Document ID: EPA-HQ-OAR-2005-0084-0007
Agency: epa
Document Type: Supporting & Related Material
Title: 
Posted Date: 2006-05-23T04:00Z

Form
No.
7610­
32
1
ENCLOSURE
1
YOUR
FACILITY
NAME:
*
OMB
Control
No.
2060­
0577
Approval
expires
02/
28/
2009
BACKGROUND
AND
INSTRUCTIONS
FOR
PLATING
AND
POLISHING
INFORMATION
REQUEST
(
Form
No.
2186.01)

Background
and
Instructions
Section
112
of
the
Clean
Air
Act
outlines
the
statutory
requirements
for
the
EPA's
stationary
source
air
toxics
program.
Section
112(
k)
requires
the
development
of
standards
for
area
sources
which
account
for
90
percent
of
the
emissions
in
urban
areas
of
the
33
urban
hazardous
air
pollutants
(
HAP)
listed
in
the
Integrated
Urban
Air
Toxics
Strategy.
The
Integrated
Urban
Air
Toxics
Strategy
lists
plating
and
polishing
as
an
area
source
category.
The
plating
and
polishing
source
category
is
defined
to
include
establishments
primarily
engaged
in
all
types
of
electroplating,
plating,
polishing
(
using
physical,
chemical,
or
electrochemical
processes),
thermal
or
metal
spraying,
anodizing,
coloring,
and
finishing
of
metals
and
formed
products
for
the
trade.
Please
note
that
chromium
emissions
from
chromium
electroplating
and
anodizing
tanks
are
regulated
under
40
CFR
63,
subpart
N
and
will
not
be
addressed
under
the
plating
and
polishing
source
category.
We
are
requesting
in
question
I.
G
that
you
identify
electroplating
finishes,
including
chromium,
applied
in
your
facility
and
we
are
requesting
facility
chromium
emissions
in
Table
1
but
we
are
not
requesting
any
further
information
on
chromium
electroplating
operations.
Also
note
that
the
electroplating,
electroless
plating,
polishing,
anodizing,
thermal
or
metal
spraying,
coloring,
and
finishing
processes
covered
by
this
questionnaire
will
be
referred
to
generically
as
plating
and
polishing.

The
EPA
will
use
the
information
collected
from
this
questionnaire
to
evaluate
the
need
for
area
source
National
Emission
Standards
for
Hazardous
Air
Pollutants
(
NESHAP)
for
the
plating
and
polishing
area
source
category.
If
an
area
source
NESHAP
is
developed,
the
collected
information
will
be
used
to
evaluate
the
types
of
provisions
needed
to
limit
HAP
emissions
from
plating
and
polishing
operations
and
to
estimate
the
impacts
of
regulatory
options.

Please
answer
all
questions
unless
not
applicable
to
your
facility
or
operations,
in
which
case
note
that
the
question
is
not
applicable.
All
information
should
be
for
the
reporting
year.
Readily
available
information
should
be
used;
no
additional
emission
testing
or
monitoring
is
required
to
respond
to
this
questionnaire.

If
you
believe
that
a
disclosure
of
any
specific
information
that
you
submit
would
reveal
a
trade
secret
or
other
sensitive
business
information,
clearly
identify
such
information
as
"
Confidential."
Please
do
not
label
an
entire
response
"
Confidential"
if
only
certain
portions
consist
of
trade
secret
or
sensitive
business
information.
Refer
to
Enclosure
2
for
the
information
the
EPA
may
require,
at
a
later
time,
to
support
your
confidentiality
claims.
Any
information
determined
to
constitute
a
trade
secret
will
be
protected
under
18
U.
S.
C.
1905.
If
no
claim
of
confidentiality
accompanies
the
information
when
it
is
received
by
the
EPA,
it
may
be
made
available
to
the
public
by
the
EPA
without
further
notice
(
40
CFR
Part
2.203,
September
1,
1976).
Because
Section
114
of
the
Clean
Air
Act
exempts
emission
data
from
claims
of
confidentiality,
the
emission
data
you
provide
may
be
made
available
to
the
public.
A
clarification
of
what
the
EPA
considers
to
be
emission
data
is
contained
in
Enclosure
3.
Form
No.
7610­
32
2
An
electronic
version
of
the
Information
Request
form
is
available
in
the
public
docket
through
the
EPA's
electronic
docket
system
on
the
http://
www.
regulations.
gov
Web
site.
Use
the
Web
site
to
download
a
word
processing
electronic
copy
of
the
form.
Once
in
the
Web
site
docket
system,
select
"
search,"
then
key
in
the
Docket
ID
number:
EPA­
HQ­
OAR­
2005­
0084
Return
this
request
BY
JULY
15,
2006
along
with
any
additional
information
to:

Dr.
Donna
Lee
Jones
United
States
Environmental
Protection
Agency
Office
of
Air
Quality
Planning
and
Standards
US
EPA
Mailroom
(
D243­
02)
Research
Triangle
Park,
NC
27711
If
you
have
any
questions
regarding
this
request,
please
contact
Donna
Lee
Jones
at
(
919)
541­
5251
(
e­
mail
Jones.
DonnaLee@
epa.
gov).
Alternatively,
you
may
contact
our
HELP
desk
at:
EPA­
PlatingSurvey­
HELP@
rti.
org
Please
note
that
you
are
to
provide
a
separate
response
package
for
each
facility
in
your
company
with
plating
and
polishing
operations.
Copies
of
this
questionnaire
should
be
made
for
additional
facilities.

The
public
reporting
and
recordkeeping
burden
for
this
collection
of
information
is
estimated
to
average
12
hours
per
response.
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
Director,
Collection
Strategies
Division,
U.
S.
Environmental
Protection
Agency
(
2822T),
1200
Pennsylvania
Ave.,
NW,
Washington,
D.
C.
20460.
Include
the
OMB
control
number
in
any
correspondence.
Do
not
send
the
completed
form
to
this
address.
Form
No.
7610­
32
3
ENCLOSURE
1
INFORMATION
REQUEST
FOR
PLATING
AND
POLISHING
OPERATIONS
I.
General
Information
A.
Facility
Name:
__________________________________________________________

B.
Facility
Street
Address:
1)
Street:
___________________________
2)
City:
________________
3)
State:
______________________
4)
ZIP
Code:
________
5)
County:
__________

C.
Mailing
Address
(
If
different
from
Facility
Street
Address):
1)
Street
or
P.
O.
Box:
_________________
2)
City:
________________
3)
State:
_______________________
4)
ZIP
Code:
________________

D.
Corporate
Owner:
1)
Name
of
Corporate
Owner:
_________
2)
Street:
________________
3)
City:
___________________________
4)
State:
_____
5)
ZIP
Code:
__________
6)
Corporate
Sales:
$
_______________________

E.
Facility
Description
1)
Provide
a
brief
description
of
the
facility
(
e.
g.,
plating
and
polishing
job
shop)
_________________________________________
2)
Dun
&
Bradstreet
No:
_____________________
3)
SARA
TRI
Facility
ID:
_______
4)
Number
of
facility
employees:
______
5)
SIC(
s)
________________
6)
NAIC(
s)
_______________________________
7)
Operating
hours:
Hours/
day:________
Days/
week:_______
Weeks/
year:________

F.
Plating
and
Polishing
Processes
Conducted
(
Check
all
that
apply)

~
Electroplating
~
Electroless
Plating
(
Please
identify
processes,
e.
g.,
electroless
nickel)
_____________
_______________________________________________________________________

~
Polishing
(
Please
identify,
e.
g.,
mechanical,
chemical,
or
electrochemical,
and
briefly
describe)________________________________________________________________

~
Anodizing
(
Please
identify
and
briefly
describe)
______________________________
_______________________________________________________________________

~
Thermal
or
Metal
Spraying
(
Please
identify
and
briefly
describe)
_________________
_______________________________________________________________________
_______________________________________________________________________

~
Other
(
Please
identify
and
briefly
describe)
__________________________________
_______________________________________________________________________
_______________________________________________________________________
Form
No.
7610­
32
4
G.
Plating
Finishes
Applied
(
Check
all
that
apply)

~
Brass
~
Bronze
~
Cadmium
~
Chromium,
Black
~
Chromium,
Decorative
~
Chromium,
Hard
~
Copper
~
Gold
~
Lead
~
Nickel,
Black
~
Nickel,
Decorative
~
Nickel,
Industrial
~
Silver
~
Tin­
Lead
~
Tin­
Nickel
~
Zinc­
Nickel
~
Other
(
Please
identify)

H.
Technical
Contact
(
able
to
answer
technical
questions
about
this
survey)
1)
Name
and
Title:
_______________________________________________________
2)
Telephone:
________________________
3)
Facsimile:
______________________
4)
Email:
________________________________

I.
Geographic
Coordinates;
either
latitude
and
longitude
(
in
degrees
and
minutes)
or
UTM
coordinates
of
the
center
of
the
plant:
_________________________________________

J.
Regulatory
Requirements
(
Please
indicate
any
Federal
emission
standards,
such
as
NSPS
or
NESHAP,
which
are
applicable
to
your
facility):

~
40
CFR
part
63,
subpart
N
Chromium
Electroplating
NESHAP
~
40
CFR
part
63,
subpart
T
Halogenated
Solvent
Cleaning
~
Other
(
Please
Identify)
__________________________________________________
_______________________________________________________________________

K.
Facility
Classification
for
HAP
(
If
you
have
an
air
operating
permit
issued
under
Title
V
of
the
Clean
Air
Act,
please
indicate
the
classification
of
your
facility):

~
Major
Source
~
Synthetic
Minor
Source
~
Minor/
Area
Source
What
co­
located
activities
influence
facility
classification?
_______________________
_______________________________________________________________________
Form
No.
7610­
32
5
II.
HAP
Emissions
and
Permit
Data
Please
provide
readily
available
emissions
information
in
Table
1
below
for
the
HAP
emissions
from
your
facility,
and
from
your
plating
and
polishing
operations
for
the
most
recent
year
for
which
data
are
available.
Please
also
indicate
the
reporting
year
below.
Attachment
1
is
a
list
of
the
most
common
HAP
reported
as
being
emitted
by
plating
and
polishing
facilities.
The
complete
list
of
HAP
is
provided
in
Attachment
2.
If
you
are
required
to
prepare
annual
emissions
inventory
reports,
you
may
attach
a
copy
of
the
most
recent
annual
emissions
inventory
instead
of
completing
this
table.
No
additional
emissions
testing
or
monitoring
is
required
to
respond
to
this
questionnaire.
Reporting
Year:________

TABLE
1.
HAP
EMISSIONS
FROM
THE
FACILITY
AND
FROM
PLATING
AND
POLISHING
OPERATIONS
Reporting
Year
Actual
HAP
CAS
Number
(
if
known)
Facility
Emissions
(
pounds/
year)
Plating
or
Polishing
Emissions
(
pounds/
year)
Basis
for
Estimate
2
Hydrogen
Fluoride
7664393
NA
NA
NA
Cadmium
Compounds
­­
11.4
11.4
AP­
42
Cyanide
Compounds
­­­
1.1
1.1
EJ
Example
Other
(
Specify
)
Trichloroethylene
­­
1,460
0.0
MB
Chlorine
7782505
Formaldehyde
50000
Hydrochloric
Acid
7647010
Hydrogen
Fluoride
7664393
Cadmium
Compounds
Chromium
Compounds
1
Cyanide
Compounds
Glycol
Ethers
Lead
Compounds
Manganese
Compounds
Nickel
Compounds
Other
(
Specify
)
_

Other
(
Specify
)
_
YOUR
DATA
Total
HAP
­­­­­

1
For
facility
emissions,
include
all
chromium
emissions;
for
plating
and
polishing
emissions,
do
not
include
chromium
emissions
from
electroplating
or
anodizing
tanks
subject
to
the
NESHAP
(
40
CFR
63,
subpart
N).
2
Indicate
basis
for
emission
estimates:
TD
=
test
data;
MB
=
mass
balance;
EJ
=
engineering
judgment;
NA
=
not
applicable;
Other
(
please
specify).

Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
6
B.
Permit
Conditions
If
any
of
the
plating
and
polishing
operations
at
your
facility
are
subject
to
permit
limits,
please
provide
a
copy
of
your
air
operating
permit.

C.
Emission
tests
Please
enclose
complete
test
reports
from
any
emission
tests
conducted
on
plating
and
polishing
processes
and
air
pollution
control
devices
(
APCDs).
No
additional
emissions
testing
or
monitoring
is
required
to
respond
to
this
questionnaire.
Include
the
following:

(
1)
pollutants
and
emission
rates
measured,
(
2)
the
test
method
or
procedure
used,
(
3)
information
on
actual
plating
or
polishing
process
conditions
at
the
time
the
measurements
were
made,
(
4)
if
the
tests
were
conducted
on
outlet
streams
of
APCDs,
the
APCD
operating
conditions,
and
(
5)
all
appendices,
including
field
data
sheets,
laboratory
reports,
example
calculations,
process
data
recorded
during
the
test,
and
other
supporting
data.
Form
No.
7610­
32
7
III
Plating
and
Polishing
Process
Information
A.
Electroplating
Tanks:
Please
provide
the
information
below
for
each
tank
in
which
an
electroplating
finish
containing
HAP
listed
in
Table
1
is
applied.
*
DO
NOT
include
chromium
electroplating
and
anodizing
tanks
regulated
under
40
CFR
63,
subpart
N.

TABLE
2.
SUMMARY
OF
ELECTROPLATING
TANK
INFORMATION*

Tank
ID1
Finish
type
applied2
Tank
volume
(
gal)
Tank
surface
dimensions
(
ft
x
ft)
Maximum
operating
amperage
(
amps)
Rectifier
operating
hours
(
hr/
year)
Type
of
bath
agitation3
Tank
emission
control
method4
Do
you
use
covers
on
your
tanks?
5
NiD­
1
NiD
260
4'
x
3'
500
2,040
none
TKE
Yes
InNi­
1
NiI
380
5.5'
x
3
1,000
1,550
AA
TKE
Yes
Cd­
1
Cd
450
6'
x
3'
1,000
800
Ed
none
No
Ag­
1
Ag
210
4'
x
2.5'
360
880
none
none
No
EXAMPLE
Ag­
2
Ag
210
4'
x
2.5'
360
640
none
none
No
YOUR
DATA
1
For
example,
if
you
operate
three
industrial
nickel
plating
tanks,
you
can
number
them
InNi1,
InNi2,
and
InNi3.
2
For
example,
Black
nickel
=
BlNi;
Brass
=
Bs;
Cadmium
=
Cd;
Copper
=
Cu;
Gold
=
Au;
Lead
=
Pb;
Nickel,
Decorative
=
NiD;
Nickel,
Industrial
=
NiI;
Silver
=
Ag;
Tin/
Lead
=
SnPb;
Tin­
Nickel
=
SnNi;
Zinc
=
Zn;
Zinc/
Nickel
=
ZnNi.
DO
NOT
include
chromium
electroplating
and
anodizing
tanks
regulated
under
40
CFR
63,
subpart
N.
3
Please
fill
in:
Air
agitation
=
AA;
Eductor
(
pump
mixing)
=
Ed;
Mechanical
mixing
=
MM;
No
agitation
=
None;
or
Other
(
Specify)
=
Other.
4
Only
controls
applied
to
each
specific
tank,
for
example:
polypropylene
balls
=
PB;
wetting
agent
fume
suppressant
=
WAFS;
foam
blanket
=
FB;
Merlin
cover
=
MC;
tank
enclosure
=
TKE.
Do
not
include
control
devices
installed
on
the
ventilation
or
exhaust
system.
5
Indicate
use
of
covers.
If
you
replied
Merlin
cover
(
MC)
or
tank
enclosure
(
TKE)
above,
indicate
"
yes"
here
also.
Form
No.
7610­
32
8
Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
B.
Electroless
Plating
Tanks:
Please
provide
the
following
information
for
each
tank
in
which
an
electroless
plating,
anodizing
or
other
finish
containing
HAP
listed
in
Table
1
is
applied.

TABLE
3.
SUMMARY
OF
ELECTROLESS
PLATING,
ANODIZING,
AND
OTHER
FINISHING
TANK
INFORMATION
Tank
ID1
Finish
type
applied2
Tank
volume
(
gal)
Tank
surface
dimensions
(
ft
x
ft)
Type
of
bath
agitation3
Tank
emission
control
method4
Do
you
use
covers
on
your
tanks?
5
ENi­
1
ENi
300
4'
x
3'
air
None
Yes
Example
ENi­
2
ENi
300
4'
x
3'
air
MIST­
E
No
YOUR
DATA
1
For
example,
if
you
operate
three
electroless
nickel
plating
tanks,
they
could
be
numbered
ENi1,
ENi2,
and
ENi3.
2
For
example;
Alodine
Treatment
=
Ad,
Black
Oxide
=
BlOx,
Bright
Dip
=
BrD,
Cadmium
Strip
=
CdStr,
Chromate
Conversion
=
ChCv;
Electroless
Nickel
=
ENi;
Lacquering
=
Lq,
Magnesium
Treatment
=
Mg,
Sodium
Dichromate
Treat
=
NaDiCr,
Sulfuric
Acid
Aluminum
Anodize
=
SuAn,
Sulfuric
Acid
Strip
Anodize
=
SuStrAn.
3
Please
fill
in
Air
Agitation
=
AA,
Eductor
(
pump
mixing)
=
Ed,
Mechanical
Mixing
=
MM,
or
No
Agitation
=
None.
4
Indicate
only
controls
applied
to
each
specific
tank,
such
as:
polypropylene
balls
=
PB;
wetting
agent
fume
suppressant
=
WAFS;
foam
blanket
=
FB;
Merlin
cover
=
MC;
tank
enclosure
=
TKE.
Mist
eliminators
=
MIST­
E.
Do
not
include
control
devices
installed
on
exhaust
system.
5
Indicate
use
of
covers.
If
you
replied
Merlin
cover
(
MC)
or
tank
enclosure
(
TKE)
above,
indicate
"
yes"
here
also.

Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
9
C.
Thermal
Spraying:
Please
provide
the
following
information
for
each
thermal
or
metal
spraying
operation
in
which
any
material
containing
HAP
listed
in
Table
1
is
applied.

TABLE
4.
SUMMARY
OF
INFORMATION
ON
THERMAL
SPRAYING
Thermal
spraying
line
ID
1
Thermal
spraying
process
type2
Is
line
operated
in
booth
or
enclosure?
(
yes/
no)
Type
of
booth
or
enclosure
3
Is
operation
ventilated?
(
yes/
no)

FlS­
1
FlS
Yes
Partial
No
Example
HVOF­
1
HVOF
Yes
Complete
Yes
YOUR
DATA
1
For
each
thermal
spraying
process
line,
indicate
the
name
or
ID
number.
2
For
example,
flame
spraying
=
FlS;
electric
arc
spraying
=
EAS;
plasma
arc
spraying
=
PAS;
high­
velocity
oxy­
fuel
=
HVOF;
detonation
gun
=
DG;
Other
=
(
specify).
3
Indicate
if
booth
or
enclosure
is
partial
(
i.
e.,
open
on
one
or
more
sides)
or
if
enclosure
is
complete
(
enclosed
on
all
sides).

Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
10
D.
Finished
Products/
Materials:
Please
provide
the
following
information
for
products
or
materials
that
have
been
plated,
polished,
or
finished
at
your
facility
in
the
reporting
year
from
Table
1.
For
each
product,
also
indicate
the
base
metal
or
base
material
that
is
finished
and
the
ID
number
corresponding
to
the
tanks
from
Tables
2
or
3,
or
thermal
spraying
operation
from
Table
4,
that
are
used
to
finish
the
product.
If
the
specific
types
of
different
products
or
materials
are
too
numerous,
you
may
use
general
descriptors
of
the
products/
materials.

TABLE
5.
SUMMARY
OF
INFORMATION
ON
FINISHED
MATERIALS,
SUBSTRATES,
AND
PRODUCTS
General
type
of
product
or
substrate
finished
Base
metal
or
material
ID
No's
for
tanks
or
thermal
spraying
lines
Faucets,
plumbing
fixtures
steel
InNi­
1,
InNi­
2
Pump
housings,
blades,
other
pump
parts
steel
ENi­
2,
ENi­
2
Light
fixtures
steel,
aluminum
NiD­
1,
NiD­
2
Tractor
parts
steel
InNi­
1,
InNi­
2
Machine
rollers,
military
hardware
steel
Cd­
1,
Cd­
2
EXAMPLE
Electrical
connectors
copper
Ag­
1,
Ag­
2
YOUR
DATA
Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
11
IV.
HAP­
Containing
Plating
and
Polishing
Material
Data
Please
provide
the
following
information
for
each
HAP­
containing
plating
or
polishing
material
used
in
the
Reporting
Year
that
is
a
source
of
HAP
emissions
reported
in
Table
1.
If
records
for
the
full
Reporting
Year
are
not
readily
available,
provide
HAP­
containing
material
information
for
a
typical
quarter
in
the
Reporting
Year
and
check
 
that
data
are
for
one
quarter
of
the
Reporting
Year.
For
each
material,
either
submit
speciated
HAP
content
data
from
the
Material
Safety
Data
Sheet
[
MSDS]
or
provide
the
speciated
HAP
content
in
Columns
4
and
5
of
this
table.
DO
NOT
report
chromium
material
data
from
chromium
electroplating
operations
regulated
under
40
CFR
63,
subpart
N.
Reporting
Year:______
Data
are
for
Full
Reporting
Year:
~
Data
are
for
One
Quarter
~

(
Check
the
BOX
that
is
applicable)

TABLE
6.
HAP­
CONTAINING
MATERIAL
DATA
Material
name
or
ID1
Manufacturer
or
supplier
name
Amount
used2
Units3
HAP
(
From
Table
1)
Line
ID
No's.
4
Nickel
anodes
Acme
2,150
lbs
nickel
InNi­
1,
InNi­
2
Nickel
sulfate
Acme
628
lbs
nickel
ENi­
2,
ENi­
2
Cadmium
anodes
Industrial
Chem
2,810
lbs
cadmium
compound
Cd­
1,
Cd­
2
Potassium
silver
cyanide
Industrial
Chem
246
lbs
cyanide
compounds
Ag­
1,
Ag­
2
Example
Potassium
cyanide
Industrial
Chem
1,227
lbs
cyanide
compounds
Ag­
1,
Ag­
2
YOUR
DATA
1
Indicate
the
generic
name,
trade
name,
or
product
name
for
any
material
that
contains
one
or
more
HAP.
2
Indicate
the
total
amount
used
during
the
reporting
year.
3
For
example,
gallons
(
gal),
pounds
(
lbs).
4
Use
the
same
ID
No's
for
all
plating
and
polishing
tanks
listed
in
Tables
2
&
3,
and
thermal
spraying
lines
in
Table
4.

Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
12
V.
Ventilation
System
and
Emission
Control
System
Information
A.
Ventilation
Systems:
For
each
ventilation
system
that
exhausts
one
or
more
of
the
tanks
listed
in
Tables
2
or
3,
or
thermal
spraying
operation
listed
in
Table
4,
please
provide
the
following
information,
if
available.

TABLE
7.
LOCAL
VENTILATION
SYSTEM
DESIGN
AND
OPERATING
DATA
Ventilation
system
ID1
Tank
and
thermal
spray
line
ID
No's.
2
Exhaust
flow
rate
(
acfm)
3
Exhaust
duct
diameter
(
in)
4
Hood
location5
Type
of
emission
control6
V­
1
InNi­
1,
InNi­
2
6,600
18
side
none
V­
2
EN­
2
3,000
9
centerline
MPME
Example
V­
5
CD­
2
4,500
12
side
WS
YOUR
DATA
1
Indicate
the
name
or
identification
number
for
each
independent
ventilation
system.
2
List
the
ID
No's.
from
Tables
2
and
3
for
all
tanks
or
the
thermal
spray
line
ID
No's
from
Table
4
for
all
tanks
and
thermal
spraying
operations
that
are
exhausted
by
the
ventilation
system.
3
Indicate
the
exhaust
flow
rate
through
the
entire
system
in
units
of
actual
cubic
feet
per
minute.
4
Provide
the
diameter
of
the
duct
in
inches
at
the
inlet
to
the
control
device
or
at
the
exhaust
point.
5
For
ventilation
systems
that
exhaust
tanks,
indicate
if
the
tank
exhaust
hood
is
located
on
the
centerlines
or
sides
of
the
tanks.
6
Identify
the
type
of
emission
control
system
installed
on
the
ventilation
system.
For
example,
composite
mesh
pad
=
CMP;
mesh
pad
mist
eliminator
=
MPME;
packed
bed
scrubber
=
PBS;
high
efficiency
particulate
air
filter
=
HEPA;
wet
scrubber
(
other
than
packed
bed)
=
WS;
chevron­
blade
mist
eliminator
=
CBME.

Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
13
B.
Surfactant
or
Wetting
Agent
Fume
Suppressant:
For
each
tank
listed
in
Tables
2
or
3
in
which
a
foam
blanket,
surfactant
or
wetting
agent
fume
suppressant,
or
combination
foam
blanket/
surfactant
or
wetting
agent
is
used,
please
provide
the
following
information
and
submit
the
MSDS
for
each
surfactant
or
wetting
agent
used.

TABLE
8.
SURFACTANT
OR
WETTING
AGENT
FUME
SUPPRESSANTS
Tank
ID1
Surfactant
or
wetting
agent
name
Manufacturer/
supplier
Amount
used
in
reporting
year
(
units)
2
Annual
cost
of
surfactant
or
wetting
agent
($)
Bath
surface
tension
(
dynes/
cm)
3
NiI­
1
FS­
250
Electrochem
14
gallons
$
1,840
45
NiI­
2
FS­
250
Electrochem
14
gallons
$
1,840
45
Example
AgCN­
1
No
Foam
Ind.
Chem
8
gallons
$
160
NA
YOUR
DATA
1
List
the
ID
No's.
from
Tables
2
and
3
for
all
tanks
in
which
the
surfactant
or
wetting
agent
is
used.
2
Indicate
the
amount
used
during
the
reporting
year
and
units
(
e.
g.,
gallons,
pounds).
3
If
you
monitor
or
periodically
measure
the
bath
surface
tension,
indicate
the
surface
tension
in
units
of
dynes
per
centimeter.
Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
14
C.
Air
Pollution
Control
Devices
(
APCD):
For
each
ventilation
system
listed
in
Table
7
that
is
exhausted
to
an
emission
or
air
pollution
control
device,
please
provide
the
following
information
TABLE
9.
AIR
POLLUTION
CONTROL
DEVICE
(
APCD)
INFORMATION
Ventilation
system
ID1
APCD
Type2
Control
efficiency
(%)
3
Basis
for
control
efficiency4
V­
2
Sure
Control,
Inc.,
mesh
pad
mist
elimin
90
Manufacturer
Example
V­
5
Whirlwind,
Inc.,
wet
scrubber
85
Perf
test
YOUR
DATA
1
Indicate
the
ventilation
system
ID
No
or
name
from
Table
7.
2
List
the
type
of
air
pollution
control
device.
For
example,
composite
mesh
pad
=
CMP;
mesh
pad
mist
eliminator
=
MPME;
packed
bed
scrubber
=
PBS;
high
efficiency
particulate
air
filter
=
HEPA;
wet
scrubber
(
other
than
packed
bed)
=
WS;
chevron­
blade
mist
eliminator
=
CBME.
3
Indicate
the
control
efficiency
or
percent
reduction
in
percent.
4
Identify
the
basis
for
the
control
efficiency.
For
example,
manufacturer's
guarantee,
performance
test,
other
(
please
specify).

Please
make
blank
copies
of
this
table
for
use
as
work
sheets
and/
or
for
additional
room.
Form
No.
7610­
32
15
VI.
Pollution
Prevention1
A.
Steps
used
to
minimize
drag­
out2:

~
Surfactants
~
Drip
time
~
Air
blow
down
~
Other:
___________

B.
Describe
any
other
pollution
prevention
measures
(
e.
g.,
drain
board
between
tanks
angled
to
drain
dragout
back
to
the
previous
bath)
or
housekeeping
activities
that
reduce
air
or
water
pollution,
or
solid
waste.
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________

C.
Provide
costs
and
cost
basis
(
e.
g.,
cost
of
developing
and
implementing
work
practices
or
cost
of
substituting
a
non­
HAP
plating
finish
for
a
HAP­
containing
plating
finish)
of
work
practices
or
pollution
prevention
(
P2)
measures
currently
being
used:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________

D.
Provide
costs
and
cost
basis
for
P2
measures
evaluated
but
not
implemented
and
reason(
s)
why
they
were
not
implemented:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________

1
Pollution
prevention
means
any
practice
that
reduces
or
eliminates
the
creation
of
pollutants
through
increased
efficiency
in
the
use
of
raw
materials,
energy,
water,
or
other
resources.
Examples
include
substituting
a
hazardous
material
with
a
non­
hazardous
material,
or
a
process
change
that
eliminates
the
use
of
a
hazardous
material.

2
Dragout
refers
to
residual
plating
or
finishing
bath
solution
that
remains
on
parts
or
workpieces
after
they
are
removed
from
the
tank.
Form
No.
7610­
32
16
Attachment
1
List
of
Most
Common
Hazardous
Air
Pollutants
(
HAPs)
Reported
Emitted
from
Plating
and
Polishing
Facilities
in
SIC
Code
3471
CAS
Number
Chemical
Name
7782505
Chlorine
50000
Formaldehyde
7647010
Hydrochloric
acid
7664393
Hydrogen
Fluoride
67561
Methanol
7723140
Phosphorus
108883
Toluene
1330207
Xylenes
Cadmium
Compounds
Cobalt
Compounds
Chromium
Compounds
Cyanide
Compounds
Glycol
Ethers
Lead
Compounds
Manganese
Compounds
Nickel
Compounds
Form
No.
7610­
32
17
Attachment
2
Complete
List
of
Hazardous
Air
Pollutants
(
HAPs)

CAS
No.
Chemical
name
CAS
No.
Chemical
name
75070
Acetaldehyde
60355
Acetamide
75058
Acetonitrile
98862
Acetophenone
53963
2­
Acetylaminofluorine
107028
Acrolein
79061
Acrylamide
79107
Acrylic
acid
107131
Acrylonitrile
107051
Allyl
chloride
92671
4­
Aminobiphenyl
62533
Aniline
90040
o­
Anisidine
1332214
Asbestos
71432
Benzene
(
including
benzene
from
gasoline)
92875
Benzidine
98077
Benzotrichloride
100447
Benzyl
chloride
92524
Biphenyl
117817
Bis(
2­
ethylhexyl)
phthalate
(
DEHP)
542881
Bis(
chloromethyl)
ether
75252
Bromoform
106990
1,3­
Butadiene
156627
Calcium
cyanamide
133062
Captan
63252
Carbaryl
75150
Carbon
disulfide
56235
Carbon
tetrachloride
463581
Carbonyl
sulfide
120809
Catechol
133904
Chloramben
57749
Chlordane
7782505
Chlorine
79118
Chloroacetic
acid
532274
2­
Chloroacetophenone
108907
Chlorobenzene
510156
Chlorobenzilate
67663
Chloroform
107302
Chloromethyl
methyl
ether
126998
Chloroprene
1319773
Cresols/
Cresylic
acid
(
isomers
and
mixture)
95487
o­
Cresol
108394
m­
Cresol
106445
p­
Cresol
98828
Cumene
94757
2,4­
D,
salts
and
esters
3547044
DDE
334883
Diazomethane
132649
Dibenzofurans
96128
1,2­
Dibromo­
3­
chloropropane
84742
Dibutylphthalate
106467
1,4­
Dichlorobenzene(
p)
91941
3,3­
Dichlorobenzidene
111444
Dichloroethyl
ether
(
Bis(
2­
chloroethyl)
ether)
542756
1,3­
Dichloropropene
62737
Dichlorvos
111422
Diethanolamine
121697
N,
N­
Diethyl
aniline
(
N,
N­
Dimethylaniline)
64675
Diethyl
sulfate
119904
3,3­
Dimethoxybenzidine
60117
Dimethyl
aminoazobenzene
119937
3,3
U
­
Dimethyl
benzidine
79447
Dimethyl
carbamoyl
chloride
57147
1,1­
Dimethyl
hydrazine
68122
Dimethyl
formamide
131113
Dimethyl
phthalate
77781
Dimethyl
sulfate
534521
4,6­
Dinitro­
o­
cresol,
and
salts
51285
2,4­
Dinitrophenol
121142
2,4­
Dinitrotoluene
123911
1,4­
Dioxane
(
1,4­
Diethyleneoxide)
122667
1,2­
Diphenylhydrazine
106898
Epichlorohydrin
(
1­
Chloro­
2,3­
epoxypropane)
106887
1,2­
Epoxybutane
140885
Ethyl
acrylate
100414
Ethyl
benzene
51796
Ethyl
carbamate
(
Urethane)
75003
Ethyl
chloride
(
Chloroethane)
106934
Ethylene
dibromide
(
Dibromoethane)
107062
Ethylene
dichloride
(
1,2­
Dichloroethane)
107211
Ethylene
glycol
151564
Ethylene
imine
(
Aziridine)
75218
Ethylene
oxide
96457
Ethylene
thiourea
75343
Ethylidene
dichloride
(
1,1­
Dichloroethane)
50000
Formaldehyde
76448
Heptachlor
118741
Hexachlorobenzene
87683
Hexachlorobutadiene
77474
Hexachlorocyclopentadiene
67721
Hexachloroethane
822060
Hexamethylene­
1,6­
diisocyanate
680319
Hexamethylphosphoramide
110543
Hexane
302012
Hydrazine
7647010
Hydrochloric
acid
7664393
Hydrogen
fluoride
(
Hydrofluoric
acid)
123319
Hydroquinone
78591
Isophorone
58899
Lindane
(
all
isomers)
108316
Maleic
anhydride
List
of
Hazardous
Air
Pollutants
(
continued)

CAS
No.
Chemical
name
CAS
No.
Chemical
name
Form
No.
7610­
32
18
67561
Methanol
72435
Methoxychlor
74839
Methyl
bromide
(
Bromomethane)
74873
Methyl
chloride
(
Chloromethane)
71556
Methyl
chloroform
(
1,1,1­
Trichloroethane)
78933
Methyl
ethyl
ketone
(
2­
Butanone)
60344
Methyl
hydrazine
74884
Methyl
iodide
(
Iodomethane)
108101
Methyl
isobutyl
ketone
(
Hexone)
624839
Methyl
isocyanate
80626
Methyl
methacrylate
1634044
Methyl
tert
butyl
ether
101144
4,4­
Methylene
bis(
2­
chloroaniline)
75092
Methylene
chloride
(
Dichloromethane)
101688
Methylene
diphenyl
diisocyanate
(
MDI)
101779
4,4'­
Methylenedianiline
91203
Naphthalene
98953
Nitrobenzene
92933
4­
Nitrobiphenyl
100027
4­
Nitrophenol
79469
2­
Nitropropane
684935
N­
Nitroso­
N­
methylurea
62759
N­
Nitrosodimethylamine
59892
N­
Nitrosomorpholine
56382
Parathion
82688
Pentachloronitrobenzene
(
Quintobenzene)
87865
Pentachlorophenol
108952
Phenol
106503
p­
Phenylenediamine
75445
Phosgene
7803512
Phosphine
7723140
Phosphorus
85449
Phthalic
anhydride
1336363
Polychlorinated
biphenyls
(
Aroclors)
1120714
1,3­
Propane
sultone
57578
beta­
Propiolactone
123386
Propionaldehyde
114261
Propoxur
(
Baygon)
78875
Propylene
dichloride
(
1,2­
Dichloropropane)
75569
Propylene
oxide
75558
1,2­
Propylenimine
(
2­
Methyl
aziridine)
91225
Quinoline
106514
Quinone
100425
Styrene
96093
Styrene
oxide
1746016
2,3,7,8­
Tetrachlorodibenzo­
p­
dioxin
79345
1,1,2,2­
Tetrachloroethane
127184
Tetrachloroethylene
(
Perchloroethylene)
7550450
Titanium
tetrachloride
108883
Toluene
95807
2,4­
Toluene
diamine
584849
2,4­
Toluene
diisocyanate
95534
o­
Toluidine
8001352
Toxaphene
(
chlorinated
camphene)
120821
1,2,4­
Trichlorobenzene
79005
1,1,2­
Trichloroethane
79016
Trichloroethylene
95954
2,4,5­
Trichlorophenol
88062
2,4,6­
Trichlorophenol
121448
Triethylamine
1582098
Trifluralin
540841
2,2,4­
Trimethylpentane
108054
Vinyl
acetate
593602
Vinyl
bromide
75014
Vinyl
chloride
75354
Vinylidene
chloride
(
1,1­
Dichloroethylene)
1330207
Xylenes
(
isomers
and
mixture)
95476
o­
Xylenes
108383
m­
Xylenes
106423
p­
Xylenes
Form
No.
7610­
32
19
List
of
Hazardous
Air
Pollutants
(
continued)

CAS
No.
Chemical
name
0
Antimony
Compounds
0
Arsenic
Compounds
(
inorganic
including
arsine)
0
Beryllium
Compounds
0
Cadmium
Compounds
0
Chromium
Compounds
0
Cobalt
Compounds
0
Coke
Oven
Emissions
0
Cyanide
Compounds1
0
Glycol
ethers2
0
Lead
Compounds
0
Manganese
Compounds
0
Mercury
Compounds
0
Fine
mineral
fibers3
0
Nickel
Compounds
0
Polycylic
Organic
Matter4
0
Radionuclides
(
including
radon)
5
0
Selenium
Compounds
NOTE:
For
all
listings
above
which
contain
the
word
"
compounds"
and
for
glycol
ethers,
the
following
applies:
Unless
otherwise
specified,
these
listings
are
defined
as
including
any
unique
chemical
substance
that
contains
the
named
chemical
(
i.
e.,
antimony,
arsenic,
etc.)
as
part
of
that
chemical's
infrastructure.
1X'CN
where
X
=
H'
or
any
other
group
where
a
formal
dissociation
may
occur.
For
example
KCN
or
Ca(
CN)
2.
2Includes
mono­
and
di­
ethers
of
ethylene
glycol,
diethylene
glycol,
and
triethylene
glycol
R­(
OCH2CH2)
n­
OR'
where
n
=
1,
2,
or
3
R
=
alkyl
or
aryl
groups
R'
=
R,
H,
or
groups
which,
when
removed,
yield
glycol
ethers
with
the
structure:
R­(
OCH2CH)
n­
OH.
Polymers
are
excluded
from
the
glycol
category.
3Includes
mineral
fiber
emissions
from
facilities
manufacturing
or
processing
glass,
rock,
or
slag
fibers
(
or
other
mineral
derived
fibers)
of
average
diameter
1
micrometer
or
less.
4Includes
organic
compounds
with
more
than
one
benzene
ring,
and
which
have
a
boiling
point
greater
than
or
equal
to
100
E
C.
5A
type
of
atom
which
spontaneously
undergoes
radioactive
decay.