the United States and Brazil, the United States and Argentina,
the United States and Uruguay, the United States and Paraguay, and the
United States and Chile.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated:
XX Holder’s certificates of public convenience and necessity
XX Standard exemption conditions (attached)
(See Reverse Side)
2
Conditions: The authority granted to serve intermediate points is
limited to countries with which the United States has signed open-skies
agreements and/or countries for which the carrier holds authority to
serve under certificates or exemptions issued by the Department, and for
which it holds route integration authority by virtue of either the
present action or other action of the Department.
On the basis of data officially noticeable under Rule 24(g) of the
Department’s regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the requested authority was consistent with the
public interest; and (3) grant of the authority would not constitute a
major regulatory action under the Energy Policy and Conservation Act of
1975. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all applicable U.S. Government
requirements concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
10/2002
The points in Brazil which Federal Express is authorized to serve are:
Porto Alegre, Recife, Belo Horizonte, Salvador de Bahia, Belem, Manaus,
Brasilia, Rio de Janeiro and Sao Paulo.
To assure compliance with all applicable U.S. Government requirements
concerning security, the holder should, before commencing any new
service (including charter flights) to or from a foreign airport, inform
its Principal Security Inspector of its plans.
| dot | 2024-06-07T20:31:38.115183 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1196-0020/content.doc"
} |
DOT-OST-1996-1231-0019 | Notice | 2002-06-11T04:00:00 | Notice of Action Taken re: Aerocer, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 11, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1996-1231
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROCER, S.A. de C.V.
Date Filed: May 8, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: June 5, 2001, in this
Docket.
Applicant representative(s): Lee A. Bauer, 202-331-3300
Responsive pleadings: None.
DISPOSITION
Action: Approved.
Action date: June 11, 2002
Effective dates of authority granted: June 11, 2002, through June 14,
2003.
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this
do畣敭瑮椠癡楡慬汢湯琠敨圠牯摬圠摩敗瑡ഺ
瑨灴⼺搯獭搮瑯朮癯⼯敲潰瑲⽳敲潰瑲彳癡慩楴湯愮灳
| dot | 2024-06-07T20:31:38.118125 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1231-0019/content.doc"
} |
DOT-OST-1996-1487-0014 | Notice | 2002-06-21T04:00:00 | Notice of Action Taken re: Corporacion Aeroangeles, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 21, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1996-1487
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: CORPORACION AEROANGELES, S.A. de C.V.
Date Filed: June 5, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to conduct passenger charter operations between Mexico and the
United States, and other passenger charter operations in accordance with
14 CFR Part 212, using small equipment.
Applicant representative(s): Antonio Ortiz Palero, 011-527-273-11-79
Date of last action: June 11, 2001, in this Docket.
Responsive pleadings: None.
DISPOSITION
Action: Approved
Action date: June 21,
2002
Effective dates of authority granted: June 21, 2002, through June 21,
2003
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.123834 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1487-0014/content.doc"
} |
DOT-OST-1996-1501-0016 | Notice | 2002-11-25T05:00:00 | Notice of Action Taken re: Avemex, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on November 25, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1996-1501
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AVEMEX, S.A. de C.V.
Date Filed: October 9, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: November 29, 2001, in
this Docket.
Applicant representative(s): Lee A. Bauer, 202-331-3300 DOT
analyst: Allen F. Brown, 202-366-2405
Responsive pleadings: None.
DISPOSITION
Action: Approved.
Action date: November 25, 2002
Effective dates of authority granted: November 25, 2002, through
November 30, 2003.
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for
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| dot | 2024-06-07T20:31:38.125767 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1501-0016/content.doc"
} |
DOT-OST-1996-1516-0004 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.128395 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1516-0004/content.doc"
} |
DOT-OST-1996-1839-0009 | Notice | 2002-07-22T04:00:00 | Notice of Action Taken re US Airways, Inc. | UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on July 22, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-1996-1839
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of US Airways, Inc. filed 7/3/02 to:
XX Renew for two years exemption under 49 U.S.C. 40109 to provide the
following service:
Scheduled foreign air transportation of persons, property, and mail
between Charlotte, North Carolina, and Bermuda.
Applicant rep: Joel Stephen Burton, 703-383-5300 DOT Analyst:
Sylvia Moore, 202-366-6519
D I S P O S I T I O N
XX Granted
The above action was effective when taken: July 22, 2002, through
July 22, 2004
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted is consistent with the November 1991 exchange
of letters between the United States and the United Kingdom.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
________________________________________________________________________
______________
On the basis of data officially noticeable under Rule 24(g) of the
Department's regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our
action was consistent with Department policy; (2) grant of the exemption
authority was consistent with the public interest; and (3) grant of the
authority would not constitute a major regulatory action under the
Energy Policy and Conservation Act of 1975. To the extent not granted,
we denied all requests in the referenced Docket. We may amend, modify,
or revoke the authority granted in this Notice at any time without
hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
| dot | 2024-06-07T20:31:38.133929 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1839-0009/content.doc"
} |
DOT-OST-1996-1862-0006 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.136346 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1862-0006/content.doc"
} |
DOT-OST-1996-1993-0016 | Notice | 2002-08-05T04:00:00 | Notice of Action Taken re: Gemini Air Cargo, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on August 5, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-96-1993
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Gemini Air Cargo, Inc. filed 6/24/2002 to:
XX Renew exemption under 49 U.S.C. §40109 to provide the following
service:
Scheduled foreign air transportation of property and mail between New
York, New York; Columbus, Ohio; Chicago, Illinois; San Francisco,
California; and Los Angeles, California, on the one hand, and Taipei,
Taiwan, on the other hand. Gemini also requests authorization to
integrate the services to be operated under the above exemption with
Gemini’s existing exemption and certificate authority.
Applicant rep: Moffett B. Roller (202) 331-3300 DOT Analyst: Michael
D. Bodman (202) 366-9667
D I S P O S I T I O N
XX Granted, subject to conditions (see below)
The above action was effective when taken: August 5, 2002, through
August 5, 2004.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted is consistent with the aviation agreement
governing air services between the United States and Taiwan.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard Exemption Conditions (attached)
__________________________
Conditions: The route integration authority granted is subject to the
condition that such operations are consistent with the applicable
aviation agreements; and provided further, that (a) nothing in the award
of the route integration authority requested should be construed as
conferring upon Gemini additional rights (including fifth-freedom
intermediate and/or beyond rights) to serve markets where U.S. carrier
entry is limited unless Gemini first notifies the Department of
Gemini’s intent to serve such a market and unless and until the
Department has completed any necessary carrier selection procedures to
determine which carrier(s) should be authorized to exercise such rights;
and (b) should there be a request by any carrier to use the
limited-entry route rights that are included in Gemini’s authority by
virtue of the route integration authority granted here, but not being
used, the holding of such authority by route integration will not be
considered as providing any preference for Gemini in a competitive
carrier selection proceeding to determine which carrier(s) should be
entitled to use the authority at issue.
_____________________________
On the basis of data officially noticeable under Rule 24(g) of the
Department’s regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the authority was consistent with the public
interest; and (3) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted, we denied all requests in the referenced
Docket. We may amend, modify, or revoke the authority granted in this
Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice. This action was effective when taken, and the
filing of a petition for review will not alter such effectiveness.
An electronic version of this order is available on the World Wide Web
at
http://dms.dot.gov//reports/reports_ aviation.asp
APPENDIX A
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations, including all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
PAGE 3
| dot | 2024-06-07T20:31:38.139449 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-1993-0016/content.doc"
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DOT-OST-1996-2018-0016 | Notice | 2002-06-21T04:00:00 | Notice of Action Taken re: Federal Express Corporation |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on June 21, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-96-2018
_____________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Federal Express Corporation filed 5/7/02 for:
XX Waiver of the 90-day dormancy condition
By Order 96-2-17 the Department granted Federal Express exemption
authority to provide scheduled all-cargo service in the New
York/Memphis-Moscow market and allocated it five weekly all-cargo
frequencies for this service. That award was subject to the condition
that the frequency allocation would expire automatically and the
frequencies would revert to the Department for reallocation if they were
not used for a period of 90 days.
On November 1, 1999, Federal Express temporarily suspended its direct
flight operations serving Moscow. By Notices of Action Taken dated
January 24, 2000, and October 10, 2000; Order 2001-11-15; and Notice of
Action Taken dated March 27, 2002, the Department granted Federal
Express waivers of the 90-day dormancy condition. The latest waiver is
through June 30, 2002, for one frequency, and through
November 1, 2002, for four frequencies.
Federal Express now seeks a further waiver from the dormancy condition
for all five of its frequencies until April 11, 2004, when the Annexes
to the U.S.-Russia agreement will expire. Federal Express stated that
it had planned to provide one weekly round trip between Memphis and
Moscow via Paris, before June 30, 2002, but during U.S.-Russia
negotiations in April 2002, revisions to the Annexes made it impossible
for Federal Express to use the frequencies as planned.
Applicant rep. : Melissa Paul, 901-434-8580 DOT analyst : Sylvia
Moore, 202-366-6519
DISPOSITION
XX Granted (See Remarks)
The above action was effective when taken for all five frequencies:
June 21, 2002, until April 11, 2004
Action taken by: Paul L. Gretch, Director
Office of International Aviation
2
Remarks: As a result of revisions to the Annexes of the 1994
U.S.-Russia Air Transport Agreement, temporarily suspending all U.S.
carrier traffic rights between European points and Russia until April
11, 2004, we have granted Federal Express’ request for a waiver until
April 11, 2004, based on the circumstances stated in the request.
________________________________________________________________________
______________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy, and (2) the authority granted is consistent with the public
interest. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice. This action was effective when taken, and the
filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
Federal Express’ waiver from the dormancy condition is effective
through April 11, 2004, or until the date on which Federal Express
begins service with each of the frequencies, whichever occurs earlier.
The 90-day dormancy period will begin on the date Federal Express begins
service. As to any frequency with which Federal Express does not begin
service by April 11, 2004, its frequency allocation with respect to that
frequency expires automatically.
| dot | 2024-06-07T20:31:38.142569 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1996-2018-0016/content.doc"
} |
DOT-OST-1997-2073-0013 | Notice | 2002-09-23T04:00:00 | Notice of Action Taken re: Aviacion Comercial de America, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on September 23, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1997-2073
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AVIACION COMERCIAL de AMERICA, S.A. de C.V.
Date Filed: September 5, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
Applicant representative(s): Michelle C. Pardo, 202-662-0200
Responsive pleadings: None.
DISPOSITION
Action: Approved.
Action date: September 23, 2002
Effective dates of authority granted: September 23, 2002, through
September 23, 2003.
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviati湯愮灳
| dot | 2024-06-07T20:31:38.145963 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2073-0013/content.doc"
} |
DOT-OST-1997-2194-0005 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.149024 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2194-0005/content.doc"
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DOT-OST-1997-2419-0017 | Notice | 2002-08-16T04:00:00 | Notice of Action Taken re: American Airlines, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on August 16, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-1997-2419
________________________________________________________________________
______
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of American Airlines, Inc. filed 7/31/02 for:
XX Amend its exemption under 49 U.S.C. 40109 to provide the following
service:
Scheduled foreign air transportation of persons, property and mail
between a point or points in the United States and Campo Grande,
Londrina, and Maceio, Brazil. American also seeks the right to
integrate this requested authority with its existing certificate and
exemption authority. American states that it will serve these points
under its code-share arrangement with TAM-Lineas Aereas, S.A.
Applicant rep.: Carl B. Nelson, Jr. (202) 496-5647 DOT analyst: Linda
Senese (202) 366-2367
DISPOSITION
XX Granted, subject to conditions (see below)
The above action was effective when taken: August 16, 2002, through
August 16, 2004.
XX Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority requested is consistent with the U.S.-Brazil Air
Transport Agreement, as amended.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated:
XX Holder’s Certificates of Public Convenience and Necessity
XX Standard exemption conditions (attached)
________________________________________________________________________
______
Conditions: The route integration authority granted is subject to the
condition that any service provided under this exemption shall be
consistent with all applicable agreements between the United States and
the foreign countries involved, and further (a) nothing in the award of
the route
(See Reverse Side)
2
integration authority granted should be construed as conferring upon
American rights (including fifth-freedom, intermediate and/or beyond
rights) to serve markets where U.S. carrier entry is limited unless
American notifies the Department of its intent to serve such a market
and unless and until the Department has completed any necessary carrier
selection procedures to determine which carrier(s) should be authorized
to exercise such rights, and (b) should there be a request by any
carrier to use the limited-entry route rights that are included in
American’s authority by virtue of the route integration exemption
granted here, but that are not then being used by American, the holding
of such authority by virtue of route integration will not be considered
as providing American a preference in a competitive carrier selection
proceeding to determine which carrier(s) should be entitled to use the
authority at issue.
________________________________________________________________________
______
Under the authority assigned by the Department in its regulations, 14
CFR Part 385, we found that (1) our action was consistent with
Department policy; (2) grant of the authority was consistent with the
public interest; and (3) grant of the authority would not constitute a
major regulatory action under the Energy Policy and Conservation Act of
1975. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the action taken in
this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
Attachment
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
| dot | 2024-06-07T20:31:38.152770 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2419-0017/content.doc"
} |
DOT-OST-1997-2801-0011 | Notice | 2002-11-07T05:00:00 | Notice of Action Taken re: Mexico Transportes Aereos S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on November 7, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1997-2801
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: MEXICO TRANSPORTES AEREOS S.A. de C.V.
Date Filed: October 22, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: October 22, 2001, in this
Docket.
Applicant representative(s): Scott L. Johnston, 713-932-1540
DOT analyst: Allen F. Brown, 202-366-2405
Responsive pleadings: None.
DISPOSITION
Action: Approved.
Action date: November 7, 2002
Effective dates of authority granted: November 7, 2002, through
November 7, 2003.
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such
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| dot | 2024-06-07T20:31:38.157018 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2801-0011/content.doc"
} |
DOT-OST-1997-2878-0013 | Notice | 2002-12-20T05:00:00 | Notice of Action Taken re Aeroservicios Ejectivos, Corporativos, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on December 20, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1997-2878
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROSERVICIOS EJECUTIVOS, CORPORATIVOS, S.A. de C.V.
Date Filed: November 27, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: December 13, 2001, in
this Docket.
Applicant representative: Lee A. Bauer, 202-331-3300 DOT
analyst: Allen Brown, 202-366-2405
Responsive pleadings: None.
DISPOSITION
Action: Approved
Action date: December
20, 2002
Effective dates of authority granted: December 20, 2002, through
December 20, 2003
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for
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| dot | 2024-06-07T20:31:38.160392 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2878-0013/content.doc"
} |
DOT-OST-1997-2884-0011 | Notice | 2002-10-23T04:00:00 | Notice of Action Taken re: Taxirey, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on October 23, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1997-2884
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: TAXIREY, S.A. de C.V.
Date Filed: September 17, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: October 5, 2001, in this
Docket.
Applicant representative(s): Daniel Elizondo, 210-927-2581 DOT
analyst: Allen F. Brown, 202-366-2405
Responsive pleadings: None.
DISPOSITION
Action: Approved
Action date: October
23, 2002
Effective dates of authority granted: October 23, 2002, through October
23, 2003
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken,
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| dot | 2024-06-07T20:31:38.163779 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2884-0011/content.doc"
} |
DOT-OST-1997-2909-0010 | Notice | 2002-01-08T05:00:00 | Notice of Action Taken re: Aeroservicios de Nuevo Leon, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on January 8, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 97-2909
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROSERVICIOS de NUEVO LEON, S.A. de C.V.
Date Filed: December 3, 2001
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
Applicant representative(s): Julio Gonzalez Santos, 011-52-81-8319-7784
If renewal, date and citation of last action: December 21, 2000, in
this Docket.
Responsive pleadings: None.
DISPOSITION
Action: Approved.
Action date: January 8, 2002
Effective dates of authority granted: January 8, 2002, through January
8, 2003.
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within ten (10) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this
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瑨灴⼺搯獭搮瑯朮癯⼯敲潰瑲⽳敲潰瑲彳癡慩楴湯愮灳
| dot | 2024-06-07T20:31:38.166738 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2909-0010/content.doc"
} |
DOT-OST-1997-2998-0013 | Notice | 2002-11-25T05:00:00 | Notice of Action Taken re: Aerolider, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on November 25, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1997-2998
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROLIDER, S.A. de C.V.
Date Filed: October 21, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: November 27, 2001, in
this Docket.
Applicant representative: Lee A. Bauer, 202-331-3300 DOT
analyst: Allen Brown, 202-366-2405
Responsive pleadings: None.
DISPOSITION
Action: Approved
Action date: November
25, 2002
Effective dates of authority granted: November 25, 2002, through
November 27, 2003
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when
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| dot | 2024-06-07T20:31:38.170169 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-2998-0013/content.doc"
} |
DOT-OST-1997-3124-0015 | Notice | 2002-11-12T05:00:00 | Notice of Action Taken re: Delta Air Lines, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on November 12, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-97-3124
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of DELTA AIR LINES, INC filed 9/18/02 to:
XX Renew and amend, for two years, exemption under 49 U.S.C. 40109 to
provide the following service:
Scheduled foreign air transportation of persons, property, and mail
between any point in the United States and any point in Peru, via any
intermediate point to any beyond point. Delta also requests authority
to combine service on this route with all other Delta services
authorized by existing certificates and exemptions.
Applicant rep: Robert E. Cohn, (202)-663-8060 DOT Analyst: Keith A.
Glatz, (202)-366-3260
D I S P O S I T I O N
XX Granted (subject to conditions, see below)
The above action was effective when taken: November 12, 2002 through
November 12, 2004 or until 90 days after final action on Delta’s
certificate application in Docket OST-99-6246, or whichever occurs
earlier.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted is consistent with the Multilateral Agreement
on the Liberalization of International Air Transportation to which the
United States and Peru are parties.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
_____________________
Conditions: The route integration authority granted is subject to the
condition that any service provided under this exemption shall be
consistent with all applicable agreements between the United States and
the foreign countries involved. Furthermore, (a) nothing in the award
of the route integration authority requested should be construed as
conferring upon Delta rights (including fifth-freedom intermediate
and/or beyond rights) to serve markets where U.S. carrier entry is
limited unless Delta notifies the Department of its intent to serve such
a market and unless and until the Department has completed any necessary
carrier selection procedures to determine which carrier(s) should be
authorized to exercise such rights; and (b) should there be a request by
any carrier to use the limited-entry route rights that are included in
Delta’s authority by virtue of the route integration exemption granted
here, but that are not then being used by Delta, the holding of such
authority by route integration will not be considered as providing any
preference to Delta in a competitive carrier selection proceeding to
determine which carrier(s) should be entitled to use the authority at
issue.
________________________________________________________________________
______________
On the basis of data officially noticeable under Rule 24(g) of the
Department's regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our
action was consistent with Department policy; (2) grant of the exemption
authority was consistent with the public interest; and (3) grant of the
authority would not constitute a major regulatory action under the
Energy Policy and Conservation Act of 1975. To the extent not granted,
we denied all requests in the referenced Docket. We may amend, modify,
or revoke the authority granted in this Notice at any time without
hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all applicable U.S. Government
requirements concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
10/2002
Delta requests to broaden its existing Atlanta-Lima exemption (See
Notice of Action Taken November 22, 2002 in this Docket.)
To assure compliance with all applicable U.S. Government requirements
concerning security, the holder should, before commencing any new
service (including charter flights) to or from a foreign airport, inform
its Principal Security Inspector of its plans.
| dot | 2024-06-07T20:31:38.175483 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3124-0015/content.doc"
} |
DOT-OST-1997-3289-0064 | Notice | 2002-03-15T05:00:00 | 30-Day Notice of Delta, ASA, Comair and Aeromexico (Intra-U.S. Codesharing) | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030 Shaw Pittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
March 15, 2002
By Facsimile and Electronic Submission
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
Re: 30-Day Notice of Delta Air Lines, Inc. (“Delta”),
Atlantic Southeast Airlines, Inc. (“ASA”), Comair, Inc.
(“Comair”)
and Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-U.S. codesharing), Dockets OST-97-3289 and OST-2000-7708
Dear Mr. Gretch:
Pursuant to Order 99-6-6 (Docket OST-97-3289) and Notice of Action Taken
dated August 25, 2000 (Docket OST-2000-7708), Delta, ASA, Comair and
Aeromexico hereby notify the Department that, beginning on or about
April 14, 2002, the carriers plan to display Aeromexico’s “AM”
designator code on the Delta/
Delta Connection flights within the United States identified on Exhibit
A.
Respectfully submitted,
/s/ William C. Evans
/s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Atlantic Southeast Airlines, Inc.
and Comair, Inc.
Attachment
Exhibit A
New Delta/ASA/Comair/Aeromexico Intra-U.S. Codeshare Routes
Effective April 14, 2002
Flights Operated by Delta Between:
Dallas Ft. Worth and San Francisco
Flights Operated by ASA Between:
Atlanta and
Akron
Albany, GA
Asheville
Augusta, GA
Baltimore
Baton Rouge
Brunswick
Charleston, SC
Charleston, WV
Charlotte
Chattanooga
Cleveland
Columbia, SC
Columbus, GA
Columbus, MS
Corpus Christi
Daytona Beach
Des Moines
Detroit
Dothan
Evansville
Fayetteville, NC
Florence, SC
Fort Walton Beach
Fort Wayne
Gainesville
Grand Rapids
Greenville
Gulfport
Huntington
Huntsville
Islip
Jackson, MS
Knoxville
Lexington
Louisville
Lynchburg
Macon
Melbourne, FL
Meridian
Mobile
Monroe
Montgomery
Myrtle Beach
Newburgh
Norfolk
Panama City, FL
Peoria
Roanoke
Sarasota
Shreveport
South Bend
Tallahassee
Toledo
Tri Cities, TN
Valdosta
White Plains
Wichita
Wilmington, NC
Worcester
Dallas/Ft. Worth and
Amarillo
Austin
Baton Rouge
El Paso
Fayetteville, AR
Houston
Killeen
Lubbock
Mobile
Monroe
Oklahoma City
San Antonio
Shreveport
Texarkana
Tulsa
Flights Operated by Comair Between:
Atlanta and
Allentown
Harrisburg
Footnote continued from previous page
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| dot | 2024-06-07T20:31:38.191786 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0064/content.doc"
} |
DOT-OST-1997-3289-0067-0001 | Notice | 2002-04-24T04:00:00 | 30-Day Notice of Delta Air Lines, Inc. and Aerovias de Mexico, S.A. de C.V. | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030
ShawPittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
April 24, 2002
Via electronic submission
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
RE: 30-Day Notice of Delta Air Lines, Inc. (“Delta”) and
Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-U.S. codesharing), Docket OST-97-3289
Dear Mr. Gretch:
Pursuant to Order 99-6-6, Delta and Aeromexico hereby notify the
Department that, beginning on or about May 24, 2002, Delta will display
Aeromexico's “AM” designator code on flights operated by Delta
between Salt Lake City, on the one hand, and Atlanta, Boston and
Washington, D.C. (IAD), on the other hand.
Respectfully submitted,
/s/ William C. Evans /s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Footnote continued from previous page
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| dot | 2024-06-07T20:31:38.195944 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0067-0001/content.doc"
} |
DOT-OST-1997-3289-0067-0002 | Notice | 2002-04-24T04:00:00 | 30-Day Notice of Delta Air Lines, Inc. and Aerovias de Mexico, S.A. de C.V. | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030
ShawPittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
April 24, 2002
Via electronic submission
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
RE: 30-Day Notice of Delta Air Lines, Inc. (“Delta”) and
Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-U.S. codesharing), Docket OST-97-3289
Dear Mr. Gretch:
Pursuant to Order 99-6-6, Delta and Aeromexico hereby notify the
Department that, beginning on or about May 24, 2002, Delta will display
Aeromexico's “AM” designator code on flights operated by Delta
between Salt Lake City, on the one hand, and Atlanta, Boston and
Washington, D.C. (IAD), on the other hand.
Respectfully submitted,
/s/ William C. Evans /s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Footnote continued from previous page
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| dot | 2024-06-07T20:31:38.199364 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0067-0002/content.doc"
} |
DOT-OST-1997-3289-0067-0003 | Notice | 2002-04-24T04:00:00 | 30-Day Notice of Delta Air Lines, Inc. and Aerovias de Mexico, S.A. de C.V. | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030
ShawPittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
April 24, 2002
Via electronic submission
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
RE: 30-Day Notice of Delta Air Lines, Inc. (“Delta”) and
Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-U.S. codesharing), Docket OST-97-3289
Dear Mr. Gretch:
Pursuant to Order 99-6-6, Delta and Aeromexico hereby notify the
Department that, beginning on or about May 24, 2002, Delta will display
Aeromexico's “AM” designator code on flights operated by Delta
between Salt Lake City, on the one hand, and Atlanta, Boston and
Washington, D.C. (IAD), on the other hand.
Respectfully submitted,
/s/ William C. Evans /s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Footnote continued from previous page
Footnote continued on next page
| dot | 2024-06-07T20:31:38.202939 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0067-0003/content.doc"
} |
DOT-OST-1997-3289-0068-0001 | Notice | 2002-06-04T04:00:00 | 30-Day Notice of Delta Air Lines, Inc. and Aerovias de Mexico, S.A. de C.V. | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030
ShawPittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
June 4, 2002
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
Re: 30-Day Notice of Delta Air Lines, Inc. (“Delta”) and
Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-Mexico codesharing), Docket OST-97-3289
Dear Mr. Gretch:
Pursuant to Order 99-6-6, Delta and Aeromexico hereby notify the
Department that, beginning on or about July 8, 2002, Aeromexico will
display Delta’s “DL” designator code on flights operated by
Aeromexico between Monterrey and Cancun.
Respectfully submitted,
/s/ William C. Evans /s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Footnote continued from previous page
Footnote continued on next page
| dot | 2024-06-07T20:31:38.208613 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0068-0001/content.doc"
} |
DOT-OST-1997-3289-0068-0002 | Notice | 2002-06-04T04:00:00 | 30-Day Notice of Delta Air Lines, Inc. and Aerovias de Mexico, S.A. de C.V. | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030
ShawPittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
June 4, 2002
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
Re: 30-Day Notice of Delta Air Lines, Inc. (“Delta”) and
Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-Mexico codesharing), Docket OST-97-3289
Dear Mr. Gretch:
Pursuant to Order 99-6-6, Delta and Aeromexico hereby notify the
Department that, beginning on or about July 8, 2002, Aeromexico will
display Delta’s “DL” designator code on flights operated by
Aeromexico between Monterrey and Cancun.
Respectfully submitted,
/s/ William C. Evans /s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Footnote continued from previous page
Footnote continued on next page
| dot | 2024-06-07T20:31:38.213428 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0068-0002/content.doc"
} |
DOT-OST-1997-3289-0068-0003 | Notice | 2002-06-04T04:00:00 | 30-Day Notice of Delta Air Lines, Inc. and Aerovias de Mexico, S.A. de C.V. | Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, N.W., Suite 700
Washington, D.C. 20005
202-371-6030
ShawPittman LLP
2300 N Street, N.W.
Washington, D.C. 20037
202-663-8060
June 4, 2002
Mr. Paul L. Gretch
Director, Office of International Aviation
U.S. Department of Transportation
400 Seventh Street, S.W., Room 6402
Washington, D.C. 20590
Re: 30-Day Notice of Delta Air Lines, Inc. (“Delta”) and
Aerovias de Mexico, S.A. de C.V. (“Aeromexico”)
(Intra-Mexico codesharing), Docket OST-97-3289
Dear Mr. Gretch:
Pursuant to Order 99-6-6, Delta and Aeromexico hereby notify the
Department that, beginning on or about July 8, 2002, Aeromexico will
display Delta’s “DL” designator code on flights operated by
Aeromexico between Monterrey and Cancun.
Respectfully submitted,
/s/ William C. Evans /s/ A. Van der Bellen
William C. Evans
Verner Liipfert Bernhard
McPherson and Hand, Chartered
901 15th Street, NW, Suite 700
Washington, D.C. 20005
202-371-6030
Robert E. Cohn
Alexander Van der Bellen
ShawPittman LLP
2300 N Street, NW
Washington, D.C. 20037
202-663-8060
Counsel for
Aerovias de Mexico, S.A. de C.V.
Counsel for
Delta Air Lines, Inc.
Footnote continued from previous page
Footnote continued on next page
| dot | 2024-06-07T20:31:38.216909 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1997-3289-0068-0003/content.doc"
} |
DOT-OST-1998-20-0268-0001 | Notice | 2002-06-05T04:00:00 | Advertisements of Percentage Discounts on the Internet and Disclosure of Insurance Surcharges and Security Fees | UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Advertisements of Percentage Discounts on the Internet and
Disclosure of Insurance Surcharges and Security Fees
NOTICE
The Office of Aviation Enforcement and Proceedings (“Enforcement
Office”) has become aware of a number of advertising practices on
Internet travel sites which may constitute unfair or deceptive trade
practices in violation of 49 U.S.C. § 41712 and related Department
rules. The purpose of this notice is to clarify the applicability of
section 41712 and our advertising rule, 14 CFR 399.84, to the use of
banner ads announcing percentage-off discounts and sale fares. This
notice also addresses the disclosure of insurance surcharges and
security fees in print and Internet fare advertisements.
In a letter addressed to airlines and travel industry associations dated
December 20, 1994, then-Secretary Peña gave notice of the
Department’s position on a number of consumer issues, including those
involving certain airfare advertising practices. The Secretary
clarified that discount sales which offered a percentage off must
indicate the benchmark fare to which the discount applied and that that
benchmark fare must be an actual fare available for purchase at the time
of the sale or just prior to the discount sale. As stated in the
December 20, 1994, letter:
Advertisements sometimes promote air fares in terms of a percentage
savings (e.g. “Save up to 50%”). However, many such ads make it
impossible to determine what the advertised fare is being compared to
and how the percentage savings are calculated.
Consumers are entitled to real savings to match what the promotions
promise. It is thus the Department’s position that “percentage
off” ads are deceptive unless (1) the “benchmark” fare (the fare
to which the advertised fare is being compared) was offered for sale in
reasonable quantities for a reasonable period immediately prior to the
ad for the new fare, and (2) either the ad clearly identifies and
describes the “benchmark” fare, or the “benchmark” fare is a
discount fare comparable to the advertised fare, with similar
restrictions.
This notice is intended to clarify our enforcement policy with regard to
“banner” percentage-off advertisements that appear on Internet
sites, some of which are not themselves travel sites (i.e., travel agent
or airline sites) but subsequently lead the reader to such sites. In
some cases, after clicking on the banner, a consumer is sent to the site
of a major Internet travel agent. Once transferred to this location,
there is no indication which fares are subject to the stated percentage
discounts. Generally, a consumer is led from a banner apparently
promising a large percentage reduction in fares to an Internet travel
agent’s site that has a standard front page inquiry form which seeks
information on a consumer’s travel plans. However, the site makes no
mention of the percentage discount sale, much less gives an indication
of the markets or carriers to which the sale may apply or the applicable
benchmark fares. Moreover, there is no way for a consumer to request a
list of fares that are subject to the percentage-off sale, nor does the
consumer know after providing specific travel plans if the fare quoted
is one of the advertised percentage-off fares.
This notice is to advise Internet travel vendors that, although banner
advertisements on their own sites or on other sites are permissible, the
banner, if it offers a percentage discount, must lead the consumer,
within a short sequence of links, to a screen that displays the markets,
carriers, and a description of the pertinent benchmark fares to which
the discount applies. In addition, banner advertisements which do state
a price should (1) provide notice if the advertised fares do not include
all taxes and fees and state the amount of those taxes and fees, and (2)
list all significant fare conditions in the advertisement or state that
conditions apply with a link to another screen or pop-up display that
describes those conditions. If the banner advertisement states a price
that is an each-way price that is only available with a round-trip
purchase, that fact must be stated in the banner advertisement itself.
A second topic which we wish to address is the listing of insurance
surcharges and security fees in fare advertisements. All insurance
surcharges, since they are not government-imposed or -approved fees
assessed on a per-passenger basis, must be included in the advertised
price. As the Department has indicated in a number of consent orders
and in guidance provided to the industry since 1994, only those fees
that meet both criteria, that is, are both government-imposed or
-approved fees and are assessed on a per-passenger basis, may be
excluded and be stated separately from the advertised fare. With
respect to security fees, 49 C.F.R. 1510.7 precludes the separate
listing of any security fees other than the September 11th Security Fee.
These guidelines apply to both printed and Internet advertising.
Questions regarding this notice may be addressed to the Office of
Aviation Enforcement and Proceedings (C-70), 400 7th St., S.W.,
Washington, D.C. 20590.
By:
Samuel Podberesky
Assistant General Counsel for
Aviation Enforcement and Proceedings
Dated: June 5, 2002
(SEAL)
An electronic version of this document is available on the World Wide
Web at http://dms.dot.gov/reports
The Department has allowed taxes and fees collected by carriers and
other sellers of air transportation, such as passenger facility charges
(PFCs) and departure taxes, to be stated separately in fare
advertisements so long as the charges are levied or approved by a
government entity, are not ad valorem in nature, are collected on a
per-passenger basis, and their existence and amount are clearly
indicated in the advertisement so that the consumer can determine the
full fare to be paid. However, any fuel surcharges, as well as ad
valorem taxes, must be included in the advertised fare. By Notice of
December 17, 2001, the Department set out the very limited circumstances
in which travel agent service fees may be stated separately from the
advertised fare on internet sites. (See, the Department website at
HYPERLINK "http://www.dot.gov/airconsumer"
http://www.dot.gov/airconsumer ).
(footnote continued on next page)3
PAGE 3
| dot | 2024-06-07T20:31:38.224028 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-20-0268-0001/content.doc"
} |
DOT-OST-1998-20-0268-0002 | Notice | 2002-06-05T04:00:00 | Advertisements of Percentage Discounts on the Internet and Disclosure of Insurance Surcharges and Security Fees | UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Advertisements of Percentage Discounts on the Internet and
Disclosure of Insurance Surcharges and Security Fees
NOTICE
The Office of Aviation Enforcement and Proceedings (“Enforcement
Office”) has become aware of a number of advertising practices on
Internet travel sites which may constitute unfair or deceptive trade
practices in violation of 49 U.S.C. § 41712 and related Department
rules. The purpose of this notice is to clarify the applicability of
section 41712 and our advertising rule, 14 CFR 399.84, to the use of
banner ads announcing percentage-off discounts and sale fares. This
notice also addresses the disclosure of insurance surcharges and
security fees in print and Internet fare advertisements.
In a letter addressed to airlines and travel industry associations dated
December 20, 1994, then-Secretary Peña gave notice of the
Department’s position on a number of consumer issues, including those
involving certain airfare advertising practices. The Secretary
clarified that discount sales which offered a percentage off must
indicate the benchmark fare to which the discount applied and that that
benchmark fare must be an actual fare available for purchase at the time
of the sale or just prior to the discount sale. As stated in the
December 20, 1994, letter:
Advertisements sometimes promote air fares in terms of a percentage
savings (e.g. “Save up to 50%”). However, many such ads make it
impossible to determine what the advertised fare is being compared to
and how the percentage savings are calculated.
Consumers are entitled to real savings to match what the promotions
promise. It is thus the Department’s position that “percentage
off” ads are deceptive unless (1) the “benchmark” fare (the fare
to which the advertised fare is being compared) was offered for sale in
reasonable quantities for a reasonable period immediately prior to the
ad for the new fare, and (2) either the ad clearly identifies and
describes the “benchmark” fare, or the “benchmark” fare is a
discount fare comparable to the advertised fare, with similar
restrictions.
This notice is intended to clarify our enforcement policy with regard to
“banner” percentage-off advertisements that appear on Internet
sites, some of which are not themselves travel sites (i.e., travel agent
or airline sites) but subsequently lead the reader to such sites. In
some cases, after clicking on the banner, a consumer is sent to the site
of a major Internet travel agent. Once transferred to this location,
there is no indication which fares are subject to the stated percentage
discounts. Generally, a consumer is led from a banner apparently
promising a large percentage reduction in fares to an Internet travel
agent’s site that has a standard front page inquiry form which seeks
information on a consumer’s travel plans. However, the site makes no
mention of the percentage discount sale, much less gives an indication
of the markets or carriers to which the sale may apply or the applicable
benchmark fares. Moreover, there is no way for a consumer to request a
list of fares that are subject to the percentage-off sale, nor does the
consumer know after providing specific travel plans if the fare quoted
is one of the advertised percentage-off fares.
This notice is to advise Internet travel vendors that, although banner
advertisements on their own sites or on other sites are permissible, the
banner, if it offers a percentage discount, must lead the consumer,
within a short sequence of links, to a screen that displays the markets,
carriers, and a description of the pertinent benchmark fares to which
the discount applies. In addition, banner advertisements which do state
a price should (1) provide notice if the advertised fares do not include
all taxes and fees and state the amount of those taxes and fees, and (2)
list all significant fare conditions in the advertisement or state that
conditions apply with a link to another screen or pop-up display that
describes those conditions. If the banner advertisement states a price
that is an each-way price that is only available with a round-trip
purchase, that fact must be stated in the banner advertisement itself.
A second topic which we wish to address is the listing of insurance
surcharges and security fees in fare advertisements. All insurance
surcharges, since they are not government-imposed or -approved fees
assessed on a per-passenger basis, must be included in the advertised
price. As the Department has indicated in a number of consent orders
and in guidance provided to the industry since 1994, only those fees
that meet both criteria, that is, are both government-imposed or
-approved fees and are assessed on a per-passenger basis, may be
excluded and be stated separately from the advertised fare. With
respect to security fees, 49 C.F.R. 1510.7 precludes the separate
listing of any security fees other than the September 11th Security Fee.
These guidelines apply to both printed and Internet advertising.
Questions regarding this notice may be addressed to the Office of
Aviation Enforcement and Proceedings (C-70), 400 7th St., S.W.,
Washington, D.C. 20590.
By:
Samuel Podberesky
Assistant General Counsel for
Aviation Enforcement and Proceedings
Dated: June 5, 2002
(SEAL)
An electronic version of this document is available on the World Wide
Web at http://dms.dot.gov/reports
The Department has allowed taxes and fees collected by carriers and
other sellers of air transportation, such as passenger facility charges
(PFCs) and departure taxes, to be stated separately in fare
advertisements so long as the charges are levied or approved by a
government entity, are not ad valorem in nature, are collected on a
per-passenger basis, and their existence and amount are clearly
indicated in the advertisement so that the consumer can determine the
full fare to be paid. However, any fuel surcharges, as well as ad
valorem taxes, must be included in the advertised fare. By Notice of
December 17, 2001, the Department set out the very limited circumstances
in which travel agent service fees may be stated separately from the
advertised fare on internet sites. (See, the Department website at
HYPERLINK "http://www.dot.gov/airconsumer"
http://www.dot.gov/airconsumer ).
(footnote continued on next page)3
PAGE 3
| dot | 2024-06-07T20:31:38.229514 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-20-0268-0002/content.doc"
} |
DOT-OST-1998-20-0289 | Notice | 2002-10-24T04:00:00 | 2002/2003 U.S.-Hong Kong Service Opportunities | Posted: 10/24/2002
10:45am
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Served: October 29, 2002
2002/2003 U.S.-HONG KONG SERVICE OPPORTUNITIES
NOTICE INVITING APPLICATIONS
By this Notice, we invite all U.S. carriers interested in making use of
new service opportunities in the U.S.-Hong Kong aviation market to file
applications as set forth below, no later than seven calendar days after
the service date of this Notice.
Background
On October 19, 2002, the United States and the Hong Kong Special
Administrative Region of the People’s Republic of China (Hong Kong),
signed a Memorandum of Understanding (MOU) authorizing new services in
the U.S.-Hong Kong market. The agreement between the United States and
Hong Kong represents a significant expansion of opportunities for U.S.
carriers and the traveling and shipping public.
The agreement provides for 28 additional weekly flights for U.S.
combination services between Hong Kong and third countries, including
Japan. With respect to all-cargo services, the new agreement provides
for an increase of 56 weekly all-cargo flights by U.S. carriers between
Hong Kong and third countries. Additionally, the new agreement provides
for first-time code-sharing for U.S.-Hong Kong services. Finally, the
new agreement provides that both U.S. and Hong Kong combination and
all-cargo carriers may fly between Hong Kong and any U.S. city.
In light of the fact that certain of these new route opportunities have
limitations, restrictions, and/or phase-in clauses, and in the interest
of convenience to interested parties, we have attached a copy of the
U.S. carrier combination and all-cargo route schedules and related notes
as set forth in Appendices 1 and 2 of the MOU.
Applications
In order to ensure that U.S. carriers are given the opportunity to use
these valuable new route rights, we invite interested carriers to file
exemption applications, designation requests, and frequency
applications, as well as, where applicable, third-country code-share
authorization applications and requests for statements of authorization.
By this notice, we are soliciting applications and requests for all of
the new U.S. carrier rights set forth in the MOU that are
frequency-limited, with the exception of those all-cargo frequencies
that do not become available until the third year of the phase-in. We
shall award these rights subsequently.
Except for the procedural dates, exemption/frequency applications should
conform to Part 302, Subpart C of our regulations (14 CFR Part 302).
All applications and other related requests should be filed with the
Department of Transportation (Room PL-401, 400 Seventh Street, SW,
Washington, DC 20590), and should include, at a minimum and as
applicable, the proposed startup date(s); routings from origin to
destination of all proposed flights; days scheduled; frequencies
requested per market, and the duration of service in each market, if not
provided on a year-round basis; route integration authority, if desired;
equipment types (including seating configuration—first, business, and
economy); and existing authority held to conduct the operations. In
cases where the U.S. carrier proposes to conduct code-share operations
involving fifth-freedom traffic rights, applications should include, at
a minimum, the code-share partner(s) involved; which carrier(s) would be
operating the flights; and the country and specific intermediate
point(s) over which the services would be provided. In addition, unless
previously filed and approved by the Department, the carriers must
provide as part of their applications, copies of any relevant
cooperative service arrangements. Applicants are also free to submit
any additional information that they believe will help us in making our
decisions here.
In view of the immediate availability of the majority of the new rights,
we will request that these applications, etc., be filed no later than
seven calendar days from the service date of this Notice. We intend to
award the available opportunities based on the applications filed in
response to this notice. Should comparative selection among the
applicants be necessary, we will establish further proceedings to handle
the requests.
We will authorize service of documents by facsimile and by electronic
mail. Carriers that are interested in such service, however, should
state if they want service by email and should provide interested
parties with their fax number and/or email address.
Therefore, acting under authority assigned in 14 CFR 385.3, we invite
the applications as described above to be filed no later than seven
calendar days from the service date of this Notice.
We will serve this Notice on all U.S. certificated carriers operating
large aircraft; the U.S. Department of State (Office of Aviation
Negotiations); and the Federal Aviation Administration.
By:
PAUL L. GRETCH
Director
Office of
International Aviation
(SEAL)
Attachment
Dated: October 24, 2002
An electronic version of this order is available on the World Wide Web
at
HYPERLINK "http://dms.dot.gov//reports/reports_ aviation.asp"
http://dms.dot.gov//reports/reports_ aviation.asp
These increases will be phased in over a two-year period.
These increases will be phased in over a three-year period.
Previously, U.S. and Hong Kong carriers were limited to service from
only six U.S. gateways in the continental United States.
“Where applicable” refers to situations in which the U.S. carrier
is proposing to exercise fifth-freedom traffic rights on a code-share
operation.
The original filing is to be unbound and without tabs on 8-1/2” X
11” white paper, using dark ink (not green) to facilitate use of the
Department’s docket imaging system. In the alternative, filers are
encouraged to use the electronic submission capacity available through
the Dockets/DMS Internet site ( HYPERLINK https://dms.dot.gov
https://dms.dot.gov ) by following the instructions at the web site.
It will not be necessary for applicants to file separate motions to
consolidate to assure that the Department considers mutually exclusive
applications contemporaneously; the Department will consolidate all
mutually exclusive applications filed in response to this Notice on its
own initiative for contemporaneous consideration.
PAGE 4
PAGE 2
| dot | 2024-06-07T20:31:38.241608 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-20-0289/content.doc"
} |
DOT-OST-1998-20-0291 | Notice | 2002-11-22T05:00:00 | Notice of Registration of Trade Name | UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
------------------------------------------------------------Served:
November 27, 2002
AIR WISCONSIN AIRLINES CORPORATION
------------------------------------------------------------
NOTICE OF REGISTRATION OF TRADE NAME
On November 18, 2002, Air Wisconsin Airlines Corporation (Air
Wisconsin), a U.S. certificated air carrier, requested that the
Department register the trade name, “AirTran JetConnect” for use in
its certificated air carrier operations. Air Wisconsin advises us that
it is using this name in connection with a code-sharing and marketing
agreement it has entered into with AirTran Airways, another U.S.
certificated air carrier.
Part 215 of the Department’s regulations provides that any carrier
wishing to use an alternative trade name must register that name with
the Department. The rule further states that the Department may
register such name after the carrier gives notification of the proposed
name to similarly named carriers. AirTran Airways is aware of Air
Wisconsin’s use of the “AirTran JetConnect” name, and we
identified no other carriers using a similar name. Under these
circumstances, on November 19, we orally advised AirWisconsin that we
would register “AirTran JetConnect” as a trade name to be used by
the carrier. This notice confirms that registration.
Dated at Washington, D.C., November 22, 2002
RANDALL D. BENNETT
Director
Office of Aviation Analysis
(SEAL)
SERVICE LIST FOR AIR WISCONSIN AIRLINES CORPORATION
MR. WILLIAM P JORDAN
EXECUTIVE V.P. –ADMINISTRATION
& GENERAL COUNSEL
W6390 CHALLENGER DR, STE. 203
APPLETON, WI 54914-9120
MR. RICHARD DUTTON
ASST. MANAGER CSET
FAA, AFS-900
45005 AVIATION DRIVE
DULLES, VIA 20166-7537
MR. PERRY KUPIETZ, AGL-7
OFFICE OF THE REGIONAL COUNSEL
FAA, GREAT LAKES REGION HQ
2300 E DEVON AVENUE
DES PLAINES, IL 60018 MR. DAVID HANLEY, MANAGER
FLIGHT STANDARDS DIV, AGL-200
FAA, GREAT LAKES REGION HQ.
2300 E DEVON AVENUE
DES PLAINES, IL 60018
MANAGER
FLIGHT STANDARDS DISTRICT OFFICE
FEDERAL AVIATION ADMINISTRATION
4915 S. HOWELL AVENUE
MILWAUKEE, WI 53207 MR.PETER LYNCH, ASST CHIEF
COUNSEL FOR ENFORCEMENT AGC-300
FEDERAL AVIATION ADMINISTRATION
800 INDEPENDENCE AVE SW
WASHINGTON DC 20591
MR. DONALD BRIGHT, ACTG DIR
OFFICE OF AIRLINE INFO K-25
DEPARTMENT OF TRANSPORTATION
400 SEVENTH ST SW
WASHINGTON DC 20590
MR. ALLAN MUTEN
ASSISTANT TREASURER
AIRLINES REPORTING CORPORATION
1530 WILSON BLVD, STE 800
ARLINGTON, VA. 22209-2448
MS. JONI MOUNT
OFFICIAL AIRLINE GUIDE
2000 CLEARWATER DRIVE
OAK BROOK IL 60521 AMERICAN ASSOCIATION OF AIRPORT
EXECUTIVES
601 MADISON ST, STE 400
ALEXANDRIA, VA 22314-1756
MR. JIM ZAMMAR
DIRECTOR OF REVENUE ACCOUNTING
AIR TRANSPORT ASSOCIATION
1709 NEW YORK AVE NW
WASHINGTON DC 20006
See Order 98-7-6, issued July 8, 1998.
page 4
| dot | 2024-06-07T20:31:38.250882 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-20-0291/content.doc"
} |
DOT-OST-1998-20-0293 | Notice | 2002-12-04T05:00:00 | Notice - Japan Charter Authorizations 2003 | Served: December 4, 2002
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
NOTICE
Japan Charter Authorizations
(January 1 – December 31, 2003)
Under the terms of a 1998 U.S.-Japan Memorandum of Understanding (1998
MOU), U.S. carriers can operate 800 one-way charter flights (hereinafter
we refer to “one-way charters” simply as “charters”) between the
United States and Japan during the calendar year 2003 (January
1-December 31, 2003), subject to the limitation that no more than 300 of
these flights may serve Tokyo.
By Orders 92-6-32 and 92-9-21, we established new procedures to simplify
the distribution of the annual charters available to U.S. carriers for
operation in the U.S.-Japan market. Specifically, we replaced our
year-to-year comparative allocation proceedings with streamlined advance
allotment/charter pool procedures. Under these procedures, a portion of
the available charters are allotted in advance to carriers that have
operated an average of at least 20 charters over the previous two years.
The balance is maintained in a charter pool for distribution on a
first-come, first-served basis. We stated that allotments would be
issued in advance of the beginning of the charter year to qualifying
carriers for the upcoming charter year.
Under our streamlined procedures, two carriers—Continental Micronesia
and Polar Air Cargo—are entitled to advance allocations. Based on the
attached summary of carrier operations in the U.S. Japan market,
consistent with the procedures established in Orders 92-6-32 and
92-9-21, Continental Micronesia would receive an advance allocation of
32 charters, and Polar 38 charters. The remaining 730 flights are
reserved in a charter pool for distribution on a first-come,
first-served basis.
As discussed in Order 92-9-21, we require carriers issued advance
allotments to notify the U.S. Air Carrier Licensing Division (X-44),
Office of International Aviation, by letter no later than 14 days after
the service date of this notice as to what portion of their advance
allotment they intend to operate, together with an estimate of the
number of charters to be used for Tokyo service in calendar year 2003.
They also are required to file monthly reports of the charter flights
operated from their advance allocations. Carriers operating flights
from the charter pool must also file post flight reports, identifying
the date of the Notice of Consistency under which those flights were
approved.
2
The advance allotments issued by this notice and flights operated from
the charter pool for operations in calendar year 2003 are subject to the
conditions and procedures established in the Appendix.
As a final matter, in order to facilitate maximum usage of the available
charter opportunities, and taking into account recent patterns of use
(where supply has considerably exceeded demand) and the fact that under
the terms of the 1998 MOU the total number of available charters has
increased from 600 to 800, we have decided to increase the number of
charters for which carriers may apply each month from 30 to 50.
By:
READ C. VAN DE WATER
Assistant Secretary for Aviation
International Affairs
(SEAL)
Dated: December 4, 2002
Attachment
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
Page 1 of 2
1. The advance allotments are subject to the following condition:
Where fewer than 40 percent of a carrier’s allocated charters have
been
used or been committed for use by contracts during the six-month
period ending June 30, the remaining charter allotments exceeding or
equal
to the number of those already operated or committed by contract in the
preceding six months would be forfeited and placed in the charter pool.
2. The charters not subject to advance allotment for the charter year
are reserved in a charter pool for distribution on a first-come,
first-served basis subject to the following conditions:
(a) For the period January 1 through October, 31, 2003, carriers may
apply
for up to 50 charters per month;
(b) After October 31, 2003, no restrictions apply on the number of
charters that may be applied for each month;
(c) Applications to operate charters may be filed no earlier than
90 days in advance of the flight date; and
(d) Applications must identify the type of charter (passenger or
cargo); the date of each one-way flight; the charterer(s); the city-pair
markets involved by direction; the type of aircraft to be used; and
(for cargo charters) the type of cargo transported. After October 31,
2003, a copy of the charter contract would also be required.
3. Each carrier granted an advance allotment must notify the U.S. Air
Carrier Licensing Division (X-44), Office of International Aviation, by
letter, no later than July 10, 2003, of the number of charters it has
operated through June 30, 2003, and the number of flights committed by
firm contracts for the balance of the charter year. For charters under
contract, carriers shall indicate the charterer(s), dates, city-pair
markets, and nature of the traffic.
4. Each carrier granted either an advance allotment or pool charters
must notify the U.S. Air Carrier Licensing Division (X-44), Office of
International Aviation, no later than the tenth day of each month (or
until its charters are exhausted, whichever occurs earlier) of: (1) the
number of Japan charters operated during the preceding month; (2) the
city pairs served by direction; and (3) the number of charters for which
Japanese authority was obtained for that month which
APPENDIX
Page 2 of 2
subsequently were canceled or rescheduled. Carriers with advance
allotment charters shall notify the Department whether or not any
charters have been operated by the carrier during the month and such
carriers shall return to the Department immediately any allotted
flights(s) that it will not use; and
5. The Director of the Office of International Aviation is assigned the
authority for this and subsequent charter years, to administer
distribution of flights from the charter pool established by this order
and, where deemed in the public interest, to waive the restrictions on
the charter pool.
U.S.-JAPAN CHARTER OPERATIONS
2 0 0 0 2 0 0 1
Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May Jun Total
Continental Micronesia 0 8 0 0
2 6 12 0 4 4
8 0 44
Federal Express 0 1 4
2 0 2* 0 0 0
1 8 0 18
Polar Air Cargo 1* 3* 10* 15* 11*
3* 1* 2* 2* 1* 3*
2* 53*
2 0 0 1 2 0 0 2
Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May Jun Total
Continental Micronesia 0 0 0 0
0 0 4 0 2
3 8 0 17
Federal Express 0 0 0
3 0 0 0 0 1
2 0 0 6
Polar Air Cargo 1* 3* 1* 4* 3*
0 2 1 2 1
1 2 21
*Flights obtained from the charter pool
Two Year Average
Rounded to Next
2000/2001 2001/2002 Average Even Number
Continental Micronesia 44 17 30.5
32
Federal Express 18 6
12
12
Polar Air Cargo 53*
21 37
38
Our procedures provide that the average number will be rounded to the
next even number. See Order 92-6-32 at page 4.
Based on Federal Express’ monthly reports filed with the Department,
Federal Express did not operate an average of at least 20 charters over
the previous two years and, thus, does not qualify to receive an advance
allotment for the 2003 charter year.
| dot | 2024-06-07T20:31:38.313517 | regulations | {
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"url": "https://downloads.regulations.gov/DOT-OST-1998-20-0293/content.doc"
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DOT-OST-1998-3376-0006 | Notice | 2002-02-06T05:00:00 | Notice of Action Taken re: American Airlines, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on February 6, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-98-3376
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of American Airlines, Inc. , filed 1/16/02 to:
XX Renew for two years exemption under 49 U.S.C. 40109 to provide the
following service:
Scheduled foreign air transportation of persons, property, and mail
between the coterminal points New York, New York; and Chicago, Illinois;
and the terminal point Warsaw, Poland. American intends to operate this
service pursuant to a code-share arrangement with Polski Linie Lotnicze
LOT S.A. American will place its designator code on LOT’s nonstop
flights between New York and Chicago, on the one hand, and Warsaw, on
the other.
Applicant rep: Carl B. Nelson, Jr. (202) 496-5647 DOT Analyst:
Sylvia Moore (202) 366-6519
D I S P O S I T I O N
XX Granted (subject to conditions, see below)
The above action was effective when taken: February 6, 2002, through
February 6, 2004
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The exemption authority granted is consistent with the aviation
agreement between the United States and Poland.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
XX Statement of authorization for American/LOT code-share
operations dated
December 10, 1998, and conditions therein
________________________________________________________________________
____________
On the basis of data officially noticeable under Rule 24(g) of the
Department’s regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the exemption authority was consistent with the
public interest; and (3) grant of the authority would not constitute a
“major regulatory action” under the Energy, Policy and Conservation
Act of 1975. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
(See Reverse Side)
2
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within ten (10) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations, including all FAA requirements concerning
security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
| dot | 2024-06-07T20:31:38.318450 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-3376-0006/content.doc"
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DOT-OST-1998-3483-0010 | Notice | 2002-09-23T04:00:00 | Notice of Action Taken re: Aerotransportes Privados, S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on September 23, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1998-3483
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: AEROTRANSPORTES PRIVADOS, S.A. de C.V.
Date Filed: September 3, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: September 26, 2001
Applicant representative(s): Julio Gonzalez Santos, 011-52-81-8319-7784
Responsive pleadings: None.
DISPOSITION
Action: Approved.
Action date: September 23, 2002
Effective dates of authority granted: September 23, 2002, through
September 26, 2003.
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated: Standard exemption
conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.322970 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-3483-0010/content.doc"
} |
DOT-OST-1998-3652-0019 | Notice | 2002-08-15T04:00:00 | Notice of Action Taken re: Polar Air Cargo, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on August 15, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-98-3652
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Polar Air Cargo, Inc. filed 7/8/2002 for:
XX Renew for two years exemption under 49 U.S.C. 40109 to provide the
following service:
Scheduled foreign air transportation of property and mail between points
in the United States, and Jeddah, Saudi Arabia, via Ostend, Belgium, and
Shannon, Ireland, and beyond Saudi Arabia to Johannesburg, South Africa;
Harare, Zimbabwe; and Nairobi, Kenya, and to integrate its Saudi Arabia
authority with its existing exemption and certificate authority. Polar
intends to serve Johannesburg and Nairobi on a blind-sector basis only
until such time as service with full traffic rights is permitted under
the U.S.-Saudi Arabia aviation agreement.
Applicant rep: Russell E. Pommer 202-354-3843 DOT Analyst:
Gerald Caolo 202-366-2406
D I S P O S I T I O N
XX Granted (subject to conditions, see below)
The above action was effective when taken: August 15, 2002, through
August 15, 2004
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted is consistent with the aviation relationship
between the United States and Saudi Arabia, and with the aviation
agreements between the United States and Belgium, the United States and
Ireland, the United States and South Africa, and with the overall state
of aviation relations between the United States and Zimbabwe and the
United States and Kenya.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
________________________
Conditions: The route integration authority granted is subject to the
condition that any service provided
under this exemption shall be consistent with all applicable agreements
between the United States and the foreign countries involved.
Furthermore, (a) nothing in the award of the route integration authority
requested should be construed as conferring upon Polar rights (including
fifth-freedom intermediate and/or beyond rights) to serve markets where
U.S. carrier entry is limited unless Polar notifies the Department of
its intent to serve such a market and unless and until the Department
has completed any necessary carrier selection procedures to determine
which carrier(s) should be authorized to exercise such rights; and
See reverse side
(b) should there be a request by any carrier to use the limited-entry
route rights that are included in Polar’s authority by virtue of the
route integration exemption granted here, but that are not then being
used by Polar, the holding of such authority by route integration will
not be considered as providing any preference for Polar in a competitive
carrier selection proceeding to determine which carrier(s) should be
entitled to use the authority at issue.
________________________________________________________________________
____________
On the basis of data officially noticeable under Rule 24(g) of the
Department's regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that
(1) our action was consistent with Department policy; (2) grant of the
exemption authority was consistent with the public interest; and (3)
grant of the authority would not constitute a major regulatory action
under the Energy Policy and Conservation Act of 1975. To the extent not
granted, we denied all requests in the referenced Docket. We may amend,
modify, or revoke the authority granted in this Notice at any time
without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. Carrier
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each
country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250
(for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying
that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by
the public interest as may be prescribed by the Department of
Transportation, with all applicable orders and regulations of other U.S.
agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
PAGE
PAGE 2
| dot | 2024-06-07T20:31:38.333643 | regulations | {
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DOT-OST-1998-3652-0022 | Notice | 2002-10-23T04:00:00 | Notice Action Taken re: Polar Air Cargo, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on October 23, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST-98-3652
_____________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Polar Air Cargo, Inc. filed 10/11/02 for:
XX Waiver of dormancy condition:
By Notice of Action Taken dated September 8, 1998, the Department
granted Polar Air Cargo exemption authority to provide scheduled
all-cargo service between points in the United States and Jeddah, Saudi
Arabia, via Ostend, Belgium, and Shannon, Ireland, and beyond Saudi
Arabia to Johannesburg, South Africa; Harare, Zimbabwe; and Nairobi,
Kenya, and allocated it two weekly U.S.-Saudi Arabia frequencies for
this service. That award was subject to the condition that the
frequency allocation would expire automatically and the frequencies
would revert to the Department for reallocation if they are not used for
a period of 90 days. Polar temporarily suspended Saudi Arabia service
on June 18, 1999. The Department has previously granted Polar waivers
of the 90-day dormancy condition. Polar seeks a further waiver of the
90-day the dormancy condition until December 26, 2002, stating that it
has firm plans to use the frequencies involved.
Polar states that the Department should grant the modest two-month
relief sought here so that it can complete certain arrangements to
resume its Saudi Arabia service. Polar states that its needs to
finalize an agreement with a shipper that will make its Saudi Arabia
service viable, and it will then require time to make necessary
logistical and regulatory arrangements. Polar states that it has
already submitted its application for resumption of service to the
authorities of Saudi Arabia.
Applicant rep.: Russell E. Pommer, 202-354-3843 DOT analyst:
Gerald Caolo, 202-366-2406
DISPOSITION
XX Granted. (See Remarks below)
The above action was effective when taken: October 23, 2002, through
December 26, 2002
XX Action taken by: Paul L. Gretch, Director
Office of International Aviation
(See Reverse Side)
2
________________________________________________________________________
___________
Remarks: We have granted Polar’s request here, as in the public
interest, since the carrier has demonstrated its firm plans to resume
its Saudi Arabia service within a short period. However, there should
be no expectation that an additional request will similarly be granted.
Any future requests to extend the dormancy waiver for the frequencies at
issue here will have to be considered in light of the specific arguments
offered in support of the request and any comments that might be filed
in response, and in the context of the circumstances present at that
time. Furthermore, should another carrier seek to use the frequencies
at issue here, we reserve the right to reexamine whether the waiver
granted here continues to be in the public interest.
We acted on this application without awaiting expiration of the 7-day
answer period with the consent of all parties served.
________________________________________________________________________
______________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that
(1) our action was consistent with Department policy; and (2) grant of
the waiver was consistent with the public interest. To the extent not
granted, we denied all requests in the referenced Docket. We may amend,
modify, or revoke the authority granted in this Notice at any time
without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
See the most recent Notice of Action Taken, dated August 15, 2002, in
Docket 98-3652, extending the exemption authority through August 15,
2004. The frequency allocation was awarded in 1998 for an indefinite
period provided that Polar continued to hold the necessary underlying
authority.
See the most recent Notice of Action Taken, dated March 22, 2002, in
Docket 98-3652, extending the waiver through October 26, 2002.
Polar’s waiver from the dormancy condition is effective through
December 26, 2002, or until the date on which Polar begins service with
each of the frequencies, whichever occurs earlier. As to any frequency
with which Polar does not begin service by December 26, 2002, its
frequency allocation with respect to that frequency expires
automatically.
| dot | 2024-06-07T20:31:38.338077 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-3652-0022/content.doc"
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DOT-OST-1998-3726-0013 | Notice | 2002-01-08T05:00:00 | Notice of Action Taken re: Ethiopian Airlines Enterprise |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on January 8, 2002
NOTICE OF ACTION TAKEN -- DOCKETS OST-98-4345 & OST-98-3726
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: Ethiopian Airlines Enterprise Date Filed: November 30,
2001
Relief requested: Renew exemption from 49 U.S.C. 41301 to conduct
foreign air transportation of persons, property and mail between Addis
Ababa, Ethiopia, and the coterminal points Washington, DC, and Newark,
NJ, via a non-traffic stop in Rome, for a period of two years.
If renewal, date and citation of last action: Notice of Action Taken
dated December 5, 2000, in this docket
Applicant representative: Michael Goldman 202-944-3305
Responsive pleadings: None
DISPOSITION
Action: Approved in part; Remainder dismissed Action date:
January 7, 2002
Effective dates of authority granted: January 8, 2002 - January 8,
2003
Basis for approval (bilateral agreement/reciprocity): Reciprocity
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions (attached) __ Foreign air
carrier permit conditions (Order - - )
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
____________________________________________________________
We found that the applicant was qualified to perform its proposed
operations.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the authority was consistent with the public
interest; and (3) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within ten (10) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
Appendix A
FOREIGN AIR CARRIER CONDITIONS OF AUTHORITY
In the conduct of the operations authorized, the holder shall:
(1) Not conduct any operations unless it holds a currently effective
authorization from its homeland for such operations, and it has filed a
copy of such authorization with the Department;
(2) Comply with all applicable requirements of the Federal Aviation
Administration, including, but not limited to, 14 CFR Parts 129, 91, and
36;
(3) Comply with the requirements for minimum insurance coverage
contained in 14 CFR Part 205, and, prior to the commencement of any
operations under this authority, file evidence of such coverage, in the
form of a completed OST Form 6411, with the Federal Aviation
Administration’s Program Management Branch (AFS-260), Flight Standards
Service (any changes to, or termination of, insurance also shall be
filed with that office);
(4) Not operate aircraft under this authority unless it complies with
operational safety requirements at least equivalent to Annex 6 of the
Chicago Convention;
(5) Conform to the airworthiness and airman competency requirements of
its Government for international air services;
(6) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR Part 203,
concerning waiver of Warsaw Convention liability limits and defenses;
(7) Agree that operations under this authority constitute a waiver of
sovereign immunity, for the purposes of 28 U.S.C. 1605(a), but only with
respect to those actions or proceedings instituted against it in any
court or other tribunal in the United States that are:
(a) based on its operations in international air transportation
that, according to the contract of carriage, include a point in the
United States as a point of origin, point of destination, or agreed
stopping place, or for which the contract of carriage was purchased in
the United States; or
(b) based on a claim under any international agreement or treaty
cognizable in any court or other tribunal of the United States.
In this condition, the term "international air transportation" means
"international transportation" as defined by the Warsaw Convention,
except that all States shall be considered to be High Contracting
Parties for the purpose of this definition;
(8) Except as specifically authorized by the Department, originate or
terminate all flights to/from the United States in its homeland;
(9) Comply with the requirements of 14 CFR Part 217, concerning the
reporting of scheduled, nonscheduled, and charter data;
(10) If charter operations are authorized, comply (except as otherwise
provided in the applicable bilateral agreement) with the Department's
rules governing charters (including 14 CFR Parts 212 and 380); and
(11) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department, with all applicable orders or regulations of other U.S.
agencies and courts, and with all applicable laws of the United States.
This authority shall not be effective during any period when the holder
is not in compliance with the conditions imposed above. Moreover, this
authority cannot be sold or otherwise transferred without explicit
Department approval under Title 49 of the U.S. Code (formerly the
Federal Aviation Act of 1958, as amended).
(41301/40109) 9/98
The applicant requested that the authority be effective for a period
of two years. We dismissed that portion of the carrier’s application
to conduct the operations beyond January 8, 2003, without prejudice to
refiling at a later date. The duration of this authority is consistent
with our usual policy of granting exemption authority in cases such as
that presented here.
PAGE
| dot | 2024-06-07T20:31:38.341836 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-3726-0013/content.doc"
} |
DOT-OST-1998-3739-0011 | Notice | 2002-06-25T04:00:00 | Notice of Action Taken Dismissing Applications of Various Dockets |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on June 25, 2002
NOTICE OF ACTION TAKEN DISMISSING APPLICATIONS—VARIOUS DOCKETS
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the actions described below,
taken on the date shown above by the Department official indicated (no
additional confirming order will be issued in these matters).
The carriers listed below have applied for various forms of authority or
relief under Title 49 of the United States Code in order to perform the
air transportation activities described. Each application has either
been withdrawn by the applicant or otherwise become moot. Therefore,
under authority assigned by the Department in its Regulations, 14 CFR §
385.3 and 385.13, we find that these applications should be dismissed.
Docket Description of Application
OST-2002-11374 Aerovias de Mexico, S.A. de C.V., filed January 23, 2002.
Exemption to conduct scheduled combination service between Mexico City,
Mexico, and El Paso, Texas. By letter dated February 19, 2002,
Aeromexico stated that it does not intend to pursue this application and
that the application may be dismissed.
OST-98-4401 Itapemirim Transportes Aereos, S.A., filed August 31, 1998.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of property and mail between a point or points in Brazil,
on the one hand, and the coterminal points Los Angeles/New York/Miami
and Atlanta, via intermediate points; and authority to conduct all-cargo
charters in accordance with Part 212. Information available to the
Department indicates that Itapemirim has no plans to prosecute this
application.
OST-98-3739 Société Air France, filed February 8, 2002. Renew
exemption, last granted by Notice of Action Taken, dated May 24, 2000,
to allow Air France to continue to engage in scheduled foreign air
transportation of persons, property and mail between any point or points
in France and any point or points in the United States, either directly
or via intermediate points. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
OST-96-1862 Air Atlantic Dominicana, C. por A., filed October 11, 1996.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Santo Domingo,
Dominican Republic, and the coterminal points Miami, New York and San
Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Air Atlantic
Dominicana has no plans to prosecute this application.
OST-96-1516 Aerocomercial de Transporte Y Rutas, S.A., filed July 8,
1996, as supplemented.
Initial foreign air carrier permit to engage in charter foreign air
transportation of property and mail between Ecuador and the United
States, and other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Aerocomercial has
no plans to prosecute this application.
OST-95-758 Haiti National Airlines, filed October 7, 1999. Renew
exemption, last granted October 28, 1998, in Order 98-10-30, to engage
in scheduled foreign air transportation of persons, property and mail
between Port-au-Prince, Haiti, and Miami, Fort Lauderdale, New York and
San Juan; and authority to conduct charters in accordance with Part 212.
Information available to the Department indicates that Haiti National
has no plans to prosecute this application.
OST-95-428 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Exemption to engage in charter foreign air transportation of
persons, property and mail between
Antigua and Barbuda and the United States. Information available to
the Department indicates that Skyjet has no plans to prosecute this
application.
OST-95-427 Skyjet, Inc. d/b/a Skyjet Antigua & Barbuda, filed August 21,
1995. Initial foreign air carrier permit to engage in charter foreign
air transportation of persons, property and mail between Antigua and
Barbuda and the United States. Information available to the Department
indicates that Skyjet has no plans to prosecute this application.
OST-95-165 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Initial foreign air carrier permit to engage in scheduled foreign air
transportation of persons, property and mail between Honduras and points
in the United States, via Belize and beyond. Information available to
the Department indicates that Aerovias Honduras has no plans to
prosecute this application.
OST-97-2194 Atlant-Soyuz Airlines, filed May 15, 1995. Initial foreign
air carrier permit to engage in charter foreign air transportation of
property and mail between the Russian Federation and the United States;
and to conduct other all-cargo charters in accordance with Part 212.
Information available to the Department indicates that Atlant-Soyuz has
no plans to prosecute this application.
50127 Aerovias Honduras, S.A. de C.V., filed February 13, 1995.
Exemption to engage in scheduled foreign air transportation of persons,
property and mail between Honduras and points in the United States, via
Belize and beyond. Information available to the Department indicates
that Aerovias Honduras has no plans to prosecute this application.
49965 Haytian Aviation Lines, S.A. d/b/a Halisa Air, filed December 13,
1994. Initial foreign air carrier permit to engage in foreign air
transportation of persons, property
and mail between Port-au-Prince, Haiti, and Miami and Fort Lauderdale,
Florida. Information available to the Department indicates that Halisa
Air has no plans to prosecute this application.
OST-95-595 Société Air France, filed April 27, 1993. Exemption to
allow Air France to continue operating under all existing exemption
authorities and to include all other authorities outstanding, pending
renewal or in effect prior to expiration of the 1946 Air Transport
Agreement between the United States and France. By Order 2002-5-8, we
issued Air France an amended foreign air carrier permit under the 1998
Air Transport Agreement between the United States and France which
encompasses the authority at issue here.
OST-95-594 Société Air France, filed April 27, 1993. Renew and amend
foreign air carrier permit
to permit Air France to continue operating under all existing permits
and to include all other authorities outstanding, pending renewal or in
effect prior to expiration of the 1946 Air Transport Agreement between
the United States and France. By Order 2002-5-8, we issued Air France
an amended foreign air carrier permit under the 1998 Air Transport
Agreement between the United States and France which encompasses the
authority at issue here.
48630 Japan Universal System Transport Co., Ltd., filed January 29,
1993. Initial foreign air carrier permit to engage in charter foreign
air transportation of property and mail between Japan and the United
States. Information available to the Department indicates that Japan
Universal System has no plans to prosecute this application.
47556 World Air Network Co., Ltd., filed May 28, 1991. Initial foreign
air carrier permit to engage in charter foreign air transportation of
persons, property and mail between Japan and the United States.
Information available to the Department indicates that World Air Network
has no plans to prosecute this application.
46016 Société Air France, filed October 10, 1991. Renew exemption,
last granted October 31, 1990, and confirmed by Order 90-12-5, to
commingle all-cargo traffic in foreign air transportation between
specified points in the United States and France, with all-cargo traffic
not in foreign air transportation between specified points in Canada and
France. By Order 2002-5-8, we issued Air France an amended foreign air
carrier permit which encompasses the authority at issue here.
45652 Société Air France, filed August 4, 1992. Renew exemption, last
granted August 7, 1990, and confirmed by Order 90-12-5, to engage in
scheduled foreign air transportation of persons, property and mail
between France and San Juan, via intermediate or beyond points
Martinique and Guadeloupe. By Order 2002-5-8, we issued Air France an
amended foreign air carrier permit which encompasses the authority at
issue here.
44313 Société Air France, filed August 25, 1992. Renew exemption,
last granted October 9, 1991, and confirmed by Order 93-3-3, to among
other things, (a) serve Los Angeles on all-cargo operations as a
coterminal point on the route specified in paragraph 2 of its effective
foreign air carrier permit (Order 76-2-25); (2) serve Montreal as an
intermediate point and San Francisco as a coterminal point on its
authorized France-Los Angeles route; and (3) provide scheduled service
between Tahiti and Los Angeles. By
Order 2002-5-8, we issued Air France an amended foreign air carrier
permit which encompasses the authority at issue here.
46845 Air Liberté S.A., filed March 15, 1990. Initial foreign air
carrier permit to engage in charter foreign air transportation of
persons, property and mail between France and the United States.
Information available to the Department indicates that Air Liberté has
no plans to prosecute this application.
DISPOSITION
Action: We dismiss the applications described above.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR §
385.30, may file their petitions within seven (7) days after the date of
issuance of this Notice.
The actions set forth in this Notice shall be effective and become the
actions of the Department of Transportation upon expiration of the above
period unless within such period a petition for Department review is
filed or the Department gives
notice that it will review one or more actions on its own motion. The
filing of a petition for review with respect to one of the dismissed
items will not alter the effectiveness of this Notice with respect to
the others.
An electronic version of this document is available on the World Wide
Web at:
HYPERLINK "http://dms.dot.gov//reports/reports_aviation.asp"
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.345749 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-3739-0011/content.doc"
} |
DOT-OST-1998-3846-0007 | Notice | 2002-08-16T04:00:00 | Notice of Action Taken re: Delta Air Lines, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on August 16, 2002
NOTICE OF ACTION TAKEN -- DOCKETS OST-98-3846 & OST-98-4296
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Delta Air Lines, Inc. filed 6/27/02 to:
XX Renew for two years exemptions under 49 U.S.C. 40109 to provide the
following service:
(1) Scheduled foreign air transportation of persons, property, and mail
between a point or points in the United States and Cotonou, Benin, and
to integrate this authority with its existing certificate and exemption
authority. Delta plans to operate this service pursuant to a
third-country code-share arrangement with Air France (Docket
OST-98-4296). (2) Scheduled foreign air transportation of persons
property, and mail between a point or points in the United States, on
the one hand, and Luanda, Angola; Yaounde, Cameroon; Ndjamena, Chad;
Libreville, Gabon; Nouakchott, Mauritania; Agadir, Marrakech, and Rabat,
Morocco; Niamey, Niger; Seychelles; and Sfax, Tunisia, on the other, and
to integrate this authority with its existing certificate and exemption
authority. Delta plans to operate this service pursuant to a
third-country code-share arrangement with Air France (Docket
OST-98-3846).
Applicant rep: Robert E. Cohn (202) 663-8060 DOT Analyst:
Sylvia Moore (202) 366-6519
D I S P O S I T I O N
XX Granted (subject to conditions, see below)
The above action was effective when taken: August 16, 2002, through
August 16, 2004, or until 90 days after final action on Delta’s
corresponding certificate application in Docket OST-99-6246, whichever
occurs earlier.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted to serve Morocco and Cotonou, Benin is
consistent with the aviation agreements between the United States and
Morocco and Benin, respectively. The authority granted to serve the
remaining points is consistent with the overall state of aviation
relations between the United States and the foreign countries involved.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
XX Statement of authorization approving Delta/Air France code-share
operations dated
August 6, 1998, and conditions therein
(See Reverse Side)
2
Conditions: The route integration authority granted is subject to the
condition that any service provided under this exemption shall be
consistent with all applicable agreements between the United States and
the foreign countries involved. Furthermore, (a) nothing in the award
of the route integration authority
requested should be construed as conferring upon Delta rights (including
fifth-freedom intermediate and/or beyond rights) to serve markets where
U.S. carrier entry is limited unless Delta notifies the Department of
its intent to serve such a market and unless and until the Department
has completed any necessary carrier
selection procedures to determine which carrier(s) should be authorized
to exercise such rights; and
(b) should there be a request by any carrier to use the limited-entry
route rights that are included in Delta’s authority by virtue of the
route integration exemption granted here, but that are not then being
used by Delta, the holding of such authority by route integration will
not be considered as providing any preference for Delta in a competitive
carrier selection proceeding to determine which carrier(s) should be
entitled to use the authority at issue.
________________________________________________________________________
______________
On the basis of data officially noticeable under Rule 24(g) of the
Department's regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the exemption authority was consistent with the
public interest; and (3) grant of the authority would not constitute a
major regulatory action under the Energy Policy and Conservation Act of
1975. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
Originally Delta operated this service pursuant to a code-share
arrangement with Sabena Belgian World Airlines, but that arrangement has
been discontinued.
| dot | 2024-06-07T20:31:38.351329 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-3846-0007/content.doc"
} |
DOT-OST-1998-4070-0010 | Notice | 2002-08-09T04:00:00 | Notice of Action Taken re: Transporte Ejecutivo Aereo S.A. de C.V. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, D.C.
Issued by the Department of Transportation on August 9, 2002
NOTICE OF ACTION TAKEN -- DOCKET OST 1998-4070
________________________________________________________________________
________________________________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Applicant: TRANSPORTE EJECUTIVO AEREO S.A. de C.V.
Date Filed: July 9, 2002
Relief requested: Exemption from 49 USC section 41301 to permit the
applicant to continue to conduct passenger charter operations between
Mexico and the United States, and other passenger charter operations in
accordance with 14 CFR Part 212, using small equipment.
If renewal, date and citation of last action: July 26, 2001, in this
Docket.
Applicant representative(s): Juan Isaias Moctezuma Ayala, (5) 709-13-13
ext. 5551
Responsive pleadings: None.
DISPOSITION
Action: Approved
Action date: August
9, 2002
Effective dates of authority granted: August 9, 2002, through August 9,
2003
Basis for approval (bilateral agreement/reciprocity): United
States-Mexico Air Transport Services Agreement of August 15, 1960, as
amended and extended (Agreement).
Except to the extent exempted/waived, this authority is subject to the
terms, conditions, and limitations indicated:
X Standard exemption conditions.
Special conditions/Partial grant/Denial basis/Remarks: In the conduct
of these operations, the carrier must adhere to all applicable
provisions of the U.S.-Mexico Agreement. In the conduct of these
operations, the carrier may only use aircraft capable of carrying no
more than 60 passengers and having a maximum payload capacity of no more
than 18,000 pounds (small equipment). The above grant includes
authority to conduct Third and Fourth Freedom charter operations. While
we have subjected, consistent with the provisions of the Agreement,
Mexican carriers conducting charter operations with large aircraft to
prior approval or submission of notice for their Third and Fourth
Freedom charters, we determined that any such requirement was not
necessary on public interest grounds in this case, since the carrier
will be conducting these operations solely with small aircraft. (Other
charter operations to/from the United States under this authority,
however, are subject to prior approval under 14 CFR Part 212.) Further,
we are continuing to allow Mexican carriers conducting passenger
charters using small equipment to make stopovers in the United States in
the conduct of such operations.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
________________________________________________________________________
________________________________________________________
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) the applicant was qualified to perform its proposed
operations; (3) grant of the authority was consistent with the public
interest; and (4) grant of the authority would not constitute a major
regulatory action under the Energy Policy and Conservation Act of 1975.
To the extent not granted/deferred/dismissed, we denied all requests in
the referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
| dot | 2024-06-07T20:31:38.356824 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-4070-0010/content.doc"
} |
DOT-OST-1998-4296-0007 | Notice | 2002-08-16T04:00:00 | Notice of Action Taken re: Delta Air Lines, Inc. |
UNITED STATES OF AMERICA
DEPARTMENT OF TRANSPORTATION
OFFICE OF THE SECRETARY
WASHINGTON, DC
Issued by the Department of Transportation on August 16, 2002
NOTICE OF ACTION TAKEN -- DOCKETS OST-98-3846 & OST-98-4296
________________________________________________________________________
_________________________________
This serves as notice to the public of the action described below, taken
by the Department official indicated (no additional confirming order
will be issued in this matter).
Application of Delta Air Lines, Inc. filed 6/27/02 to:
XX Renew for two years exemptions under 49 U.S.C. 40109 to provide the
following service:
(1) Scheduled foreign air transportation of persons, property, and mail
between a point or points in the United States and Cotonou, Benin, and
to integrate this authority with its existing certificate and exemption
authority. Delta plans to operate this service pursuant to a
third-country code-share arrangement with Air France (Docket
OST-98-4296). (2) Scheduled foreign air transportation of persons
property, and mail between a point or points in the United States, on
the one hand, and Luanda, Angola; Yaounde, Cameroon; Ndjamena, Chad;
Libreville, Gabon; Nouakchott, Mauritania; Agadir, Marrakech, and Rabat,
Morocco; Niamey, Niger; Seychelles; and Sfax, Tunisia, on the other, and
to integrate this authority with its existing certificate and exemption
authority. Delta plans to operate this service pursuant to a
third-country code-share arrangement with Air France (Docket
OST-98-3846).
Applicant rep: Robert E. Cohn (202) 663-8060 DOT Analyst:
Sylvia Moore (202) 366-6519
D I S P O S I T I O N
XX Granted (subject to conditions, see below)
The above action was effective when taken: August 16, 2002, through
August 16, 2004, or until 90 days after final action on Delta’s
corresponding certificate application in Docket OST-99-6246, whichever
occurs earlier.
Action taken by: Paul L. Gretch, Director
Office of International Aviation
XX The authority granted to serve Morocco and Cotonou, Benin is
consistent with the aviation agreements between the United States and
Morocco and Benin, respectively. The authority granted to serve the
remaining points is consistent with the overall state of aviation
relations between the United States and the foreign countries involved.
Except to the extent exempted or waived, this authority is subject to
the terms, conditions, and limitations indicated: XX Holder’s
certificates of public convenience and necessity
XX Standard exemption conditions (attached)
XX Statement of authorization approving Delta/Air France code-share
operations dated
August 6, 1998, and conditions therein
(See Reverse Side)
2
Conditions: The route integration authority granted is subject to the
condition that any service provided under this exemption shall be
consistent with all applicable agreements between the United States and
the foreign countries involved. Furthermore, (a) nothing in the award
of the route integration authority
requested should be construed as conferring upon Delta rights (including
fifth-freedom intermediate and/or beyond rights) to serve markets where
U.S. carrier entry is limited unless Delta notifies the Department of
its intent to serve such a market and unless and until the Department
has completed any necessary carrier
selection procedures to determine which carrier(s) should be authorized
to exercise such rights; and
(b) should there be a request by any carrier to use the limited-entry
route rights that are included in Delta’s authority by virtue of the
route integration exemption granted here, but that are not then being
used by Delta, the holding of such authority by route integration will
not be considered as providing any preference for Delta in a competitive
carrier selection proceeding to determine which carrier(s) should be
entitled to use the authority at issue.
________________________________________________________________________
______________
On the basis of data officially noticeable under Rule 24(g) of the
Department's regulations, we found the applicant qualified to provide
the services authorized.
Under authority assigned by the Department in its regulations, 14 CFR
Part 385, we found that (1) our action was consistent with Department
policy; (2) grant of the exemption authority was consistent with the
public interest; and (3) grant of the authority would not constitute a
major regulatory action under the Energy Policy and Conservation Act of
1975. To the extent not granted, we denied all requests in the
referenced Docket. We may amend, modify, or revoke the authority
granted in this Notice at any time without hearing at our discretion.
Persons entitled to petition the Department for review of the action set
forth in this Notice under the Department’s regulations, 14 CFR
§385.30, may file their petitions within seven (7) days after the date
of issuance of this Notice. This action was effective when taken, and
the filing of a petition for review will not alter such effectiveness.
An electronic version of this document is available on the World Wide
Web at:
http://dms.dot.gov//reports/reports_aviation.asp
APPENDIX
U.S. CARRIER
Standard Exemption Conditions
In the conduct of operations authorized by the attached notice, the
applicant(s) shall:
(1) Hold at all times effective operating authority from the government
of each country served;
(2) Comply with applicable requirements concerning oversales contained
in 14 CFR 250 (for scheduled operations, if authorized);
(3) Comply with the requirements for reporting data contained in 14 CFR
241;
(4) Comply with requirements for minimum insurance coverage, and for
certifying that coverage to the Department, contained in 14 CFR 205;
(5) Except as specifically exempted or otherwise provided for in a
Department Order, comply with the requirements of 14 CFR 203, concerning
waiver of Warsaw Convention liability limits and defenses;
(6) Comply with the applicable requirements of the Federal Aviation
Administration Regulations and with all U.S. Government requirements
concerning security; and
(7) Comply with such other reasonable terms, conditions, and
limitations required by the public interest as may be prescribed by the
Department of Transportation, with all applicable orders and regulations
of other U.S. agencies and courts, and with all applicable laws of the
United States.
The authority granted shall be effective only during the period when the
holder is in compliance with the conditions imposed above.
Originally Delta operated this service pursuant to a code-share
arrangement with Sabena Belgian World Airlines, but that arrangement has
been discontinued.
| dot | 2024-06-07T20:31:38.368109 | regulations | {
"license": "Public Domain",
"url": "https://downloads.regulations.gov/DOT-OST-1998-4296-0007/content.doc"
} |