Document ID: EPA-HQ-OAR-2002-0076-0461
Agency: epa
Document Type: Supporting & Related Material
Title: 
Posted Date: 2005-06-15T04:00Z

Appendix
A
Information
used
in
setting
up
CALPUFF
runs
for
BART
including
example
input
files
for
CALMET,
CALPUFF,
and
CALPOST
A­
1
Table
A­
1
CALMET
settings
specific
to
the
Western
domain
Grid
origin
coordinates:
(
SW
corner
of
cell
1,1)

XMAP0
=
­
300.000000
(
km)
YMAP0
=
­
300.000000
(
km)
N.
Lat0
=
37.2454529
(
deg)
E.
Lon0
=
­
108.380447
(
deg)
W.
Lon0
=
108.380447
(
deg)

Denver
Upper­
Air
Stations
Time
Grid
Coordinates*
Name
ID
X
Y
Latitude
Longitude
Zone
X
Y
(
km)
(
km)
(
Deg)
(
Deg)
(
km)
(
km)

U1
23062
11.4
­
25.8
39.767
104.867
7.0
38.924
34.269
U2
23066
­
305.3
­
91.9
39.117
108.533
7.0
­
0.662
26.010
U3
24021
­
305.4
319.2
42.817
108.733
7.0
­
0.671
77.397
Denver
Surface
Stations
Time
Grid
Coordinates*
Name
ID
X
Y
Latitude
Longitude
Zone
X
Y
(
km)
(
km)
(
Deg)
(
Deg)
(
km)
(
km)

S1
23061
­
76.7
­
282.6
37.450
105.867
7.0
27.912
2.174
S2
23063
­
164.4
­
37.1
39.650
106.917
7.0
16.952
32.867
S3
23066
­
305.3
­
92.0
39.117
108.533
7.0
­
0.666
26.005
S4
93037
24.6
­
131.3
38.817
104.717
7.0
40.575
21.093
S5
93058
42.3
­
190.4
38.283
104.517
7.0
42.785
13.704
S6
94018
­
21.3
1.9
40.017
105.250
7.0
34.834
37.735
S7
23065
284.1
­
65.0
39.367
101.700
7.0
73.019
29.374
S8
24028
116.2
208.1
41.867
103.600
7.0
52.027
63.514
S9
24018
15.4
127.6
41.150
104.817
7.0
39.423
53.455
S10
24021
­
305.4
319.1
42.817
108.733
7.0
­
0.675
77.392
S11
24027
­
338.8
185.3
41.600
109.067
7.0
­
4.852
60.665
S12
24089
­
119.8
324.8
42.917
106.467
7.0
22.522
78.105
*
Origin
=
(
0,0)
A­
2
Table
A­
2
CALMET
settings
specific
to
the
Eastern
domain
Grid
origin
coordinates:
(
SW
corner
of
cell
1,1)
XMAP0
=
­
300.000000
(
km)
YMAP0
=
­
300.000000
(
km)
N.
Lat0
=
36.2467041
(
deg)
E.
Lon0
=
­
84.3368683
(
deg)
W.
Lon0
=
84.3368683
(
deg)

West
Virginia
Upper­
Air
Stations
Time
Grid
Coordinates*
Name
ID
X
Y
Latitude
Longitude
Zone
X
Y
(
km)
(
km)
(
Deg)
(
Deg)
(
km)
(
km)

U1
13723
94.6
­
323.1
36.083
79.950
5.0
49.329
­
2.891
U2
13840
­
260.9
95.0
39.817
84.050
5.0
4.882
49.378
U3
94823
66.4
166.7
40.500
80.217
5.0
45.794
58.342
U4
93734
305.8
4.1
38.983
77.467
5.0
75.730
38.006
U5
3860
­
135.4
­
69.1
38.367
82.550
5.0
20.579
28.866
West
Virginia
Surface
Stations
Time
Grid
Coordinates*
Name
ID
X
Y
Latitude
Longitude
Zone
X
Y
(
km)
(
km)
(
Deg)
(
Deg)
(
km)
(
km)

S1
14827
­
353.2
230.1
41.000
85.200
5.0
­
6.652
66.265
S2
93814
­
317.0
13.8
39.067
84.667
5.0
­
2.129
39.223
S3
93820
­
315.8
­
101.0
38.033
84.600
5.0
­
1.975
24.876
S4
13722
200.3
­
345.3
35.867
78.783
5.0
62.543
­
5.657
S5
13723
94.6
­
323.1
36.083
79.950
5.0
49.329
­
2.887
S6
14820
­
71.1
266.7
41.400
81.850
5.0
28.613
70.840
S7
14821
­
160.7
112.6
40.000
82.883
5.0
17.409
51.577
S8
14852
27.9
251.6
41.267
80.667
5.0
40.992
68.954
S9
14895
­
36.5
212.8
40.917
81.433
5.0
32.938
64.100
S10
93815
­
274.9
104.7
39.900
84.217
5.0
3.141
50.590
S11
94830
­
233.5
292.2
41.600
83.800
5.0
8.316
74.025
S12
4751
196.8
313.4
41.800
78.633
5.0
62.100
76.674
S13
14751
353.0
143.1
40.217
76.850
5.0
81.623
55.381
S14
14778
330.9
258.8
41.267
77.050
5.0
78.866
69.845
S15
94823
66.4
166.7
40.500
80.217
5.0
45.798
58.342
S16
13877
­
125.5
­
278.3
36.483
82.400
5.0
21.815
2.717
S17
13891
­
269.8
­
348.8
35.817
83.983
5.0
3.776
­
6.103
S18
13740
324.0
­
159.9
37.500
77.333
5.0
78.005
17.515
S19
13741
91.6
­
186.2
37.317
79.967
5.0
48.947
14.221
S20
93738
307.5
0.4
38.950
77.450
5.0
75.932
37.556
S21
3860
­
135.4
­
69.1
38.367
82.550
5.0
20.579
28.866
S22
13866
­
52.4
­
70.1
38.367
81.600
5.0
30.950
28.739
*
Origin
=
(
0,0)
A­
3
Table
A­
3
Example
CALMET
setup
for
Jan­
Feb
1990
for
the
Eastern
Domain
CALMET
Version:
5.53
Level:
030709
***********************************************************************************************************
***********************

Clock
time:
17:
42:
40
Date:
10­
15­
2004
Run
Title:
BART
analysis
for
Eastern
domain
using
1986­
90
meteorology
Domain
is
centered
over
West
Virginia
******

CALMET
MODEL
CONTROL
FILE
­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
0
­­
Input
and
Output
File
Names
Subgroup
(
a)
­­­­­­­­­­­­
Default
Name
Type
File
Name
­­­­­­­­­­­­
­­­­
­­­­­­­­­
GEO.
DAT
input
!
GEODAT
=
T:\
CALVIEW\
WVA\
GEO\
GEO.
DAT
!
SURF.
DAT
input
!
SRFDAT
=
T:\
CALVIEW\
WVA\
MET\
SURF.
DAT
!
PRECIP.
DAT
input
!
PRCDAT
=
T:\
CALVIEW\
WVA\
MET\
PRECIP.
DAT
!

CALMET.
LST
output
!
METLST
=
T:\
WVA\
CALMET\
1990\
JAN­
FEB.
LST
!
CALMET.
DAT
output
!
METDAT
=
T:\
WVA\
CALMET\
1990\
JAN­
FEB.
MET
!

Number
of
upper
air
stations
!
NUSTA
=
5
!
Number
of
overwater
met
station
!
NOWSTA
=
0
!

!
END!

Upper
air
files
(
one
per
station)
­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
Default
Name
Type
File
Name
­­­­­­­­­­­­
­­­­
­­­­­­­­­
UP1.
DAT
input
1
!
UPDAT
=
T:\
CALVIEW\
WVA\
MET\
UP_
13723.
DAT
!
!
END!
UP2.
DAT
input
2
!
UPDAT
=
T:\
CALVIEW\
WVA\
MET\
UP_
13840.
DAT
!
!
END!
UP3.
DAT
input
3
!
UPDAT
=
T:\
CALVIEW\
WVA\
MET\
UP_
94823.
DAT
!
!
END!
UP4.
DAT
input
4
!
UPDAT
=
T:\
CALVIEW\
WVA\
MET\
UP_
93734.
DAT
!
!
END!
UP5.
DAT
input
5
!
UPDAT
=
T:\
CALVIEW\
WVA\
MET\
UP_
3860.
DAT
!
!
END!

!
END!

INPUT
GROUP:
1
­­
General
run
control
parameters
­­­­­­­­­­­­­­

Starting
date:
Year
(
IBYR)
­­
No
default
!
IBYR
=
1990
!
Month
(
IBMO)
­­
No
default
!
IBMO
=
1
!
Day
(
IBDY)
­­
No
default
!
IBDY
=
1
!
Hour
(
IBHR)
­­
No
default
!
IBHR
=
1
!

Base
time
zone
(
IBTZ)
­­
No
default
!
IBTZ
=
5
!
PST
=
08,
MST
=
07
CST
=
06,
EST
=
05
Length
of
run
(
hours)
(
IRLG)
­­
No
default
!
IRLG
=
1416
!
A­
4
Table
A­
3
(
continued)

INPUT
GROUP:
2
­­
Map
Projection
and
Grid
control
parameters
­­­­­­­­­­­­­­

Projection
for
all
(
X,
Y):
­­­­­­­­­­­­­­­­­­­­­­­­­

Map
projection
!
PMAP
=
LCC
!
Lambert
Conformal
Conic
False
Easting
and
Northing
(
km)
at
the
projection
origin
(
FEAST)
Default=
0.0
!
FEAST
=
0
!
(
FNORTH)
Default=
0.0
!
FNORTH
=
0
!

Latitude
and
Longitude
(
decimal
degrees)
of
projection
origin
(
RLAT0)
No
Default
!
RLAT0
=
39.00N
!
(
RLON0)
No
Default
!
RLON0
=
81.00W
!

Matching
parallel(
s)
of
latitude
(
decimal
degrees)
for
projection
(
XLAT1)
No
Default
!
XLAT1
=
36.90N
!
(
XLAT2)
No
Default
!
XLAT2
=
41.10N
!

Datum­
region
­­­­­­­­­­­­

Datum­
region
for
output
coordinates
(
DATUM)
Default:
WGS­
G
!
DATUM
=
WGS­
G
!

Horizontal
grid
definition:
­­­­­­­­­­­­­­­­­­­­­­­­­­­

Rectangular
grid
defined
for
projection
PMAP,
with
X
the
Easting
and
Y
the
Northing
coordinate
No.
X
grid
cells
(
NX)
No
default
!
NX
=
75
!
No.
Y
grid
cells
(
NY)
No
default
!
NY
=
75
!

Grid
spacing
(
km)
No
default
!
DGRIDKM
=
8
!

Reference
grid
coordinate
of
SOUTHWEST
corner
of
grid
cell
(
1,1)

X
coordinate
(
km)
No
default
!
XORIGKM
=
­
300
!
Y
coordinate
(
km)
No
default
!
YORIGKM
=
­
300
!

Vertical
grid
definition:
­­­­­­­­­­­­­­­­­­­­­­­­­

No.
of
vertical
layers
(
NZ)
No
default
!
NZ
=
10
!

Cell
face
heights
(
m)

!
ZFACE
=
0.00,20.00,50.00,75.00,100.00,250.00,500.00,750.00,1000.00,2000.00,3000.00
!

!
END!
A­
5
Table
A­
3
(
continued)

INPUT
GROUP:
3
­­
Output
Options
­­­­­­­­­­­­­­

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
4
­­
Meteorological
data
options
­­­­­­­­­­­­­­

OBSERVATION
MODE
!
NOOBS
=
0
!

0
=
Use
surface,
overwater,
and
upper
air
stations
1
=
Use
surface
and
overwater
stations
(
no
upper
air
observations)
Use
MM5
for
upper
air
data
2
=
No
surface,
overwater,
or
upper
air
observations
Use
MM5
for
surface,
overwater,
and
upper
air
data
NUMBER
OF
SURFACE
&
PRECIP.
METEOROLOGICAL
STATIONS
Number
of
surface
stations
!
NSSTA
=
22
!
Number
of
precipitation
stations
!
NPSTA
=
0
!

CLOUD
DATA
OPTIONS
Gridded
cloud
fields:
!
ICLOUD
=
0
!

ICLOUD
=
0
­
Gridded
clouds
not
used
(
Default)
ICLOUD
=
1
­
Gridded
CLOUD.
DAT
generated
as
OUTPUT
ICLOUD
=
2
­
Gridded
CLOUD.
DAT
read
as
INPUT
ICLOUD
=
3
­
Gridded
cloud
cover
from
Prognostic
Rel.
Humidity
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
5
­­
Wind
Field
Options
and
Parameters
­­­­­­­­­­­­­­

RADIUS
OF
INFLUENCE
PARAMETERS
Maximum
radius
of
influence
over
land
in
surface
layer
(
km)
!
RMAX1
=
10
!
Maximum
radius
of
influence
over
land
above
surface
layer
(
km)
!
RMAX2
=
20
!
Maximum
radius
of
influence
over
water
(
km)
!
RMAX3
=
50
!

OTHER
WIND
FIELD
INPUT
PARAMETERS
Minimum
radius
of
influence
used
in
the
wind
field
interpolation
(
RMIN)
Default:
0.1
!
RMIN
=
0.1
!
Units:
km
Radius
of
influence
of
terrain
features
(
TERRAD)
No
default
!
TERRAD
=
100
!
Units:
km
Relative
weighting
of
the
first
guess
field
and
observations
in
the
SURFACE
layer
(
R1)
No
default
!
R1
=
5
!
(
R1
is
the
distance
from
an
Units:
km
observational
station
at
which
the
observation
and
first
guess
field
are
equally
weighted)
A­
6
Table
A­
3
(
continued)

Relative
weighting
of
the
first
guess
field
and
observations
in
the
layers
ALOFT
(
R2)
No
default
!
R2
=
5
!
(
R2
is
applied
in
the
upper
layers
Units:
km
in
the
same
manner
as
R1
is
used
in
the
surface
layer).

Relative
weighting
parameter
of
the
prognostic
wind
field
data
(
RPROG)
No
default
!
RPROG
=
0
!
(
Used
only
if
IPROG
=
1)
Units:
km
­­­­­­­­­­­­­­­­­­­­­­­­

Surface
met.
station
to
use
for
the
surface
temperature
(
ISURFT)
No
default
!
ISURFT
=
15
!
(
Must
be
a
value
from
1
to
NSSTA)
(
Used
only
if
IDIOPT1
=
0)
­­­­­­­­­­­­­­­­­­­­­­­­­­

Upper
air
station
to
use
for
the
domain­
scale
lapse
rate
(
IUPT)
No
default
!
IUPT
=
3
!
(
Must
be
a
value
from
1
to
NUSTA)
(
Used
only
if
IDIOPT2
=
0)
­­­­­­­­­­­­­­­­­­­­­­­­­­

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
6
­­
Mixing
Height,
Temperature
and
Precipitation
Parameters
­­­­­­­­­­­­­­

!
END!
A­
7
Table
A­
4
Example
CALPUFF
input
file
for
scenario
#
2
for
1990
Domain:
Western
Time
Zone:
7
Year:
1990
SOURCE:
EGU_
W#
2
INPUT
GROUP:
0
!
PUFLST
=
C:\
DENVER\
CALPUFF\
1990\
EGU_
w#
2.
LOG
!
!
CONDAT
=
C:\
DENVER\
CALPUFF\
1990\
EGU_
W#
2.
CON
!
!
VISDAT
=
C:\
DENVER\
CALPUFF\
1990\
EGU_
W#
2.
VIS
!

!
NMETDAT
=
6
!
!
END!

!
METDAT
=
T:\
DENVER\
CALMET\
1990\
JAN­
FEB.
DAT
!
!
END!
!
METDAT
=
T:\
DENVER\
CALMET\
1990\
MAR­
APR.
DAT
!
!
END!
!
METDAT
=
T:\
DENVER\
CALMET\
1990\
MAY­
JUN.
DAT
!
!
END!
!
METDAT
=
T:\
DENVER\
CALMET\
1990\
JUL­
AUG.
DAT
!
!
END!
!
METDAT
=
T:\
DENVER\
CALMET\
1990\
SEP­
OCT.
DAT
!
!
END!
!
METDAT
=
T:\
DENVER\
CALMET\
1990\
NOV­
DEC.
DAT
!
!
END!

INPUT
GROUP:
1
­­
General
run
control
parameters
!
XBTZ
=
7
!

!
METRUN
=
0
!
Run
time
period
as
follows:
!
IBYR
=
1990
!
!
IBMO
=
1
!
!
IBDY
=
1
!
!
IBHR
=
1
!
!
IRLG
=
8736
!

!
NSPEC
=
6
!
!
NSE
=
3
!
!
ITEST
=
2
!

Meteorological
Data
Format
(
METFM)
!
METFM
=
1
!

!
END!
FILE:
PUFF_
MID_
DENVER.
INP
INPUT
GROUP:
2
­­
Technical
options
­­­­­­­­­­­­­­

!
MSPLIT
=
0
!
Disable
puff
splitting
!
MWET
=
1
!
Enable
wet
removal
!
MDRY
=
1
!
Enable
dry
deposition
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
INPUT
GROUP:
3a,
3b
­­
Species
list
­­­­­­­­­­­­­­­­­­­

The
following
species
are
modeled:

!
CSPEC
=
SO2
!
!
END!
!
CSPEC
=
SO4
!
!
END!
!
CSPEC
=
NOX
!
!
END!
!
CSPEC
=
HNO3
!
!
END!
A­
8
Table
A­
4
(
continued)

Species
Modeled
?
Emitted
?
Deposited
?
Group
#

!
SO2
=
1,
1,
1,
0
!
!
SO4
=
1,
0,
2,
0
!
!
NOX
=
1,
1,
1,
0
!
!
HNO3
=
1,
0,
1,
0
!
!
NO3
=
1,
0,
2,
0
!
!
PM25
=
1,
1,
2,
0
!

!
END!

INPUT
GROUP:
4
­­
Map
Projection
and
Grid
control
parameters
­­­­­­­­­­­­­­

!
PMAP
=
LCC
!

Latitude
and
Longitude
(
decimal
degrees)
of
projection
origin
!
RLAT0
=
40N
!
!
RLON0
=
105W
!

Matching
parallel(
s)
of
latitude
(
decimal
degrees)
for
projection
!
XLAT1
=
37.9N
!
!
XLAT2
=
42.1N
!

METEOROLOGICAL
Grid:

!
NX
=
75
!
Number
of
X
grid
cells
!
NY
=
75
!
Number
of.
Y
grid
cells
!
NZ
=
10
!
Number
of
vertical
layers
!
DGRIDKM
=
8
!
Grid
spacing
(
km)

!
ZFACE
=
0.,
20,
50,
75,
100,
250,
500,
750,
1000,
2000,
3000
!
Cell
face
heights
(
m)

Reference
Coordinates
of
grid
cell(
1,
1):

!
XORIGKM
=
­
300.
!
!
YORIGKM
=
­
300.
!

COMPUTATIONAL
Grid:

!
IBCOMP
=
5
!
!
JBCOMP
=
5
!

!
IECOMP
=
71
!
!
JECOMP
=
71
!

SAMPLING
Grid
(
GRIDDED
RECEPTORS):

!
LSAMP
=
F
!
Disable
gridded
receptors
!
END!

INPUT
GROUP:
5
­­
Output
Options
­­­­­­­­­­­­­­

!
ICON
=
1
!
Concentrations
!
IDRY
=
0
!
Dry
Fluxes
A­
9
Table
A­
4
(
continued)

SPECIES
(
or
GROUP
for
combined
species)
LIST
FOR
OUTPUT
OPTIONS
­­­­
CONCENTRATIONS
­­­­
­­­­­­
DRY
FLUXES
­­­­­­
­­­­­­
WET
FLUXES
­­­­­­
­­
MASS
FLUX
­­
SPECIES
/
GROUP
PRINTED?
SAVED
ON
DISK?
PRINTED?
SAVED
ON
DISK?
PRINTED?
SAVED
ON
DISK?
SAVED
ON
DISK?
­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­
!
SO2
=
0,
1,
0,
0,
0,
0,
0
!
!
SO4
=
0,
1,
0,
0,
0,
0,
0
!
!
NOX
=
0,
1,
0,
0,
0,
0,
0
!
!
HNO3
=
0,
1,
0,
0,
0,
0,
0
!
!
NO3
=
0,
1,
0,
0,
0,
0,
0
!
!
PM25
=
0,
1,
0,
0,
0,
0,
0
!

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
6a,
6b,
&
6c
­­
Subgrid
scale
complex
terrain
inputs
­­­­­­­­­­­­­­­­­­­­­­­­­

!
MHILL
=
1
!
Hill
and
receptor
data
created
by
CTDM
processors
!
XCTDMKM
=
0.0
!
!
YCTDMKM
=
0.0
!

!
END
!

INPUT
GROUP:
7
­­
Chemical
parameters
for
dry
deposition
of
gases
­­­­­­­­­­­­­­

SPECIES
DIFFUSIVITY
ALPHA
STAR
REACTIVITY
MESOPHYLL
RESISTANCE
HENRY'S
LAW
COEFFICIENT
NAME
(
cm**
2/
s)
(
s/
cm)
(
dimensionless)
­­­­­­­
­­­­­­­­­­­
­­­­­­­­­­
­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­

!
SO2
=
0.1509,
1000.,
8.,
0.,
0.04
!
!
NOX
=
0.1656,
1.,
8.,
5.,
3.5
!
!
HNO3
=
0.1628,
1.,
18.,
0.,
0.00000008
!

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
8
­­
Size
parameters
for
dry
deposition
of
particles
­­­­­­­­­­­­­­

SPECIES
GEOMETRIC
MASS
MEAN
GEOMETRIC
STANDARD
NAME
DIAMETER
DEVIATION
(
microns)
(
microns)
­­­­­­­
­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­
!
SO4
=
0.48,
2.
!
!
NO3
=
0.48,
2.
!
!
PM25
=
0.48,
2.
!

!
END!
A­
10
Table
A­
4
(
continued)

INPUT
GROUP:
10
­­
Wet
Deposition
Parameters
­­­­­­­­­­­­­­­
Scavenging
Coefficient
­­
Units:
(
sec)**(­
1)

Pollutant
Liquid
Precip.
Frozen
Precip.
­­­­­­­­­
­­­­­­­­­­­­­­
­­­­­­­­­­­­­­
!
SO2
=
3.0E­
05,
0.0E00
!
!
SO4
=
1.0E­
04,
3.0E­
05
!
!
HNO3
=
6.0E­
05,
0.0E00
!
!
NO3
=
1.0E­
04,
3.0E­
05
!

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
INPUT
GROUP:
11
­­
Chemistry
Parameters
­­­­­­­­­­­­­­­
!
MOZ
=
0
!
Use
monthly
background
values
provided
for
ozone
!
BCKO3
=
12*
50
!
Monthly
average
ozone
(
ppb)

!
BCKNH3
=
12*
1.00
!
Monthly
average
ammonia
(
ppb)
!
BCKH2O2
=
12*
1.00
!
Monthly
average
H2O2
(
ppb)

!
RNITE1
=
0.2
!
Nightime
SO2
loss
rate
(%/
hr)
!
RNITE2
=
2.0
!
Nightime
NOX
loss
rate
(%/
hr)
!
RNITE3
=
2.0
!
Nightime
HNO3
loss
rate
(%/
hr)

!
MH2O2
=
0.0
!
H2O2
data
input
option
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
12
­­
Misc.
Dispersion
and
Computational
Parameters
­­­­­­­­­­­­­­­

Location
and
surface
parameters
for
single­
point
Met
data
files
!
ELEVIN
=
200.0
!
Elevation
(
msl)
!
XLATIN
=
39.00
!
Latitude
(
deg)
!
XLONIN
=
81.00
!
Longitude
(
deg)

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
INPUT
GROUPS:
13a,
13b,
13c,
13d
­­
Point
source
parameters
­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

!
NPT1
=
1
!
Number
of
point
sources
!
IPTU
=
4
!
Emission
units
(
4
=
tons/
yr)
!
NPT2
=
0
!
Number
of
pt
sources
with
variable
emissions
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
Input
Group
13
(
Point
source
data)

!
SRCNAM
=
EGU_
W#
2
!
emission
rates
(
tpy)
X
Y
hgt
elev
diam
vel
temp
dw
SO2
NOx
PMF
!
X
=
0.0,
0.0,
100,
200,
8.0,
27.0,
400,
0,
10000,
0.0,
6250.0,
0.0,
0.0,
50.0
!

!
FMFAC
=
1.0
!
A­
11
Table
A­
5
Example
CALPUFF
input
file
for
scenario
#
1
for
1990
Domain:
Eastern
Time
Zone:
5
Year:
1990
SOURCE:
EGU_
E#
1
INPUT
GROUP:
0
!
PUFLST
=
C:\
WVA\
CALPUFF\
1990\
EGU_
E#
1.
LOG
!
!
CONDAT
=
C:\
WVA\
CALPUFF\
1990\
EGU_
E#
1.
CON
!
!
VISDAT
=
C:\
WVA\
CALPUFF\
1990\
EGU_
E#
1.
VIS
!

!
NMETDAT
=
6
!
!
END!

!
METDAT
=
T:\
WVA\
CALMET\
1990\
JAN­
FEB.
DAT
!
!
END!
!
METDAT
=
T:\
WVA\
CALMET\
1990\
MAR­
APR.
DAT
!
!
END!
!
METDAT
=
T:\
WVA\
CALMET\
1990\
MAY­
JUN.
DAT
!
!
END!
!
METDAT
=
T:\
WVA\
CALMET\
1990\
JUL­
AUG.
DAT
!
!
END!
!
METDAT
=
T:\
WVA\
CALMET\
1990\
SEP­
OCT.
DAT
!
!
END!
!
METDAT
=
T:\
WVA\
CALMET\
1990\
NOV­
DEC.
DAT
!
!
END!

INPUT
GROUP:
1
­­
General
run
control
parameters
!
XBTZ
=
5
!

!
METRUN
=
0
!
Run
time
period
as
follows:
!
IBYR
=
1990
!
!
IBMO
=
1
!
!
IBDY
=
1
!
!
IBHR
=
1
!
!
IRLG
=
8736
!

!
NSPEC
=
6
!
!
NSE
=
3
!
!
ITEST
=
2
!

Meteorological
Data
Format
(
METFM)
!
METFM
=
1
!

!
END!
FILE:
PUFF_
MID_
WVA.
INP
INPUT
GROUP:
2
­­
Technical
options
­­­­­­­­­­­­­­

!
MSPLIT
=
0
!
Disable
puff
splitting
!
MWET
=
1
!
Enable
wet
removal
!
MDRY
=
1
!
Enable
dry
deposition
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
INPUT
GROUP:
3a,
3b
­­
Species
list
­­­­­­­­­­­­­­­­­­­

The
following
species
are
modeled:

!
CSPEC
=
SO2
!
!
END!
!
CSPEC
=
SO4
!
!
END!
!
CSPEC
=
NOX
!
!
END!
!
CSPEC
=
HNO3
!
!
END!
A­
12
Table
A­
5
(
continued)

Species
Modeled
?
Emitted
?
Deposited
?
Group
#

!
SO2
=
1,
1,
1,
0
!
!
SO4
=
1,
0,
2,
0
!
!
NOX
=
1,
1,
1,
0
!
!
HNO3
=
1,
0,
1,
0
!
!
NO3
=
1,
0,
2,
0
!
!
PM25
=
1,
1,
2,
0
!

!
END!

INPUT
GROUP:
4
­­
Map
Projection
and
Grid
control
parameters
­­­­­­­­­­­­­­

!
PMAP
=
LCC
!

Latitude
and
Longitude
(
decimal
degrees)
of
projection
origin
!
RLAT0
=
39N
!
!
RLON0
=
81W
!

Matching
parallel(
s)
of
latitude
(
decimal
degrees)
for
projection
!
XLAT1
=
36.9N
!
!
XLAT2
=
41.1N
!

METEOROLOGICAL
Grid:

!
NX
=
75
!
Number
of
X
grid
cells
!
NY
=
75
!
Number
of
Y
grid
cells
!
NZ
=
10
!
Number
of
vertical
layers
!
DGRIDKM
=
8
!
Grid
spacing
(
km)

!
ZFACE
=
0.,
20,
50,
75,
100,
250,
500,
750,
1000,
2000,
3000
!
Cell
face
heights
(
m)

Reference
Coordinates
of
grid
cell(
1,
1):

!
XORIGKM
=
­
300.
!
!
YORIGKM
=
­
300.
!

COMPUTATIONAL
Grid:

!
IBCOMP
=
5
!
!
JBCOMP
=
5
!

!
IECOMP
=
71
!
!
JECOMP
=
71
!

SAMPLING
Grid
(
GRIDDED
RECEPTORS):

!
LSAMP
=
F
!
Disable
gridded
receptors
!
END!

INPUT
GROUP:
5
­­
Output
Options
­­­­­­­­­­­­­­

!
ICON
=
1
!
Concentrations
!
IDRY
=
0
!
Dry
Fluxes
A­
13
Table
A­
5
(
continued)

SPECIES
(
or
GROUP
for
combined
species)
LIST
FOR
OUTPUT
OPTIONS
­­­­
CONCENTRATIONS
­­­­
­­­­­­
DRY
FLUXES
­­­­­­
­­­­­­
WET
FLUXES
­­­­­­
­­
MASS
FLUX
­­
SPECIES
/
GROUP
PRINTED?
SAVED
ON
DISK?
PRINTED?
SAVED
ON
DISK?
PRINTED?
SAVED
ON
DISK?
SAVED
ON
DISK?
­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­
!
SO2
=
0,
1,
0,
0,
0,
0,
0
!
!
SO4
=
0,
1,
0,
0,
0,
0,
0
!
!
NOX
=
0,
1,
0,
0,
0,
0,
0
!
!
HNO3
=
0,
1,
0,
0,
0,
0,
0
!
!
NO3
=
0,
1,
0,
0,
0,
0,
0
!
!
PM25
=
0,
1,
0,
0,
0,
0,
0
!

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
6a,
6b,
&
6c
­­
Subgrid
scale
complex
terrain
inputs
­­­­­­­­­­­­­­­­­­­­­­­­­

!
MHILL
=
1
!
Hill
and
receptor
data
created
by
CTDM
processors
!
XCTDMKM
=
0.0
!
!
YCTDMKM
=
0.0
!

!
END
!

INPUT
GROUP:
7
­­
Chemical
parameters
for
dry
deposition
of
gases
­­­­­­­­­­­­­­

SPECIES
DIFFUSIVITY
ALPHA
STAR
REACTIVITY
MESOPHYLL
RESISTANCE
HENRY'S
LAW
COEFFICIENT
NAME
(
cm**
2/
s)
(
s/
cm)
(
dimensionless)
­­­­­­­
­­­­­­­­­­­
­­­­­­­­­­
­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­­­­­­

!
SO2
=
0.1509,
1000.,
8.,
0.,
0.04
!
!
NOX
=
0.1656,
1.,
8.,
5.,
3.5
!
!
HNO3
=
0.1628,
1.,
18.,
0.,
0.00000008
!

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
8
­­
Size
parameters
for
dry
deposition
of
particles
­­­­­­­­­­­­­­

SPECIES
GEOMETRIC
MASS
MEAN
GEOMETRIC
STANDARD
NAME
DIAMETER
DEVIATION
(
microns)
(
microns)
­­­­­­­
­­­­­­­­­­­­­­­­­­­
­­­­­­­­­­­­­­­­­­
!
SO4
=
0.48,
2.
!
!
NO3
=
0.48,
2.
!
!
PM25
=
0.48,
2.
!

!
END!
A­
14
Table
A­
5
(
continued)

INPUT
GROUP:
10
­­
Wet
Deposition
Parameters
­­­­­­­­­­­­­­­
Scavenging
Coefficient
­­
Units:
(
sec)**(­
1)

Pollutant
Liquid
Precip.
Frozen
Precip.
­­­­­­­­­
­­­­­­­­­­­­­­
­­­­­­­­­­­­­­
!
SO2
=
3.0E­
05,
0.0E00
!
!
SO4
=
1.0E­
04,
3.0E­
05
!
!
HNO3
=
6.0E­
05,
0.0E00
!
!
NO3
=
1.0E­
04,
3.0E­
05
!

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
INPUT
GROUP:
11
­­
Chemistry
Parameters
­­­­­­­­­­­­­­­
!
MOZ
=
0
!
Use
monthly
background
values
provided
for
ozone
!
BCKO3
=
12*
50
!
Monthly
average
ozone
(
ppb)

!
BCKNH3
=
12*
0.50
!
Monthly
average
ammonia
(
ppb)
!
BCKH2O2
=
12*
1.00
!
Monthly
average
H2O2
(
ppb)

!
RNITE1
=
0.2
!
Nightime
SO2
loss
rate
(%/
hr)
!
RNITE2
=
2.0
!
Nightime
NOX
loss
rate
(%/
hr)
!
RNITE3
=
2.0
!
Nightime
HNO3
loss
rate
(%/
hr)

!
MH2O2
=
0.0
!
H2O2
data
input
option
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

INPUT
GROUP:
12
­­
Misc.
Dispersion
and
Computational
Parameters
­­­­­­­­­­­­­­­

Location
and
surface
parameters
for
single­
point
Met
data
files
!
ELEVIN
=
200.0
!
Elevation
(
msl)
!
XLATIN
=
39.00
!
Latitude
(
deg)
!
XLONIN
=
81.00
!
Longitude
(
deg)

!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
INPUT
GROUPS:
13a,
13b,
13c,
13d
­­
Point
source
parameters
­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

!
NPT1
=
1
!
Number
of
point
sources
!
IPTU
=
4
!
Emission
units
(
4
=
tons/
yr)
!
NPT2
=
0
!
Number
of
pt
sources
with
variable
emissions
!
END!

­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­
Input
Group
13
(
Point
source
data)

!
SRCNAM
=
EGU_
E#
1
!
emission
rates
(
tpy)
X
Y
hgt
elev
diam
vel
temp
dw
SO2
NOx
PMF
!
X
=
0.0,
0.0,
100,
200,
8.0,
27.0,
400,
0,
10000,
0.0,
3500.0,
0.0,
0.0,
50.0
!

!
FMFAC
=
1.0
!
A­
15
Table
A­
6
Receptors
used
in
CALPUFF
modeling
for
the
Western
and
Eastern
domains.
INPUT
GROUP
17
­­
Receptors
!
NREC
=
360
!
Number
of
non­
gridded
receptors
!
END!

The
following
receptors
are
laid
out
in
a
polar
grid
centered
on
0.00
km
East,
0.00
km
North;
i.
e.,
the
center
of
the
computational
domain.
There
are
10
rings
located
every
25
km
to
a
maximum
range
of
250
km.
Radials
are
located
every
10
degrees
beginning
at
10
degrees
and
ending
at
360
degrees.

Rec.
#
Dir.
Range
X
Y
Elev.
(
km)
(
km)
(
km)
(
m)

1
10
25
!
X
=
4.341,
24.620,
200
!
!
END!
2
20
25
!
X
=
8.551,
23.492,
200
!
!
END!
3
30
25
!
X
=
12.500,
21.651,
200
!
!
END!
4
40
25
!
X
=
16.070,
19.151,
200
!
!
END!
5
50
25
!
X
=
19.151,
16.070,
200
!
!
END!
6
60
25
!
X
=
21.651,
12.500,
200
!
!
END!
7
70
25
!
X
=
23.492,
8.551,
200
!
!
END!
8
80
25
!
X
=
24.620,
4.341,
200
!
!
END!
9
90
25
!
X
=
25.000,
0.000,
200
!
!
END!
10
100
25
!
X
=
24.620,
­
4.341,
200
!
!
END!
11
110
25
!
X
=
23.492,
­
8.551,
200
!
!
END!
12
120
25
!
X
=
21.651,
­
12.500,
200
!
!
END!
13
130
25
!
X
=
19.151,
­
16.070,
200
!
!
END!
14
140
25
!
X
=
16.070,
­
19.151,
200
!
!
END!
15
150
25
!
X
=
12.500,
­
21.651,
200
!
!
END!
16
160
25
!
X
=
8.551,
­
23.492,
200
!
!
END!
17
170
25
!
X
=
4.341,
­
24.620,
200
!
!
END!
18
180
25
!
X
=
0.000,
­
25.000,
200
!
!
END!
19
190
25
!
X
=
­
4.341,
­
24.620,
200
!
!
END!
20
200
25
!
X
=
­
8.551,
­
23.492,
200
!
!
END!
21
210
25
!
X
=
­
12.500,
­
21.651,
200
!
!
END!
22
220
25
!
X
=
­
16.070,
­
19.151,
200
!
!
END!
23
230
25
!
X
=
­
19.151,
­
16.070,
200
!
!
END!
24
240
25
!
X
=
­
21.651,
­
12.500,
200
!
!
END!
25
250
25
!
X
=
­
23.492,
­
8.551,
200
!
!
END!
26
260
25
!
X
=
­
24.620,
­
4.341,
200
!
!
END!
27
270
25
!
X
=
­
25.000,
0.000,
200
!
!
END!
28
280
25
!
X
=
­
24.620,
4.341,
200
!
!
END!
29
290
25
!
X
=
­
23.492,
8.551,
200
!
!
END!
30
300
25
!
X
=
­
21.651,
12.500,
200
!
!
END!
31
310
25
!
X
=
­
19.151,
16.070,
200
!
!
END!
32
320
25
!
X
=
­
16.070,
19.151,
200
!
!
END!
33
330
25
!
X
=
­
12.500,
21.651,
200
!
!
END!
34
340
25
!
X
=
­
8.550,
23.492,
200
!
!
END!
35
350
25
!
X
=
­
4.341,
24.620,
200
!
!
END!
36
360
25
!
X
=
0.000,
25.000,
200
!
!
END!

37
10
50
!
X
=
8.682,
49.240,
200
!
!
END!
38
20
50
!
X
=
17.101,
46.985,
200
!
!
END!
39
30
50
!
X
=
25.000,
43.301,
200
!
!
END!
40
40
50
!
X
=
32.139,
38.302,
200
!
!
END!
41
50
50
!
X
=
38.302,
32.139,
200
!
!
END!
42
60
50
!
X
=
43.301,
25.000,
200
!
!
END!
43
70
50
!
X
=
46.985,
17.101,
200
!
!
END!
44
80
50
!
X
=
49.240,
8.682,
200
!
!
END!
45
90
50
!
X
=
50.000,
0.000,
200
!
!
END!
46
100
50
!
X
=
49.240,
­
8.682,
200
!
!
END!
47
110
50
!
X
=
46.985,
­
17.101,
200
!
!
END!
48
120
50
!
X
=
43.301,
­
25.000,
200
!
!
END!
49
130
50
!
X
=
38.302,
­
32.139,
200
!
!
END!
50
140
50
!
X
=
32.139,
­
38.302,
200
!
!
END!
51
150
50
!
X
=
25.000,
­
43.301,
200
!
!
END!
52
160
50
!
X
=
17.101,
­
46.985,
200
!
!
END!
53
170
50
!
X
=
8.682,
­
49.240,
200
!
!
END!
54
180
50
!
X
=
0.000,
­
50.000,
200
!
!
END!
A­
16
Table
A­
6
(
continued)

55
190
50
!
X
=
­
8.682,
­
49.240,
200
!
!
END!
56
200
50
!
X
=
­
17.101,
­
46.985,
200
!
!
END!
57
210
50
!
X
=
­
25.000,
­
43.301,
200
!
!
END!
58
220
50
!
X
=
­
32.139,
­
38.302,
200
!
!
END!
59
230
50
!
X
=
­
38.302,
­
32.139,
200
!
!
END!
60
240
50
!
X
=
­
43.301,
­
25.000,
200
!
!
END!
61
250
50
!
X
=
­
46.985,
­
17.101,
200
!
!
END!
62
260
50
!
X
=
­
49.240,
­
8.682,
200
!
!
END!
63
270
50
!
X
=
­
50.000,
0.000,
200
!
!
END!
64
280
50
!
X
=
­
49.240,
8.682,
200
!
!
END!
65
290
50
!
X
=
­
46.985,
17.101,
200
!
!
END!
66
300
50
!
X
=
­
43.301,
25.000,
200
!
!
END!
67
310
50
!
X
=
­
38.302,
32.139,
200
!
!
END!
68
320
50
!
X
=
­
32.139,
38.302,
200
!
!
END!
69
330
50
!
X
=
­
25.000,
43.301,
200
!
!
END!
70
340
50
!
X
=
­
17.101,
46.985,
200
!
!
END!
71
350
50
!
X
=
­
8.682,
49.240,
200
!
!
END!
72
360
50
!
X
=
0.000,
50.000,
200
!
!
END!

73
10
75
!
X
=
13.024,
73.861,
200
!
!
END!
74
20
75
!
X
=
25.652,
70.477,
200
!
!
END!
75
30
75
!
X
=
37.500,
64.952,
200
!
!
END!
76
40
75
!
X
=
48.209,
57.453,
200
!
!
END!
77
50
75
!
X
=
57.453,
48.209,
200
!
!
END!
78
60
75
!
X
=
64.952,
37.500,
200
!
!
END!
79
70
75
!
X
=
70.477,
25.652,
200
!
!
END!
80
80
75
!
X
=
73.861,
13.024,
200
!
!
END!
81
90
75
!
X
=
75.000,
0.000,
200
!
!
END!
82
100
75
!
X
=
73.861,
­
13.024,
200
!
!
END!
83
110
75
!
X
=
70.477,
­
25.652,
200
!
!
END!
84
120
75
!
X
=
64.952,
­
37.500,
200
!
!
END!
85
130
75
!
X
=
57.453,
­
48.209,
200
!
!
END!
86
140
75
!
X
=
48.209,
­
57.453,
200
!
!
END!
87
150
75
!
X
=
37.500,
­
64.952,
200
!
!
END!
88
160
75
!
X
=
25.652,
­
70.477,
200
!
!
END!
89
170
75
!
X
=
13.024,
­
73.861,
200
!
!
END!
90
180
75
!
X
=
0.000,
­
75.000,
200
!
!
END!
91
190
75
!
X
=
­
13.024,
­
73.861,
200
!
!
END!
92
200
75
!
X
=
­
25.652,
­
70.477,
200
!
!
END!
93
210
75
!
X
=
­
37.500,
­
64.952,
200
!
!
END!
94
220
75
!
X
=
­
48.209,
­
57.453,
200
!
!
END!
95
230
75
!
X
=
­
57.453,
­
48.209,
200
!
!
END!
96
240
75
!
X
=
­
64.952,
­
37.500,
200
!
!
END!
97
250
75
!
X
=
­
70.477,
­
25.652,
200
!
!
END!
98
260
75
!
X
=
­
73.861,
­
13.024,
200
!
!
END!
99
270
75
!
X
=
­
75.000,
0.000,
200
!
!
END!
100
280
75
!
X
=
­
73.861,
13.024,
200
!
!
END!
101
290
75
!
X
=
­
70.477,
25.652,
200
!
!
END!
102
300
75
!
X
=
­
64.952,
37.500,
200
!
!
END!
103
310
75
!
X
=
­
57.453,
48.209,
200
!
!
END!
104
320
75
!
X
=
­
48.209,
57.453,
200
!
!
END!
105
330
75
!
X
=
­
37.500,
64.952,
200
!
!
END!
106
340
75
!
X
=
­
25.651,
70.477,
200
!
!
END!
107
350
75
!
X
=
­
13.024,
73.861,
200
!
!
END!
108
360
75
!
X
=
0.000,
75.000,
200
!
!
END!

109
10
100
!
X
=
17.365,
98.481,
200
!
!
END!
110
20
100
!
X
=
34.202,
93.969,
200
!
!
END!
111
30
100
!
X
=
50.000,
86.603,
200
!
!
END!
112
40
100
!
X
=
64.279,
76.604,
200
!
!
END!
113
50
100
!
X
=
76.604,
64.279,
200
!
!
END!
114
60
100
!
X
=
86.603,
50.000,
200
!
!
END!
115
70
100
!
X
=
93.969,
34.202,
200
!
!
END!
116
80
100
!
X
=
98.481,
17.365,
200
!
!
END!
117
90
100
!
X
=
100.000,
0.000,
200
!
!
END!
118
100
100
!
X
=
98.481,
­
17.365,
200
!
!
END!
119
110
100
!
X
=
93.969,
­
34.202,
200
!
!
END!
120
120
100
!
X
=
86.603,
­
50.000,
200
!
!
END!
121
130
100
!
X
=
76.604,
­
64.279,
200
!
!
END!
122
140
100
!
X
=
64.279,
­
76.604,
200
!
!
END!
123
150
100
!
X
=
50.000,
­
86.603,
200
!
!
END!
A­
17
Table
A­
6
(
continued)

125
170
100
!
X
=
17.365,
­
98.481,
200
!
!
END!
126
180
100
!
X
=
0.000,
­
100.000,
200
!
!
END!
127
190
100
!
X
=
­
17.365,
­
98.481,
200
!
!
END!
128
200
100
!
X
=
­
34.202,
­
93.969,
200
!
!
END!
129
210
100
!
X
=
­
50.000,
­
86.603,
200
!
!
END!
130
220
100
!
X
=
­
64.279,
­
76.604,
200
!
!
END!
131
230
100
!
X
=
­
76.604,
­
64.279,
200
!
!
END!
132
240
100
!
X
=
­
86.603,
­
50.000,
200
!
!
END!
133
250
100
!
X
=
­
93.969,
­
34.202,
200
!
!
END!
134
260
100
!
X
=
­
98.481,
­
17.365,
200
!
!
END!
135
270
100
!
X
=
­
100.000,
0.000,
200
!
!
END!
136
280
100
!
X
=
­
98.481,
17.365,
200
!
!
END!
137
290
100
!
X
=
­
93.969,
34.202,
200
!
!
END!
138
300
100
!
X
=
­
86.603,
50.000,
200
!
!
END!
139
310
100
!
X
=
­
76.604,
64.279,
200
!
!
END!
140
320
100
!
X
=
­
64.279,
76.604,
200
!
!
END!
141
330
100
!
X
=
­
50.000,
86.603,
200
!
!
END!
142
340
100
!
X
=
­
34.202,
93.969,
200
!
!
END!
143
350
100
!
X
=
­
17.365,
98.481,
200
!
!
END!
144
360
100
!
X
=
0.000,
100.000,
200
!
!
END!

145
10
125
!
X
=
21.706,
123.101,
200
!
!
END!
146
20
125
!
X
=
42.753,
117.462,
200
!
!
END!
147
30
125
!
X
=
62.500,
108.253,
200
!
!
END!
148
40
125
!
X
=
80.348,
95.756,
200
!
!
END!
149
50
125
!
X
=
95.756,
80.348,
200
!
!
END!
150
60
125
!
X
=
108.253,
62.500,
200
!
!
END!
151
70
125
!
X
=
117.462,
42.753,
200
!
!
END!
152
80
125
!
X
=
123.101,
21.706,
200
!
!
END!
153
90
125
!
X
=
125.000,
0.000,
200
!
!
END!
154
100
125
!
X
=
123.101,
­
21.706,
200
!
!
END!
155
110
125
!
X
=
117.462,
­
42.753,
200
!
!
END!
156
120
125
!
X
=
108.253,
­
62.500,
200
!
!
END!
157
130
125
!
X
=
95.756,
­
80.348,
200
!
!
END!
158
140
125
!
X
=
80.348,
­
95.756,
200
!
!
END!
159
150
125
!
X
=
62.500,
­
108.253,
200
!
!
END!
160
160
125
!
X
=
42.753,
­
117.462,
200
!
!
END!
161
170
125
!
X
=
21.706,
­
123.101,
200
!
!
END!
162
180
125
!
X
=
0.000,
­
125.000,
200
!
!
END!
163
190
125
!
X
=
­
21.706,
­
123.101,
200
!
!
END!
164
200
125
!
X
=
­
42.753,
­
117.462,
200
!
!
END!
165
210
125
!
X
=
­
62.500,
­
108.253,
200
!
!
END!
166
220
125
!
X
=
­
80.348,
­
95.756,
200
!
!
END!
167
230
125
!
X
=
­
95.756,
­
80.348,
200
!
!
END!
168
240
125
!
X
=
­
108.253,
­
62.500,
200
!
!
END!
169
250
125
!
X
=
­
117.462,
­
42.753,
200
!
!
END!
170
260
125
!
X
=
­
123.101,
­
21.706,
200
!
!
END!
171
270
125
!
X
=
­
125.000,
0.000,
200
!
!
END!
172
280
125
!
X
=
­
123.101,
21.706,
200
!
!
END!
173
290
125
!
X
=
­
117.462,
42.753,
200
!
!
END!
174
300
125
!
X
=
­
108.253,
62.500,
200
!
!
END!
175
310
125
!
X
=
­
95.756,
80.348,
200
!
!
END!
176
320
125
!
X
=
­
80.348,
95.756,
200
!
!
END!
177
330
125
!
X
=
­
62.500,
108.253,
200
!
!
END!
178
340
125
!
X
=
­
42.752,
117.462,
200
!
!
END!
179
350
125
!
X
=
­
21.706,
123.101,
200
!
!
END!
180
360
125
!
X
=
0.000,
125.000,
200
!
!
END!

181
10
150
!
X
=
26.047,
147.721,
200
!
!
END!
182
20
150
!
X
=
51.303,
140.954,
200
!
!
END!
183
30
150
!
X
=
75.000,
129.904,
200
!
!
END!
184
40
150
!
X
=
96.418,
114.907,
200
!
!
END!
185
50
150
!
X
=
114.907,
96.418,
200
!
!
END!
186
60
150
!
X
=
129.904,
75.000,
200
!
!
END!
187
70
150
!
X
=
140.954,
51.303,
200
!
!
END!
188
80
150
!
X
=
147.721,
26.047,
200
!
!
END!
189
90
150
!
X
=
150.000,
0.000,
200
!
!
END!
190
100
150
!
X
=
147.721,
­
26.047,
200
!
!
END!
191
110
150
!
X
=
140.954,
­
51.303,
200
!
!
END!
192
120
150
!
X
=
129.904,
­
75.000,
200
!
!
END!
193
130
150
!
X
=
114.907,
­
96.418,
200
!
!
END!
A­
18
Table
A­
6
(
continued)

195
150
150
!
X
=
75.000,
­
129.904,
200
!
!
END!
196
160
150
!
X
=
51.303,
­
140.954,
200
!
!
END!
197
170
150
!
X
=
26.047,
­
147.721,
200
!
!
END!
198
180
150
!
X
=
0.000,
­
150.000,
200
!
!
END!
199
190
150
!
X
=
­
26.047,
­
147.721,
200
!
!
END!
200
200
150
!
X
=
­
51.303,
­
140.954,
200
!
!
END!
201
210
150
!
X
=
­
75.000,
­
129.904,
200
!
!
END!
202
220
150
!
X
=
­
96.418,
­
114.907,
200
!
!
END!
203
230
150
!
X
=
­
114.907,
­
96.418,
200
!
!
END!
204
240
150
!
X
=
­
129.904,
­
75.000,
200
!
!
END!
205
250
150
!
X
=
­
140.954,
­
51.303,
200
!
!
END!
206
260
150
!
X
=
­
147.721,
­
26.047,
200
!
!
END!
207
270
150
!
X
=
­
150.000,
0.000,
200
!
!
END!
208
280
150
!
X
=
­
147.721,
26.047,
200
!
!
END!
209
290
150
!
X
=
­
140.954,
51.303,
200
!
!
END!
210
300
150
!
X
=
­
129.904,
75.000,
200
!
!
END!
211
310
150
!
X
=
­
114.907,
96.418,
200
!
!
END!
212
320
150
!
X
=
­
96.418,
114.907,
200
!
!
END!
213
330
150
!
X
=
­
75.000,
129.904,
200
!
!
END!
214
340
150
!
X
=
­
51.303,
140.954,
200
!
!
END!
215
350
150
!
X
=
­
26.047,
147.721,
200
!
!
END!
216
360
150
!
X
=
0.000,
150.000,
200
!
!
END!

217
10
175
!
X
=
30.388,
172.341,
200
!
!
END!
218
20
175
!
X
=
59.854,
164.446,
200
!
!
END!
219
30
175
!
X
=
87.500,
151.554,
200
!
!
END!
220
40
175
!
X
=
112.488,
134.058,
200
!
!
END!
221
50
175
!
X
=
134.058,
112.488,
200
!
!
END!
222
60
175
!
X
=
151.554,
87.500,
200
!
!
END!
223
70
175
!
X
=
164.446,
59.854,
200
!
!
END!
224
80
175
!
X
=
172.341,
30.388,
200
!
!
END!
225
90
175
!
X
=
175.000,
0.000,
200
!
!
END!
226
100
175
!
X
=
172.341,
­
30.388,
200
!
!
END!
227
110
175
!
X
=
164.446,
­
59.854,
200
!
!
END!
228
120
175
!
X
=
151.554,
­
87.500,
200
!
!
END!
229
130
175
!
X
=
134.058,
­
112.488,
200
!
!
END!
230
140
175
!
X
=
112.488,
­
134.058,
200
!
!
END!
231
150
175
!
X
=
87.500,
­
151.554,
200
!
!
END!
232
160
175
!
X
=
59.854,
­
164.446,
200
!
!
END!
233
170
175
!
X
=
30.388,
­
172.341,
200
!
!
END!
234
180
175
!
X
=
0.000,
­
175.000,
200
!
!
END!
235
190
175
!
X
=
­
30.388,
­
172.341,
200
!
!
END!
236
200
175
!
X
=
­
59.854,
­
164.446,
200
!
!
END!
237
210
175
!
X
=
­
87.500,
­
151.554,
200
!
!
END!
238
220
175
!
X
=
­
112.488,
­
134.058,
200
!
!
END!
239
230
175
!
X
=
­
134.058,
­
112.488,
200
!
!
END!
240
240
175
!
X
=
­
151.554,
­
87.500,
200
!
!
END!
241
250
175
!
X
=
­
164.446,
­
59.854,
200
!
!
END!
242
260
175
!
X
=
­
172.341,
­
30.388,
200
!
!
END!
243
270
175
!
X
=
­
175.000,
0.000,
200
!
!
END!
244
280
175
!
X
=
­
172.341,
30.388,
200
!
!
END!
245
290
175
!
X
=
­
164.446,
59.854,
200
!
!
END!
246
300
175
!
X
=
­
151.554,
87.500,
200
!
!
END!
247
310
175
!
X
=
­
134.058,
112.488,
200
!
!
END!
248
320
175
!
X
=
­
112.488,
134.058,
200
!
!
END!
249
330
175
!
X
=
­
87.500,
151.554,
200
!
!
END!
250
340
175
!
X
=
­
59.853,
164.446,
200
!
!
END!
251
350
175
!
X
=
­
30.388,
172.341,
200
!
!
END!
252
360
175
!
X
=
0.000,
175.000,
200
!
!
END!

253
10
200
!
X
=
34.730,
196.962,
200
!
!
END!
254
20
200
!
X
=
68.404,
187.939,
200
!
!
END!
255
30
200
!
X
=
100.000,
173.205,
200
!
!
END!
256
40
200
!
X
=
128.558,
153.209,
200
!
!
END!
257
50
200
!
X
=
153.209,
128.558,
200
!
!
END!
258
60
200
!
X
=
173.205,
100.000,
200
!
!
END!
259
70
200
!
X
=
187.939,
68.404,
200
!
!
END!
260
80
200
!
X
=
196.962,
34.730,
200
!
!
END!
261
90
200
!
X
=
200.000,
0.000,
200
!
!
END!
262
100
200
!
X
=
196.962,
­
34.730,
200
!
!
END!
263
110
200
!
X
=
187.939,
­
68.404,
200
!
!
END!
264
120
200
!
X
=
173.205,
­
100.000,
200
!
!
END!
A­
19
Table
A­
6
(
continued)

265
130
200
!
X
=
153.209,
­
128.558,
200
!
!
END!
266
140
200
!
X
=
128.558,
­
153.209,
200
!
!
END!
267
150
200
!
X
=
100.000,
­
173.205,
200
!
!
END!
268
160
200
!
X
=
68.404,
­
187.939,
200
!
!
END!
269
170
200
!
X
=
34.730,
­
196.962,
200
!
!
END!
270
180
200
!
X
=
0.000,
­
200.000,
200
!
!
END!
271
190
200
!
X
=
­
34.730,
­
196.962,
200
!
!
END!
272
200
200
!
X
=
­
68.404,
­
187.939,
200
!
!
END!
273
210
200
!
X
=
­
100.000,
­
173.205,
200
!
!
END!
274
220
200
!
X
=
­
128.558,
­
153.209,
200
!
!
END!
275
230
200
!
X
=
­
153.209,
­
128.558,
200
!
!
END!
276
240
200
!
X
=
­
173.205,
­
100.000,
200
!
!
END!
277
250
200
!
X
=
­
187.939,
­
68.404,
200
!
!
END!
278
260
200
!
X
=
­
196.962,
­
34.730,
200
!
!
END!
279
270
200
!
X
=
­
200.000,
0.000,
200
!
!
END!
280
280
200
!
X
=
­
196.962,
34.730,
200
!
!
END!
281
290
200
!
X
=
­
187.939,
68.404,
200
!
!
END!
282
300
200
!
X
=
­
173.205,
100.000,
200
!
!
END!
283
310
200
!
X
=
­
153.209,
128.558,
200
!
!
END!
284
320
200
!
X
=
­
128.557,
153.209,
200
!
!
END!
285
330
200
!
X
=
­
100.000,
173.205,
200
!
!
END!
286
340
200
!
X
=
­
68.404,
187.939,
200
!
!
END!
287
350
200
!
X
=
­
34.730,
196.962,
200
!
!
END!
288
360
200
!
X
=
0.000,
200.000,
200
!
!
END!

289
10
225
!
X
=
39.071,
221.582,
200
!
!
END!
290
20
225
!
X
=
76.955,
211.431,
200
!
!
END!
291
30
225
!
X
=
112.500,
194.856,
200
!
!
END!
292
40
225
!
X
=
144.627,
172.360,
200
!
!
END!
293
50
225
!
X
=
172.360,
144.627,
200
!
!
END!
294
60
225
!
X
=
194.856,
112.500,
200
!
!
END!
295
70
225
!
X
=
211.431,
76.955,
200
!
!
END!
296
80
225
!
X
=
221.582,
39.071,
200
!
!
END!
297
90
225
!
X
=
225.000,
0.000,
200
!
!
END!
298
100
225
!
X
=
221.582,
­
39.071,
200
!
!
END!
299
110
225
!
X
=
211.431,
­
76.955,
200
!
!
END!
300
120
225
!
X
=
194.856,
­
112.500,
200
!
!
END!
301
130
225
!
X
=
172.360,
­
144.627,
200
!
!
END!
302
140
225
!
X
=
144.627,
­
172.360,
200
!
!
END!
303
150
225
!
X
=
112.500,
­
194.856,
200
!
!
END!
304
160
225
!
X
=
76.955,
­
211.431,
200
!
!
END!
305
170
225
!
X
=
39.071,
­
221.582,
200
!
!
END!
306
180
225
!
X
=
0.000,
­
225.000,
200
!
!
END!
307
190
225
!
X
=
­
39.071,
­
221.582,
200
!
!
END!
308
200
225
!
X
=
­
76.955,
­
211.431,
200
!
!
END!
309
210
225
!
X
=
­
112.500,
­
194.856,
200
!
!
END!
310
220
225
!
X
=
­
144.627,
­
172.360,
200
!
!
END!
311
230
225
!
X
=
­
172.360,
­
144.627,
200
!
!
END!
312
240
225
!
X
=
­
194.856,
­
112.500,
200
!
!
END!
313
250
225
!
X
=
­
211.431,
­
76.955,
200
!
!
END!
314
260
225
!
X
=
­
221.582,
­
39.071,
200
!
!
END!
315
270
225
!
X
=
­
225.000,
0.000,
200
!
!
END!
316
280
225
!
X
=
­
221.582,
39.071,
200
!
!
END!
317
290
225
!
X
=
­
211.431,
76.955,
200
!
!
END!
318
300
225
!
X
=
­
194.856,
112.500,
200
!
!
END!
319
310
225
!
X
=
­
172.360,
144.627,
200
!
!
END!
320
320
225
!
X
=
­
144.627,
172.360,
200
!
!
END!
321
330
225
!
X
=
­
112.500,
194.856,
200
!
!
END!
322
340
225
!
X
=
­
76.954,
211.431,
200
!
!
END!
323
350
225
!
X
=
­
39.071,
221.582,
200
!
!
END!
324
360
225
!
X
=
0.000,
225.000,
200
!
!
END!

325
10
250
!
X
=
43.412,
246.202,
200
!
!
END!
326
20
250
!
X
=
85.505,
234.923,
200
!
!
END!
327
30
250
!
X
=
125.000,
216.506,
200
!
!
END!
328
40
250
!
X
=
160.697,
191.511,
200
!
!
END!
329
50
250
!
X
=
191.511,
160.697,
200
!
!
END!
330
60
250
!
X
=
216.506,
125.000,
200
!
!
END!
331
70
250
!
X
=
234.923,
85.505,
200
!
!
END!
332
80
250
!
X
=
246.202,
43.412,
200
!
!
END!
333
90
250
!
X
=
250.000,
0.000,
200
!
!
END!
A­
20
Table
A­
6
(
continued)

335
110
250
!
X
=
234.923,
­
85.505,
200
!
!
END!
336
120
250
!
X
=
216.506,
­
125.000,
200
!
!
END!
337
130
250
!
X
=
191.511,
­
160.697,
200
!
!
END!
338
140
250
!
X
=
160.697,
­
191.511,
200
!
!
END!
339
150
250
!
X
=
125.000,
­
216.506,
200
!
!
END!
340
160
250
!
X
=
85.505,
­
234.923,
200
!
!
END!
341
170
250
!
X
=
43.412,
­
246.202,
200
!
!
END!
342
180
250
!
X
=
0.000,
­
250.000,
200
!
!
END!
343
190
250
!
X
=
­
43.412,
­
246.202,
200
!
!
END!
344
200
250
!
X
=
­
85.505,
­
234.923,
200
!
!
END!
345
210
250
!
X
=
­
125.000,
­
216.506,
200
!
!
END!
346
220
250
!
X
=
­
160.697,
­
191.511,
200
!
!
END!
347
230
250
!
X
=
­
191.511,
­
160.697,
200
!
!
END!
348
240
250
!
X
=
­
216.506,
­
125.000,
200
!
!
END!
349
250
250
!
X
=
­
234.923,
­
85.505,
200
!
!
END!
350
260
250
!
X
=
­
246.202,
­
43.412,
200
!
!
END!
351
270
250
!
X
=
­
250.000,
0.000,
200
!
!
END!
352
280
250
!
X
=
­
246.202,
43.412,
200
!
!
END!
353
290
250
!
X
=
­
234.923,
85.505,
200
!
!
END!
354
300
250
!
X
=
­
216.506,
125.000,
200
!
!
END!
355
310
250
!
X
=
­
191.511,
160.697,
200
!
!
END!
356
320
250
!
X
=
­
160.697,
191.511,
200
!
!
END!
357
330
250
!
X
=
­
125.000,
216.506,
200
!
!
END!
358
340
250
!
X
=
­
85.505,
234.923,
200
!
!
END!
359
350
250
!
X
=
­
43.412,
246.202,
200
!
!
END!
360
360
250
!
X
=
0.000,
250.000,
200
!
!
END!

!
END!
A­
21
Table
A­
7
Example
CALPOST
input
file
for
scenario
#
2
for
receptors
at
200
km
for
1990
INPUT
GROUP:
0
!
MODDAT
=
C:\
DENVER\
CALPUFF\
1990\
EGU_
W#
2.
CON
!
!
VISDAT
=
C:\
DENVER\
CALPUFF\
1990\
EGU_
W#
2.
VIS
!
!
PSTLST
=
C:\
BART\
DENVER\
1990\
EGU_
W#
2_
R200.
D01
!
!
END!

INPUT
GROUP:
1
!
METRUN
=
1
!
!
ISYR
=
1990
!
!
ASPEC
=
VISIB
!
!
LG
=
F
!
!
LD
=
T
!
!
NDRECP
=
252*
0,
36*
1
!
Select
the
36
receptors
for
the
200
km
ring
!
END!

INPUT
GROUP:
2
Visibility
parameters
!
LVSO4
=
T
!
Include
modeled
sulfate
in
extinction
?
!
LVNO3
=
T
!
Include
modeled
nitrate
in
extinction
?
!
LVOC
=
F
!
Include
modeled
organic
carbon
in
extinction
?
!
LVPMC
=
F
!
Include
modeled
coarse
particulates
in
extinction
?
!
LVPMF
=
T
!
Include
modeled
fine
particulates
in
extinction
?
!
LVEC
=
F
!
Include
modeled
elemental
carbon
in
extinction
?

!
LVBK
=
F
!
Do
not
include
background
in
extinction
when
ranking
!
SPECPMC
=
PMC
!
Species
name
for
coarse
particulates
!
SPECPMF
=
PM25
!
Species
name
for
fine
particulates
Extinction
efficiencies
(
m^
2/
g)
are
assigned
as
follows:

!
EEPMC
=
0.6
!
Modeled
coarse
particulates
!
EEPMF
=
1.0
!
Modeled
fine
particulates
!
EEPMCBK
=
0.6
!
Background
coarse
particulates
!
EESO4
=
3.0
!
Ammonium
sulfate
!
EENO3
=
3.0
!
Ammonium
Nitrate
!
EEOC
=
4.0
!
Organic
carbon
!
EESOIL
=
1.0
!
Soil
dust
!
EEEC
=
10.0
!
Elemental
carbom
(
soot)

!
MVISBK
=
6
!
Method
used
to
obtain
background
extinction
1
=
Supply
single
light
extinction
and
hygroscopic
fraction
IWAQM
(
1993)
RH
adjustment
applied
to
hygroscopic
background
and
modeled
sulfate
and
nitrate.

2
=
Compute
extinction
from
speciated
PM
measurements
(
A)
(
A)
Hourly
f(
rh)
applied
to
observed
and
modeled
sulfate
and
nitrate.
F(
rh)
is
cappped
at
RHNAX.

6
=
Compute
extinction
from
speciated
PM
measurements
­
FLAG
RH
adjustment
factor
applied
to
observed
and
modeled
sulfate
and
nitrate.
A­
22
Table
A­
7
(
continued)

The
following
are
used
with
MVISBK
option
6
for
the
Western
domain
The
background
concentration
values
are
from
Table
2.
B­
2
in
the
FLAG
report.

!
RHFAC
=
12*
2.0
!
Annual
average
relative
humidity
adjustment
factor
f(
rh)
for
hygroscopic
species
!
BKSO4
=
12*
0.1
!
Background
ammonium
sulfate
concentration
!
BKNO3
=
12*
0.1
!
Background
ammonium
nitrate
concentration
!
BKPMC
=
12*
3.0
!
Background
coarse
particulate
concentration
!
BKOC
=
12*
0.5
!
Background
organic
carbon
concentration
!
BKSOIL
=
12*
0.5
!
Background
soil
dust
concentration
!
BKEC
=
12*
0.02
!
Background
elemental
carbon
concentration
!
BEXTRAY
=
10.0
!
Extinction
due
to
Rayleigh
scattering
(
1/
Mm)

!
END!

INPUT
GROUP:
3
Output
options
!
LPLT
=
F
!
Disable
plot­
file
output
!
LGRD
=
F
!
Disable
'
GRID'
format
for
plot
files
!
IPRTU
=
3
!
Set
concentration
units
to
micro­
gm
per
cubic
meter
!
L1HR
=
F
!
!
L3HR
=
F
!
!
L24HR
=
T
!
Enable
output
for
24­
hour
averages
!
LRUNL
=
T
!
Enable
output
for
length­
of­
run
averages
!
LT50
=
F
!
Disable
top­
50
table
!
LTOPN
=
T
!
Enable
"
Top
N"
table
!
NTOP
=
2
!
!
ITOP
=
1,
2
!

!
LEXCD
=
T
!
Enable
exceedance
tables
!
THRESH24
=
0.1
!
Set
exceedance
threshold
for
24­
hour
averages
!
END!
A­
23
Table
A­
8
Example
CALPOST
input
file
for
scenario
#
1
for
receptors
at
200
km
for
1990
INPUT
GROUP:
0
!
MODDAT
=
C:\
WVA\
CALPUFF\
1990\
EGU_
E#
1.
CON
!
!
VISDAT
=
C:\
WVA\
CALPUFF\
1990\
EGU_
E#
1.
VIS
!
!
PSTLST
=
C:\
BART\
WVA\
1990\
EGU_
E#
1_
R200.
D01
!
!
END!

INPUT
GROUP:
1
!
METRUN
=
1
!
!
ISYR
=
1990
!
!
ASPEC
=
VISIB
!
!
LG
=
F
!
!
LD
=
T
!
!
NDRECP
=
252*
0,
36*
1
!
Select
the
36
receptors
for
the
200
km
ring
!
END!

INPUT
GROUP:
2
Visibility
parameters
!
LVSO4
=
T
!
Include
modeled
sulfate
in
extinction
?
!
LVNO3
=
T
!
Include
modeled
nitrate
in
extinction
?
!
LVOC
=
F
!
Include
modeled
organic
carbon
in
extinction
?
!
LVPMC
=
F
!
Include
modeled
coarse
particulates
in
extinction
?
!
LVPMF
=
T
!
Include
modeled
fine
particulates
in
extinction
?
!
LVEC
=
F
!
Include
modeled
elemental
carbon
in
extinction
?

!
LVBK
=
F
!
Do
not
include
background
in
extinction
when
ranking
!
SPECPMC
=
PMC
!
Species
name
for
coarse
particulates
!
SPECPMF
=
PM25
!
Species
name
for
fine
particulates
Extinction
efficiencies
(
m^
2/
g)
are
assigned
as
follows:

!
EEPMC
=
0.6
!
Modeled
coarse
particulates
!
EEPMF
=
1.0
!
Modeled
fine
particulates
!
EEPMCBK
=
0.6
!
Background
coarse
particulates
!
EESO4
=
3.0
!
Ammonium
sulfate
!
EENO3
=
3.0
!
Ammonium
Nitrate
!
EEOC
=
4.0
!
Organic
carbon
!
EESOIL
=
1.0
!
Soil
dust
!
EEEC
=
10.0
!
Elemental
carbom
(
soot)

!
MVISBK
=
6
!
Method
used
to
obtain
background
extinction
1
=
Supply
single
light
extinction
and
hygroscopic
fraction
IWAQM
(
1993)
RH
adjustment
applied
to
hygroscopic
background
and
modeled
sulfate
and
nitrate.

2
=
Compute
extinction
from
speciated
PM
measurements
(
A)
(
A)
Hourly
f(
rh)
applied
to
observed
and
modeled
sulfate
and
nitrate.
F(
rh)
is
cappped
at
RHNAX.

6
=
Compute
extinction
from
speciated
PM
measurements
­
FLAG
RH
adjustment
factor
applied
to
observed
and
modeled
sulfate
and
nitrate.
Table
A­
8
(
continued)

The
following
are
used
with
MVISBK
option
6
for
the
Eastern
domain
The
background
concentration
values
are
from
Table
2.
B­
2
in
the
FLAG
report.

!
RHFAC
=
12*
3.0
!
Annual
average
relative
humidity
adjustment
factor
f(
rh)
for
hygroscopic
species
!
BKSO4
=
12*
0.2
!
Background
ammonium
sulfate
concentration
!
BKNO3
=
12*
0.1
!
Background
ammonium
nitrate
concentration
!
BKPMC
=
12*
3.0
!
Background
coarse
particulate
concentration
!
BKOC
=
12*
1.5
!
Background
organic
carbon
concentration
!
BKSOIL
=
12*
0.5
!
Background
soil
dust
concentration
!
BKEC
=
12*
0.02
!
Background
elemental
carbon
concentration
!
BEXTRAY
=
10.0
!
Extinction
due
to
Rayleigh
scattering
(
1/
Mm)

!
END!

INPUT
GROUP:
3
Output
options
!
LPLT
=
F
!
Disable
plot­
file
output
!
LGRD
=
F
!
Disable
'
GRID'
format
for
plot
files
!
IPRTU
=
3
!
Set
concentration
units
to
micro­
gm
per
cubic
meter
!
L1HR
=
F
!
!
L3HR
=
F
!
!
L24HR
=
T
!
Enable
output
for
24­
hour
averages
!
LRUNL
=
T
!
Enable
output
for
length­
of­
run
averages
!
LT50
=
F
!
Disable
top­
50
table
!
LTOPN
=
T
!
Enable
"
Top
N"
table
!
NTOP
=
2
!
!
ITOP
=
1,
2
!

!
LEXCD
=
T
!
Enable
exceedance
tables
!
THRESH24
=
0.1
!
Set
exceedance
threshold
for
24­
hour
averages
!
END!