-------
APPENDIX E
REGIONAL STATIONARY SOURCE COMBUSTION CONTROLS
This appendix presents state and local standards for new and
existing stationary combustion sources. This information was obtained
through contacts with local regulatory agencies and from the Environmental
Reporter (Reference E-l). Standards for new sources which are the same as
the Federal NSPS (Table 4-9) are not listed. Table 4-12 of Section 4.4.2
shows the impact of these controls. In 1974, controls of stationary
NO sources caused only an estimated 1.6 percent reduction in NO .
x x
E-l
-------
TABLE E-l. REGIONAL STATIONARY SOURCE COMBUSTION CONTROLS
REGION
NEW
ENGLAND
MIDDLE
ATLANTIC
SOUTH
ATLANTIC
STATE
CONNECTICUT
VERMONT
NEW YORK
New York
City
DELAWARE
New Castle
Co.
DISTRICT OF
COLUMBIA
FLORIDA
Tampa
MARYLAND
NORTH
CAROLINA
EQUIPMENT3
NEW OR HEAT INPUT
EXISTING TYPE CAPACITY0
Exist- Fuel >73 (250)
ing burning
New Fuel 1.5-73
burning (5-250)
Exist- Fuel "
ing burning
All GT
New Combustion >73 (250)
New GT >73 (250)
All GT, ICT 1?3 (250)
All Boilers >147.5 (500)
All Steam >147 (500)
generators
Exist- Steam >29 (100)
ing generators
Exist- Steam >2.9 (10)
ing boilers
• New Fuel ^73 (250)
burning
Exist- Boilers >73 (250)
ing
1
STANDARD
GAS OIL COAL
FIRED FIRED FIRED
86.1 (0.2) 129 (0.3) 387.3 (0.9)
86.1 (0.2) 129 (0.3) 301 (0.7)
86.1 (0.2) 129 (0.3) 387.3 (0.9)
387.3 (0.9) 387.3 (0.9) 387.3 (0.9)
129 (0.3)
. 129 (0.3)
86.1 (0.2) 129 (0.3)
73.2 (0.17) 77.5 (0.18) 86.1 (0.2)
86.1 (0.2) 129 (0.3) 129 (0.3)
86.1 (0.2) 129 (0.3) 301 (0.7)
86.1 (0.2) 129 (0.3) 301. (0.7)
86.1 (0.2) 129 (0.3) 215.2 (0.5)
258.2 (0.6) 258,2 (0.6) 559.4 (1.3)
EFFECTIVE
DATE
7/1/71
7/1/73
7/1/76
7/1/76
7/1/72
COMMENTS
Except GT, 1C
Except GT, 1C
Except GT, 1C; variances
permi tted
Except GT
Except for certain
sources governed by
operation permit
Except lignite
Applies to Priority I
AQCR's only
m
i
ro
aGT refers to gas turbines; 1C refers to reciprocating internal combustion engines
bUnless stated otherwise, units are ng/J (Ib/HBtu)
cUnless stated otherwise, units are MW (MBtu/hr)
-------
TABLE E-l. Continued
RtGION
WEST-
SOUTH-
rruToAi
I* Cn 1 l\nL
EAST-
NORTH-
CENTRAL
•
STATE
OKLAHOMA
TEXAS
Dallas
Forth Worth
& Houston-
Galveston
ACQR'S
ILLINOIS
Lake, Mill,
Ou Page,
Me Henry,
Kara,
Grundy,
Kendall,
Kankakee,
Macon,
St. Clair,
Madison Cos.
Cook Co.
INDIANA
OHIO
tOUII'MtNla
NEW OR 1 HEAT INPUT
EXISTING TYPE CAPACITY0
New Fuel ^52.75 (50)
burning
All Steam >272,200
generators kg/hr max
(> 600, 000
Ibs/hr max)
continuous
capacity
Opposed
fired
Front
fired
Tangential
fired
Exist- Fuel >73 (250)
ing combustion
New Fuel ^59 (200)
combustion
Exist- Fuel
ing combustion 2.59 (200)
Exist- Fuel ^73 (250)
ing burning
Exist- Boilers >73 (250)
ing
STftNliAKU1'
GAS OIL COAL
FIRED FIRED FIRED
86.1 (0.2) 129 (0.3) 301 (0.7)
301 (0.7)
215.2 (0.5)
107.6 (0.25)
129 (0.3) 129 (0.3) 387.3 (0.9)
86.1 (0.2) 129 (0.3) 301 (0.7)
129 (0.3) 129 (0.3) 387.3 (0.9)
86.1 (0.2) 129 (0.3) 301 (0.7)
86.1 (0.2) 129 (0.3) 387.3 (0.9)
i
rrrr/~T]ur
Er r LC i 1 Vt
DATE
8/31/72
COMMENTS
Except cyclone &
horizonatally opposed
fired boilers burn-
ing solid fuel
i it
Applies to "Priority
iasin A" only - none
at present
Applies only to
'riority I regions
I
CO
aGT refers to gas turbines; 1C refers to reciprocating internal combustion engines
bUnless stated otherwise, units are ng/J (Ib/HBtu)
cUnless stated otherwise, units are MW (MBtu/hr)
-------
TABLE E-l. Continued
REGION
WEST-
NORTH-
rFNTRAI
MOUNTAIN
STATE
MINNESOTA
SOUTH
DAKOTA
NEW MEXICO
WYOMING
tQUI('MtNld
NEW OR 1 ! HEAT INPUT
EXISTING ' TYPE ] CAPACITY0
Exist- Boilers '73 (250)
ing
AH Fuel
burning
New Coal >73 (250)
burning
Exist- Coal >73 (250)
ing burning
New Gas > 1 . 055, 000
burning GJ/yr
(1,000,000
MBtu/yr)
Exist- Gas
ing burning
All Oil
burning
New Gas
burning
Exist- Gas
ing burning
New Oil 10.29 (1)
burning
New Oil <0.29 (1)
burning
Exist- Oil i?3 (250)
ing burning
Exist- Oil <73 (250)
ing burning
New Solid
fired
equip.
Exist- Solid
ing fired
equip.
ilANUAHu
GAS OIL CUAL
FIRED F1REO HRED
129 (0.3) 172.1 (0.4)
86.1 (0.2) 129 (0.3)
193.6 (0.45)
301 (0.7)
66.1 (0.2) 301 (0.7)
129 (0.3)
129 (0.3)
86.1 (0.2)
99 (0.23)
129 (0.3)
258.2 (0.6)
197.9 (0.45)
258.2 (0.6)
301 (0.7)
322.7 (0.75)
DATE
12/31/74
12/31/74
12/31/74
COMMENTS
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
except lignite
*GT refers to gas turbines; 1C refers to reciprocating Internal combustion engines
bUnless stated otherwise, units are ng/J (Ib/MBtu)
cunless it*ted otherwise, units are 1*1 (MBtu/hr)
-------
1ABLE E-1. Continued
RfGlON
PACIFIC
STATE
CALIFORNIA11
Bay Area APCD
Monterey Bay
San Diego
San Joaquin
Kern Co.
Santa
Barbara APCO
Cos. in SCAPCD:
LA Co.e
Orange Co.
lyuifMiNi4
NtW OR ' HLAI INPUT
EXISTING TYPE CAPACITY
New Heat >73 (250)
transfer
All Heat >513
transfer (1,750)
New Fuel
burning
All Fuel >440
burning (1,500)
All Fuel >.15 (50)
burning
New Fuel
burning
New Fuel >520
burning (1,775)
New Fuel
burning
New Fuel
burning
Any Fuel >520
burning (1,775)
All Equip. >520
(1.775)
All Equip. >520
(1.775)
New Equip. >73 (250)
Exist- Equip. 147-630
ing (500-2.150)
Exist- Equip. >630
ing (2,150)
Exist- Equip. >630
ing (2.150)
Exist- Equip.
ing
jUNI)l\Klt''
GAS 1 Oil 1 COAL
FIRED 1 F1RLO MRID
1
125 ppra 225 ppm
175 ppm 300 ppm
64 kg/hrf 64 kg/hrf 64 kg/hrf
225 ppm 225 ppm/hr
125 ppm 225 ppm 225 ppm
G4 kg/hrf 64 kg/hrf 64 kg/hrf
125 ppm 225 ppm 225 ppm
64 kg/hrf 64 kg/hrf 64 kg/hrf
64 kg/hrf 64 kg/hrf 64 kg/hrf
125 ppm 225 ppm
225 ppm 325 ppm _
125 ppm 225 ppm
125 ppm 225 ppm
225 ppm 325 ppm
225 ppm 325 ppm
225 ppm 325 ppm
125 ppm 225 ppm
rt r r r T i wr
LI * f- I 1 V t
DATE
4/19/75
9/16/76
1/1/75
1/1/75
12/31/71
12/31/74
12/31/72
12/31/72
12/31/72
12/31/75
COmtNTS
SGT refers to gas turbines; 1C refers to reciprocating internal combustion engines
Unless stated otherwise, units are ng/J (Ib/MBtu)
cUnless stated otherwise, units are MH (HBtu/hr)
All ppm standards are at 3 percent 0?
eftules put into effect before SCAPCD was formed and replaced by SCAPCU rules
f!40 Ibs/hr
-------
TABLE E-l. Concluded
REGION
PACIFIC
(Contin-
ued)
STATE
San
Bernardino
Co.*
Riverside
Co.*
SCAPCD
Ventura Co.
APCD
1 QU 1 PMl N 1 d
NEW OR J HIAT INPUT
EXISTING j TYPE CAPACITY
Exist-
ing
Exist-
ing
Exist-
ing
Exist-
ing
Exist-
ing
New
ATI
All
AIT
All
New
New
All
All
Equip.
Steam .
generators
Equip.
Equip.
Equip.
Equip.
Fuel
burning
Fuel
burning
Steam
generating
Fuel
burning
Fuel
burning
Fuel
burning
Fuel
burning
Fuel
burning
>520
(1.775)
147-520
(500-1,775)
>205 (700)
>205 (700)
>520
(1.775)
523-629
(1,786-2.143)
>628
(2.143)
>163 (555)
161-523
(550-1,786)
>73 (250)
73-630
(250-2.150)
>630
(2.150)
SIANUA«Ob
GAS
F1RIO
125 ppm
125 ppm
225 ppm
125 ppm
125 ppm
64 kg/hrf
225 ppm
125 ppm
125 ppm
300 ppm
64 kg/hrf
125 ppm
250 ppm
125 ppm
OIL
FIRED
225 ppm
225 ppm
325 ppm
225 ppm
225 ppm
64 kg/hrf
325 ppm
225 ppm
225 ppm
400 ppm
64 kg/hrf
225 ppm
250 ppm
225 ppm
COAL
FIRED
64 kg/hrf
325 ppm
225 ppm
225 ppm
400 ppm
64 kg/hrf
250 ppm
EFFECTIVE
DATE
1/1/75
1/1/75
12/31/71
12/31/74
1/1/75
1/1/77
COtWENIS
Applies to West Central
Area Only
Applies to West Central
Area Only
Applies to Balance of
County
Except Peaking Units
at Kandalay
aGT refers to gas turbines; 1C refers to reciprocating internal combustion engines
bUnless stated otherwise, units are ng/J (Ib/MBtu)
cUnless stated otherwise, units are T1W (MBtu/hr)
dAll ppm standards are at 3 percent 0?
eRules put into effect before SCAPCD was formed and replaced by SCAPCU rules
-------
REFERENCES FOR APPENDIX E
E-l. Environment Reporter, State Air Laws (2V.) Bureau of National
Affairs, Inc., Washington, D.C.
E-7
-------
APPENDIX F
NATIONAL SOURCE POLLUTION POTENTIAL ASSESSMENT FOR 1974
Appendix F presents the national source pollution potential
assessment for 1974. This assessment was generated using the Source
Analysis Model (SAM) developed in Section 5.1. The data used in this
assessment is discussed in Section 5.2. This assessment is based on the
reference high nuclear energy projection scenario described in
Section 3.4.1.
This assessment for 1974 suggests that coal-fired utilities and '
stokers are the most serious sources of pollution potential at present.
Beryllium is the most deleterious pollutant, having a single pollutant
impact factor two order of magnitude larger than other pollutants. Cyclone
boilers represent the most significant single NO source. Finally,
J\
opposed wall coal-fired boilers have the highest single source pollution
potential. For a complete discussion of the results summarized here and the
conclusions of the source analysis modeling for 1974, refer to Sections 5.3
and 5.4 respectively..
It should be noted here that this assessment is based on incomplete
data in some areas. The health effect values are preliminary, denoting
ambient concentrations at which continuous exposure should be investigated
rather than indicating absolute standards. Also, POM and trace element data
are highly variable depending on combustion conditions and fuel composition.
F-l
-------
Thus, the assessment listing presented here should be considered as an
indicator of possibly serious pollution sources, rather than as an absolute
ranking of pollution severity.
F-2
-------
TABLE F-l. NATIONAL POLLUTION POTENTIAL ASSESSMENT FOR STATIONARY COMBUSTION SOURCES IN 1974
INVERSION HEIGHT
(Ml
1900.
197H .. IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP. -
IM/S) IP/KHJt
SECTOR 1 - UTILITY BOILERS
I
co
CONSUMPTIONS TOTAL
SINGLE SOURCE
2.6211 (1E1S KU/YRI
.1124-01 (1E15 KJ/YRI
POLLUTimt
NOX
sox
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
Co
cu
PB
MN
NATURAL
.9824+09
.l!8+ll
.1529-01*
.1991-02*
.7322+10
.3651-01*
.5308*00*
.2844+00*
.1336+13
.2429+00*
.3491*10
.5778+00*
.4766+08
.8637+00*
.7074-01*
RURAL
.3224+10
.2434*11
.1800*03*
.2502+01*
.4097+11
.1677+00*
.4531+01*
.8677+00*
.1336+13
.2429+00*
.5828+10
.5778+00*
.3339+09
.6141+01*
.7914-01*
URBAN
.5216+10
.3617+11
.1840+03*
.4002*01*
.4726+11
.2482*00*
.7031*01*
.1368+01*
.1672*13
.2429+00*
.1036+11
.7478+00*
.2918+09
.4309+02*
.1279+00*
TOTAL
.13677+13
.14192+13
EQUIP TYPE 101 - TANGENTIAL BOILERS
FRACTION: RURAL s .390
UKBAN = .410
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEI6HT = 180,0 IM>
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
.19631+13
22.34 URBAN POPL. = 359.7
SP/KK2I
FUEL TYPE 2 -
CONTROLS: NOX a
SOX =
PaRTICULATES s
NATURAL RURAL
.5991*00* .5991+00*
.1058-01* ,1058-01*
.7497+08 .1121*09
.5276*00* .5562*00*
.4142+00* .1927*01*
.3830-01* .3630-01*
.1975*00* .1975+00*
.2161-01* .2161-01*
.54H9+10 .6515 + 10
.1769-01* .6769-01*
.8899+08 .1029+09
.1848+00* .1848*00*
.0000 * .0000 *
,0000 a .0000 •
EASTERN SITUniN
.0000
.0000
.6500
URBAN
.2099*01*
.1058-01*
.5206+09
.7966*00*
.2767*01*
.3830-01*
.2460+UO*
.2161-01*
.9029+10
.1177+00*
.2114+10
.2688+00*
.0000 *
.0000 •
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.3171+08
.7133+09
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.4366+10
.6826+11
.7262+11
.3112+03
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACK6ROUNO CONCENTRATION TO 101 OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT e
(R)
1500.
1974 " inPACT PARAMETERS
WIND SPEtD = it.500 RURAL POP. =
(H/S) IP/KHZ)
SECTOR i - UTILITY BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM MI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
1.584 (1E15 KJ/TR)
.1124-01 (1E1S KJ/YR)
NATURAL
.9824+09
.1643*11
.1529-01*
.1991-02*
.6982+10
.1681-01*
.9508+00*
.2644*00*
.1336*13
.2429*00*
.3491*10
.5778+00*
.11766+06
.8637+00*
.707i-oi*
.13713+13
RURAL
.3224+10
.2629+11
.1800+03*
.2502+01*
.3875+11
.1780+00*
.4531+01*
.8677+00*
.1396+13
.2429+00*
.5828+10
.5778+00*
.3339+09
.6141+01*
.7911-01*
.14209+13
EQUIP TYPE 101 - TANGENTIAL BOILERS
FRACTION! RURAL = .590
URBAN = .410
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 180.0 (HI
URBAN
.5216+10
.4012+11
.1840+03*
.4002+01*
.4470+11
.2585+00*
.7031+01*
.1368+01*
.1872+13
.2429+00*
.1036+11
.7478+00*
.2918+09
.4309+02*
.1279+00*
.19845+13
POLLUTANT
H6
no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
22.34 URBAN POPL. = 339.7
1P/KM2)
FUEL TTPE 3 - CENTRAL BITUMIN.
CONTROLS! NOX =
SOX x
PARTICULATES -
NATURAL RURAL
.5991+00* ,5991+00*
.1058-01* .1056-01*
.7497*08 .1121+09
.5276+00* .5562+00*
.4142+00* .1927+01*
.3830-01* .3830-01*
.1975+00* .1975+00*
.2161-01* .2161-01*
.5449+10 .8545+10
.1769-01* .6769-01*
.8899+08 .1029+09
.1848+00* .1848+00*
,0000 * .0000 *
.0000 * .0000 •
.0000
.0000
.6500
URBAN
.2099+01*
.105A-01*
.5206+0?
.7966+00*
.2767+01*
.3830-01*
.2480+00*
.2161-01*
.9029+10
.1177+00*
.2114+10
.2688+110*
.0000 *
.0000 *
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.3174+08
.7138+09
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.2638+10
.4123+11
.4387+11
.3111+09
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO iO«, OF MEG
-------
TABLE F-l. Continued
INVCRSION HES8HT *
IN)
1300,
197t — IMPACT PARAMETERS
WIND SPEED - 4.900 RURAL POP.
(H/S) (P/KM2I
22. 34
URGAN POPL. - 357.7
SECTOR i - UTILITY BOILERS
E8UIP TYPE 101 - TANGENTIAL BOILERS
FUEL TYPE 4 • WESTERN SITUHIN,
CONSUMPTION! TOTAL =
SINGLE SOURCE a
,6690 <1E19 Ktl/YR)
,1124-01 (1E1S KJ/YRJ
FRACTIONS
RURAL =
URBAN s
.590
.410
POLLUTANT
NOX
SOX
HC
CO
PART
SULFHT
pon Hi
BA
BE
8
CR
CO
cu
PB
HN
NATURAL
,9824+09
.1033+11
.1529-01*
.1991-02*
.6576+10
.3183-01*
.5300+00*
.2844+00*
.1336+13
.2429+00*
.3491+10
,5778+00*
.4766+08
.8637+00*
.7074-01*
RURAL
.3224+10
.2039+11
.1800+03*
.2502+01*
.3656+11
.1631+00*
.4531+01*
.6677+00*
.1336+13
.2429+00*
.5828+10
.5778+00*
.3339+09
.6141+01*
.7914-01*
URBAN
.5216+10
.3222+11
.1610+03*
.4002+01*
.4219+11
.2436+00*
.7031+01*
.1368+01*
.1872+13
.2429+00*
.1036+11
.7478+00*
.2918+09
.4309+02*
,1279+00*
TOTAL
.13630+13
.14109+13
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 180.0
POLLUTANT
HS
MO
NI
V
ZN
ZR
AS
Bl
AL
ss
CO
SE
p
SR
.19741+13
CONTROLS! NOX =
NATURAL
.5991+009
.1058-019
.7497+08
.5276+00*
.4142+00*
.3830-01*
.1975+00*
.2161-01*
.5449+10
.1769-01*
.0899+08
.1B48+00*
.0000 *
.0000 *
SOX a
PARTICULATES i
RURAL
.5991+00*
.1058-01*
.1121+09
.5562+00*
,1927+01*
.3830-01*
.1975+00*
.2161-01*
.6545+10
.6769-01*
.1029+09
.1S46+00*
.0000 •
.0000 *
.0000
.0000
.6500
URBAN
.2099+01*
.1058-U1*
.5206+09
.7966+00*
.2767+01*
.3630-Ul*
.2180+00*
.2161-01*
.9029+10
.1177+00*
.2114+10
.2680+00*
.0000 *
.0000 *
RURAL
URBAN
IMPACT FACTORS
SINSLE SOURCt
.3192+08
.7101+09
TOTAL IMPACT FACTOR
AVERA6E SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.1437+10
.2290+11
.2394+11
.3097+09
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO lop OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT = 1900.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
(W/Sl
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Hi
1300.
1974 -- IMPACT PARAMETERS
WIND SPEED s 4.500 RURAL POP. =
IM/S) IP/KN2)
22.34
URBAN POPL. a 339.7
SECTOR t - UTILITT BOILERS
CONSUMPTION: TOTAL
SINGLE SOURCE
.1960 (1E1S KJ/VR)
.7142-03 (1E13 KJ/TRI
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
NATURAL
.2547+09
.7767+10
.3202-01*
.3202-02*
.3093+07
.1177+00*
.7943-02*
,4269+00*
.0000 *
.9231.02*
,4105+10
.6370*08
.9194+07
.2308*08
.4672-01*
RURAL
.8187+09
.1655+11
.1600+03*
.2503+01*
.5530+08
.2489+00*
.4008+01*
.1171+07
.0000 *
.9231-02*
.6443+10
.6370+08
.3059+08
.1134+09
.5513-01*
URBAN
.1320+10
.2710+11
.1840+03*
.4003+01*
.6481+08
.3294+00*
.6506+01*
.1520+01*
.0000 *
.9231-02*
.1098+11
.8816+08
.3366+08
.7455+09
.1039+00*
—I
TOTAL
.43*39+11
.55959+11
EOUIP TTPE 101 - TANGENTIAL BOILERS
FRACTION! RURAL = .320
URBAN = ,6AO
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 110.0 (HI
POLLUTANT
H6
NO
NI
V
ZN
ZR
AS
BI
AL
sa
CO
SE
p
SR
,75041+11
FUEL TYPE 6 - HIGH S RES. OIL
CONTROLS; NOX a
NATURAL
.4051+00*
.4672-01*
.2457+11
.6630+10
.7342-01*
.1468-01*
.3738-02*
.0000 *
.4027+07
.3707-02*
.1549+00*
.1076+08
.0000 *
.4044-02*
SOX a
PARTICULATES a
RURAL
.4051+00*
.4672-01*
.2502+11
.6701+10
,1586+01*
.1466-01*
.3738-02*
.0000 *
.1348+09
.5371-01*
.2299+00*
.1076+08
.0000 *
.4044-02*
.0140
.0000
.2500
URBAN
,1905+Ul*
.4672-01*
.2659+11
.8095+10
.2426+01*
.1466-01*
.5416.01*
.0000 *
,9559+07
.1037+00*
,1164+07
.1444+09
.0000 *
.4044.02*
IMPACT FACTORS
SINGLE SOURCE
RURAL .1250+07
URBAN .2699+08
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR s
MULTIPLE SOURCE
,1098+OB
.5037+09
.5147+09
.1676+06
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF MEG
-------
TABLE F-l. Continued
1971 -- IMPACT PARAMETERS
INVERSION HEIGHT *
»M>
SECTOR i • UTILITY
CONSUMPTION! TOTAL *
SINGLE SOURCE =
1300.
BOILERS
.1920
.7112-02
WIND SPEED = 1.500
-------
TABLE F-l. Continued
INVERSION HEIGHT
in)
139S.
1974 -- IMPACT PARAMETERS
HINQ SPEtD = 4.500 RURAL POP.
IK/SI (P/KM2!
29.34
URBAN POPL. =
(P/KM2!
399.7
SECTOR 1 *• UTILITY 801LERS
eauip TYPE 101 - TANGENTIAL BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
.6360 I1E15 KJ/YRI
,7112-02 (1E15 KJ/TRl
FRACTIONS RURAL
UKBAN
.320
.680
POLLUTANT
NOX
sox
HC
CO
PART
SULF*T
POH HI
BA
BE
B
CR
CO
CU
PB
NN
NATURAL
,25i|T+09
.8306+09
.3202-01*
.3202-02*
.5093+07
.2942-01*
.7943-02*
.4369+00*
.0000 *
.9231-02*
.4105+10
.6370+08
.5194+07
.2309+08
.4672-01*
RURAL
.6187+09
.1936+10
.1800+OSe
.2503+01*
.5538+08
. 1607+00*
.4008+01*
.1171+07
.0000 *
.9231-02*
.6443+10
.6370+08
.3859+08
.1134+09
. 5513-01*
URBAN
.1320+10
.3262+10
.1640+03*
.4003+01*
.6481+08
.2411+00*
.6508+01*
.1520+01*
.0000 >
.9231-02*
.1098+11
.8818+08
.3368+08
,7455+09
.1039+00*
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT s 110.0
FUEL TYPE S - LOW S RES. OIL
CONTROLS: NOX 3 .0140
SOX » .0000
PARTICULATES * .2500
POLLUTANT
HG
MO
Nl
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.4051+00*
,4672-Ola
.2457+11
.6630+10
.7342-01*
.1468-01*
.3736-02*
.0000 *
.4027+07
.3707-02*
.1549+00*
.1076+08
.0000 *
.4044-02*
RURHL
.4051+00*
.4672-01*
.2502+11
.6701+10
.15S6+01*
.1468.01*
.3738-02*
.0000 *
.1348+09
.5371-01*
.2299+00*
.1076+08
.0000 *
.4044-02*
URBAN
.1905+U1*
.4672-01*
.2659+11
.6095+10
.2426+01*
.1468-01*
.5416-01*
.0000 *
.9559+07
.1037+00*
.1164+07
.1444+09
.0000 *
.4044-U2*
TOTAL
.36499+11
.41341+11
.91203+11
IMPACT FACTORS
SINGLE SOURCE
RURAL .9236+06
URBAN .1842+08
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.2632+08
.1115+10
.1142+10
.1282+08
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO
OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT a
in)
1500.
1974 — IMPACT PARAMETERS
WIND SPEED - 4.300 RURAL POP.
(P/KM2)
22.34
URBAN POPL.
(P/KH2)
= SS9.7
SECTOR i - UTILITY BOILERS
EQUIP TTPE 101 - TANGENTIAL BOILERS
FUEL TTPE 9 - DISTILLATE OIL
CONSUMPTION! TOTAL =
SINGLE SOURCE =
.3600-01 (1E15 KJ/YRI
.7142-02 UE15 KJ/TRI
FRACTION! RURAL
UKBAN
.580
.420
CONTROLS! NOX
SOX
PARTICULATES
I
O
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POR HI
BA
BE
B
CR
CO
CU
PB
TOTAL
NATURAL
.2547+09
.2157+09
.2234+00*
.9772-02*
.2979+00*
.1373-01*
.7949-02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.47033+09
RURAL
.6187+09
.9642+09
.1802+03*
.2506+01*
.1096+02
.1450+00
.4006+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.13829+10
RURAL
URBAN
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 110.0
in)
URBAN
.1320+10
.9824+09
.1642+03*
.4006+01*
.1296+02
.2255+00
.6500+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.23026+10
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
SINGLE SOURCE
.3089+05
.8283+06
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.9032*09
.1753+07
.1844+07
.3658+06
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0140
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 1011 OF ME6
-------
TABLE F-l. Continued
INVERSION HEIGHT
1900.
19T1* •' IMPACT PARAMETERS
HIND SPEED «
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HI
1900.
1974 —
WIND SPEED =
NATURAL
.2526+00*
.4460-02*
.6354+00*
.2225+00*
.1746+00*
.1615-01*
.8329-01*
.9110-02*
.1177+10
' .7460-02*
.6746+00*
.7792-01*
.0000 •
.0000 »
RURAL
.2526+00*
.4460-02*
.7B07+00*
.2510+00*
.16A7+01*
.1615-01*
.6329-01*
.911U-02*
.5051+10
.5746-01*
.7496+00*
.7792-01*
.0000 *
.0000 *
URBAN
.1753+01*
,4460-02*
,1001+09
,4914+00*
.2528+01*
.1615-01*
.1337+00*
.9110-1)2*
.2074+10
.1075+00*
.5046+U9
.1619+00*
.0000 *
.0000 *
TOTAL
.9T22T+12
.39278+12 .11367+13
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1324+08
.4096+09
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.2494+10
.5360+11
.5609+11
.1756+09
• RATIO OF HAXinUn SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10K OF HE6
-------
TABLE F-l. Continued
INVERSION HEI6HT e
(Ht
1SOO.
1971 — IMPACT PARAMETERS
HIND SPEED x 0.500 RURAL POP.
-------
TABLE F-1. Continued
INVERSION HEIGHT =
(Ml
1900.
197<« -- IMPACT PARAMETERS
WIND SPEED = 4.900 RURAL POP.
IM/SI IP/KM2I
SECTOR i • UTILITY BOILERS
CONSUMPTION TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
= .9010
= .4740-02
.NATURAL
.2429+09
.3067+10
.6449-02*
.1641-02*
.1366+10
.1342-01*
.2238+00*
.1199+00*
.9632+12
.1024+00*
.7263+09
.2436+00*
.9929+00*
.3641+00*
.2982-01*
(1E15 HJ/TR)
(1E1S KJ/TR1
RURAL
.9434+09
.7467+10
.1800+03*
.2502+01*
.8883+10
.1447+00*
.4224+01*
.7092+00*
.5632+12
.1024+00*
.1311+10
.2436+00*
,7636+01*
.5642+01*
.3823-01*
EOUIP TTPE 102 - WALL FIRED BOILER
FRACTION! RURAL =
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT a
URBAN
.1566+10
.1275+11
.1840+03*
.4002+01*
.1029+11
.2251+00*
.6724+01*
.1203+01*
.1100+13
.1024+00*
.2447+10
.4136+00*
.6599+01*
.4299+02*
.8697-01*
.990
.410
SOURCE
180.0
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
22.34
URBAN POPL.
(P/KM2)
= SJ9.7
FUEL TTPE 4 - WESTERN B1TUHIN.
CONTROLS: NOX
sox
PARTICIPATES
(M)
NATURAL
.2526+00*
.4460-02*
.6354+00*
.2225+00*
.1746+00*
.1615-01*
.8329-01*
.9110-02*
.1177+10
.7460-OE*
.6746+00*
.7792-01*
.0000 *
.0000 *
RURftL
.2526+00*
.4160-02*
.7807+00*
.2510+00*
.1687+01*
.1615-01*
.8329-01*
.91111-02*
.5051+10
.5746-01*
.7496+00*
.7792-01*
.0000 *
.0000 *
.0014
.0000
.6500
URBAN
.1753+01*
.1460-02*
.1083+09
.4914+00*
.2528+01*
.1615-01*
.1337+00*
.9110-112*
.2074+10
.1075+00*
.5016+1)9
.1619+00*
.0000 *
.0000 *
TOTAL
.96979+12
.9868J+12
.11287+13
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1311+08
.4060+09
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.6174+09
.1759+11
.1841+11
.1742+09
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10K OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HI
13004
1974 --
WIND SPEED s 4.500
IH/SI
IMPACT PARAMETERS
RURAL POP,
(P/KH2I
SECTOR 1 - UTILITY BOILERS
CONSUMPTIONI TOTAL
SINGLE SOURCE
.1100-01 (U19 KJ/YRI
.i)7«0-02 (1E15 KJ/YRI
POLLUTANT
NOX
SOX
HC
CO
PART
SULMT
PON HI
BA
BC
B
CR
CO
CU
PB
HN
NATURAL
.2879+09
.4087+09
.6146-01*
.2031-02*
.2383*10
.2763-02*
.2238+00*
.7316+08
.7394+12
. 5530-01*
.4109+09
.2371+00*
.3131+00*
.2327+00*
.2606-01*
RURAL
.1080+10
.1184+10
.1801+03*
.2502+01*
.1432+11
.1340+00*
.4224+01*
.4173+09
.7394+12
.5530-01*
.7777+09
,2571+00*
.7396+01*
.5510+01*
.3446*01*
URBAN
.1783+10
.2115+10
.1841+03*
.4002+01*
.1655+11
.2145+00*
.6724+01*
.1392+09
.1276+13
.5530-01*
.1490+10
.4271+00*
.6355+01*
.4245+02*
.8320-01*
TOTAL
.74388+12
.76196+12
EQUIP TYPE 102 - WALL FIRED BOILER
FRACTION! RURAL = .700
URBAN = .300
6AUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 180.0 (HI
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
B!
AL
SB
CO
SE
P
SR
.12999+13
22.31
URBAN POPL. = 359
CP/KN2I
FUEL TYPE 3 -
CONTROLS! NOX *
NATURAL
.1260+00*
.1424-02*
.3074+00*
.1612+00*
.4944-01*
.26A7-01*
.6717-01*
.2190-01*
.9405+09
.3330-02*
.6994-01*
.7590-01*
.0000 *
.0000 *
SOX e
PARTICULATES s
RURAL
.126U+00*
.1424.02*
.4527+00*
.1698+00*
.1562+01*
.2687-01*
.6717-01*
.2190-01*
.4826+10
.5333-01*
.1449+00*
.7S9U-01*
.0000 •
.0000 *
LIGNITE
.0000
.0000
.6500
URBAN
.1626+U1*
.1424.02*
.9485+00*
.4301+00*
.2402+01*
.2687-01*
.1176+00*
.2190-01*
.1660+10
•1033+00*
.9199+00*
.1599+00*
.0000 *
.0000 *
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1702+08
.4674+09
TOTAL IMPACT FACTOR s
AVERA6C SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.2765+08
.3234+09
.3330+09
.1521+09
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-l. Continued
1974 •• IMPACT PARAMETERS
INVERSION HEIGHT *
(HI
SECTOR 1 - UTILITY
CONSUMPTIONS TOTAL •
SINGLE SOURCE *
1900.
BOILERS
.I960
.1479-02
MIND SPEED a 4.500
in/si
EQUIP TYPE 102
iicis KJ/YRI FRACTION:
(1E19 KJ/YR1
RURAL POP.
(P/KM2)
• WALL FIRED BOILER
RURAL a .320
URBAN = .680
GAUSSIAN APPROXIMATED SOURCE
POLLUTANT
NOX
sox
HC
CO
PART
SULFAT
POM HI
BA
ee
B
CR
CO
CU
PB
MN
NATURAL
.••612408
.6204+09
.6631.02*
.1025-02*
.2392*00*
. 2*37-01*
.1649-02*
.9046.01*
.0000 *
.1911-02*
. 8127*09
.5992*00*
.2398*00*
.3563*00*
.9674-02*
EFFECTIVE STACK
RURAL URBAN
.ieai*09 .3126*09
.1498*10 .2552+10
.1800*03* .1840*03*
.2501*01* .4001*01*
.1090*02* .1290+02*
.1556*00* .2361+00*
.4002+01* .6502+01*
.6738+00* .1174+01*
.0000 * .0000 *
.1911-02* .1911-02*
.5459*09 .9967+09
.5592+00*' .7292+00*
.7323+01* .6282*01*
.5634*01* .4258*02*
.1608-01* .6682-01*
HEIGHT = 110.0
POLLUTANT
HG
MO
M
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
(M)
22.34 URBAN POPL. = 359.
-------
TABLE F-l. Continued
INVERSION HEISHT
1300.
1971 — II1PACT PARAMETERS
HIND SPEED * 4.500 RURAL POP.
IM/S) (P/KM2)
22.
URBAN POPL. =
(P/KHZ)
939,7
SECTOR i • UTILITY BOILERS
EOUIP TYPE 102 - WALL FIRED BOILER
FUEL TYPE T - RED s RES. OIL
CONSUMPTIONS TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SUtFAT
POM HI
BA
BE
8
CR
CO
CU
PB
UN
a .4930
* .1479-02
NATURAL
•4812+oe
.1869409
.6631-02*
.1025-02*
.2352+00*
.1218-01*
.1643-02*
.9046-01*
.0000 *
.1911-02*
. 8127+09
.5592+00*
.2398+00*
.3563+00*
.967*1-02*
(1E1S KJ/YR)
(1E15 KJ/YR)
RURAL
.1881+09
.1*976+09
.1800+03*
.2501+01*
.1090+02*
.1434+00*
. 4002+01*
.6738+00*
.0000 *
.1911-02*
. 5459+09
.5592+00*
.7323+01*
.5634+01*
.1608-01*
FRACTIONS RURAL =
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT s
URBAN
.3126+09
.8704+09
.1840+03.
.4001+01*
.1290+02*
,2239+00*
.6502+01*
.1174+01*
.0000 *
.1911-02*
.9987+09
.7292+00*
.6282+01*
.1258+02*
.6682-01*
.320
,680
SOURCE
110.0
POLLUTANT
HO
HO
MI
V
2N
ZR
AS
SI
AL
SB
CO
SE
P
SR
CONTROLS! NOX *
(Ml
NATURAL
.8388-01*
.9674-02*
.3866+10
.5251+09
.1520-01*
,3041-02*.
.7740-03*
.0000 *
.2245+00*
,7675-03*
.3207-01*
.2764+00*
.0000 *
,8373-03*
SOX •
PARTICULATES *
RURAL
.8388-01*
.9674-02*
.4325+10
.5322+09
.1520+01*
.3041-02*
.7740-03*
.0000 *
.3907+07
.5077-01*
.1071+00*
.2764+00*
.0000 *
.8373-03*
.048G
.0000
.2500
URBAN
.15B4+01*
.9674-02*
.7109+10
.7530+09
.2368+01*
.3041-U2*
.5119-01*
.0000 *
.1653+01*
.looa+uo*
.8821+09*
,3604+VO*
.0000 *
. 0373*03*
TOTAL
.19509+10
.60001+10
.10044+11
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1360+06
.3613+07
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.1451+00
.8190+09
.8335+09
.2500+07
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 1,0« OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT =
(Ht
1900.
1974 « IMPACT PARAMETERS
UINO SPEED = 1.500 RURAL POP* =
(N/SI (P/KN2)
22.34
URBAN POPL. = 399.7
(K/KM2)
SECTOR i - OTILITT BOILERS
EQUIP TYPE 102 - HALL FIRED BOILER
FUEL TYPE 8 - LOW S RES. OIL
CONSUMPTION t TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
pon HI
BA
BE
B
CR
CO
CU
PB
HN
a .6370
= .1X79-02
NATURAL
.4612+08
.4516+08
.6631.02*
.1025-02*
.2352+00*
.6091-02*
.1645-02*
.9046-01*
.0000 *
.1911-02*
.3127+09
.9592+00*
.2396+00*
.3563+00*
.9671-02*
(1E19 KJ/YR)
(1E15 KJ/YR)
RURAL
.1681+09
.1359+09
.1800+03*
.2501+01*
.1090+02*
.1373+00*
.1002+01*
.6738+00*
.0000 *
.1911-02*
.94&9+09
.5592+00*
.7323+01*
.5631+01*
.1806-01*
FRACTION! RURAL =
URBAN s
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.3126+09
.2446+09
.1A40+03*
.1001+01*
.1290+02*
.2178+00*
.6502+01*
.1171+01*
.0000 *
.1911-02*
.9967+09
.7292+00*
.6262+01*
.1256+02*
.6662-01*
.320
.680
SOURCE
110.0
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
CONTROLS! NOX =
(H)
NATURAL
.8338-01*
.9674-02*
.3666+10
.5251+09
.1520-01*
.3041-02*
.7740-03*
.0000 •
.2245+00*
.7675-03*
.3207-01*
.2761+00*
.0000 •
.6373-03*
SOX *
PARTICULATES =
RURAL
.Bsee-oi*
.9674-02*
.4325+10
.5322+09
.1528+01*
.3041-02*
.7710-03*
.0000 *
.3907+07
.5077-01*
.1071+00*
.2764+00*
.0000 *
.8373-03*
.0480
.0000
.2300
URBAN
.1564+01*
.9674-02*
.7109+10
.7530+09
.2368+01*
.3041-U2*
.5119-01*
.0000 *
.1653+01*
.1008+UO*
.8821+00*
.3604+00*
.0000 *
.6373-03*
I
CO
TOT»L
.18173+10
.97260+10
.91169+10
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1279+06
.3368+07
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR 8
MULTIPLE SOURCE
.1763+06
.9923+09
.1010+10
.2349+07
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT •
tn>
1900.
SECTOR i - UTILITY BOILERS
CONSUMPTION: TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POH HI
BA
BE
8
CR
CO
CU
PB
MN
TOTAL
« .1690
» .1179-02
NATURAL
.1812+08
.1176+07
.1626-01*
.1195-02*
.6168-01*
.2813-02*
.1615-02*
.0000
' .0000
.0000
.0000
.0000
.0000
.0000
.0000
.19300*08
1971 -- IMPACT PARAMETERS
UINO SPEED = 1.500 RURAL POP.
IM/S) iP/KHZ)
EQUIP TYPE 102 - WALL FIRED BOILER
(1E13 KJ/YR) FRACTION! RURAL s .580
(1E15 KJ/YR 1 URBAN s .120
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT s 110.0
RURAL URBAN POLLUTANT
.1881+09 .3126+09 KG
.1813+07 .9182+07 MO
.1000+01* .1610+03* NI
.2501+01 .1001+01* V
.1073+02 .1273+02* ZN
.1311+00 .2116+00* ZR
.1002+01 .6502+01* AS
.0000 .0000 * BI
.0000 .0000 * AL
.0000 .0000 * SB
.0000 .0000 * • CD
.0000 .0000 * SET
.0000 .0000 * P
.0000 .0000 • SR
.0000 .0000 *
.19296+09 .32179+09
IMPACT FACTORS
SINGLE SOURCE MULTIPLE SOURCE
RURAL 1311. .2837+06
URBAN .1158+06 .5555+07
TOTAL IMPACT FACTOR * .5811+07
AVERAGE SOURCE IMPACT FACTOR * .5112+05
22.31
URBAN POPL.
tP/KHZ)
s 399.7
FUEL TYPE 9 - DISTILLATE OIL
CONTROLS! NOX s .0180
SOX « .0000
PARTICULATES * .0000
(N)
NATURAL RURAL URBAN
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 ,0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10*. OF HE6
-------
TABLE F-l. Continued
INVERSION HEISHT
mi
1300*
1974 -- IMPACT PARAMETERS
WIND SPEED * 4.500 RURAL POP. -
»H/S) IP/KHZ)
22.34
URBAN POPL.
(P/KM2I
= JS9.7
SECTOR i - UTILITY BOILERS
EQUIP TYPE 102 - WALL FIRED BOILER
FUEL TYPE 10 - NATURAL SAS
CONSUMPTIONS TOTAL *
SINGLE SOURCE a
2.153 (1E1S KJ/TR)
.2943-02 UE13 KJ/YR)
FRACTION!
RURAL
UNBAN
.590
.410
I
r\3
O
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
NATURAL
.2301*09
.2295-01*
.3264-01*
.7100-02*
.3509*00*
.0000 *
.4152*00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.83008*09
RURAL
.6301*09
.3146*01*
.1001*03*
.2507*01*
.1102*02*
.0000 *
.4413*01*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT a 60.00
CONTROLSt NOX
SOX
PARTICULATES
(Ml
.63005+09
URBAN
.9656*09
.6896*01
.1641+03
.4007+01
.1302+02
.0000
.6915*01
,0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.96558*09
POLLUTANT
HG
MO
M
V
ZNI
ZR
AS
81
AL
S3
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.ooou
.0000
.0000
.0000
.0000
.0000
.0000
.ooou
.0000
.0000
.0000
.1240
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1406*05
.3345+06
TOTAL IHP'ACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.6922+07
.1212*09
.1281*09
.1537*06
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT s
IPO
1900.
1974 .. IMPACT PARAMETERS
MIND SPEED s 4.500 RURAL POP.
(H/S» (P/KH2)
22.34
URBAN POPL.
(P/KH2)
a 359.T
SECTOR I - UTILITY BOILERS
EQUIP TYPE 103 - OPPOSED HALL BOILER
FUEL TYPE 2 - EASTERN BITUMIN.
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
sox
HC
CO
PART
SULF*T
POH HI
BA
BE
B
CR
CO
cu
PB
MN
- .4230
= .1699-01
NATURAL
.2779+10
.2188411
.2311-01*
.2311-02*
.1036+11
.5518-01*
.8023+00*
.1*298+00*
.2019+13
.3671+00*
.7030+10
.8734+00*
.1567+09
.4749+08
.1069+00*
UE1S KJ/YRI
(1E15 RJ/YRI
RURAL
. 8427+10
.3174+11
.1600+03*
.2502+01*
.4421+11
.1864+00*
.4802+01*
.1299+08
.2019+13
.3671+00*
.1145+11
.8734+00*
.9311+09
.2607+09
.1153+00*
FRACTION) RURAL =
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
,1315+11
.4357+11
.1840+03*
.4002+01*
.5052+11
.2669+00*
.7302+01*
.1513+01*
.2555+13
.3671+00*
,2000+11
.1225+08
.8172+09
.1753+10
.1641+00*
.590
.410
SOURCE
100. 0
POLLUTANT
HG
no
Nl
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
CONTROLS: NOX &
IMS
NATURAL
.9055+00*
.1599-01*
.2293+09
.7975+00*
.6260+00*
.57B9-01*
.2986+00*
.3266-01*
.9130+10
.2674-01*
.2433+09
.2793+00*
.0000 *
.0000 *
SOX E
PARTICULATES =
RUKAL
.9055+00*
.1599-01*
.2644+09
.6261+00*
.2139+01*
.5789-01*
.2986+UO*
.3266-01*
.1163+11
.7674-01*
.2752+09
.2793+00*
.0000 *
.0000 *
.0014
.0000
.6500
URBAN
.2405+01*
.1599-01*
.1091+10
.1994+US
.2979+01*
.5789-01*
,3490+UO*
.3266-01*
.1364+11
.1267+00*
.3871+10
.3633+00*
.0000 *
.0000 •
I
ro
TOTAL
.20709+13
.21281+13
.27039+13
IMPACT FACTORS
SINGLE SOURCE
RURAL .4754+08
URBAN .9726+09
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.6962+09
.9926+10
.1062+11
.4268+09
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEI8MT <
(HI
1900.
197* -- IMPACT PARAMETERS
WIND SPEED e 4.500 RURAL POP. »
(M/S» (P/KM2)
SECTOR i - UTILITY BOILERS
CONSUHPTIONI TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BC
B
CR
CO
CU
PB
HN
• .2530
= .1699-01
NATURAL
.2779+10
.2765+11
.2311-01*
.2311-02*
.1033*11
.7073-01*
.8023+00*
.1296+00*
.2019+13
.9671+00*
.7050+10
.6734+00*
.1567+09
.4743+06
.1069+00*
(1E1S KJ/YR)
I1E15 KJ/YR)
RURAL
.6*27+10
,3771+11
.1800+03*
.2502+01*
.4396+11
.2020+00*
.4602+01*
.1259+06
.2019+13
.3671+00*
.1145+11
.6734+00*
.9311+09
.2607+09
.1153+00*
EQUIP TYPE 103 - OPPOSED UALL BOILER
FRACTION! RURAL =
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.1345+11
.4954+11
.1640+03*
.4002+01*
.5029+11
.2626+00*
.7302+01*
.1513+01*
.2555+13
.3671+00*
.2000+11
.1225+06
.6172+09
.1753+10
.1641+00*
.590
.410
SOURCE
160.0 (1
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
22.34
URBAN POPL.
IP/KM >
= 359.1
FUEL TYPE 3 • CENTRAL BITUMIN.
I
ro
ro
TOTAL
CONTROLS! NOX
SOX
PARTICULATES
.20767+13
.21336+13
RURAL
URBAN
.27097+13
IMPACT FACTORS
SINGLE SOURCE
.4767+06
.9747+09
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.4220+09
.3997+10
.6419+10
.4278+09
NATURAL
.9055+00*
.1599-01*
.2293+09
.7975+00*
,6260+00*
.5789-01*
.2986+00*
.3266-01*
.9130+10
.2674-01*
.2433+09
.2793+00*
.0000 *
.0000 *
RURAL
.9055+00*
.1599-01*
.2844+09
.8261+00*
.2139+01*
.5789-01*
.2986+00*
.3266-01*
.1163+11
.7674-01*
.2752+09
.2793+00*
.0000 *
.0000 •
.0014
.0000
.6500
URBAN
.2405+01*
.1599-01*
.1091+10
.1994+08
.2979+01*
.5789-01*
.3490+UO*
.3266-01*
.1364+11
.1267+00*
.3871+10
.3633+00*
.0000 *
.0000 *
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-1. Continued
INVERSION HEI6HT
isoo.
1971 •• IMPACT PARAMETERS
WIND SPEED • 1.900 RURAL POP. =
(N/SJ (P/KH2)
22.34
URBAN POPL.
(P/KM2I
2 399.T
SECTOR 1 • UTILITY BOILERS
EQUIP TYPE 103 » OPPOSED MALL BOILER
FUEL TYPE * - WESTERN BITUMIN.
CON|UMPTIONJ TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POK HI
BA
BE
B
CR
CO
CU
PB
PIN
• .1*90
• .1699-01
NATURAL
.2779+10
.1592*11
.2311-01*
.2311-02*
.9983+10
.1811-01*
.8023+00*
.1298+00*
.2019*13
.3671*00*
.7030+10
.8731+00*
.1567+09
.1715+08
.1069+00*
UElS KJ/YR)
(1E1S K«I/YR)
RURAL
.8127+10
.2577+11
.1000+03*
.2502+01*
.1363+11
.1793+00*
.1802+01*
.1259+08
.2019+13
.3671+00*
.1115+11
.8731+00*
.9311+09
.2607+09
.1153+00*
FRACTION: RURAL s
URBAN s
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHY s
URBAN
.1345+11
.3760+11
.1610+03*
.1002+01*
.1991+11
.2598+00*
.7302+01*
.1513+01*
.2555+13
.3671+00*
.2000+11
.1225+08
.8172+09
.1753+10
.1611+00*
.590
.110
SOURCE
180.0
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
EX
AL
SB
CO
SE
P
SR
CONTROLS! NOX c
(NI
NATURAL
.9055+00*
,1599-01*
.229J+09
.7975+00*
.6260+00*
.5789-01*
.2986+00*
.3266-01*
.9130+10
.2671-01*
.2133+09
.2793+00*
.0000 «
.0000 *
SOX s
PARTICULATES *
RURAL
.9055+00*
.1599-01*
.2811+09
.8261+00*
.2139+01*
.5789-01*
.2986+00*
.3266-01*
.1163+11
.7671-01*
.2752+09
.2793+00*
.0000 *
.0000 •
.0011
.0000
.6500
URBAN
.2105+01*
.1599-01*
.1091+10
.1991+09
.2979+01*
.5789-01*
•3190+OOa
.3266-01*
.1361+11
.1267+00*
.3871+10
.3633+00*
.0000 •
•0000 •
ro
CO
TOTAL
.20611+13
.21219+19
.26971+13
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1739+08
.9703+09
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR e
MULTIPLE SOURCE
.2301+09
.3277+10
.3508+10
.1258+09
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF ME6
-------
TABLE F-l. Continued
INVERSION HEIGHT =
(N)
1900.
197* -- IMPACT PARAMETERS
WIND SPEED = 4. 500 RURAL POP. *
.p.
TOTAL
.26897+13
.27404+13
RURAL
URBAN
.33022+13
IMPACT FACTORS
SINGLE SOURCE
.6122+08
.1168+10
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.5296+08
.4404+09
.4933+09
.3992+09
22.34
URBAN POPL. 3 359.
(P/KM2)
FUEL TTPE 5 -
CONTROLS! NOX =
"
NATURAL
.4516+00*
.5105-02*
.2043+08
.5779+00*
.1772+00*
.9631-01*
.2408+00*
.7850-01*
.8324+10
.1194*01*
.2507+00*
.2721+00*
.0000 *
.0000 *
SOX =
PARTICULATCS x
RURAL
.4516+00*
.5105-02*
.4154+08
.6065+00*
.1690+01*
.9631-01*
.2406+00*
.785U-Q1*
.1083+11
.6194-01*
.3257+00*
.2721+00*
.0000 *
.0000 *
LIGNITE
.0000
.0000
.6500
URBAN
.1952+01*
.5105-02*
.3076+09
.8468+00*
.2530+01*
.9631-01*
.2912+00*
.7650-01*
.1283+11
.1119+00*
.6009+U9
.3561+00*
.0000 *
.0000 *
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» Of MEG
-------
TABLE F-1. Continued
INVERSION HEIGHT *
(Ml
1900.
19T4 -- IMPACT PARAMETERS
WIND SPEED = 4.300 RURAL POP.
(M/S) (P/KH2)
SECTOR i • UTILITY BOILERS
EQUIP TYPE 103 - OPPOSED WALL BOILER
ro
en
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BE
B
CR
CO
cu
PB
MN
TOTAL
.7900-01 (1E15 KJ/YR)
.7390-02 (1E15
FRACTIONI
RURAL
URBAN
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
NATURAL RURAL URBAN
.9205+09 .2707+10 .4299+10
.8401+10 .1826+11 .3009+11
.3314-01* .1800+03* .1840+03*
.4816-02* .2505+01* .4005+01*
.6661+07 .7129+08 .8340+08
.1218+00* .2530+00* .3335+00*
.8219-02* .4008+01* .6508+01*
.4920+00* .3938+07 .1535+01*
.0000 • .0000 * .0000 *
.9551-02* .9551-02* .9551-02*
.4248+10 .6985+10 .1112+11
.6588+08 .6988+08 ,9091+08
.7512+07 .5934+08 .4830+08
.2389+08 .1141+09 .7457+09
.4834-01* .5679-01* .1059+00*
.49969+11 .61146+11 .82299+11
.320
.680
SOURCE
s 110.0
POLLUTANT
HG
NO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
22.34 URBAN
POPL. B 399.7
IP/KM2)
FUEL TYPE 6
CONTROLS! NOX
sox
PARTICULATES
NATURAL RURAL
.4191+00* .4191+00*
.4634-01* .4034-01*
.2542+11 .2588+11
.6860+10 .7253+10
.7597-01* .1589+01*
.1519-01* .1519-01*
.3868-02* .3868-02*
.0000 * .0000 *
.5030+07 .1431+09
.3835-02* .5384-01*
.1603+00* .2353+00*
.1224+08 .1224+08
.0000 * .0000 *
.4184-02* .4184-02*
- HIGH S RES. OIL
s .0480
3 .0000
= .2500
URBAN
.1919+01*
.4834-01*
.2744+11
.8346+10
.2429+01*
.1519-01*
.5429-01*
.0000 *
.1177*05
.1038+00*
.3028+07
.1491+OS
.0000 •
.4184-02*
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1366+07
.2960+08
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.4673+07
.2192+09
.2199+09
.2097+08
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT •
(HI
1500.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP. =
(M/Sl
SECTOR 1 • UTILITY BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
pon HI
BA
BE
B
CR
CO
cu
PB
UN
« .1990
= .7390-02
NATURAL
.9205+09
.2795+10
.3314-01*
.4816-02*
.6661+07
.6088-01*
.8219-02*
.4520+00*
.0000 *
.9551-02*
.121(8*10
.6568+08
.7512+07
.2385+08
.4834-01*
I1E15 KJ/YRI
(1C1S KJ/YRI
RURAL
.2707+10
.6293+10
.1600+03*
.2505+01*
.7129+08
.1921+00*
.HOU8+01*
.3948+07
.0000 *
.9551-02*
.6565+10
.6568+08
.5534+08
.1141+09
.5675-01*
EQUIP TYPE 103 - OPPOSED WALL BOILER
FRACTION! RURAL =
URBAN x
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.4295+10
.1019+11
.1640+03*
.4005+01*
.6340+06
.2726+00*
.6508+01*
.1535+01*
.0000 *
.9551-02*
.1112+11
.9091+08
.4630+08
.7457+09
.1055+00*
.320
.660
SOURCE
110.0 (1
POLLUTANT .
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
22.34 URBAN POPL. = 339.T
(P/KM2)
FUEL TYPE 7 - "ED S RES. OIL
CONTROLSI NOX =
NATURAL
.4191+00*
.4634-01*
.2542+11
.6860+10
.7597-01*
.1519-01*
.3668-02*
.0000 •
.5030+07
.3835-02*
.1603+00*
.1224+08
.0000 •
.4184-02*
SOX 3
PARTICULATES =
RURAL
.4191+00*
.4634-01*
.2566+11
.7253+10
.1589+01*
.1519-01*
.3666-02*
.0000 *
.1431+09
.5364-01*
.2353+00*
.1224+08
,0000 *
.4184.02*
.0460
.0000
.2500
URBAN
.1919+01*
,4«S4-01*
,2744+11
.6346+10
.2429+01*
.1519-01*
.5429-01*
.0000 *
.1177+09
.1038+00*
.3028+07
.1491+08
.0000 •
.4164-02*
I
ro
TOTAL
.40364+11
.49178+11
.62692+11
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1099+07
.2253+08
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.9467+07
.4129+09
.4224+09
.1569+08
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-1. Continued
INVERSION HCI6HT
INI
1300.
1971 -• IMPACT PARAMETERS
WIND SPEED s 4.500 RURAL POP.
(PI/SI (P/KM2)
SECTOR i . UTILITY BOILERS
ECUIP TYPE 103 - OPPOSED WALL BOILER
ro
CONSUMPTIONI TOTAL
SINGLE SOURCE
POLLUTUN?
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
HN
TOTAL
.8960 (1E15 KJ/YRI
.7390-02 (1E15 KJ/YR)
FRACTIONS
RURAL
UK8AN
.320
.680
NATURAL
.9205409
.9046409
.3314-01*
.4816-02*
.6661407
.3044-01*
.8219.02.
.19204-00*
.0000 *
.9591-02*
.4248410
.6588*06
.7512407
.2389408
.4834-01*
.38*73411
RURAL
.2707410
.2115410
.1800403*
.2505401*
.7129408
,1617400*
.4008401*
.39S8407
.0000 •
.9551-02*
.6985410
.6588408
.5534408
.1141409
.5679-01*
.43030411
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 110.0
(Ml
URBAN
.H295+10
.3634410
.1840403*
.4005401*
.8340408
.2422400*
.6508401*
.1535401*
.0000 *
.9551-02*
.1112411
.9091408
.4830408
.7457409
.1055400*
,55835+11
POLLUTANT
HG
no
HI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
22.34 URBAN
POPL. s 359.7
(P/KH2)
FUEL TYPE 8
CONTROLS! NOX
SOX
PARTICULATES
NATURAL RURAL
.4191400* .4191400*
.4834-01* .4834-01*
.2542411 .2586411
.6860410 .7253410
.7597-01* .1589401*
,1519-gl* .1519-01*
.3868-02* .3868-02*
.0000 • .0000 *
.5030407 .1431409
,3835-02* .5384-01*
.1603400* .2393400*
.1224408 .1224408
.0000 * .0000 *
.4184-02* .4184.02*
• LOU S RES. OIL
z .0480
a .0000
> .2500
URBAN
.1919401*
.4834-01*
.2744411
.8346410
.2429401*
.1519-01*
.5429-01*
.0000 *
.1177405
.1038400*
.302841)7
.1491408
.0000 •
.4184-02*
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1006407
.2008408
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.1124408
.4768409
.4880409
.1398408
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« Of MEB
-------
TABLE F-l. Continued
INVERSION HEIGHT B 1900.
197H -- IMPACT PARAMETERS
MIND SPEED « <».500 RURAL POP.
(M/SI (P/KM2)
22.34
URBAN POPL. = 599.7
IP/KM2)
SECTOR 1 - UTILITY BOILERS
EQUIP TYPE 103 - OPPOSED WALL BOILER
FUEL TYPE 9 - DISTILLATE OIL
I
ro
CO
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
.1500-01 (1E1S KJ/YR)
.7390-02 I1E19 KJ/YR)
FRACTIONS
RURAL
URBAN
.380
CONTROLS! NOX
SOX
PARTICULATES
NATURAL
.9205*09
.2232+09
.2312+00*
.9780-02*
.3062*00*
.1*20-01*
.8219-02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.11*36+10
RURAL
.2707+10
.9717+09
.1802+03*
.2906+01*
.1097+02*
.H008+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.32788+10
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT r 110.0
(Ml
URBAN
.H299+10
.9899+09
.1812+03*
.4006+01*
.1297+02*
.2259+00*
.6908+01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.92892+10
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0180
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.7329+09
.1901+07
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.8623+09
.1621+07
.1707+07
.8*10+06
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF HE9
-------
TABLE F-1. Continued
INVERSION HEIGHT s
INI
1500.
1971 -- IMPACT PARAMETERS
HIND SPEtD = 4.300 RURAL POP.
(M/SI (P/KN2I
22.34
URBAN POPL. =
1P/KM2)
839.T
SECTOR i - UTILITY BOILERS
CONSUMPTION! TOTAL » 1.258
SIN6LC SOURCE a .1380-01
EOUIP TYPE 103 - OPPOSED WALL BOILER
(1E19 KJ/YR)
(1E19 KJ/YR)
FRACTIONI
RURAL =
URBAN s
.590
.410
ro
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
HN
TOTAL
NATURAL
.2795+10
.1077+00*
.2469+00*
.3072-01*
.1646+00
.0000
.3483+07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
•28006+10
RURAL
.7265+10
.3293+01
.1802+03
.2531+01
.1063+02
.0000
.2076+08
.0000
.0000 i
.0000 i
.0000 i
.0000 <
.0000 «
.0000 «
.0000 •
URBAN
.1126+11
* .6963+01*
• .1842+03*
• .4031+01
• .1283+02
• .0000
.3031+08
• .0000
> .0000
i .0000
> .0000
< ,0000
.0000
.0000
.0000
.73061+10
6AUSSIAN APPROXinATED SOURCE
EFFECTIVE STACK HEIGHT = 60.00
POLLUTANT
H6
HO
NI
V
in
2R
AS
BI
AL
SB
CO
SE
p
SR
.11107+11
FUEL TYPE 10 - NATURAL SAS
CONTROLSS NOX a .0700
SOX s .0000
PARTICULATES = .0000
(Hi
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.oouo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
SINGLE SOURCE
RURAL .1632+06
URBAN .4067+07
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.8773+07
.1520+09
.1607+09
.1764+07
RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO io« OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(ft)
1900.
1971 -- IMPACT PARAMETERS
WIND SPEED = 1.500 RURAL POP.
-------
TABLE F-1. Continued
INVERSION HEIGHT
1SOO.
1971 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
IM/S) (P/KM2)
22.34
URBAN POPL. = 3S9.T
SECTOR 1 - UTILITY BOILERS
EQUIP TYPE 104 - CYCLONE BOILER
FUEL TYPE 3 - CENTRAL BITUMIN.
CONSUMPTION! TOTAL
SINGLE SOURCE
1.292 (1E1S KJ/TRI
.1357-01 (1E15 KJ/TRI
FRACTION:
RURAL
URBAN
.590
.110
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
flN
NATURAL
.4969+10
.2509+11
.1384+00*
.3084-02*
.2314+09
.5651-01*
.9773-02*
.3433+00*
.1613+13
.2932+00*
.4946+10
.6976+00*
.8804+09
.1219+08
.8559-01*
RURAL
.1502+11
.3499+11
.1801+03*
.2504+01*
.1893+10'
.1877+00*
.4010+01*
.9266+00*
.1613+13
.2932+00*
.6246+10
.6976+00*
.5709+09
.7544+08
.9360-01*
URBAN
.2395+11
.4678+11
,1841+03*
,4004+01*
.2205+10
.2682+00*
.6510+01*
.1427+01*
.2149+13
.2932+00*
.1465+11
.8676+00*
.4999+09
.5182+09
.1425+00*
I
OJ
TOTAL
.16555+13
.16695+13
GAUSSIAN APPROXinATEO SOURCE
EFFECTIVE STACK HEIGHT = 180.0
POLLUTANT
US
HO
All
V
ZN
ZR
AS
61
AL
SB
CO
SE
P
SR
.22531+13
tfll
CONTROLS: NOX a
NATURAL
•7232+00*
.1277-01*
.1325+09
.6370+00*
.5001+00*
.4624-01*
.2365+00*
.2609-01*
.7293+10
.2136-01*
.1406+09
.2231+00*
.0000 »
.0000 *
SOX *
PARTICULATES a
RURAL
.7232+00*
.1277-01*
.1733+09
.6656+00*
.2013+01*
.4624-01*
.2385+00*
.2609-01*
,9797+10
.7136-01*
.1679+09
.2231+00*
.0000 •
.0000 •
.0166
.0000
.7500
URBAN
.2223+01*
.1277-01*
.7482+09
.9059+00*
.2853+01*
.4624-01*
.2869+00*
.2609-01*
.1180+11
.1214+00*
.2987+10
.3071+00*
.0000 *
.0000 •
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.3761+08
.8105+09
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.2112+10
.3163+11
.3374+11
.3545+09
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HI
1900.
197* — IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
(n/S) IP/KM2)
22.51
URBAN POPL.
(P/KH2I
= 399.7
SECTOR 1 - UTILITY BOILERS
EQUIP TTPE 100 • CTCLONE BOILER
FUEL TTPE 5 - LIGNITE
I
CO
CONSUnPTIONI TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SUtFAT
POM HI
BA
BE
B
CR
CO
CU
PB
UN
« .1370
= .1357-01
NATURAL
.2*«2+10
.29*7*10
.1753+00*
.5616-02*
.7861+10
.7912-02*
.9773-02*
.8166+09
.2117+13
.1581+00*
.2963+10
.7361+00*
.8964+00*
.6663+00*
.7*62-01*
I1E1S KJ/TR)
(1E1S KJ/TR)
RURAL
.7*75+10
. 73*7+10
.1802+03*
.2506+01*
.4151+11
.1391+00*
.*010+01*
.2673+10
.2117+13
.ise*+oo*
,5
-------
TABLE F-l. Continued
INVERSION HEIGHT
tni
1900.
1974 -- IMPACT PARAMETERS
MINO SPEED = 4.500 RURAL POP. = 22.34
<«/s> IP/KHZ)
URBAN POPL.
(P/KM2I
= 359.7
SECTOR 1 - UTILITY BOILERS
CONSUMPTION* TOTAL *
SINGLE SOURCE =
.1200-01 (1E15 KJ/TR)
,1979-02 (1E19 KJ/TR)
I
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
FIN
NATURAL
.4069+08
.1040+10
.6211-01*
.1599-02*
.3147+00*
.3260-01*
.2201-02*
.1210+00*
.0000 *
.2558-02*
.4939+09
.7482+00*
.3209+00*
.4768+00*
.1295-01*
RURAL
.1642+09
.2432+10
.1801+03*
.2502+01*
.1098+02*
.1638+00*
.4002+01*
.7044+00*
.0000 *
.2558-02*
.8236+09
.7482+00*
.7404+01*
.5755+01*
.2135-01*
URBAN
.2739+09
.4103+10
.1841+03*
.4002+01*
.1298+02*
.24M3+00*
.6502+01*
.1204+01*
.0000 *
.2558-02*
.1464+10
.9182+00*
.6363+01*
.4270+02*
.7009-01*
TOTAL
.83514+10
.11216+11
EQUIP TTPE 104 - CYCLONE BOILER
FRACTION! RURAL s .320
URBAN = .680
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 110.0
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
.19824+11
FUEL TYPE 6 - HIGH S KES. OIL
IM)
CONTROLS i NOX *
NATURAL
.1172+00*
.1295-01*
.5955+10
.8217+09
.2034-01*
.4068-02*
.1036-02*
.0000 *
.3004+00*
.1027-02*
.4291-01*
.3699+00*
.0000 *
.1120-02*
SOX s
PARTICULATES •
RURAL
.1123+00*
.1295-01*
.6920+10
.6761+09
.1533+01*
.4066-02*
.1036*02*
.00011 *
.1243+08
.5103-01*
.1179+00*
.3699+00*
.0000 *
.1120-02*
.0390
.0000
.2500
URBAN
.1612+01*
.1295-01*
.8829+10
.1155+10
.2373+01*
.H068.ua*
.5146-01*
.0000 *
.1729+01*
.1010+00*
•8929+00*
.4539+00*
.0000 *
.1120-02*
RURAL
URBAN
IMPACT FACTORS
SIN6LE SOURCE
.2506+06
.5692+07
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.4862+06
.2347+08
.2396+08
.3951+07
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO
OF ME 6
-------
TABLE F-l. Continued
INVERSION HEIGHT B 1500.
1974 — IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
(H/SI (P/KM2)
22.34
URBAN POPL.
(P/KM2*
± S59.7
SECTOR 1 - UTILITY BOILERS
EOUIP TTPE 10* - CYCLONE BOILER
FUEL TTPE 7 • MEO S HES. OIL
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BC
B
CR
CO
CU
PB
MN
s .2800-01
a .1979-02
NATURAL
.4069+06
.3226+09
.6211-01*
.1599-02*
..1147+00*
.1630-01*
.2201-02*
.1210+00*
.0000 •
.2556-02*
.4939+09
.7482+00*
.3209+00*
.4766+00*
.1295-01*
(1E19 KJ/YR(
I1E13 KJ/TRI
RURAL
.1642+09
.6157+09
.1601+03*
.2502+01*
.1098+02*
.1475+00*
.4002+01*
.7044+00*
.0000 *
.2556-02*
.6236+09
.7462+00*
.7404+01*
.5755+01*
.2135-01*
FRACTION! RURAL *
IWBAN s
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.2739+09
.1407+10
.1841+03*
.4002+01*
.1296+02*
.2280+00*
.6502+01*
.1204+01*
.0000 *
.2556-02*
.1464+10
.9162+00*
.6363+01*
.4270+02*
.7009-01*
.320
.660
SOURCE
110.0
POLLUTANT
H6
HO
M
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
CONTROLS! NOX c
(A)
NATURAL
.1122+00*
.1295-01*
.5955+10
.8217+09
.2034-01*
.4066-02*
.1036-02*
.0000 •
.3004+00*
.1027-02*
.4291-01*
.3699+00*
.0000 *
.1120-02*
SOX B
PARTICULATES s
RURAL
.1122*00*
.1295-01*
.6920+10
.6761+09
.1533+01*
.4066-02*
.1036-02*
.0000 *
.1243+06
.5103-01*
.1179+00*
.3699+00*
.0000 •
.1120-02*
.0390
.0000
.2500
URBAN
.1612+01*
.1295-01*
,6629+10
.1155+10
.2373+01*
.4066-U2*
.5146-01*
.0000 •
.1729+01*
.1010+UO*
.6929+00*
.4539+00*
.0000 *
.1120-02*
co
TOTAL
.763*1+10
.95994+10
.13129+11
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.2145+06
.4723+07
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.9710+06
.4544+08
.4641+08
.3280+07
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF HE6
-------
INVERSION HEIGHT
(Ml
1900.
TABLE F-1. Continued
1974 -- IMPACT PARAMETERS
HIND SPEED = 4.500 RURAL POP.
(M/S) IP/KM2I
22.31
URBAN POPL.
s 999.7
I
CO
StCTOR 1 - UTILITY BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFM
POM HI
BA
BE
B
CR
CO
CU
PB
TOTAL
EQUIP TYPE 10H - CYCLONE BOILER
FUEL TYPE 8 - LOW S RES. OIL
: .3700-01
i .1979-02
NATURAL
.4069+08
.8643+08
.6211-01*
.1599-02*
.3147+00*
.8151-02*
.2201-02*
.1210*00*
.0000 •
.2558-02*
.4939+09
.7482+00*
.3209+00*
.4768+00*
.1295-01*
I1C15 KJ/YR)
I1E1S KJ/YR)
RURAL
.1642+09
.2413+09
.1801+03*
.2502+01*
.1098+02*
.1394+00*
.40U2+01*
.7014+00*
.0000 *
.2558-02*
.8236+09
.7482+00*
.7404+01*
.5755+01*
.2139-01*
FRACTION! RURAL =
URBAN a
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.2739+09
,4?70*09
.1641+03*
.4002+01*
.1298+02*
.2199+00*
.6502+01*
.1204+01*
,0000 *
.2558-02*
.1464+10
.9182+00*
.6363+01*
.4270+02*
.7009-01*
.320
.680
SOURCE
110.0
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
(Ml
CONTROLS! NOX x
NATURAL
.1122*00*
.1295-01*
.5955+10
.8217+09
.2034-01*
.4068-02*
.1096-02*
.0000 *
.3004+00*
.1027-02*
.H291-01*
.3699+00*
.0000 *
.1120-02*
SOX *
PARTICULATES e
RURAL
.1122+00*
.1295-01*
.69211 + 10
.8761+09
.1533+01*
.4068-02*
.1036-02*
.0000 *
.1243+08
.5103-01*
.1179+00*
.3699+00*
.0000 *
.1120-02*
.0390
.0000
.2500
URBAN
.1613+01*
.1295-01*
.6429+10
.1155+10
.2373+01*
.4068-02*
.5146-01*
.0000 •
•1729+01*
.1010+00*
.6929+00*
.4539+00*
.0000 *
.1120-02*
.73979+10
.90290+10
.12149+11
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.2016+06
.4370+07
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.1206+07
.5556+08
.9677+08
.3036+07
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
IMI
1300.
197* — IMPACT PARAMETERS
MIND SPEED = ».500 RUHAL POP.
IH/SI IP/KM2I
22.
URBAN POPL. = 339.7
IP/KM2I
SECTOR i - UTILITY BOILERS
CONSUMPTION: TOTAL *
SIN6LE SOURCE =
.61DO>01 (1E13 KJ/YR)
.2321-02 I1E13 KJ/TR)
OJ
CT>
POLLUTANT
NOK
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
NATURAL
.1372*09
.1810-02*
.2903*00
.3523-02
.2767+00
.0000
.3274+00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.13716*09
RURAL
.3894+09
.3127*01*
.1803+03*
.2504+01*
.109H+02
.0000
.H32T+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.389"»i»+09
EQUIP TTPE 10* - CTCLONE BOILER
FRACTION: RURAL = .590
URBAN = .tlO
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEI6HT * 60.00
FUEL TYPE 10 - NATURAL SAS
CONTROLSI NOX * .0000
SOX = .0000
PARTICULATES = .0000
URBAN
.6137+09
.6877*01*
.1643+03*
.tOOt+01*
.129>»*02
.0000
.6827*01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.61369+09
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
Bl
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.onoo
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
8700.
.2208+06
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.1349+06
.2379+07
.2314+07
.93611+05
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF HE6
-------
TABLE F-l. Continued
INVERSION HEIGHT
tM>
1900.
I
oo
SECTOR i - UTILITY BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
TOTAL
1974 -- IMPACT PARAMETERS
MIND SPEED = ».500 RURAL POP. =
in/Si
EQUIP TTPE 105 - VERTICAL + STOKER BOILER
(Pit
: .1090
•• .4356-03
(1E13 KJ/YR)
I1E19 KJ/YR)
FRACTION!
RURAL = .800
URBAN e .200
GAUSSIAN APPROXIMATED SOURCE
NATURAL
.1853+00*
.3022+00*
.8073-02*
.6337-03*
.1667+00*
.3990-03*
.0000 *
.1521.01*
.7734+11
.6949.04*
.3204+09
.1889+00*
.8203.01*
.1836-01*
.8025.02*
RURAL
.4665+01*
.3427+01*
.1800+03*
.2501+01*
.1083+02*
.1316+00*
.0000 •
.5985+00*
.7754+11
.6949-04*
.6120+09
.1889+00*
.7165+01*
.5296+01*
.16*3-01*
EFFECTIVE STACK
URBAN
.8685+01*
.7177+01*
.1840+03*
.4001+01*
.1283+02*
.2121+00*
.0000 *
.1099+01*
.6137+12
.6949-04*
.1178+10
.3589+00*
.6124+01*
.4224+02*
.6517-01*
HEIGHT = 180.0
POLLUTANT
HG
no
N:
V
ZN
ZR
AS
Bl
AL
SB
CO
SE
P
SR
22.34
URBAN POPL. = S59
IP/KM)
.ER
FUEL TYPE 1 •
CONTROLS! NOX a
NATURAL
. 2855-01*
.4395-03*
.11204-00*
.6889-02*
.1457-02*
.8469-03*
.4395-02*
.7165-04*
.0000 *
.4350-04*
.1836-02*
.6173-03*
.0000 *
.0000 *
SOX •
PARTICULATES •
RURAL
.2835-01*
.4395-03*
.2573*00*
.3546-01*
.1514+01*
.8469.03*
.4395-02*
.7165-04*
.0000 *
.5004-01*
.7684.01*
.6173-03*
.0000 *
.0000 *
ANTHRACITE
.0000
.0000
.5000
URBAN
.1528+01*
,4395-OJ*
.7530+00*
.2758+00*
.2354+01*
.8469-03*
.5462-01*
.7165-04.
.0000 •
.1000+00*
.8518+00*
.8465.01*
.0000 *
.0000 *
.77669*11 .77997*11 .61488+12
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1742+07
.2212+09
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.3486+09
.1107+11
.1142+11
.4563+08
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10*, OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT a 1900.
1974 -- IMPACT PARAMETERS
HIND SPEED = 4.900 RURAL POP.
IH/S) (P/KM2)
22. 3<*
URBAN POPL.
(P/KM2)
= 539.T
I
CO
00
SCCTOR 1 • UTILITY BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
.91798411
EQUIP TTPE 109 - VERTICAL + STOKER BOILER
(HI
FUEL TTPE 2 - EASTERN BITUMIN.
i .1100
: .0396.03
NATURAL
.1B53+00«
.4235408
.3850-02*
.2459-03*
.9843400*
.ms-02*
.0000 »
.1102-01*
.9176*11
.9*10-02*
.3769400*
.2239-01*
.9081-01*
.3346-01*
.2741-02*
UE19 KJ/TR)
I1E19 KJ/TR)
RURAL
.4685+01*
.1553+09
.1600403*
.2900401*
.1165402*
.1326400*
.0000 *
.5944400*
.9176411
.9410-02*
.1899401*
.2239-01*
.7134401*
.5311401*
.1114-01*
FRACTION! RURAL =
URBAN x
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT e
URBAN
.8685401*
.2909+09
.1840+03*
.4000+01*
.1365+02*
.2131+00*
.0000 *
.1094401*
.5681412
.9410-02*
.4725401*
.1924400*
.6092401*
.4226402*
.5988-01*
.590
.410
SOURCE
180.0
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
sa
CD
SE
p
SR
.91911+11
.58839412
CONTROLS; NOX *
NATURAL
.2321-01*
.1*099-03*
.5839-01*
.2044-01*
.1605-01*
.1464-02*
.7654-02*-
.8372-03*
.4757400*
.6856-03*
.6200-01*
.7161*02*
.0000 *
.0000 *
SOX a
PARTICULATES *
RURftL
.2321-01*
.4099-03*
.2037400*
.4902-01*
.1529401*
.14B4-02*
.7654-02*
.8372-03*
.1715409
.5069-01*
.1370400*
.7161-02*
.0000 •
.0000 •
.0000
.0000
.5000
URBAN
.1523+01*
.4099-05*
,6994+uO*
.2894+00*
.2369+01*
.1464-02*
.5807-01*
.6372-03*
.1904401*
.10074UO*
.9120400*
.9119-01*
.0000 *
.0000 *
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1160407
.2116409
TOTAL IMPACT FACTOR
AVERA6E SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.1728409
.2191+11
.2206411
.8749+06
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF MEG
-------
TABLE F-1. Continued
INVERSION HEIGHT
(H)
1900.
i
oo
to
SECTOR 1 . UTILITY BOILERS
CONSUMPTION! TOTAL
SIN6LE SOURCE s
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM MI
BA
BE
a
CR
CO
CU
PB
RN
TOTAL
. 1974 — IMPACT PARAMETERS
KIND SPEED = 1.500 RURAL POP.
IM/St IP/KM2)
EQUIP TYPE 105 - VERTICAL + STOKER BOILER
i .1100
•• .4356-03
(1E19 KJ/TR)
(1E15 KJ/YRI
FRACTIONS
RURAL = .590
URBAN a .410
GAUSSIAN APPROXIMATED SOURCE
NATURAL
.1853+00*
.9092+08
.3850-02*
.2459-03*
.9629+00*
.1814-02*
•0000 •
.1102-01*
.9176+11
.9410-02*
.9769+00*
.2239-01*
.9081-01*
.33*6-01*
.27*1-02*
RURAL
.4685+01*
.3038+09
.1800+03*
.2500+01*
.1163+02*
.1330+00*
.0000 *
.9944+00*
.5176+11
.9410-02*
.1859+01*
.2239-01*
.7134+01*
.9311+01*
.1114*01*
EFFECTIVE STACK
URBAN
.8665+01*
.5592+09
.1840+03*
.4000+01*
.1363+02*
.2135+00*
.0000 *
.1094+01*
.5861+12
.9410-02*
.4725+01*
.1924+00*
.6092+01*
.4226+02*
.9988-01*
HEIGHT e 180.0
POLLUTANT
HG
no
NI
V
ZN
ZH
AS
BI
AL
SB
CO
se
p
SR
.918*7*11
.920(0+11
.58861+12
22.34 URBAN
POPL. = 859.7
IP/KM2>
.EH FUEL TYPE 3
CONTROLS: NOX
SOX
PARTICULATES
NATURAL RURAL
.2321-01* .2321-01*
.4099-03* .4099-03*
.5839-01* .2037+00*
.2044-01* .4902-01*
.1605-01* .1529+01*
.1484-02* .1484-02*
.7654-02* .7694-02*
.8372-03* .8372-03*
.4757+00* .1719+09
.6856-03* .9069-01*
.6200-01* .1370+00*
.7161-02* .7161-02*
.0000 • .0000 *
.0000 * .0000 *
- CENTRAL BITUHIN,
• .0000
* .0000
* .5000
URBAN
.1523+01*
.4099-US*
.6994+00*
.2894+00*
.2369+01*
.1484-02*
.9807-01*
.8372-03*
.1904+01*
.1007+UO*
.9120+00*
.9119-01*
.0000 *
.0000 •
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1163+07
.2117+09
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.1733+09
.2192+11
.2209+11
.8790+08
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10,X OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1500.
197* •• IMPACT PARAMETERS
WIND SPEED a 4.500 RURAL POP.
IM/St (P/KM2I
22.34
URBAN POPL.
IP/KM2I
= 359.7
SECTOR 1 - UTILITY BOILERS
EQUIP TYPE 105 - VERTICAL + STOKER BOILER
FUEL TYPE 5 • LIGNITE
CONSUMPTION TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
cu
PB
HN
* .9000-02
B .4356-03
NATURAL
.1853+00*
.2763+00*
.5627-02*
.3699-03*
.2049+06
.2539-03*
.0000 *
.1366+00*
.6795+11
.5082-02*
.2798+00*
.2362-01*
.2877-01*
.2138-01*
.2399-02*
(1E1S KJ/YRl
I1E19 KJ/YRl
RURAL
,4665+01*
.3403+01*
.1800+03*
.2500+01*
.2250+09
.1315+00*
.0000 *
.7222+00*
.6795+11
.5082-02*
.1758+01*
.2362-01*
.7112+01*
.5299+01*
.1080-01*
FRACTION) RURAL z
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
.700
.300
SOURCE
160.0
URBAN POLLUTANT
.6665+01*
.7153+01*
.1640+03*
.4000+01*
.2634+09
.2120+00*
.0000 *
.1222+01*
.6043+12
.5082-02*
.4628+01*
.1936+00*
.6070*01*
.4224*02*
.5954-01*
H6
NO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
CONTROLS! NOX «
(M)
NATURAL
.1158-01*
.1309-03*
.2625-01*
.1461-01*
.4543-02*
.2469-02*
.6173-02*
.2013-02*
.4337+00*
.3061-03*
.6427-02*
.6975-02*
.0000 *
.0000 *
SOX a
PARTICULATES =
RURAL
.115S-01*
.1309-03*
.1736+00*
.4339-01*
.1517+01*
.2469-02*
.6173-02*
.2013-02*
.1343+09
.5031-01*
.6143-01*
.6975-02*
.0000 *
.0000 *
.0000
.0000
.5000
URBAN
.1512+01*
.1309-03*
.6693+00*
.2637+00*
.2357+01*
,.2469-02*
.5659-01*
.2013-U2*
.1862+01*
.1003+UO*
.8564+00*
.9101-01*
.0000 *
.0000 *
I
-p>
o
TOTAL
.67966+11
.68173+11
RURAL
URBAN
.60*57+12
IMPACT FACTORS
SINGLE SOURCE
.1523+07
.2175+09
TOT*L IMPACT F»CTOR a
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.2202+08
.1348+10
.1370+10
.6631*08
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF ME6
-------
TABLE F-1. Continued
INVERSION HE1SHT
tfll
1900.
WIND
SECTOR 2 * PACKAGED BOILERS
CONSUHPTIONI TOTAL *
SINGLE SOURCE =
(P/KM2I
EOUIP TTPE 201 - WALL FIRED W-TUSE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POH HI
8A
BC
B
CR
CO
CU
PB
HN
TOTAL
1 .8500-01
= .7922-03
NATURAL
.2589+08
•2643+07
.2600-01*
.3380-03*
.89*3-01*
.3195-02*
.2588-02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
I1E15 KJ/TR
(1E15 KJ/YR
RURAL
.9598+08
.1018+08
.1800+03*
.2500+01*
.1076+02*
.1344+00*
.4003+01*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
1 FRACTION! RURAL = .330
' URBAN = .670
EFFKT^^TlrrT1""" S°URCE
E,««™ ST*CK HEI8HT " <">•<>»
1583?r,9 POLLUTANT
.1583+09 up
.1922+08 HO
.1840+03* ...
.4000+01* v
.1276+02* ZN
.2149+00* ™
.6503+01* t,
.0000 --
.0000
.0000
.0000
. 0000
.0000
• 0000
.0000
BI
AL
SB
CO
se
p
SR
>29
"'" URBAN POPL. 3 359.7
CP/KB2J
» "" FUEL TTPE 9 - DISTILLATE OIL
CONTROLS! NOX s .0000
SOX a .0000
PARTICULATES * .0000
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.28535+08
•10616+09 .17791+09
I«PACT FACTORS
SINGLE SOURCE
RURAL 2372.
URBAN .6385+05
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR s
MULTIPLE SOURCE
.8398+05
.1590+07
.«67
-------
TABLE F-l. Continued
INVCRS10N HEICHT
(HI
1SOO.
1974 — IMPACT PARAMETERS
WIND SPEED a 4.900 RURAL POP.
29 HH
FRACTION: RURAL = .610
URBAN = .390
FUEL TYPE 10 - NATURAL GAS
NATURAL
.2254*08
.4250-02*
.3360-01*
.7799-03*
.1987-01*
.0000 *
.5878-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.22941*08
RURAL
.8907*08
.3128401
.1800*03
.2501*01
.1069*02
.0000
.4059*01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.89066*08
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 80.00
CONTROLS) NOX
SOX
PARTICULATES
(HI
URBAN
.1406*09
.6676*01*
.1640*03*
.4001*01*
.1269*02*
.0000
.6559*01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.1*0611*09
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
BI
At
SB
CO
SE
p
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
InPACT FACTORS
SINGLE SOURCE
1900.
.9099+09
TOTAL IMPACT FACTOR
AVERAGE SOURCE IHPACT FACTOR
MULTIPLE SOURCE
.1358+07
.2311*08
.2447+08
.2089*09
RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
INVERSION HEIGHT *
t M 1
I ni
1500.
TABLE F-l
WIND Sf
It
SECTOR 8 . PACKAGED BOILERS
CONSUMPTION! TOTAL a -linn ..-..
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
a*
BE
B
CR
CO
cu
PB
m
.-_.„ jitia no/TR)
a .7922-03 C1E15 KJ/TR)
NATURAL
.2254+08
.9250-02
.4380-01
.7799-03
•1907-01
.0000
•5878-01
• OOOO
.0000
.oooo
.0000
.0000
.oooo
.0000
.oooo
RURAL
.8507+08
• .3128+01*
• .1800+03*
• .2501+01*
.1069+02*
.0000 *
.4059401*
.0000
.0000
.oooo
.oooo
.oooo
.0000
.oooo
.0000
. Continued
1974 — IMPACT P«
•EEO a 4.500
1/S)
EOUIP'TrPE 201 - HALL
FRACTIONS RURAL s
URBAN =
GAUSSIA
EFFECTIVE
URBAN
.1406+09
.6878+01
.1840+03
.4001+01
.1269+02
.0000
.6559+01
.0000
.0000
.0000
• OOOO
.0000
.0000
.0000
.0000
RAHETERS
RURAL POP,
(P/KM2I
FIREO W-TUBE
.610
.390
N APPROXIMATED SOURCE
STACK HEIGHT x 80.00
POLLUTANT
HG
* «0
* NI
» V
ZN
ZR
AS
BI
AL
SB
CO
sc
p
SR
= "'** URBAN POPL. = 359.7
(P/KM2)
«9«K FUEL TTPE 11 - PROCESS BAS
CONTROLS! NOX * .0000
SOX a .nnnn
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.oooo
.0000
.0000
.oooo
.0000
.0000
.0000
PARTICULATE
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.0000
.oooo
.0000
• oooo
.0000
.0000
.0000
S a .0000
URBAN
* .0000
* .0000
.oooo
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.0000
.0000
.0000
.0000
TOTKL
.289*1+00 ,85066+08 .1»06»+09
OJ
IMPACT FACTORS
SINGLE SOURCE
RURAL 1900.
URBAN .5059+05
TOTAL IMPACT FACTOR »
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.1902+06
.3238+07
.3*28+07
.2089+05
• RATIO OF
SURFACE CONCENTRATE PLUS BACKSROUN0 CONCENTRATION TO ... OF HEe
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1500.
I
-JS.
SECTOR 2 - PACKAGED BOILERS
CONSUMPTION I TOTAL *
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
HN
TOTM.
IMPACT PARAMETERS
WIND SPEED * 4.500 RURAL POP.
(M/SI (P/KM2I
EQUIP TYPE 201 - WALL FIRED W-TUBE
: .5100
: .7922-03
NATURAL
.2569+08
.3956+09
.1906-01*
.3466-05*
.2530+09
.1780-01*
.2588-02*
.1386+00*
.1235+12
.1184+00*
.6976+06
.2817+00*
.6392+00*
.4210+00*
.3448-01*
(1E1S KJ/YRt
(1E1S KJ/TRI
RURAL
.9598+08
.8897+09
.1600+03*
.2500+01*
.1446+10
.1490+00*
.4003+01*
.7220+00*
.1235+12
.1184+00*
.1218+09
.2817+00*
.7723+01*
.5699+01*
.4269-01*
FRACTION! RURAL *
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.1583+09
.1462+10
.1840+03*
.4000+01*
.1670+10
.2295+00*
.6503+01*
.1222+01*
.6600+12
.1184+00*
.2227+09
.4517+00*
.6661+01*
.4264+02*
.9163-01*
.500
.500
SOURCE
80.00
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
22. 34 URBAN POPL. e 339. T
IP/KM2I
1 UK FUEL TYPE 11 - BIT/LI6 COAL
CONTROLS! NOX z
SOX 3
PARTICULATES =
NATURAL RURAL
.2920+00* .2920+00*
. 5157-02* .515T-02*
.7346+00* .0799+00*
.2572+00* .2658+00*
.2019+00* .1715+01*
.1067-01* .1667-01*
.9630-01* .9630-01*
.1053-01* .1053-01*
.1051+09 .6795+09
.6626-02* .5863-01*
.7600+00* .6550+00*
.9009-01* .9009-01*
.0000 * .0000 *
.0000 * .0000 *
.0000
.0000
.5000
URBAN
.1792+01*
.5157-02*
.1129+03
.5261+00*
.2555+01*
.1867-01*
.1467+00*
.10S3-U1*
.1762+09
.1086+00*
.4584+05
.1741+00*
.0000 •
.0000 *
.12*39+12
.12678+12
.66968+12
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.2032+07
.2387+09
TOTAL IMPACT FACTOR •
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.9117+09
.7685+11
.7776+11
.1208+09
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10p OF MEG
-------
INVERSION HEIGHT
(ft)
1900.
TABLE F-T. Continued
1974 -- IMPACT PARAMETERS
WIND SPEED ~ 4.500 RURAL POP.
IM/S) IP/KM2)
22.34
URBAN POPL.
(P/KM2)
= 3S9.7
SECTOR E - PACKAGED BOILERS
EQUIP TYPE 201 - WALL FIREO H-TUBC >29
FUEL TYPE 15 - RESIDUAL OIL
CONSUMPTION! TOTAL
SIN6LE SOURCE
.6S7Q (1E19 KJ/YR)
.7922-03 (1E13 KJ/YR)
FRACTION!
RURAL =
URBAN s
.600
.1100
POLLUTANT
NOX
SOX
HC
CO
PART
SUL?*T
pon HI
8A
BE
B
CR
CO
CU
PB
HN
NATURAL
.2589+08
.6121+08
.2600-01*
.JJ80-OJ*
.4292+00*
.1369-01*
.2588-02*
.1017+00*
.0000 *
.2146-02*
•1356+09
.6284+00*
.2696+00*
.4005+00*
.1087-01*
RUHAL
.9596+06
.1592+09
.1600+03*
.2500+01*
.1110+0?*
.1449+00*
.4003+01*
.6850+00*
.0000 *
.2148-02*
.2286+09
.6284+00*
.7353+01*
.5678+01*
.1920-01*
URBAN
.1583+09
.2768+09
.1640+03*
.4000+01*
.1310+02*
.2254+00*
.6503+01*
.1185+01*
.0000 *
.2148-02*
.4089+09
.7984+00*
.6311+01*
.4262+02*
.6802-01*
I
-p>
en
.20790+10
.25189+10
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEI6HT a 80.00
POLLUTANT
H6
no
NI
V
zt
ZR
AS
Bl
AL
SB
CO
SE
P
SR
.57958+10
IN)
CONTROLS: NOX =
NATURAL
.9427-01*
.1087-01*
.1630+10
.2265+09
.1709-01*
.3417-02*
.6698-03*
.0000 *
.2523+00*
.8626-03*
.3604-01*
.3107+00*
.0000 *
,9mo-03*
SOX *
PARTICULATES s
RURAL
,9<»27-01*
.1087-016
.1805+10
.2294+09
.1530+01*
.3417-02*
.6696-03*
.0000 *
.2761+07
.5066-01*
.1110+00*
.3107+00*
.0000 *
.9110-03*
.0000
.0000
.0500
URBAN
.1594+01*
.1087-U1*
.1632+10
.3193+09
.2370+01*
.3417-02*
.5129-01*
.0000 •
.1681+01*
.1009+00*
.8660+00*
.3947+00*
.0000 *
.9410-03*
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.5626+05
.2085+07
TOTAL IMPACT FACTOR *
AVERA6C SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.2714+06
.6705+09
.6977+09
.6677+06
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MES
-------
TABLE F-l. Continued
INVERSION HEIGHT > 1900.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.900 RURAL POP. = 22,34
CM/SI IP/KHZ)
URBAN POPL.
(P/KH2)
r 359.7
SECTOR 2 - PACKAGED BOILERS
EOUIP TYPE 202 - STOKER W-TOBE
>29«H
FUEL TTPE 14 - BIT/LIG COAL
CONSUMPTION 1 TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
UN
* .4660
> .5099-03
NATURAL
.5996+07
.32004-09
.2396-01*
.1393-02*
.1696+09
.1145-01*
.1623-02*
.8916-01*
.79*6+11
.7615-01*
.3044+oe
.1812+00*
.4111+00*
.2708+00*
.2216-01*
(1E19 KJ/YRI
(1E15 KJ/YRI
RURAL
.2725+06
.7660+09
.1800+03*
.2501+01*
.9669+09
.1127+00*
.4002+01*
.6729+00*
.7946+11
.7615-01*
.5644+06
.1812+00*
.7494+01*
.5549+01*
.3058-01*
FRACTION) RURAL =
URBAN s
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT a
URBAN
.4615+06
.1296+10
.1040+03*
.4001+01*
.1116+10
.2232+00*
.6502+01*
.1172+01*
.6159+12
.7615-01*
.1069+09
.3512+00*
.6453+01*
.4249+02*
.7932-01*
.630
.370
SOURCE
80.00
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
CONTROLSI NOX *
(M)
NATURAL
.1678+00*
.3317-02*
.4725+00*
.1654+00*
.1299+00*
.1201-01*
.6194-01*
.6774-02*
.4700+06
.9546-02*
.5017+00*
.5794-01*
.0000 *
.0000 *
SOX =
PARTICULATES =
RURAL
.1876+00*
.3317-02*
.6176+00*
.1940+00*
.1642+01*
.1201-01*
.6194-01*
.6774-02*
.3661+09
.5555-01*
.5767+00*
.5794-01*
.0000 •
.0000 •
.0000
.0000
.5000
URBAN
.1688+01*
.3317-02*
.3833+07
,4343+Op*
.2463+01*
.1201-01*
.1124+00*
.6774-02*
.6261+03
.1055+00*
.2213+08
.1420+00*
.0000 *
.0000 *
Tom
CD
.80038+11
.61644+11
.61693+12
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1624+07
.2225+09
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.1051+10
.7529+11
.7635+11
.6347+08
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF ME6
-------
TABLE F-l. Continued
INVERSION HEIGHT * 1900.
197H .. IMPACT PARAMETERS
WIND SPEED « *.500 RURAL POP.
-------
TABLE F-l. Continued
INVERSION HEIGHT
1900.
197H .- IHPACT PARAMETERS
WIND SPEED z H.500 RURAL POP.
in/S) (P/KH2)
22. SM
URBAN POPL. = 359.7
IP/KPI2»
SECTOR 2 - PACKAGED BOILERS
EQUIP TYPE 203 - SINGLE BURNER U-T <29 MM
CONSUMPTION! TOTAL *
SINGLE SOURCE =
1.690 (lElb KJ/YRI
.1392-03 (1E1S KJ/YR)
FRACTION:
RURAL
URBAN
.900
.100
FUEL TYPE 10 - NATURAL SAS
CONTROLS! NOX * .0000
SOX * .0000
PARTICULATES = .0000
I
-P>
00
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POR HI
BA
BE
B
CR
CO
CU
PB
AN
TOTAL
NATURAL
.2811+06
.3625-01*
.2250-01*
.1136-02*
.6000-01*
,fl82-01*
.8977-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.28109406
RURAL
.1346+07
.3181+01*
.1*00+03*
.3501+01*
.10734-02*
.1731+00*
.10*0+01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.13161407
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 30.00
URBAN
.2293+07
.6931+01*
.1840+03*
.4001 + 1)1*
.1273+02*
.2536+00*
.6590+01*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 •
.0000 *
.0000 *
.22927+07
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
30.07
821.7
TOTAL IBPACT FACTOR =
AVERAGE SOURCE IBPACT FACTOR =
MULTIPLE SOURCE
.3283+06
.1001+07
.1329+07
109.5
* RATIO OF HAXinUn SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF HE6
-------
TABLE F-l. Continued
INVERSION HEIGHT
tn>
1900.
1974 — IMPACT PARAMETERS
MIND SPEED = 4.500 RURAL POP.
IM/S) (P/KH2I
22.3*
URBAN POPL.
(P/KH2)
= S39.T
SECTOR i - PACKAGED BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
8A
BE
B
CR
CO
CU
PB
HN
TOTAL
.1300 (1E15 KJ/TR)
.1804-03 I IE15 KJ/TR)
EQUIP TYPE 203 - SINGLE BURNER M-T <29 HH
FRACTION: RURAL = .900
URBAN = .100
FUEL TTPE 11 - PROCESS 8AS
CONTROLS! NOX a .0000
SOX * .0000
PARTICULATES * .0000
NATURAL
.9787+06
.7287-01*
.2915-014
.1475-024
.7773-01«
.0000 <
.1163+00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.2466+07
> .3198+0l«
1 .1800+03
I .2501+01
i .1074+02
1 .0000
t .4116+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.4144+07
> .6948+01*
.1840+03*
.4001+01*
.1274+02*
.0000 *
.6616+01*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.37868+06
.24661+07
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 30.00 (HI
POLLUTANT NATURAL
HG .0000
MO .0000
NI .0000
V .0000
ZN .0000
ZR .0000
AS .0000
BI .0000
AL .0000
SB .0000
CO .0000
SE .0000
p .0000
SR .0000
.41458+07
RURAL URBAN
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
55.09
1491.
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.3573+05
.1074+06
.1432+06
198.6
RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 19* OF ME6
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1500.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP. = 22.34
(M/SI
URBAN POPL.
»P/KM2>
» 399.7
SECTOR 2 - PACKAGED BOILERS
EQUIP TYPE 203 - SIN6LE BURNER H-T <29 MW
FUEL TTPE 15 - RESIDUAL OIL
I
cn
o
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
flN
B .5950
i .9989-04
NATURAL
.6188+06
.6108+07
.8166-02*
.4228-03*
.4950+00*
.1500-01*
.0000 *
.1111+00*
.0000 *
.2354-02*
.1001+08
.6686+00*
.2954+00*
.4388+00*
.1191-01*
(1E15 KJ/TR)
I1E15 KJ/YR)
RURAL
.2762+07
.14B4+08
.1600+03*
.2500+01*
.1116+02*
.1462+00*
.0000 *
.6947+00*
.0000 *
.23S4-02*
.1658+08
.6806+00*
.7379+01*
.8717+01*
.2032-01*
FRACTION: RURAL =
URBAN s
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT s
URBAN
.4640+07
.2532+08
.1840+03*
.4000+01*
.1316+02*
.2267+00*
.0000 *
.1195+01*
.0000 •
.2354-02*
.2935+08
.8586+00*
.6337+01*
.4266+02*
.6906-01*
.700
.300
SOURCE
30.00
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
CONTROLSI NOX x
(H)
NATURAL
.0000 *
.1191-01*
.1016+09
.1565+08
.1872-01*
.3744-02*
.0000 *
.0000 *
.2765+00*
.0000 *
.0000 *
.3404+00*
.0000 *
.1031-02*
SOX =
PARTICULATES a
RURAL
.0000 *
.1191-01*
.1114+09
.1584+08
.1531+01*
.3744-02*
.0000 *
.0000 *
.2472+06
.0000 *
.0000 *
.3404+00*
.0000 *
.1031-02*
.0000
.0000
.0000
URBAN
.0000 *
.1191-01*
.2507 + 1)9
.2154+03
.2372+01*
.3744-02*
.0000
.0000
.1705+01
.0000
.0000
.4244+00
.0000
.1031-1)2*
TOTAL
.13398+09
.16145+09
.33151+09
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
3607.
.1192+06
TOTAL IMPACT FACTOR =
AVERA6E SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.1504+08
.2131+09
.2281+09
.3830+05
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-1. Continued
INVERSION HEIGHT
cm
1900.
197<4 -- IMPACT PARAMETERS
WIND SPEED * 4.500 RURAL POP. s
01<
.3965*011
.16004-031
.25004-01
.1073+02
.1333+00
.3442+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
> .8918+01*
> .7715+01*
> .1840+03*
.4000+01*
.1273+02*
.2140+00*
.4691+08
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
EQUIP TYPE 204 - SCOTCH FIRETUBE <29
FRACTION! RURAL • .660
URBAN = .340
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 20.00 IMI
FUEL TYPE 9 • DISTILLATE OIL
CONTROLSl NOX • .0000
SOX B .0000
PARTICIPATES « .0000
I
171
TOTAL
.14433+08
.34420+08
.469104-08
POLLUTANT
HG
no
HI
V
ZN
2R
AS
81
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.00(10
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
768.9
.1687*05
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.8139+07
.9223+08
.1004+09
6243.
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
1300.
1971 -- IMPACT PARAMETERS
MIND SPEED = 4.500 RUKAL POP.
-------
TABLE F-l. Continued
INVERSION HEIGHT s
in)
1900.
1971 •- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
IN/SI (P/KH21
URBAN POP!..
{P/KH2I
a 359.7
SECTOR £ - PACKAGED BOILERS
EQUIP TYPE 201 - SCOTCH FIRETUBE
<29«N
I
CJ1
co
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
pon HI
BA
BE
B
CR
CO
CU
PB
(IN
TOTAL
.1900-01
.6909-04
NATURAL
.1873406
.5763-03*
.2622-01*
.1326-02*
.5346-01*
.0000 *
.1608*09
.0000 *
.0000 *
.0000 •
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.16096+09
I1E15 KU/TR)
<1E19 KJ/YRI
FRACTION)
RURAL s
URBAN 8
,900
.100
FUEL TYPE 11
CONTROLS:
PROCESS EAS
RURAL
.8595+06
.3126*01*
.1600403*
.2SU1401*
.1072402*
.0000 *
.3496409
.0000
.0000
.0000 .
.0000
.0000
.0000
.0000
.0000
.35049409
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT a 20.00
NOX * .0000
SOX « .0000
PARTICULATES • .0000
(Ml
URBAN
.1157+07
.6676+01*
.1610+03*
.1001+01*
.1272+02*
.0000 *
.4677409
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.16912+09
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
7630.
.1667406
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.1936407
.4610407
.6576407
.2392405
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10X,OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT s
IN)
1900.
1974 -- IMPACT PARAMETERS
HIND SPEED = 4.500 RURAL POP.
IH/SI (P/KN2I
SECTOR 2 • PACKA6EO BOILERS
EQUIP TYPE 204 - SCOTCH FIRETUBE
CONSUMPTION: TOTAL *
SINGLE SOURCE >
cn
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CM
CO
CU
PB
HN
TOTAL
.9150 (1E15 KJ/TR)
.3196-01 (1E19 KJ/TR)
FRACTIONI RURAL =
URBAN n
.700
.300
NATURAL
.1017*06
.1376+07
.6135-02*
.2126-03*
.3719+00*
.1127-01*
.1606+08
.6369-01*
.0000 *
.1769-02*
.2160+07
.5174+00*
.2219+00*
.3297+00*
.8951-02*
.46928+08
RURAL
.4816+06
.3562+07
.1800+03*
.2500+01*
.1104+02*
.1425+00*
.4323+08
.6670*00*
.0000 *
.1768-02*
.3627+07
.5174+00*
.73115+01*
.5607+01*
.1735-01*
.79259+08
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT z 20.00
URBAN
.8196+06
.6186+07
.1840+03*
.4000+01*
.1304+02*
.2230+00*
.5396+06
.1167+01*
.0000 *
.1768-02*
.6473+07
.6874+00*
.6264+01*
.4255+02*
.6609-01*
.12928+09
POLLUTANT
He
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
IN)
22.34 URBAN POPL. a 359.7
(P/KM2)
IflH FUEL TTPE 13 -
CONTROLS! NOX *
SOX »
PARTICULATES *
NATURAL RURAL
.0000 * .0000 •
.6951-02* .6951-02*
.2164+00 .2472+08
.3587+07 .3632+07
.1407-01* .1527+01*
.2613-02* .2813-02*
.0000 • .0000 •
.0000 * .0000 •
.2077+00* .3213+09
.0000 • .0000 *
.0000 • .0000 •
.2557+00* .2557+00*
.0000 • .0000 *
.0000 • .0000 •
RESIDUAL OIL
.0000
.0000
.0000
URBAN
.0000 *
.8951-02*
.5210+06
.4746+07
.2367+01*
.2813-02*
.0000 •
.0000 •
.1636+01*
.0000 •
.0000 •
.3398+00*
.0000 •
.0000 *
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
1771.
.4650+05
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.3664+06
.4125+09
.4491+09
.1519+05
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACK6ROUNO CONCENTRATION TO 101 OF ME6
-------
TABLE F-l. Continued
INVERSION HEIGHT
Ifli
1500.
1974 •- IMPACT PARAMETERS
WIND SPEED a 4.300 RURAL POP.
(P/KM2I
22.34
URBAN POPL.
IP/KHZ I
S59.T
SECTOR a . PACKAGED BOILERS
CONSUMPTION! TOTAL «
SINSLE SOURCE »
EQUIP TYPE 205 - FIREBOX FIRETUBE <2»
.4030 J1E15 KJ/TR)
.2564-04 (1EI» KJ/YR)
POLLUTANT
NOX
SOU
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
UN
NATURAL RURAL URBAN
.4694+00* .1889*01* .8889+01.
.7623+00* .3907+01* ,7657+01*
.2180-02* .1600+03* .ie
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HI
1900.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
IN/S) IP/KHZ>
22.SU
URBAN POPL.
(P/KM2)
r 359.7
SECTOR 2 - PACKAGED BOILERS
EQUIP TTPE 205 - FIREBOX FIRETUBE <29 MU
FUEL TTPE 10 - NATURAL BAS
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PANT
SULFAT
PON HI
BA
BE
B
CR
CO
CU
PB
HN
TOTAL
.8990 (1E15 KJ/YR)
.4006-04 (1E15 KJ/TR)
FRACTION:
RURAL
URBAN
.900
.100
.00000
CONTROLS! NOX
sox
PARTICULATES
.0000
.0000
.0000
NATURAL
. 0649+00
.3353-02
.1521-01
.7694-03
.3102-01
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RUKAL
.5385+01
.3128+01
,1«UO+03
.2501+01
.1070+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.9385+01
.6878+01
.1840+03
.4001+01
.1270+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 20.00
POLLUTANT
HG
MO
HI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
.00000
in)
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
en
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
» RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT r
mi
1900.
1974 — IMPACT PARAMETERS
MIND SPEED * .1600+03*
I .2501+OH
.1072+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.1114+07
1 .68A1+01
1 .1610+03
> . 4001+01
> .1272+02
,0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
I
Cn
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT c 20.00
FUEL TYPE 11 • PROCESS SA3
CONTROLS! NOX z .0000
SOX * .0000
PARTICULATES « .0000
(HI
TOTAL
.14626+06
.65870+06
POLLUTANT
HS
MO
NI
V
2N
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.11142+07
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
14.72
400.8
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
3774.
.1142+05
.1520+05
53.32
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF MES
-------
TABLE F-l. Continued
INVERSION HEISHT
(HI
1500.
1974 — IMPACT PARAMETERS
WIND SPEED 1 4.500 RURAL POP.
(H/S) IP/KN2)
22.SH
URBAN POPL. s
IP/KHZ»
559.7
SECTOR 2 - PACKAGED BOILERS
EQUIP TYPE 209 - FIREBOX FIRETU8E <29 HM
FUEL TYPE 13 • RESIDUAL OIL
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFM
POM HI
BA
BE
B
CR
CO
CU
PB
UN
3 .6090
= .2965-04
NATURAL
.9599+05
.1211+07
.5730-02*
.2265-03*
,3474+00*
.1053-01*
,1619+08
.7817-01*
.0000 *
.1652-02*
.1910+07
.4832+00*
.2073+00*
.3079+00*
.6360-02*
(lElb KJ/YR)
(1E1S KJ/YR)
RURAL
.4765+06
.3161+07
.1600+03*
.2500+01*
.1101+02*
.1418+00*
.3862+08
.6615+00*
.0000 *
.1652-02*
.3217+07
.4832+00*
.7291+01*
.5586+01*
.1676-01*
FRACTIONS RURAL s
URBAN *
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT *
URBAN
.6165+06
.5501+07
.1B40+03*
.4000+01*
.1301+02*
.2223+00*
.5264+06
.1162+01*
.0000 *
.1652-02*
.5755+07
.6532+00*
.6249+01*
.4253+02*
.6550-01*
.700
.300
SOURCE
20.00
POLLUTANT
H6
no
NI
V
2N
2R
AS
BI
AL
SB
CO
SE
P
SR
CONTROLS! NOX = .0000
SOX x .0000
PARTICULATES « .0000
(HI
NATURAL RURAL URBAN
.0000 * .0000 * .0000 >
.6360-02* .8360-02* ,6360-OZ*
.2022+08 .2219+06 .4676+0*
.3187+07 .3227+07 .4229+07
.1314-01* .1526+01* .2366+01*
.2626-02* .2628-02* .2628-02*
.0000
.0000
.1940+00
.0000
.0000
.2389+00
.0000
.0000
.0000
.0000
.9877+00
.0000
.0000
.2389+00
.0000
.0000
.0000 *
.0000 *
.1623+01*
.0000 •
.0000 *
.3229+00*
.0000 *
.0000 *
I
in
00
TOTAL
.42811+08
.70898+08
.11571+09
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
1584.
.4162+05
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.2262+08
.2547+09
.2773+09
.1399+05
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF HE 6
-------
TABLE F-l. Continued
INVERSION HEIGHT
tM>
1900.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.590 RURAL POP.
IH/Si (P/KHZ)
22.34
URBAN POPL.
(P/Kn2l
a 359.7
SECTOR 2 - PACKAGED BOILERS
CONSUMPTION! TOTAL
SINGLE SOURCE
.2100-01 (1E15 KJ/YRI
.1951-03 I1E15 KJ/YR)
(.QUIP TYPE 206 - STOKER FIRED V-TUBE <29 MW
FRACTIONI RURAL = .763
URBAN s .240
I
01
vo
TOTAL
FUEL TYPE 1 - ANTHRACITE
CONTROLS: NOX s .0000
SOX * .0000
PARTICULATES * .1900
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
NATURAL
.2467+07
,1076+08
.5565-01*
.1707-01*
.1025+08
.1075-01*
.0000 *
.4095+00*
.5214+11
.1871-02*
.3050+09
.5138+07
.1061+07
.4946+00*
.2161+00*
RURAL
.8711+07
.2466+08
.1001+03*
.2517+01*
.5769+08
.1420+00*
.0000 *
.9928+00*
.5214+11
.1671-02*
.4525+09
.5138+07
.5868+07
.5772+01*
.2245+00*
URBAN
.1426+08
.4133+08
.1841+03*
.4017+1)1*
.6659+08
.2225+00*
.0000 *
.1493+01*
.5886+12
.1871-02*
.7388+09
.6279+07
.5161+07
.4272+02*
.2733+00*
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEI6HT = 30.00
IMI
.92476+11
.526964-11
.58945+12
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
S8
CO
SE
P
SR
NATURAL
.7636+00*
.1184-01*
.1965+07
.1855+00*
.3923-01*
.2281-01*
.1184+000
.0000 *
.0000 *
.0000 *
.0000 *
,1662-01*
.0000 •
.0000 *
RURAL
.7636+00*
.1184-01*
.2625+07
.2141+00*
.1552+01*
.2281-01*
.1184+00*
.0000 *
.0000 •
.0000 •
.0000 *
.1662-01*
.0000 *
.0000 *
URBAN
.2264+01*
.1184-01*
.7109+07
.4544+00*
.2392+01*
.2281-01*
.1688+00*
.0000
.0000
.0000
.0000
.1007+00
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.1177+07
.2120+09
TOTAL IMPACT FACTOR •
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.9628+08
.5476+10
.5572+10
.5178+08
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF MEG
-------
TABLE F-1. Continued
INVERSION HEIGHT
(Ml
1500.
1974 -- IMPACT PARAMETERS
WIND SPEED = 1.500 RURAL POP.
MM/SI (P/KM2)
SECTOR 2 - PACKAGED BOILERS
EOUIP TYPE 206 - STOKER FIRED U-TUBE <29 MW
O1
O
CONSUMPTION! TOTAL
SIN6LE SOURCE
POLLUTANT
NOX
SOX
MC
CO
PART
SULFAT
PON HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
1.533 (1E15 KJ/YR)
,1951-03 (1E15 KJ/YR)
FRACTION!
RURAL
UHBAN
.590
.410
NATURAL
.2467*07
.9663*08
.3339+00*
.3095-02*
.1452+09
.3010-01*
.0000 •
.2967+00*
.3489+11
.2534+00*
.1556+00
.6030+00*
.3469+06
.9012+00*
.7381-01*
.35173+11
RURAL
.8711+07
.1952+09
.1803+03*
.2504+01*
.6487+09
.1693+00*
.0000 *
.8801+00*
.3489+11
.2534+00*
.2484+08
.6030+00*
.2381+07
.6179+01*
.8222-01*
.35874+11
6AUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 30.00
(M)
URBAN
.1426+08
.3135+09
.1843+03*
,4004+01*
.7431+09
,2498+00*
.0000 *
.1380+01*
.5713+12
.2534+00*
.4206+06
.7730+00*
.2082+07
.4312+02*
.1310+00*
.57248+12
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
Bl
AL
S8
CO
SE
P
SR
22.34 URBAN POPL. = 359.7
IP/KH2I
19 MW FUEL TYPE 14 -
CONTROLS 1 NOX =
SOX =
PARTICULATES c
NATURAL RURAL
.6251+00* .6251+00*
.1104-01* .1104.01*
.4918+06 .7250+06
.5506+00* .5792+00*
.4322+00* .1945+01*
.3996-01* .3996-01*
.2061+00* .2061+00*
.2255-01* .2255-01*
.2261+08 .1035+09
.1846-01* .6846-01*
.5698+06 .6553+06
.1928+00* .1928+00*
.0000 * .0000 •
.0000 * .0000 *
BIT/LIG COAL
.0000
.0000
.1500
URBAN
.2125+01*
.1104-01*
.2675+07
.8195+00*
.2785+01*
.3996-Ul*
.2566+00*
.2255-01*
.3529+08
.1185+00*
.8681+07
.2769+00*
.0000 *
.0000 *
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.8014+06
.2059+09
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.3714+10
.6639+12
.6670+12
.6490+08
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO IOC OF HE6
-------
TABLE F-l. Continued
INVERSION HEIGHT
1900.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
359.7
SECTOR t
CONSUMPTION! TOTAL x
SINGLE SOURCE =
PACKAGED BOILERS
.1810
EQUIP TYPE 208 - CAST IRON BOILERS
FUEL TTPE 9 • DISTILLATE OIL
(1E15 KJ/TR)
(1E15 KJ/TR)
FRACTIONI RURAL =
UHBAN s
.600
.400
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
pen HI
BA
BE
B
CS
CO
CU
PB
m
TOTAL
NATURAL
.6993-01*
•1405+00*
.4455-03*
.1658-04*
.5111-02*
.3819-03*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 »
.0000 *
.0000 *
.0000 *
.00000
RURAL
.4570+01*
.3266+01*
.18004-03*
,2500+01*
.1067+02*
.1316+00*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 •
.0000 •
.0000 *
.00000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT a 20.00
CONTROLSI NOX
SOX
PARTICULATtS
URBAN
.8570+01*
.7016+01*
.1840+03
.4000+01
.1267+02
.2121+00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
61
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
,0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1900.
197* -- IMPACT PARAMETERS
WIND SPEED = 4.500 HURAL POP.
(fl/S) IP/KH2).
22.34
URBAN POPL.
4P/KH2)
* 359.T
SECTOR 2 • PACKAGED BOILERS
teuiP TYPE 20B - CAST IRON BOILERS
CONSUMPTION! TOTAL =
SINGLE SOURCE =
.2610
.7173-05
(1E19 KJ/TRI
(1E1S KJ/TR)
FRACTION:
RURAL
UKBAN
.700
.300
O1
ro
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BE
B
CR
CO
CU
PB
NN
TOTAL
NATURAL
.0261-01*
.6004-03*
.4163-02
.1377-03
.3629-02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
.00000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT i 20.00 (Ml
POLLUTANT NATURAL
HG .0000
NO .0000
NI .0000
v .0000
ZN .0000
ZR .0000
AS .0000
BI .0000
AL .0000
SB .0000
CO .0000
SE .0000
P .0000
SR .0000
.00000
FUEL TTPE 10 - NATURAL BAS
CONTROLSI NOX * .0000
SOX * .0000
PARTICULATES * .0000
RURAL URBAN
.45834-01* .8583+01*
.3126+01* .6876+01
.1600+03* .1BOO+03
.2500+01* .4000+01
.1067+02* .1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.01)00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL URBAN
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
•0000 .0000
.0000 .0000
.0000 .0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR «
AVERAGE SOURCE IMPACT FACTOR «
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-l. Continued
INVERSION HE16HT
1500.
1974 -- IMPACT PARAMETERS
HIND SPEE-D = 4.500 RURAL POP.
(n/SI (P/KH2I
URBAN POPL.
IP/KM2I
i S59.7
SECTOR 2 • PACKAGED BOILERS
CONSUMPTION! TOTAL
SIN6LE SOURCE
POLLUTANT
NOSt
SOX
HC
CO
PART
SULFAT
POH HI
8A
BE
B
CR
CO
CU
PB
HN
TOTAL
EQUIP TYPE 206 - CAST IRON BOILERS
.1950
i .5527-05
(1E15 KJ/YR)
(If IS KJ/YR)
FRACTION:
RURAL = .600
URBAN * .400
GAUSSIAN APPROXIMATED SOURCE
NATURAL
.2270+00*
.7133+00*
.1061-02*
.4195-04*
.6432-01*
.1949-02*
.0000 *
.1447-01*
.0000 •
.0000 *
.9640+00*
.8947-01*
.3638-01*
.5702-01*
.1548-02*
RURAL
.4727+01*
.3868+01*
.1800+03*
.2500+01*
.1073+02*
.1332+00*
.0000 *
.5976+00*
.0000 *
.0000 *
.2462+01*
.6947-01*
.7122+01*
.5335+01*
.9951-02*
EFFECTIVE STACK
URBAN
.8727+01*
.7616+01*
.1840+03*
.4000+01*
.1273+02*
.2137+00*
.0000 *
.1096+01*
.0000 *
.0000 «
,5332+01*
.2595+00*
.6080+01*
.4226+02*
.5869-01*
HEIGHT * 20.00
POLLUTANT
HG
HO
NI
V
?.N
ZR
AS
BI
AL
SB
CO
SE
P
SR
FUEL TYPE 19 - RESIDUAL OIL
CONTROLSI . NOX = .0000
SOX « .0000
PARTICULATES s .0000
.15603+07
(HI
.16684+07
.46975+07
NATURAL
.0000 *
.1548-02*
.1440+07
.1203+06
.2433-02*
.0000 •
.0000 «
.0000 •
.3592-01*
.0000 *
.0000 *
.4423-01*
.0000 *
.0000 *
RURAL
.0000
.1546-02
.1745+07
.1232+06
.ISlS+Oli
.0000
.0000
.0000
.8296+00
.0000
.0000
.4423-01
.0000
.0000
URBAN
» .0000 *
> .1548-02*
.4466+07
.2317+06
> .2355+01*
.0000 *
.0000 *
.0000 *
.1464+01*
.0000 *
.0000 *
.1263+00*
.0000 *
.0000 *
CO
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
41.74
1690.
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.8835+06
.2384+06
.2473+08
700.9
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HI
1900.
1974 -- IMPACT PARAMETERS
HIND SPEED = it.500 RURAL POP.
-------
TABLE F-1. Continued
INVERSION HEI6HT
INf
1900.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
(M/SI (P/KM2I
SECTOR 2 . PACKAGED BOILERS
EQUIP TYPE 209 - STOKER F-T BOILER
CONSUMPTIONS TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFflT
Pori HI
8A
6E
B
CR
CO
CU
f>B
HN
TOTAL
.5560 (1E15 KJ/YR>
.2447-04 (1E15 KJ/TR)
FRACTIONI RURAL *
UNBAN s
.990
.410
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT * 20.00
NATURAL RURAL URBAN POLLUTANT
.9778+00* .5478+01* .9478+01* HG
.5456+07 .1242+08 .2076+08 HO
.9832-01* .1801+03* .1841+03* N!
.1147-02* .2501+01* .4001+01* V
.8008+07 .3974+08 .4569+08 ZN
.1122-01* .1425+00* .2229+00* ZR
.1453+07 .4251+07 .6001+07 AS
.8738-01* .6707+00* .1171+01* BI
.3077+10 .3077+10 .1543+12 AL
.7463-01* .7463-01* .7463-01* SB
.6967+06 .1276+07 .2400+07 CO
.1776+00* .1776+00* .3476+00* SE
.4029+00* .7486+01* .6445+01* P
.2654+00* .5543+01* .4249+02* SR
.2174-01* .3014-01* .7888-01*
.90934+10 .31406+10 .15454+12
(Ml
22.3* URBAN POPL. • 3S9.7
(P/KM2)
MM FUEL TTPE It •
CONTROLS! NOX *
SOX «
PARTICIPATES *
NATURAL RURAL
.0000 * .0000 *
.3231-02* .3251-02*
,1631*00* .6084+00*-
,1621*008 .1907*00*
.1273+00* .1640+01*
.1177-01* . 1177.01*
.6070-01* .6070-01*
.0000 • .0000 «
.1067+37 .6197+07
.0000 * .0000 *
.4917+00* .9667+00*
.5679-01* .5679-01*
.0000 * .0000 •
.0000 * .0000 •
BIT/LI6 COAL
.0000
.0000
.1500
URBAN
.0000 *
.3251-02*
.9002+uS
.1310+00*
.2*80+01*
.1177-01*
.1111+00*
.0000 *
.1856+07
.0000 *
.4959+04
.1408+00*
.0000 *
.0000 *
Ol
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.7016+05
.5552+08
TOTAL IMPAct FACTOR •
AVERAGE SOURCE IMPACT FACTOR 3
MULTIPLE SOURCE
.9409+09
.5171+12
.9181+12
.2280+08
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10S OF HE6
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1900.
1971 — IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
CM/SI IP/KHZ)
22.3*1
URBAN POPL.
IP/KHZ)
= a&9.7
SECTOR 2 - PACKAGED BOILERS
EQUIP TYPE 210 - HRT BOILERS <29 MU
FUEL TYPE 9 - DISTILLATE OIL
-n
01
en
CONSUMPTIONS TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
" cu
PB
ON
TOTAL
.2630 (1E19 KJ/YRl
.2964-04 (1E19 KJ/YR)
FRACTION!
RURAL -
URBAN E
.660
.340
NATURAL
.3894+00*
.7660+00*
.2307-02*
.9606-04*
.3000-01*
.2127-02*
.1269+06
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.12894+06
RURAL
.4669+01*
.3911+01*
.1600+03*
.2500+01*
.1070+02*
.1334+00*
.3071*06
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.ogoo
.30706+08
RURAL
URBAN
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT * 20.00
CONTROLS! NOX
SOX
PARTICULATES
in)
URBAN
.6669+01*
.7661+01*
.1640+03*
.4000+01*
.1270+02*
.2139+00*
.4164+06
.0000 *
.0000 *
.0000 •
.0000 *
.0000 *
.0000 *
.0000 *
.0000 •
.41639+06
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
SINGLE SOURCE
666.0
.1505+09
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.4607+07
.5207+08
.5668+08
SS70.
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO lp» OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
1900.
1974 — IMPACT PARAMETERS
WIND SPEED =
-------
TABLE F-1. Continued
INVERSION HEIGHT s 1500.
197H .. mPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
22.34
URBAN POPL.
IP/KH2I
« 359.7
SECTOR 2 - PACKAGED BOILERS
CONSUMPTIONI TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
nn
TOTAL
EQUIP TTPE 210 - HRT BOILERS <29
r .9700
> .2985-04
NATURAL
.9625*05
.1211*07
.5997-02*
.2265-03*
.7374+00*
.1053-01*
.1619+08
.7817-01*
.0000 *
.1652-02*
.1910+07
.4832+00*
.2073+00*
.3079+00*
.8360-02*
I1E15 KJ/YRt
I1E15 KJ/YRI
RURAL
.4787+06
.3161+07
,1800+03*
.2500+01*
.1140+02*
.1418*00*
,3862*08
,6615*00*
,0000 *
,1652-02*
.3217+07
.4832*00*
,7291+01*
,5586+01*
,1676-01*
FRACTIONS RURAL s
URBAN •
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT «
URBAN
.8187+06
.5501+07
.1840*03*
.4000*01*
.1340*02*
.2223*00*
.5264*08
.1162*01*
.0000 *
.1652-02*
.5755+07
.6532+00*
.6249+01*
.4253+02*
.6550-01*
.700
.300
' SOURCE
20.00
POLLUTANT
HG
, no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
FUEL TYPE 15 - RESIDUAL OIL
CONTROLS! NOX z .0000
SOX * .0000
PARTICULATES * .0000
POLLUTANT
HG
, no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.0000 »
.8360-024
.2022*08
.3187*07
. 1314-011
.2628-021
.0000 <
.0000 <
.1940+001
.0000 <
.0000 <
.2389+001
.0000 l
.0000 <
RURAL
. .0000 •
> .6360-02*
.2219*08
.3227*07
> .1526*01*
> .2628-02*
> .0000 *
> .0000 *
> .9877*00*
» .0000 *
t .0000 •
» .2389*00*
1 .0000 *
• .0000 *
URBAN
.0000 •
.8360-02*
.4676*08
.4229*07
.2366*01*
.2628-02*
.0000 •
.0000 •
.1623*01*
.0000 •
.0000 •
.3229*00*
.0000 *
,0000 *
.1*2811+08 .70896*08
.11571+09
CO
IMPACT FACTORS
SINGLE SOURCE
RURAL 158*.
URBAN .4162+09
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.1374+08
.1548+09
.1685+09
.1359+05
-------
TABLE F-l. Continued
INVERSION HEIGHT
IN)
1500.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
IN/SI (P/KH2I
22.3*
URBAN POPL.
(P/KM2I
399.7
SECTOR 2 • PACKAGED BOILERS
EQUIP TYPE 211 • Res/conn STEAK * HOT MAT
CONSUMPTION: TOTAL *
SINGLE SOURCE »
.1400-01 (1E19 KJ/YRI
.2025-06 I1E19 KJ/YRI
FRACTION! RURAL
URBAN
.760
.240
I
CTi
VO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
a
CR
CO
CU
PB
HN
TOTAL
NATURAL
.2770-06*
.6778-06*
.4743-06*
.2132-06*
.6323-06
.8950-09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
WIDTH
RURAL
.4500+01*
.3125+01*
.1600+03*
.2500+01*
.1067+02*
.1312+00*
.0000 •
.0000 •
.0000 •
.0000 *
.0000 •
.0000 *
.0000 *
.0000 •
.0000 *
.00000
DISTRIBUTED SOURCE
.7914+05 LENGTH
FUEL TYPE 1 - ANTHRACITE
CONTROLSI NOX » .0000
SOX * ,0000
PARTICIPATES * .0000
URBAN
.6500+01*
.6675+01*
,18tO+03»
.4000+01*
.1267+02*
.2117+00*
.0000 *
.0000 *
.0000
.0000
,0000
.0000
.0000
.0000
.0000
,00000
POLLUTANT
H6
no
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
.7944+03
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL URBAN
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR «
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO
OF ME 6
-------
TABLE F-l. Continued
INVERSION HEIGHT * 1900.
1974 — IMPACT PARAMETERS
HIND SPEED = 4.500 RURAL POP.
iH/S> IP/KH2I
22.34
URBAN POPL.
IP/KH2)
559.7
SECTOR 2 - PACKAGED BOILERS
EQUIP TYPE 211 - RES/COMH STEAM * HOT UAT
FUEL TYPE 9 - DISTILLATE OIL
CONSUMPTIONt TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
.8800 (1E15 KJ/TR)
.2025-06 I1E1S KJ/YR)
NATURAL
.B497-07*
.2099-06*
.7307-08
.4712-09
.1986-07
.5699-09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
UIDTH
RURAL
.4500*01*
.3129*01*
.1800*03*
.2500*01*
.1067*02*
.1312*00*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.00000
FRACTIONS
RURAL
URBAN
.600
.400
CONTROLS! NOX
SOX
PARTICULATE8
DISTRIBUTED SOURCE
.7944*09 LENGTH a
URBAN
.8500+01*
.6679*01*
.1810*03
.4000*01
.1267*02
.2117*00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
.7944*05
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.01)00
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10X OF HEB
-------
TABLE F-l. Continued
INVERSION HEIGHT a
(HI
1500,
197* — tflPACT PARAHCTERS
WIND SPEED B H.SOO RURAL POP.
(H/SI IP/KH2)
42.34
URBAN POPL. «
(P/KH2I
359.7
SECTOR z - PACKAGED BOILERS
CONSUMPTION! TOTAL *
SINGLE SOURCE *
.7370 (1E1S KJ/YR)
.1079-06 (1E15 KtJ/YR)
teuiP TYPE 211 • RESXCOHH STEAM * HOT WAT
FRACTIONI RURAL a .790
UK8AN » .300
FUEL TYPE 10 - NATURAL GAS
CONTROLS! NOX
SOX
PARTICULATES
WIDTH
DISTRIBUTED SOURCE
.79*1+03 LENGTH
I
-vl
POLLUTANT
NOX
SOX
HC
CO
PART
SULMT
PON HI
BA
BE
B
CR
CO
CU
PB
m
TOTAL
NATURAL
.2831-07*
.0000 *
.2799-06*
.7079-10
.9719-08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.1*900+01*
.0000
.1600+03
.2500+01
.1067+02
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8500+01*
.0000 *
.1640+03*
.11000+01*
.1267+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
H6
no
ZN
2R
AS
BI
AL
SB
CO
SE
P
SR
.7944+05
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000 *
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR »
AVERAGE SOURCE IMPACT FACTOR -
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO
OF NE6
-------
TABLE F-l. Continued
INVERSION HEIGHT
CM)
1900.
1974 •- IMPACT PARAMETERS
WIND SPEED » 4.500 RURAU POP.
«M/S( IP/KHZ)
22.34
URBAN POPL.
IP/KHZ)
» 3S9.7
SECTOR f • PACKAGED BOILERS
ro
CONSUMPTIONI TOTAL
SIN6LE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POB HI
BA
BC
B
CR
CO
CU
PB
flN
TOTAL
.1100-01 (1C15 KJ/TRt
.2029*06 (1E19 KJ/TR>
EOUIP TTPE 211 - RES/COMH STEAH + HOT WAT
FRACTION: RURAL = .590
UHBAN m .410
FUEL TTPE 14 - BIT/LIE COAL
CONTROLS I NOX
SOX
PARTICULATES
.0000
.0000
.0000
NATURAL
.2770-06
.2665-05
.5534-06
.2491-07
.7376-06
.3173-08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
• .4500+01*
• .3123+01*
.1800+03*
.2500+01*
.1067+02*
.1312+00*
.0000 , *
.0000 *
.0000 *
.0000 •
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
URBAN
.6500+01*
.6875+01*
.1640+03
.4000+01
.1267+02
.2117+00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
DISTRIBUTED SOURCE
WIDTH » .7944+05 LENGTH
POLLUTANT
He
no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
.7944+05
NATURAL
.0000
.0000
.0000
.0000
.3600-07
.0000
.0000
.0000
.1067-05
.0000
.0000
.0000
.0000
.0000
RURAL
.0000 <
.0000
.0000
.0000
.1513+01
.0000
.0000
.0000
.7937+00
.0000
.0000
.0000
.0000
.0000
URBAN
.0000 *
.0000
.0000
.0000
.2353+01
.0000
.0000
.0000
.1429+01
.0000
.0000
.0000
.0000
.0000
.00000
.00000
.00000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR a
AVERAKC SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF NEC
-------
TABLE F-l. Continued
INVERSION HEIGHT
tni
1500.
1974 — IMPACT PARAMETERS
HIND SPEED = 4.500 RURAL POP. =
CH/S) (P/KM2I
22.34
URBAN POPL. = 359.7
SECTOR 2 - PACKAGED BOILERS
CONSUMPTION: TOTAL *
SINGLE SOURCE *
.6900-01 I1E15 KJ/YR)
.2025-06 I1E15 KJ/YR)
EQUIP TYPE 211 - KES/COmi STEAM * HOT MAT
FRACTION I RURAL = .600
URBAN a .400
FUEL TYPE 15 - RESIDUAL OIL
CONTROLS! NOX *
SOX *
PARTICULATES *
I
-^1
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POfl Hi
BA
BE
B
CR
CO
CU
PB
TOTAL
NATURAL
.2503-06*
.9288-06*
.1650-06*
.2391-09*
.1710-06*
.2441-08*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 •
.0000 •
.00000
MIOTH
DISTRIBUTED SOURCE
.7944+05 LENGTH e
.7944+05
RURAL
.1500+01*
.3125+01*
.1800+03*
.2500+01*
.1067+02
.1312+00
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8500+01*
.6875+01*
.1640+03*
.4000+01*
.1267+02*
.2117+00*
.0000 *
.0000 *
,0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.00000
POLLUTANT
HS
NO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
p
SR
NATURAL
.0000
.0000
.5633-05
.1661-05
.0000
.0000
.0000
.0000
.4498-07
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.1453+00
.2857-01
.0000
.0000
.0000
.0000
.7937+00
.0000
.0000
.0000
.0000
.0000 *
.0000
.0000
.0000
URBAN
.0000 *
.0000
.6410+00
.2689+00
.0000
.0000
.0000
.0000
.11*29+01
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF HE 6
-------
TABLE F-l. Continued
INVERSION HEIGHT s
(HI
1300.
1974 -- IMPACT PARAMETERS
HIND SPEED = 4.900 RURAL POP.
IH/SI IP/KM2)
22.34
URBAN POPL.
(P/KM2I
= SS9.T
SECTOR 3 - WARM AIR FURNACES
EQUIP TYPE 301 - WARM AIR CENTRAL FURNACE
CONSUMPTION! TOTAL =
SINGLE SOURCE =
3.091 (1E19 KJ/TRI
.1079-06 (1E19 KJ/TRI
FRACTION: RURAL =
URBAN s
.700
.300
FUEL TTPE 10 - NATURAL SAS
CONTROLS! NOX * .0000
SOX - .0000
PARTICULATES = .0000
UIDTH
DISTRIBUTED SOURCE
.7944+05 LENGTH a .7944*05
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
pon HI
BA
BE
B
CM
CO
CU
PB
TOTAL
NATURAL
.2831-07*
.0000 •
.2799-08*
.9877-10*
.4719-08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
,4500+01
.0000
.1800*03
.2500+01
.1067402
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8500*01
.0000
.1640*03
.4000*01
.1267*02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.00000
POLLUTANT
HS
MO
Nl
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.ooou
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF ME6
-------
INVERSION HEIGHT
(HI
1900.
TABLE F-1. Continued
19T<» -- IMPACT PARAMETERS
WIND SPEED = H.500 RURAL POP.
4H/SI (P/KW2I
22.3*
URBAN POPL.
IP/KHZ!
i S59.T
SECTOR 3 - HARM AIR FURNACES
EQUIP TYPE 301 - WARM AIR CENTRAL FURNACE
CONSUMPTION! TOTAL =
SIN6LE SOURCE »
1.409 (1E19 KJ/TRI
.2025-06 (1E19 KJ/TRI
en
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
TOTAL
NATURAL
.9423-07*
.2099-06*
.7261-08*
.1789-09*
.1986-07*
.9695-09*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
WIDTH
RURAL
.4500+01*
.3125+01.
.1800+03*
.2500*01*
.1067+02*
.1312+00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
FRACTION! RURAL =
URBAN s
.600
.400
DISTRIBUTED SOURCE
.7944+05 LENGTH s .7944+03
FUEL TTPE 16 • OIL
CONTROLS! NOX 3 .0000
SOX * .0000
PARTICIPATES « .0000
URBAN
.6500+01*
.6875+01*
.1840+03*
.4000+01*
.1267+02*
.2117+00*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 •
.0000 *
.00000
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
SI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1SOO.
197* — IMPACT PARAMETERS
WIND SPEED - it.500 RURAL POP. =
IH/Sl IP/KHZ)
URBAN POPL.
(P/KM2)
359.T
SECTOR 3 • HARM AIR FURNACES
CONSUMPTION: TOTAL *
SINGLE SOURCE *
1.191 11E1S KJ/TRI
.1079-06 tlEli KJ/TR)
WIDTH
EQUIP TYPE 302 - WARM AIR SPACE HEATER
FRACTION* RURAL s .700
URBAN = .300
DISTRIBUTED SOURCE
.7944+08 LENGTH a .7944+05
FUEL TYPE 10 - NATURAL BAS
CONTROLS! NOX a .0000
SOX » .0000
PARTICULATES * .0000
I
--J
CTi
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
FOR HI
BA
BE
8
CR
CO
CU
PB
UN
TOTAL
NATURAL
.2631-07
.0000
.2799-08
.9677-10
.H719-08
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
,00000
RURAL
.1500+01*
.0000 *
.1SOO+03*
.2500+01*
.1067+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.asoo+oi
.0000
.let0+03
.4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF HC6
-------
TABLE F-l. Continued
INVERSION HEIGHT e
IN)
1900.
1971 — IMPACT PARAMETERS
KINO SPEED » 4.500 RURAL POP.
IN/SI
22.34
URBAN POPL.
IP/KN2I
= 359.7
SECTOR 3 - MARK AIR FURNACES
COUIP TYPE 302 - WARfl AIR SPACE HEATER
CONSUMPTIONS TOTAL *
SINGLE SOURCE *
.7270 UE15 KJ/TR)
,2029-06 (1E1S KJ/TRI
WIDTH
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
NATURAL
.9423-07*
.2095-06*
.7261-08*
.4789-09*
.1586-07*
.5695-09*
.0000
.0000
.0000
.0000
.1)000
.0000
.0000
.0000
.0000
.00000
RURAL
.4500*01*
.3125*01*
.1800+03*
.2500*01*
.1067*02*
.1312*00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
FRACTION) RURAL
URBAN
.600
.100
DISTRIBUTED SOURCE
.7944*05 LENGTH
FUEL TYPE 16 - OIL
CONTROLSl NOX = .0000
SOX * .0000
PARTICULATE8 * .0000
URBAN
.6500*01*
.6875*01*
.1840*03*
.4000*01*
.1267*02*
,2117*00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
MO
M
V
ZN
ZR
AS
BI
AL
SB
CO
se
P
SR
.7944*05
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION T° 10* OF NEG
-------
TABLE F-1. Continued
INVERSION HEIGHT
(Ml
1SOO.
1971* •- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP*
(N/S) IP/KM2I
URBAN POPL. = 359.7
(P/KM2I
SECTOR 8 * WARM AIM FURNACES
CONSUMPTION! TOTAL « 1.0000 (1E15 KJ/YR)
SIN8LE SOURCE • .1079-06 (1E1S KJ/TR)
EQUIP TYPE 303 - MISCELLANEOUS COMBUSTION
FUEL TYPE 10 - NATURAL SAS
FRACTION! RURAL =
URBAN =
.700
.300
CONTROLS! NOX
SOX
PARTICULATES
WIDTH
DISTRIBUTED SOURCE
.7941+09 LEN6TH s .7944+05
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
HN
TOTAL
NATURAL
.2631-07*
.0000 *
.2799-08*
.9677-10*
.4719-06
.0000
• 0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.4500401*
.0000 *
.1800+03*
.2500+01*
.1067+02*
.0000
.0000
.0000
.0000
«oooo
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.6500+01
.0000
.1640+03
.4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT a
(Ml
1900.
1974 » IMPACT PARAMETERS
WIND SPEEO « 4.500 RURAL POP.
IM/SI (P/KH2)
22.
URBAN POPL. s
339.T
SECTOR * - GAS TURBINES
EQUIP TYPE *01 - SIMPLE CYCLE
FUEL TYPE 9 • DISTILLATE OIL
CONSUMPTIONi TOTAL *
SINGLE SOURCE *
.26*0 (1E19 KJ/YR)
.9673-03 (1E19 KJ/YRI
FRACTION!
RURAL
URBAN
.490
.910
CONTROLSt NOX
SOX
PARTICIPATES
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
TOTAL
NATURAL
.1236+09
.1225+07
.6236*06
.4304+00*
.2*14+07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.12782+09
RURAL
.2656+09
.2615+07
.4558+08
.2930+01*
.10(56+08
.0000
.0000
.•oooo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.32*62+09
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 10.00
(HI
URBAN
.3918+09
.4262+07
.4698+08
.4430+01*
.1249+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.49909+09
POLLUTANT
H6
NO
MI
V
ZN
ZR
AS
BI
«L
se
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.00120
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
SINGLE SOURCE
RURAL 7292.
URBAN .1637+06
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.9698+06
.2279+08
.2376+08
.8704+09
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 104 OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT c 1500.
WIND SPEED
(N/S)
1971 -- IMPACT PARAMETERS
4.500 RURAL POP. = 22.31
(P/KH2I
URBAN POPL.
(P/KM2I
359.7
SECTOR
• GAS TURBINES
CONSUMPTIONI TOTAL = .2120
SINGLE SOURCE = .9673-03
(1E1S KJ/TR)
(1E1S K J/TR 1
EQUIP TYPE 101 - SIMPLE CYCLE >19 MM
FRACTIONl RURAL x .292
FUEL TYPE 10 - NATURAL 9AS
I
CO
o
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
rm
TOTAL
NATURAL
.5295+08
.9789+05
.6236+06
.1187+00*
.5791+06
.0000
.0000
.0000
.0000
.oooo
• oooo
.0000
.oooo
.0000
.0000
.91253+08
RURAL
.1161+09
.2903+06
.1558+08
.2919+01
.3236+07
.oooo
.0000
.0000
.0000
'.oooo
.'oooo
.0000
.0000
.0000
.0000
.169*9+0*
GAUSSIA
EFFECTIVE
UNBAN
.1728+09
.5212+06
.1658+08
• .1119+01
.3731+07
.0000
.0000
.0000
.0000
.oooo
.0000
.0000
.oooo
.0000
.0000
.22360+09
N APPROXIMATED SOURCE
STACK HEIGHT r 10.00
POLLUTANT
HG
MO
NI
i v
ZN
ZR
AS
BI
AL
SB
CO
SE
p
SR
CONTROLS I NOX
SOX
PARTICULATES
in)
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
.0000
• oooo
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
9697.
.8013+05
TOTAL I«P»CT FACTOR a
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.2366+06
.1218+08
41272+08
.5802+09
RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF HCG
-------
TABLE F-l. Continued
INVERSION HEIGHT a
in)
19DO.
1974 — IMPACT PARAMETERS
WIND SPEED a 4.500 RURAL POP, s 22.34
(M/SI IP/KM2)
URBAN POPL.
1P/KM2*
s 359.7
SECTOR * - GAS TURBINES
EQUIP TYPE 404 - SIMPLE CYCLE 4 TO 15 HH
FUEL TYPE 9 - DISTILLATE OIL
00
CONSUMPTIONI TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POH HI
BA
BE
B
CR
CO
CU
PB
TOTAL
.5790 (1E15 KJ/YR)
.5274-03 (1C15 KJ/YRI
WIDTH
FRACTION! RURAL = .550
URBAN = .450
DISTRIBUTED SOURCE
.7944+05 LENGTH
CONTROLS! NOX a
SOX =
PART1CULATES *
.7944+05
NATURAL
.1466-02*
.5381-04*
.3983-04*
.1903-05*
.6314-04*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.4501+01*
.3125+01*
.1800+03*
.2500+01*
.1067+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.6501+01
.6675+01
.1640+03
.4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
no
NI
v
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
,0000
.0000 *
RURAL
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL,
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF MCG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(H)
1900.
1971 — IMPACT PARAMETERS
UIND SPEED s 1.500 RURAL POP.
IM/S( (P/KM2I
URBAN POPL. = 559.7
(P/KM2)
SECTOR 0 - GAS TURBINES
EQUIP TTPE 101 - SIMPLE CTCLE 4 TO 15 NU
FUEL TYPE 10 - NATURAL 8AS
00
ro
CONSUMPTION! TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BC
B
CM
CO
CU
PB
HN
TOTAL
.1680 I1E15 KJ/TR)
.9274-03 (1E15 KJ/TR)
FRACTIONI
RURAL
URBAN
.700
.900
CONTROLS! NOX
SOX
PARTICULATES
WIDTH
DISTRIBUTED SOURCE
,7911+09 LEN6TH
NATURAL
.7609*03*
.1106-01*
.3299-01*
.1987-09*
.3218-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.1901+01*
.9129+01*
.1800+03
.2900+01
.1067+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8501+01
.6875+01
.1610+03*
.4000+01*
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
.7911+09
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
.3125+01'
.1800+05'
.2500+01
.1067+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
• .6500+01*
> .6875+01
> .1910+03
."4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
DISTRIBUTED SOURCE
.7911+05 LENGTH =
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
.7911+05
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000 .
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.00000
.00000
.00000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
MULTIPLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR = .0000
AVERAGE SOURCE IMPACT FACTOR = .0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO IOK'OF MEG
-------
INVERSION HEIGHT
(Ml
1900.
TABLE F-l. Continued
197* — IMPACT PARAMETERS
WIND SPEED s t.500 RURAL POP.
(H/SI (P/KM2)
22.3<»
URBAN POPL. = 559.7
SECTOR * • GAS TURBINES
EQUIP TYPE »06 - SIMPLE CYCLE <4 HH
CONSUMPTION: TOTAL *
SINGLE SOURCE a
.1000-02 I1E19 KJ/TR)
.316H-05 (1E19 KJ/YRI
FRACTIONI RURAL a
URBAN =
.TOO
.300
WIDTH =
DISTRIBUTED SOURCE
.79*4409 LENGTH * .7944405
FUEL TYPE 10 - NATURAL SAS
CONTROLSI NOX * .0000
SOX B .0000
PARTICULATES * .0000
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BC
B
CR
CO
CU
P8
MN
TOTAL
NATURAL
.46A3-OS*
.6638-07*
.1979-06*
.1192-07*
.1931-06*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 •
.0000 *
.0000 *
.00000
RURAL
.14500+01*
.3125401*
.1800403
.2500401
.1067402
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8500*01
.6675401
.1640403
.1000401
.1267402
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF HES
-------
TABLE F-l. Continued
INVERSION HEIGHT « 1500
(HI
1974 -• IMPACT PARAMETERS
HIND SPEED s 4.500 RURAL POP. * 22.34
CM/S) IP/KM2I
SECTOR S - RECIPROCATING 1/C ENGINE
EOOIP TfPE 501 - C. I.
>75 KN/CH
URBAN POPL. » 959.7
(P/KH2!
FUEL TYPE 9 « DISTILLATE OIL
I
00
en
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POD HI
BA
BE
8
CR
CO
CU
PB
MN
TOTAL
NATURAL
.4090+07
.5468+05
.3246+05
.5089-01*
.7163+05
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.42692+07
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT s 10.00
POLLUTANT
HG
«0
NI
V
ZN
81
AL
SB
CO
SE
P
SR
RURAL
.9740+07
.1712+06
.6766+07
.2551+01
.5569+06
.0000
.0000
.0000
.0000
.9000
.0000
.0000
.0000
.0000
.0000
URBAN
.1476+08
.3111+06
.6915+07
* .4051+01*
.6478+06
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
(HI
NATURAL
.0000
.UOOO
.0000
.0000
.0000
.0000
.0000
.uooo
.0000
.0000
.0000
.0000
.0000
.0000
CONTROLS! NOX
SOX
PARTICULATES
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0008
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
.0000
.0000
.1729H+08
.22636+08
IMPACT FACTORS
SINGLE SOURCE
RURAL sss.o
URBAN 8143.
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.9685+06
.5121+07
.6089+07
1937.
RATIO OF HAXlnUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101, OF KEG
-------
TABLE F-1. Continued
INVERSION HEI6HT e 1900.
197H -. IMPACT PARAMETERS
WIND SPEED = 4.SOO RURAL POP. = 22.34
IM/S) (P/KM2I
URBAN POPL.
(P/KM2I
a 319.7
SECTOR 5 - RECIPROCATING I/C ENGINE
I
00
cr>
CONSUMPTIONS TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO'
CU
PB
HN
TOTAL
.7000-01 (1E13 KJ/YR)
.1717-04 (1C19 KJ/YR)
NATURAL
.1973+07
.0000 *
.5087+06
.2230-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.24817+07
RURAL
.51*7+07
.0000
.0048+06
.2522+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.49622+08
EQUIP TYPE 501 - C. I. >7S KH/CYL
FRACTION: RURAL = .BOO
URBAN = .200
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 10.00 (HI
FUEL TYPE 17 - DUAL (OIL + 6ASJ
CONTROLS! NOX
SOX
PARTICULATES
URBAN
.7968+07
.0000 *
.4136+08
.4022+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.49332+08
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
81
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IHPACT FACTORS
RURAL
URBAN
SINSLE SOURCE
1019.
.1775+09
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.3324+07
.14*7+08
.1779+08
4364.
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF HE6
-------
TABLE F-l. Continued
INVERSION HEIGHT
tut
1900.
1974 .. IMPACT PARAMETERS
WIND SPEED a 11.500 RURAL POP.
(H/SI (P/KH2)
22. 3*
URBAN POPL.
(P/KM2)
= 339.T
SECTOR 3 - RECIPROCATING I/C ENGINE
I
CO
CONSUMPTIONt TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BE
e
CR
CO
CU
PB
MM
TOTAL
.6130 (1E15 KJ/TRI
.1717-04 (1E15 KJ/TR)
EOUIP TTPE 302 - S. I. >75 KH/CYL
FRACTION! RURAL « .990
URBAN K .ISO
FUEL TYPE 10 - NATURAL 6AS
NATURAL
.3509407
.4471-02*
.7604*06
.2678-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.12773*07
RURAL
.65*2+07
.3129*01*
.5419*06
.2529*01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.62733+06
6AUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 10.00
CONTROLS: NOX
SOX
PARTICULATES
(M)
URBAN
.1302+06
.6679+01*
.5536*06
.4029*01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.66394+08
POLLUTANT
HG
MO
HI
V
ZN
ZR
AS
81
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
1*01.
.2460*09
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR 3
MULTIPLE SOURCE
.5640*08
.1747*09
.2311+09
1662.
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10V OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT =
in)
1500.
197* -- IMPACT PARAMETERS
HIND SPEtD s 1.500 RURAL POP. * 22.3-4
IN/S) (P/KM2>
URBAN POPL.
IP/KM2I
« 359.7
SECTOR s - RECIPROCATING i/c ENGINE
EQUIP TYPE S03 - C. I. 79 KK TO 75 KW/CVl
FUEL TYPE 9 - DISTILLATE OIL
CONSUMPTION! TOTAL =
SINGLE SOURCE x
.1290 (1E15 KJ/YR)
.1207-05 (1E1S KJ/YR)
FRACTION: RURAL
URBAN
.850
.150
WIDTH
DISTRIBUTED SOURCE
.79<»<*+05 LENGTH
CONTROLS! NOX
SOX
PARTICULATES
CO
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULPAT
POM HI
BA
BE
B
CR
CO
cu
PB
HN
TOTAL
NATURAL
,1603-OH*
.1103-05*
.1059-05*
.2881-07*
.126H-OS*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.4500+01*
.3125+01
.1800+03
.2500+01
.1067+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8500+01
.6875+01
.1H40+03
.1*000 + 01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
,791t+Q5
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-1. Continued
INVERSION HEIGHT a
IN)
1500.
1974 -- IMPACT PARAMETERS
WIND SPEtD s 4.500 RURAL POP.
(M/SI (P/KH2I
22.3*
URBAN POPL.
(P/KB2J
« 339.T
SECTOR g - RECIPROCATING i/c ENGINE
EQUIP TYPE 904 - S. I. 75 K* TO 75 KK/CYL
FUEL TYPE 10 - NATURAL 6AS
CONSUMPTION! TOTAL =
SINGLE SOURCE s
.4300-01 I1C1S KJ/TR)
.1207-09 I1C19 KJ/YR)
FRACTIONI
RURAL
URBAN
.500
.500
WIDTH
DISTRIBUTED SOURCE
.7944+05 LEN6TH
I
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
flN
TOTAL
NATURAL
.1429-04*
.0000 *
.5109-09*
.1629-07*
.0000
.0000
.0000 ,
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.4500+01*
.0000
.1600+03
.2500+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
URBAN
.8500+01
.0000
.1640+03
.4000+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HS
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
p
SR
.7944+05
NATURAL
.0000
.0000
.0000
.0000
.0000
.0600
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
CONTROLSI NOX
SOX
PARTICULATES
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101'OF ME6
-------
TABLE F-l. Continued
INVERSION HEIGHT r
in)
1900.
1974 — IMPACT PARAMETERS
WIND SPEED =
-------
TABLE F-l. Continued
INVERSION HEIGHT a 1900.
1971 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
tM/S) (P/KM2I
22.34
URBAN POPL.
(P/KN2>
= 399.7
SECTOR 9 - RECIPROCATING I/C EN6INE
CONSUHPTIONI TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SUtFAT
POn HI
BA
BE
8
CR
CO
CU
PB
(IN
TOTAL
.4900-01 (1E19 KJ/TR)
.2616-08
-------
INVERSION HEIGHT
(M)
1300.
TABLE F-l. Continued
197H — 1HPACT PARAMETERS
WIND SPEED - t,500 RURAL POP.
22.34
URBAN POPL,
(P/KM2I
« 359.7
SECTOR 6 - INC. PROCESS COMBUSTION
EQUIP TYPE 601 - CEMENT KILNS
CONSUMPTION! TOTAL n
SINGLE SOURCE =
.7296+08 Hg
.3330+04 Mg
FRACTION!
RURAL
URBAN
.»SO
.550
FUEL TYPE IS - PROCESSED CIAT'L
CONTROLS! NOX c .0000
SOX « .0000
PARTICULATES a .BBOO
VO
ro
POLLUTANT
NOX
SOX
MC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
HN
TOTAL
NATURAL
.6*16+00*
.1326+07
.0000
.0000
.8760+07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.10086+08
RURAL
.3112+01*
.3632+07
.0000
.0000
.4643+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.50067+08
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 25.00
(Ml
URBAN
.9142+01*
.6397+07
.0000
.0000
.5350+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.59996+06
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
p
SR
NATURAL RURAL URBAN
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 ,0000
.0000 .0000 ,0000
.0000 .0000 ,0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 ,0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
1116.
.2155+05
TOTAL IBPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.1103+07
.2596+08
.2707+08
.1235+05
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO io» OF MEG
-------
INVERSION HEI6HT
(H)
1900.
TABLE F-l. Continued
19T» — IMPACT PARAMETERS
MtNO SPEED « «.900 RURAL POP.
tn/S) (P/KPI2)
22.34
URBAN POPL.
(P/KN2I
a 599.7
SECTOR 6 - INO. PROCESS COMBUSTION
CONSUMPTION? TOTAL *
SIN6LE SOURCE *
.1462+08 Hg
.5400+03 Hg
I
U3
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POU HI
BA
BE
B
CR
CO
CU
PB
NN
TOTAL
NATURAL
«5356-01«
.385T-01»
.0000
.0000
•19HO-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
EQUIP TYPE 602 - GLASS MELTINS FURNACES
FRACTION! RURAL = .150
URBAN a .850
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT a 55.00 (PH
FUEL TYPE 13 - PROCESSED HAT'L
RURAL
.tSbl+Ol
.3161+01
.0000
.0000
.1069+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
* .6551*01*
* .6910+01*
.0000
.0000
.1269+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
POLLUTANT
HG
50
NI
v
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
CONTROLS: NOX a .0000
sox * .0000
PARTICULATES s ,0000
RURAL URBAN
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
•0000 .0000
.00000
.00000
IWACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
MULTIPLE SOURCE
.0000
.0000
TOTAL inPACT FACTOR a .0000
AVERAGE SOURCE IMPACT FACTOR « .0000
« RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF BEG
-------
TABLE F-l. Continued
INVERSION HCI6HT
in)
1900.
WIND SPEED =
in/si
.. IMPACT PARAMETERS
5(TO RURAL POP.
(P/KH2)
URBAN POPL. a S5».7
I
UD
SECTOR & • INO. PROCESS COMBUSTION
CONSUMPTION! TOTAL * .1462+08 Hg
SINGLE SOURCE * . 1020+03 Hg
POLLUTANT NATURAL RURAL
NOX .1S9T-02 .H502+01
SOX .0000 .0000
HC .0000 .0000
CO .0000 .0000
PART .0000 .0000
SULFAT .0000 .0000
PON HI .0000 .0000
BA .0000 .0000
BE .0000 .0000
B .0000 .0000
CM .0000 .0000
CO .0000 .0000
CU .0000 .0000
PB .0000 .0000
UN .0000 .0000
TOTAL .00000 .00000
EQUIP TYPE 603 • GLASS ANNEALING LEHRS
FRACTION! RURAL * .190
URBAN s .690
GAUSSIAN APPROXIMATE!] SOURCE
EFFECTIVE STACK HEIGHT = 95.00
FUEL TYPE 18 - PROCESSED PIAT'L
CONTROLS! NOX
SOX
PARTICULATES
URBAN
.8502*01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.GOOD
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.OOOD
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IHPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR «
MULTIPLE SOURCE
.0000
.0000
.0000
iDOOO
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1SOO.
197"* -- IMPACT PARAMETERS
WIND SPEED = 1.500 RURAL POP.
(M/St (P/KM2)
22.3*
URBAN POPL.
IP/KH2J
= 959.7
SECTOR & - INO. PROCESS COMBUSTION
CONSUMPTION! TOTAL =
SINGLE SOURCE »
.5405+08 Hg
.3640+04 Hg
tn
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
6
CR
CO
cu
PB
MN
TOTAL
NATURAL
.2555-01*
.2782+06
• 0000
.0000
.3869*08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
.0000
.38960+08
RURAL
.4526+01*
.1018+07
.0000
.0000
.1889+09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.18996+09
EOUIP TYPE 604 - COKE OVEN UNOERFIRE
FRACTION: RURAL = .eoo
UNBAN = .200
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 30.00 (M
FUEL TYPE IS - PROCESSED MAT'L
CONTROLS: NOX
sox
PARTICULATES
URBAN
.8526+01*
.1905+07
.0000
.0000
.2171+09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
.21903+09
POLLUTANT
HG
no
NI
v
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
RURAL
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
t211.
.7879+05
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.5041+08
.23*0+09
.28*4+09
.1915+05
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(PI)
1900.
1974 -- IMPACT PARAMETERS
WIND SPEED - 4.500 RURAL POP. =
(N/SI IP/KM2)
22.34
URBAN POPL.
IP/KM2)
* SS9.T
SECTOR 6 - 1ND. PROCESS COMBUSTION
EQUIP TTPE 605 - STEEL SINTERING MACHINES
FUEL TTPE 15 - PROCESSED MAT«L
CONSUMPTION I TOTAL
SIN6LE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
.4599+08 Mg
.1720+04 Mg
FRACTION! RURAL =
URBAN =
.550
.1)50
CONTROLS! NOX
SOX
PARTICULATES
.0000
.0000
.0000
NATURAL
.3751-01'
.6402-01<
.0000
.1567-01
.9618*00
.0000
• 0000
.0000
.0000
.0000
• oooo
.0000
.0000
.0000
.0000
RURAL
> .4530*01
I .3109*01
.0000
.2516*01
.1163*02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.6536*01
.6939*01
.0000
.4016*01
.1363*02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
.00000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT s 45.00
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
.00000
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR c
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HJ
1500,
1971 — IMPACT PARAMETERS
HIND SPEED * 1.500 RURAL POP. s
.» CP/KN2I
22.31
URBAN POPL.
(P/KH2)
359.7
-n
i
SECTOR 6 » IND. PROCESS COMBUSTION
CONSUMPTION! TOTAL * .3059+08 Mg
SINGLE SOURCE a .4090+04 Mg
POLLUTANT
NOX
SOX
HC
CO
PART
SULF»T
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL .10713+07 .10720+06
EQUIP TYPE 606 - OPEN HEARTH FURNCE (OILl
FUEL TYPE 13 - PROCESSED HAT'L
NATURAL
.1063+001
.1501 + 001
.0000
.0000
.1071+07
.0000
.0000
.0000
.0000
.0000
.0000
• oooo
tOooo
• oooo
• 0000
RURAL
> .1606+01
> .3275+01
.0000
.oooo
.1072+06
.oooo
.0000
.0000
.0000
.0000
.oooo
.oooo
.oooo
.0000
.0000
FRACTION! RURAL =
URBAN r
.550
.<»50
CONTROLS: NOX
sox
PARTICULATES
.0000
.0000
.0000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT s 15.00
URBAN POLLUTANT
in)
.8606+01
.7025+01
.0000
.0000
.1259+06
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.12529+08
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
»oooo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
SINGLE SOURCE
RURAL 239.5
URBAN 1507.
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR s
MULTIPLE SOURCE
.9652+06
.1517+06
.1615+08
2160.
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO io« OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(M)
1900.
1971 -- IMPACT PARAMETERS
WIND SPEED = «.9oo RURAL POP. =
(N/S) (P/KM2I
22.Jt
URBAN POPL. = 399.7
IP/KM2I
SECTOR 6 - IND. PROCESS COMBUSTION
CONSUMPTIONI TOTAL s .2994+08 Mg
SINGLE SOURCE s .1000+04 Mg
EQUIP TYPE 607 - BRICK + CERAMIC KILNS
FUEL TYPE IS - PROCESSED MAT'L
POLLUTANT NATURAL
NOX .7411-01*
SOX .1000+00*
HC .9928-02
CO .1482-03
PART .1349+08
SULFAT .0000
POM HI .0000
BA .0000
BE .0000
B .0000
CR .0000
CO .0000
cu .0000
PB .0000
HN .0000
TOTAL .13491+08
<£>
00
RURAL
."•57H+01*
.3229+01*
.1800+03
.2900+01
.6672+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.66717+08
RURAL
URBAN
FRACTION: RURAL
URBAN
.800
.200
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 29.00
CONTROLSI NOX
SOX
PARTICULATES
URBAN
.8574+01
.6979+01
.181*0 + 03
.4000+01
.7670+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,7670»+08
(Ml
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
SINGLE SOURCE
1*90.
.2799+05
TOTAL IMPACT FACTOR
AVERA6C SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.3570+08
.1692+09
.2009+09
6711.
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF MEG
-------
TABLE F-1. Continued
INVtRSlON HEI6HT
(HI
1900.
197* — IMPACT PARAMETERS
WIND SPEED a 4.500 RURAL POP. =
(M/SI (P/KM2I
22.31*
URBAN POPL.
(FVKM2I
= 559.T
SECTOR 6 - IND. PROCESS COMBUSTION
EQUIP TYPE 608 - CAT CRACK1N6 IFCCUI
CONSUMPTION! TOTAL >
SINSLC SOURCE =
.2175+12 i feed
.1000*04 I feed
POLLUTANT
NOX
SOX
MC
CO
PART
SULFAT
PO* HI
e*
BC
e
CR
CO
cu
PB
UN
TOTAL
NATURAL
.2005-01*
.1767+00*
.6317-01*
.3920-01
.9225-01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.4520+01*
.3302+01*
.1601+03*
.2539+01
.1076+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
FRACTION:
RURAL
URBAN
.600
.100
FUEL TYPE 13 - PROCESSED MAT'L
CONTROLS* NOX = .0000
SOX s .0000
PARTICULATES a .0000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 30.00
IH)
URBAN
.8520+01*
,7052+01*
.16M-1 + 03*
.4039+01*
.1276+02*
.0000 *
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
61
AL
SB
CO
SE
P
SR
NATURAL RURAL URBAN
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .OOOU .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
.0000 .0000 .0000
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR »
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(HI
1SOO.
1970 — IMPACT .PARAMETERS
MIND SPEED a 1.500 RURAL POP.
IH/St IP/KM2I
22. SI
URBAN POPL.
IP/KM2I
B SS9.T
SECTOR « - INO. PROCESS COMBUSTION
EQUIP TYPE £09 - REFINERT FLARES
CONSUMPTION! TOTAL •
SIN6LE SOURCE B
.7369404 Hg
.1000*01 Hg
FRACTION!
RURAL =
URBAN E
.600
O
O
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BE
8
CR
CO
CU
PB
TOTAL
NATURAL
.2190-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
RURAL
.«S22»01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT 8 60.00
FUEL TYPE 15 . PROCESSED MAT«L
CONTROLSI NOX • .0000
SOX • .0000
PARTICIPATES » .0000
(HI
URBAN
.6922*01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.00000
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
IMPACT FACTORS
RURAL
URBAN
SINGLE SOURCE
.0000
.0000
TOTAL IMPACT FACTOR •
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.0000
.0000
.0000
.0000
• RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10B OP MEG
-------
TABLE F-1. Continued
INVERSION HEIGHT
ini
1500.
197* -- IMPACT PARAMETERS
HIND SPEED = i».500 RURAL POP.
-------
TABLE F-l. Continued
-• IMPACT PARAMETERS
INVERSION HEIGHT e
(Ml
SECTOR 6 - IND.
CONSUMPTION) TOTAL
SINGLE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
8
CR
CO
CU
PB
MN
1500. HIND SPEtO = 4.500 RURAL POP. =
(M/SI (P/KM2I
22.34 URBAN POPL. = 359.7
(P/KH2I
PROCESS COMBUSTION EQUIP TYPE 612 - REF . HTR.-NAT. DRAFT. GAS FUEL TTPE 1J • PROCESSED MAT
= .1061+01 (icia KJ/TRI FRACTION: RURAL = .boo
= .1000-02 UE15 KJ/YRI URBAN = .400
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 15.00 0+08 .4636+08 HG
.6705+00* .3796+01* .7546+01* MO
.9640+06 .8070+08 .6254+06 NI
.UOOO * .0000 * .0000 * V
.4259+06 .5022+07 .5808+07 ZN
.0000
.UOOO
.0000
.0000
.UOOO
.UOOO
.0000
.0000
.0000
.0000
.oouo
.oouo
.0000
.oouo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
ZR
AS
BI
AL
SB
CD
SE
p
SR
CONTROLS: NOX = .0000
SOX = .0000
PARTICULATES = .0000
>
NATURAL RURAL URBAN
.0000
.0000
.0000
.ooon
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.ooou
.0000
.0000
.ooou
.ooou
.0000
.ooou
.0000
.0000
.0000
.0000 .
.0000
.0000
.0000
.0000
.0000
.uooo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
I
o
TOTAL
.11629+09
.13473+09
RURAL
URBAN
IMPACT FACTORS
SINGLE SOURCE
2596.
.1)846+05
TOTAL IMPACT FACTOR
AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
.1654+07
.2056+06
.2222+08
.2094+05
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO ion OF MEG
-------
INVERSION HEIGHT
CM)
1900.
TABLE F-l. Continued
1974 -- IMPACT PARAMETERS
WIND SPEED «
-------
INVERSION HEIGHT = 1500.
TABLE F-l. Continued
1974 — IMPACT PARAMETERS
WIND SPEED = 1.500 RURAL POP. -
IN/S) IP/KM2I
22.30
URBAN PQPL.
(P/KH2>
s 559,7
SECTOR « . INO. PROCESS COMBUSTION
EOUIP TTPE 6m - REF. HTR.-FOR. ORAFTiGAS
I
—i
O
CONSUMPTION! TOTAL
SIN6LE SOURCE
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
TOTAL
.1215+00
.1000-02
NATURAL
.2447*08
.6705*00*
.9640*06
.0000 *
.8259*06
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.26279*08
(1E19 KJ/YR)
(1E15 KJ/YR)
FRACTION!
RURAL
UHBAN
.600
.too
FUEL TTPE is - PROCESSED MAT»L
CONTROLS) NOX = .0000
SOX * .0000
PARTICULATES * .0000
RURAL
.5913+08
.3796*01*
.6076*06
.0000 *
.5022*07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.14992*09
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT 3 15.00
(Ml
URBAN
.8606*08
.75>»6*01*
,6251*08
.0000 *
.5808+07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.17640+09
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL URBAN
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.OOOU .0000
.0000 .0000
.0000 .0000
.0000 .0000
IMPACT FACTORS
SINGLE SOURCE
RURAL 3215.
URBAN .6345*05
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR »
MULTIPLE SOURCE
.2345*06
.3085*07
.3319*07
.2731+05
• RATIO OF HAXlnun SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG
-------
TABLE F-l. Continued
INVERSION HEIGHT
(Ml
1500.
1974 — IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP.
(H/SJ SP/KM2I
22.34
URBAN POPL.
= 859.7
SECTOR 6 - IND. PROCESS COMBUSTION
EQUIP TTPE 615 - REF. HTR.-FOR. ORAFT.OIL
CONSUMPTION! TOTAL «
SINGLE SOURCE •
.7641-01
.1000-02
(1E15 KJ/YRI
(1E15 KJ/YRI
FRACTION)
RURAL
URBAN
.600
.400
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
cu
PB
MN
TOTAL
NATURAL
.5144+oa
.1496+08
.9970+06
.0000 *
.2273+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.90125+08
o
en
RURAL
.1226+09
.2971+08
.8076+08
.0000 *
.9806+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.33115+09
RURAL
URBAN
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT « 15.00
URBAN
.1659+09
.4741+06
.8255+08
.0000 *
.1122+09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.1*2800 + 09
POLLUTANT
H6
no
NI
v
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
IMPACT FACTORS
FUEL TTPE 13 - PROCESSED BAT«L
CONTROLSI NOX * .0000
SOX * .0000
PARTICULATES * .0000
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
SINGLE SOURCE
7398.
.1540+06
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.3392+06
.4705+07
.5045+07
.6602+05
RURAL URBAN
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
.0000 .0000
* RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG
"XOT SUMH
-------
TABLE F-l. Continued
X97i» .. SUMMARY
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.
CENTRAL BITUMIN.
WESTERN BITUMIN.
LIGNITE
HIGH S RES. OIL
HCD S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
WALL FIRED BOILER
EASTERN BITUMIN.
CENTRAL BITUHIN,
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
flED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUMIN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LI9NITE
HIGH s RES. OIL
MED S RES. OIL
LOW S RES. OIL
8
G
6
6
G
G
6
G
G
G
G
G
G
6
G
6
G
6
6
6
G
G
G
G
G
SINGLE
RURAL
.31705*08
.31744+08
.31518+06
.00611408
.12501+07
.10075+07
.92355+06
.30895+05
.22914+05
.13243+08
.13338+08
.13110+08
.17022+08
.15838+06
.13602+06
.12794+06
.431U7+04
.11075+C5
.47541+08
. 47669+08
.47395+08
.61222+08
.13660+07
.10986+07
.10060+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.71335+09
.7138<« + 09
.71010+09
.85153+09
.26993+08
.20639+08
. 18418+08
.82825+06
.57325+06
.40961+09
.41201+09
.40599+09
.46743+09
.42179+07
.36129+07
.33879+07
.11575+06
.35452+06
.97264+09
.97470+09
.97028+09
.11878+10
.29602+08
.22551+OB
.20085+08
.72622+11
.43870+11
.23939+11
.13382+10
.51468+09
.98898+09
.11416+10
.18437+07
.32150+08
.56094+11.
.34087+11
.18409+11
.35304+09
.38684+09
.83350+09
.10099+10
.58411+07
.12807+09
.10624+11
.64187+10
.35077+10
.49332+09
.21985+09
.42238+09
.48803+09
.31118+09
.31140+09
.30974+09
.28389+09
.18755+08
.14357+08
.12820+08
.36576+06
.24855+06
.17575+09
.17680+09
.17419+09
.15214+09
.29188+07
.250U3+07
.23447+07
.51115+05
.15366+06
.42689*09
.42775+09
.42378+09
.39920+09
.20567+08
.15686+08
.13979+08
NOX
cu
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SC
NOX
SOX
NI
SPX
NI
SOX
NI
SOX
AL
SOX
PB
SOX
PB
SOX
PB
SOX
PART
SOX
SOX
SOX
SOX
AL
SOX
sox
sox
SOX
sox
PB
SOX
PB
sox
, PB
SOX
CU
sox
PB
sox
PB
sox
PORT
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POM HI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
BE
CO
BE
CO
BE
CD
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
a«
AL
CR
V
CR
V
CR
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CR
CO
CR
CO
BE
CO
AL
CO
AL
CO
-------
TABLE F-l. Continued
I
o
SOURCE
DISTILLATE OIL
NATURAL 6AS
CYCLONE BOILER
EASTERN BITUniN.
CENTRAL BITUNIN.
LIGNITE
HIGH S RES. OIL
NED S RES. OIL
LOW S RES. OIL
NATURAL SAS
VERTICAL * STOKER BOILER
ANTHRACITE
1 EASTERN BITUMIN.
CENTRAL BITUniN.
LIGNITE
PACKAGED BOILERS
WALL FIRED W-TUBE >2?Mu
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
BIT/LIG COAL
RESIDUAL OIL
STOKER W-TUBE >29 MW
BIT/LIG COAL
SINGLE BURNER W-T <29 MW
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
SCOTCH FIRETUBC <29 MM
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
FIREBOX F1RETUBE <29 HV
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
1971 -- SUHMARY
6
G
6
G
G
G
6
G
G
e
G
6
G
SINGLE
RURAL
.73219+03
.16322406
.37169+08
.37609*08
.46931+06
.25056*06
.21115+06
.20162+06
.87001+01
.17*16+07
.11597*07
.11630+07
.19230+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.19011+07
.10672+07
.00653+09
.810146+1)9
.98797+09
.56920+07
.17226+07
.13699+07
.22075+1)6
.22116+09
.21163+09
.21173+09
.21717+09
.17069+07
.16073+09
.11161+10
.337
-------
TABLE F-l. Continued
o
00
SOURCE
BIT/US COAL
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 MK
ANTHRACITE
BIT/LIS COAL
HRT BOILERS 15 HW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 4-15 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <4 MM
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >79 Kk/CVi.
DISTILLATE OIL
DUAL (OIL + GAS)
Si I. >7S KM/CVL
NATURAL GAS
C. 1. 75 KM-75 KN/CYL
DISTILLATE OIL
1974 -- SUMMARY
6
6
G
G
G
G
G
6
G
D
D
0
D
0
D
D
0
D
D
G
G
D
0
D
0
G "
G
G
0
SINGLE
RURAL
.80143+06
.00000
.00000
.41741+02
.12289+06
.70160+05
.68596+03
.00000
.15839+04
.00000
.00000
.00000
•ooooo
.00000
.00000
.00000
.00000
.00000
.00000-
.72520+01*
.3697i + o<«
.00000
.00000
.ooooo
.ooooo
.38501+03
•10192+04
.14014+04
.ooooo
SINGLE
URBAN TOTAL SINGLE SOURCE
.2059S+09 .66697+12 .84903+08
.00000
.00000
.16897+01
.98699+08
.55518+06
.15050+05
.00000
.1*1620+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.16370+06
.801)30+05
.00000
.00000
.00000
.00000
.8l<*25+0i«
.17745+05
.24602+05
.00000
.ooooo
.00000
. 24728+08
.10812+11
.51808+12
.56680+08
.00000
.16850+09
.ooooo
.00000
.00000
.00000
.00000
.00000
.ooooo
.00000
.00000
.00000
.23755+08
.12717+08
.00000
.00000
.00000
.ooooo
.60893+07
.17790+08
.23110+09
.ooooo
.00000
.00000
. 70094+03
.23780+08
.22804+08
.55697+0*
.00000
.13595+05
.ooooo
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,00000
.87040+05
.58024+05
.00000
.00000
.00000
.ooooo
.19365+04
.43644+04
.48815+04
.ooooo
POLLUTANTS EXCEEDING 10i MEG
NOX SOX PART BE CR
CU NI AL CO
NI V
SOX PART POM HI BE CR
CO
SOX PART POM HI BE CR
AL
POM HI
NOX SOX POM HI CR NI
V
NOX SOX HC PAHT
NOX SOX HC PART
NOX SOX HC PART
NOX HC
NOX HC
-------
TABLE F-l. Concluded
1974 .. SUMMARY
I
o
SOURCE
S. I . 75 KX-75 KN/CfL
NATURAL GAS
GASOLINE
S. I.
-------
APPENDIX G
POLLUTION POTENTIAL SUMMARIES FOR THE ENERGY
PROJECTION SCENARIOS IN 1985 AND 2000
Appendix G presents the summaries of pollution potential for the
energy projection scenarios developed in Section 3.4. These summaries are
given as follows:
• Reference high nuclear energy scenario for 1985: G-l; 2000: G-2
• Reference low nuclear energy scenario for 1985: G-3; 2000: G-4
• Conservation energy scenario for 1985: G-5; 2000: G-6
• Electrification energy scenario for 1985: G-7; 2000: G-8
• Synthetics energy scenario for 1985: G-9; 2000: G-10
The energy projections used in these scenarios are described in
Section 3.4.1. The assessment of pollution potential for these rankings
was developed using the Source Analysis Model (SAM) described in Section 5.1.
These summaries show that coal-fired sources will continue to be major
pollution sources in the future. Pollution from natural gas-fired equipment
should be less significant due to the decreased dependence on natural gas
usage. The reference low nuclear scenario shows the largest pollution
potential through the year 2000. The synthetics scenario represents the
lowest total pollution potential. This low pollution potential results
primarily from using synthetic liquids and gases instead of coal for
stationary combustion. A complete discussion of the results and conclusions
G-l
-------
of these scenarios is given in Sections 5.3 and 5.4 respectively.
The results given in these summaries should not be considered as
absolute results. They are based on very tenuous future conditions. In
addition, some of the data, particularly for POMs and trace metals, is
preliminary -- to be updated from ongoing testing. The results are only
meant as indications of future pollution potential.
G-2
-------
TABLE 6-1. POLLUTION POTENTIAL OF THE REFERENCE HIGH NUCLEAR ENERGY SCENARIO FOR 1985
1983 — SUMMARY
CT5
CO
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUniN.
CENTRAL BITUHIN.
WESTERN BITUniN.
LIGNITE
HIGH S RES. OIL
RED S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN BITURIN.
CENTRAL BITUKIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
nCO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
flEO S HES. OIL
LOW S RES. OIL
G
G
6
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
SINGLE
RURAL
.34010+06
.31*062+08
.33934+08
.43998+06
.13722+07
.11057+07
.10134+07
.32872+05
.24899+05
.14222+08
.14280+06
.11169+06
.16433+08
.17341+06
•14B85+06
.13996+06
.41768+04
.13722+05
.51466+06
.51548+08
.51361+08
.66769+08
.14935+07
.1199B+07
.10960+07
SINGLE
URBAN
.76865+09
.76931+09
.76733+09
.92414+09
.29625+08
.22645+1)8
.20205+08
.88134+06
.62474+06
.44243+09
. 44412+09
.44115+09
.50848+09
.46189+07
.39543+07
.37071+07
.11236+06
.34619+06
.10552+10
.10562+10
.10530+10
.12961+10
.32338+08
.24592+08
.21882+08
TOTAL SINGLE SOURCE
.15576+12
.94106+11
.51482+11
.28901+10 .
.44988+09
.86412+09
.99714+09
.15618+07
.23251+08
.12062+12
.73143+11
.39822+11
.76433+09
.3373^+09
.72628+09
.67990+09
.45154+07
.82994+08
.22948+11
.13848+11
.73801+10
.10719+10
.19125+09
.36688+09
.42333+09
.33521+09
.33551+09
.33463+09
.30804+09
.20584+08
.15753+08
.14064+08
.36923+06
.27081+06
.18979+09
.19051+09
.18923+09
.16545+09
.31963+07
.27366+07
.25656+07
.49612+05
.15003+06
.46299+09
.46344+09
.46203+09
.43557+09
.22468+08
.17106+08
.15231+08
NOX
CU
NOX
CU
NOX
CU
NOX
Crt
NOX
CU
se
NOX
CU
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
cu
NOX
CM
NOX
CU
SE
NOX
CU
SE
NOX
SOX
NI
sux
NI
sox
NI
SOX
AL
SOX
P6
SOX
PB
SOX
PH
SOX
PART
SOX
SOX
SOX
SOX
AL
SUX
SUX
SOX
sox
sox
pa
sox
PB
sox
PB
sox
,cu
sox
PB
sox
PB
sox
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POM HI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
BE
CO
BE
CO
BE
CO
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
PE:
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
CR
CR
CR
BC
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CR
CO
CR
CO
BE
CO
AL
CO
AL
CO
-------
TABLE G-l. Continued
SOURCE
DISTILLATE OIL
NATURAL GAS
CYCLONE BOILER
EASTERN BITUnlN.
CENTRAL BITUnlN.
LIGNITE
HIGH S RES. OIL
MEO S RES. OIL
LOU S RES. OIL
NATURAL GAS
VERTICAL + STOKER BOILER
ANTHRACITE
EASTERN BITUMIN.
CENTRAL BITUMIN.
LIGNITE
PACKAGED BOILERS
WALL FIRED U-TUBE >29«w
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
BIT/L1G COAL
RESIDUAL OIL
STOKER W-TUBE >29 HW
BIT/LIG COAL
SINGLE BURNER W-T <29 KM
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
SCOTCH FIRETUBE «9«n
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
FIREBOX FIRETUBE <29 NH
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
STOKER FIRED H-TUBE <29 HW
ANTHRACITE
BIT/LIG COAL
1905 -- SUMMARY
6
G
6
6
G
G
G
G
G
G
G
G
G
SINGLE
RURAL
.73400+05
.14632+06
.41187+06
.41319+08
.53757+08
.27521+U6
.23557*06
.22147+06
.95569+04
.19131+07
.12739+07
.12775+07
.16730+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.19063+07
.36127+07
.68831+09
.69016+09
.10855+10
.62532+07
.51861+07
.18007+07
.21251+06
.24298+09
.23250+09
.23260+09
.23691+09
.13621+07
.91793+06
.36059+10
.29663+11
.29435+10
.21932+08
.10059+08
.50561+06
.22185+07
.10010+11
.19107+11
.19116+11
.11701+10
.61323+06
.15676+07
.36852+09
.38917+09
.36326+09
.43402+07
.36033+07
.33354+07
.10507+06
.50127+06
.96075+08
.96121+06
.72643+06
oni I IITAIUTC rv^fcmuc i n«
"ULLUTAnlo tr
CU PB
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX
PART
SOX
POM HI
SOX
PB
SOX
PB
SUX
AL
SOX
SOX
sox
CH
BE
BE
BE
M.C.t-l-' •»''
NI
PART
NI
PART
NI
PART
CR
CR
CR
V
BE
AL
BE
AL
BA
NI
NI
NI
nee
AL
CH
CD
CR
CO
BE
V
V
V
6
G
6
G
G
G
.14931+04
.98660+03
.96660+03
.31111+07
.60693+05
.20035+07
.41124+05
.26654+05
.26654+05
.26227+09
.22613+07
.24442+09
.41315+07
.15728+08
.22041+07
.18423+11
.10386+10
.47551+11
.28016+05
.10997+05
.10997+05
.13269+09
.94091+06
.91699+06
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
SOX
SOX
SOX
PART
CR
PART
BE
NI
BE
CR
V
CR
.00000
.29537+02
.53670+02
.39446+04
.64466+03
.41850+01
.65602+01
.19331+04
.75353+03
.00000
.61517+01
.17261+04
.12932+07
.68035+06
.00000
.81312+03
.14574+1)4
.13055+06
.16536+05
.96981+05
.16503+06
.50764+05
.16533+05
.00000
.22506+09
.45400+05
.23293+09
.22623+09
.00000
.15994+07
.17063+06
.31265+09
.19141+09
.37788+09
.86064+07
.67290+09
.13100+09
.00000
.10386+09
.41935+09
.34669+10
.11539+12
.00000
.10769+03
.19404+03
.41925+05
.66602+04
.13735+05
.26233+05
.16582+05
.61187+04
.00000
.29845+02
.11830+05
.56667+08
.93273+08
NOX
NOX
NOX SOX CH
PON HI
POM HI
NOX POH HI
sox pon HI CR
pon HI
NOX
sox
pon HI CR
NOX sox PART
CO CU NI
NOX sox PART
CU NI AL
NI
NI
NI
BE
BE
CO
V
CR
CR
-------
TABLE G-l. Continued
198S -- SUMMARY
on
MRH
MS
auuKlb
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER 15 HW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE 4 TO IS MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <4 NW
DISTILLATE OIL
NATURAL GAS
6
G
6
e
6
6
6
G
D
0
0
0
0
0
D
0
0
0
6
6
0
0
D
0
SINGLE
RURAL
,00000
.00000
.45852+02
•13500+06
.77069+05
.75363+03
•00000
.17281+04
•OOOUO
.00000
•uoouo
,00000
•ooooo
•ooooo
•ooooo
.00000
.ooooo
.00000
.50105+04
.31935+04
.00000
.ooooo
.ooooo
•ooooo
SINGLE
URBAN
.00000
.00000
.18563+04
.1081(2+09
.60991+06
.16533+05
.00000
.45100+05
.00000
.00000
.00000
.ODOOO
.00000
.00000
.ooooo
.ooooo
.00000
.ooooo
.11041+06
.67860+09
,00000
,00000
.ooooo
.ooooo
TOTAL SINGLE SOURCE
.00000
.ooooo
.37294+08
.25417+11
.32266+12
.85493+08
.00000
.25236+09
.00000
.00000
.00000
.ooooo
.ooooo
.ooooo
.00000
.00000
.00000
.00000
.26731+08
.18132+08
•OOOOO
.00000
.00000
.00000
.ooooo
.00000
.77004+03
.26124+08
.29052+08
.61187+04
.00000
.14830+09
.00000
.00000
.00000
.00000
.00000
.ooooo
.00000
.00000
.ooooo
.00000
.58765+09
.48992+09
.00000
.00000
.00000
.ooooo
POLLUTANTS EXCEEDING 10» RE6
NI V
SOX PART POH HI BE CR
CO
SOX PART POM HI BE CR
AL
pon HI
SOX POH HI CR Nt V
' NOX SOX HC PART
NOX SOX HC PART
RtCIPROCATINC 1/C ENGINE
C. I. >7S KW/CVL
DISTILLATE OIL
DUAL (OIL + GAS)
5. I. >79 KW/CVL
NATURAL GAS
C. I. 76KW-75KH/CYL
DISTILLATE OIL
S. I. 75KW-75KK/CU
NATURAL GAS
GASOLINE
e
6
6
0
0
0
.39339+03
.11045+04
•15395+0*
.00000
.oooon
.00000
.82530+0*
.19131+05
.27027+03
.00000
.ooooo
.00000
.93843+07
.26328+08
.10805+09
.00000
.00000
.00000
,19653+04
.47097+04
.33626+04
,00000
.00000
,00000
NOX SOX HC PART
NOX HC
NOX HC
-------
TABLE G-l. Concluded
1985 -- SUMMARY
SOURCE
S. I. <75
GASOLINE
INO. PROCESS COMBUSTION
CEMENT KILNS
PROCESSED MAT'L
GLASS MELTING FURNACES
PROCESSED MflT'L
GLASS ANNEALING LEHRS
PROCESSED MAT'L
COKE OVtN UNQERFIRE
PROCESSED MAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FURNCE (OILt
PROCESSED MAT'L
BRICK + CERAMIC KILNS
PROCESSED MAT'
CAT CRACKING tFCCUt
PROCESSED MAT'L
REFINERY FLARES
PROCESSED MAT'L
IRON + STEEL FLARES
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT.SAS
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT.OIL
PROCESSED MAT'L
REF. HTR.-FOK. DRftFT.GAS
PROCESSED MAT'L
REF. HTR.-FOR. DRAFT.OIL
PROCESSED MAT'L
'L
1
'L
'L
'L
IES
'L
!L }
'L
'{.
L
L
L
iAS
'L
IIL
'L
>AS
'L
^IL
'L
0
G
G
6
G
G
G
G
G
G
G
G
G
G
G
SINGLE
HURflL
.ODOUO
.12286+01
.00000
.00000
»'»&&17+0'>
.00000
.26306+03
.16372 + 01*
.00000
.00000
.uoooo
,28Jt240it
.72H76 + 0
-------
TABLE G-2. POLLUTION POTENTIAL OF THE REFERENCE HIGH NUCLEAR ENERGY SCENARIO FOR 2000
2000 -- SUMMARY
CD
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
neo s RES. OIL
LOU S RES. OIL
DISTILLATE OIL
WALL FIRED BOILER
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUnlN.
LIGNITE
HIGH S RES. OIL
NEO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
OPPOSED WALL BOILER
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
HED S RES. OIL
LOW S RES. OIL
•
e
6
6
6
G
6
6
B
6
6
6
6
8
G
G
G
G
8
G
e
G
G
G
SINGLE
RURAL
.37765+08
.37809+08
.57721+06
.48886+08
.12323*07
.12029+07
.11334+07
.39327+09
.15813+08
.19830+08
.19784+08
.20972+08
' .16296+06
.16046+06
.15495+06
.24849+04
.97138+08
.97174+08
. 98034+08
.71150+08
.13927+07
.12769+07
.11998+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.85506+09
.89515+09
.85346+09
.10274+10
.29249+08
.24*39+08
.22588+08
.99124+06
.49279+09
.49323+09
.49201+09
.96803+09
.43273+07
.42565+07
.40931+07
.68214+05
.11718+10
.11724+10
.11884+10
.14391+10
.28819+08
.25800+08
.23748+08
.22810+12
.13777+12
.75396+11
.42300+10
.60739+09
.14760+10
.17645*10
.26686+07
.17688+12
.10693+12
.98452+11
.11243+10
.90017+09
.12377+10
.15379+10
.43338+07
.33553+11
.20236+11
.11262+11
.15670+10
.27003+09
.60924+09
.72749+09
,37287+09
.37304+09
.37217+09
.34244+09
.17964+08
.17000+08
.15722+08
.42001+06
.21137+09
.21197+09
.21104+09
.18481+09
.29947+07
.29458+07
.28328+07
.30091+09
.91419+09
,91441+09
.52148+09
.48369+09
.20042+08
.17952+08
,16933+08
NOX
cu
NOX
CU
NOX
CU
NOX
C«
NOX
CU
se
NOX
CU
sc
NOX
CU
SE
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
cu
NOX
CR
NOX
cu
SE
NOX
CU
SC
NOX
CU
SE
sox
NI
sox
Nl
SOX
NI
SOX
AL
SOX
PB
SOX
PB
SOX
PB
SOX
SOX
SOX
SOX
SOX
AL
SOX
SOX
SOX
sox
SOX
PB
sox
pa
sox
PB
SOX
cu
sox
pa
sox
PB
sox
PB
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
BE
CO
BE
CD
BE
CO
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
-CR
V
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CK
CO
CR
CO
BE
CO
AL
CO
AL
CO
AL
-------
TABLE G-2. Continued
£75
I
00
SOURCE
DISTILLATE OIL 6
CYCLONE BOILER
CENTRAL BITUniN. G
LIGNITE 6
HIGH S RES. OIL 6
NED S RES. OIL G
LOU S RES. OIL G
VERTICAL + STOKER BOILER
ANTHRACITE G
EASTERN BITUHIN. G
CENTRAL BITUNIN. 6
LIGNITE G
PACKAGED BOILERS
WALL FIRED U-TUBE >29 HU
DISTILLATE OIL G
NATURAL GAS 6
PROCESS GAS 6
BIT/LIG COAL G
RESIDUAL OIL 6
STOKER W-TUBE >29 MW
BIT/LI6 COAL 6
SINGLE BURNER H-T <29 MW
DISTILLATE OIL G
NATURAL GAS 6
PROCESS GAS G
RESIDUAL OIL 6
SCOTCH FIRETUBE <29 MW
DISTILLATE OIL 6
NATURAL GAS G
PROCESS GAS S
RESIDUAL OIL G
FIREBOX FIRETUBE <29 MW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS 6
RESIDUAL OIL G
STOKER FIRED U-TUBE <29 MW
ANTHRACITE 9
BIT/LIB COAL 6
CAST IRON BOILERS
DISTILLATE OIL 6
NATURAL GAS G
RESIDUAL OIL 6
STOKER F-T BOILER <29 MW
ANTHRACITE 6
2000 -- SUMMARY
SINGLE
RURAL
.924&9405
.06269408
.60198+08
.30821*06
.26379+06
.24801+06
.21123+07
.14265+07
.14306+07
.18734+07
.12158+04
.63641+03
.63389+03
.94826+07
.66988+05
.22432+07
.17483+02
.32928+02
.59797+02
.42785+04
.94585+03
.90223+04
.96137+04
.21647+04
.84381+03
.00000
.47462+01
.19391+04
•1*481407
.98579406
.00000
.00000
.91345+02
.19117+06
SINGLE
URBAN
.13816+07
.99702+09
.12154+10
.70015+07
.58090+07
.53752+07
.27206+09
.26032+09
.26044+09
.267SO+U9
.34040+05
.17371+05
.17331+05
.29362+09
.29059+07
.27366+09
.53144+03
.90804+03
.16269+04
.14244+06
.20756+09
.10859+06
.20708+06
.56839+05
.18512+05
.00000
.13198+03
.50833+05
.26081+09
.25330+09
.00000
.00000
.20785+04
.12140+09
TOTAL SINGLE SOURCE
.15626+07 .61069+06
.24541+11
.24269+10
.17190+08
.34659+08
.41518+08
.82452410
.16050+11
.16058+11
.93607+09
.37909+07
.92228407
.12881+07
.76151411
.12762410
.74781411
.33856+06
.16063+07
.17140+06
.41460409
.18797409
.38070409
.88728+07
.83593+09
.16263+09
.00000
.54719+04
.51561+09
.54579+10
.65343+12
.00000
.00000
.46296408
.39969+11
.43608+09
.40676+09
.48596+07
.40345+07
.37345+07
.56126+08
.10797+09
.10762+09
.81561+08
.23208+05
.71630+04
.71456+04
.14895+09
.10426+07
.10267+09
.19223+03
.12044+03
.21651+03
.45728+05
.76813+04
.15379+05
.29360+05
.16567+05
.68510+04
.00000
.17470+02
.16604+05
.63694408
.10443409
.00000
.00000
.86219403
.29251408
NOX
NOX
cu
NOX
CR
NOX
NOX
NOX
BE
SOX
SOX
PART
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
PON HI
PON HI
NOX
SOX
PDN HI
NOX
SOX
NOX
CO
NOX
CU
NI
sox
sox
SOX
PB
sux
AL
SOX
SOX
sox
CR
BE
BE
BE
SOX
SOX
SOX
SOX
SOX
PON HI
PON HI
PON HI
SOX
CU
SOX
NI
V
PART
PART
NI
PART
CR
CR
CR
PART
CR
PART
CR
CR
CR
PART
NI
PART
AL
PON HI
BE
AL
BA
NI
NI
NI
BC
NI
BE
NI
NI
NI
BC
BC
CO
BC
CR
CO
BE
V
V
V
CR
V
CR
V
V
V
CR
CR
CR
-------
TABLE G-2. Continued
2000 -- SUMMARY
BIT/LIB COAL
HRT BOILERS <29 NW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/CONN STCAn + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIB COAL
RESIDUAL OIL
HARM AIR FURNACES
HARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
HARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
9AS TURBINES
SIMPLE CTCLE MS MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 3.7-15 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE O.7 MU
DISTILLATE OIL
NATURAL GAS
RECIPROCATING t/C ENGINE
C. I. >73 KW/CU
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >73 KW/CVL
NATURAL GAS
C. It 75KW-7SCH/CU
DISTILLATE OIL
S. It 7SKH-75KK/CYL
NATURAL GAS
GASOLINE
S. It <75 KU
GASOLINE
G
G
6
6
0
0
0
0
0
0
D
0
0
D
G
6
D
D
D
D
G
6
6
D
D
D
0
SINGLE
RURAL
.86302+05
.8*J81+03
.00000
.19351*01*
.00000
.00000
.00000
.ODOOO
.00000
tOOOOO
.00000
.00000
.00000
.00000
.32121+01*
.27197+04
.00000
.00000
.00000
.00000
. 38684+03
.12061+0*
.17239+04
.00000
.00000
.00000
.00000
SINGLE-
URBAN
.66289+08
.16512+09
.00000
.50833+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.66101+05
.95697+05
.00000
.00000
.00000
.00000
.79693+04
.20646+09
.30262+09
.00000
.00000
.00000
.00000
POLLUTANTS EXCEEDING 10
TOTAL SINGLE SOURCE
.50741+12
.10612+09
,00000
.31326+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.38231+08
.3*102+08
.00000
.00000
.00000
.00000
.1*297+08
.32036+08
.45*55+08
.00000
.00000
.00000
.00000
.28050+08
.69510+04
.00000
.16604+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,33287+05
.40228+05
.00000
.00000
.00000
,00000
.19033+04
.30940+04
.60045+04
.00000
.00000
.00000
.00000
CO
SOX PART POM HI BE
AL
POM HI
SOX POM HI CR NI
NOX SOX HC PART
NOX SOX HC PART
NOX sox HC PART
NOX HC
NOX HC
CR
-------
TABLE G-2. Concluded
2000 -- SUMMARY
era
i
o
SOURCE
INO. PROCESS COMBUSTION
CEMENT KILNS
PROCESSED WAT'L
GLASS MELTING FURNACES
PROCESSED MAT'L
6LASS ANNEALING LEHRS
PROCESSED MAT'L
COKE OVEN UNDE.RFIRE
PROCESSED MAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FUHNCE IOIL)
PROCESSED HAT'L
BRICK + CERAMIC KILNS
PROCESSED MAT'L
CAT CRACKING IFCCU)
PROCESSED HAT'L
REFINERY FLARES
PROCESSED MAT'L
IRON + STEEL FLAKES
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT.GAS
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT.OIL
PROCESSED MAT'L
RCF. HTR.-FOR. DRAFT.GAS
PROCESSED MAT'L
REF. HTR.-FOR. ORAFT.OIL
PROCESSED HAT'L
'L
>
'L
'L
'L
its
'L
!L )
L
L
L
L
L
iAS
L
IL
L
iAS
L
IIL
L
6
G
G
G
G
G
G
G
6
G
G
6
G
G
SINGLE
KURAL
.13758+04
.00000
.00000
.52202*01
.00000
.29458+03
. 183J4+01
.00000
.00000
.00000
.29«23tOt
.71*486+04
.3S226+04
.79094*04
SINGLE
URBAN
.26502+05
.00000
.00000
.96910+05
.00000
.55435+04
.33989+05
.00000
.00000
.00000
.53482+05
.14882+06
.67779+05
.15987+06
TOTAL SINGLE SOURCE
.40416+08
.00000
.00000
.42464+09
.00000
.24126+08
.30002+09
.00000
.00000
.00000
.29836+08
.18668+08
.43220+07
.63821+07
.15195+05
.00000
.00000
.23558+05
.00000
.26566+04
.82544+04
.00000
.00000
.00000
.23158+05
.63998+05
.29225+05
.68695+05
SO'X PART
SOX PART
PART
PART
NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
PART
PART
"FIN
-------
TABLE G-3. POLLUTION POTENTIAL OF THE REFERENCE LOW NUCLEAR ENERGY SCENARIO FOR 1985
1985 -- SUMMARY
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITuntN.
CENTRAL BITUniN.
WESTERN BITUntN.
LIGNITE
HIGH S RES. OIL
NED S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
WALL FIRED BOILER
EASTERN BITUniN.
CENTRAL BITUniN.
WESTERN BITUNIN.
LIGNITE
HIGH S RES. OIL
NED S RES. OIL
LOW S RCS. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUniN.
CENTRAL BITUniN.
WESTERN BITUniN.
LIGNITE
HIGH S RES. OIL
HEO S RES. OIL
LOW S RES. OIL
G
G
G
G
6
6
6
G
G
6
G
G
G
G
6
G
G
G
6
G
G
G
6
G
G •
SINGLE
RURAL
.5*010+08
.31052+08
.33931+08
.13998+08
.18722+07
.11057+07
.10130+07
.32872+05
.24859+05
.11222+08
.11280+08
.11169+08
.18133+08
.173*1+06
.11885+06
.13998+06
.11768+04
.13722+05
.51186+08
.51518+08
.51361+08
.66789+08
.11935+07
.11998+07
.109BO+07
SINGLE
URBAN
.76865+09
.76931+09
.76733+09
.92111+09
.29629+08
.22615+08
.20205*08
.88131+06
.62171+06
.11213+09
.11112+09
.11115+09
.50818+09
.1A199+U7
.39513+07
.37071+07
.11236+06
.31619+06
.10552+10
.10562+10
.10530+10
.12961+10
.32338+08
.21592+08
.21862+08
TOTAL SINGLE SOURCE
.27259+12
.16170+12
.90109+11
.50570+10
.11988+09
.86112+09
.99711+09
.15618+07
.23251+08
.21110+12
.12600+12
.69697+11
.13378+10
.33738+09
.72628+09
.87990+09
.15151+07
.82991+08
.10159+11
.21233+11
.13265+11
.16757+10
.19123+09
.36688+09
.12333+09
.33521+09
.33551+09
.33163+09
.30801+09
.20581+08
.15753+08
.11061+08
.38923+06
.27091+06
.18979+09
.19051+09
.18923+09
.16515+09
.31963+07
.27366+07
.25656+07
.19612+05
.15003+06
.16299+09
.16311+09
.16203+09
.13557+09
.22168+08
.17106+08
.15231+08
MOX
CU
NOX
CU
NOX
CU
NOX
CH
NOX
eu
SE
MOX
CU
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
C»
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
rox
cu
SE
NOX
SOX
NI
SOX
NI
SOX
NI
SOX
AL
SOX
PB
SOX
PB
SOX
PB
sox
PART
SOX
SOX
SOX
sox
AL
SOx
SOX
sox
sox
sox
pa
sox
PB
sox
PH
so»
CH
SOX
PB
SOX
PB
SOX
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POM HI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NZ
PART
NI
PART
NI
PART
NI
PART
NI
PART
BE
CO
9E
CO
8E
CO
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BC
V
V
V
CR
CD
CR
CO
CR
CO
BE
CO
AL
CO
AL
CO
-------
TABLE 6-3. Continued
CD
ro
SOURCE
DISTILLATE OIL
NATURAL 6AS
CYCLONE BOILER
EASTERN BITUHIN.
CENTRAL BITUMIN.
LIGNITE
HIGH S RES. OIL
BED S RES. OIL
LOW S RES. OIL
NATURAL GAS
VERTICAL + STOKER BOILER
ANTHRACITE
EASTERN BITUntN.
CENTRAL BITUMIN.
LIGNITE
PACKAGED BOILERS
WALL FIRED W-TUBE >29 HU
DISTILLATE: OIL
NATURAL GAS
PROCESS GAS
BIT/LIG COAL
RESIDUAL OIL
STOKER W-TUBE >29 MW
BIT/LIG COAL
SINGLE BURNER U-T <29 MU
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
SCOTCH FIRETUBC <29 HW
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
FIREBOX FIRETUBE «9 MU
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
STOKER FIRED U-TURE <29 MW
ANTHRACITE
BIT/LIG COAL
1985 -- SUMMARY
6
6
G
G
G
G
G
G
G
G
G
G
6
SINGLE
RURAL
.73400+05
.14692+06
.41187+08
.41319+08
.53757+08
.27524+06
.23557*06
.22147+06
.95569+04
.19131*07
.12739*07
.12775+07
.16730+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.19063+07
.36127+07
.88834+09
.89046+09
.10655+10
.62532+07
.51881+07
.48007+07
.24251+06
.24298+09
.23250+09
.23260+09
.23891+09
.13624*07
.94793+08
.63103+10
.51697+11
.51511+10
.21932*06
.40059*08
.505&4+06
.22185+07
.17512+11
.33962+11
.33978+11
.20483+10
.84323+06
.15676+07
.38892+09
.38947+09
.36328+09
.43402+07
.36053+07
.33354+07
.10507+06
.50127+08
.96075+06
.96121+08
.72843+08
r um
CU
SE
NOX
NOX
NOX
CU
luOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX
PART
iTAMTtt rvrrrnTNfl 101
I1DI*15 t. AI.C.I.U 1NU AUM
PH NI V
sox
POM HI
SOX
PW
SOX
PR
SOX
AL
sex
sox
sox
CR
BE
BE
BE
PART
NI
PART
NI
PART
CR
CR
CR
BE
AL
BE
AL
BA
NI
NI
NI
MEG
AL
CR
CO
CR
CO
BE
V
V
V
G
G
G
G
G
6
6
G
G
6
G
6
G
G
G
G
6
G
G
G
.14931+04
.96660+03
.98660+03
.31111+07
.60693+05
.20035+07
.00000
.29537+02
.53670+02
.39446+04
.64466+03
.44850+04
.856B2+04
.19331+04
.75353+03
.00000
.81517+01
.17281+04
'.12932+07
.68035+06
.41124+05
.26654+05
.26654+05
.26227+09
.22613+07
.24442+09
.00000
.81312+03
.14574+04
.13055+06
.18536+05
.96961+05
.18503+06
.50764+05
.16533+05
.00000
.22508+03
.45400+05
.23293+09
.22623+09
.41315+07
.15728+06
.22044+07
.64736+11
.10388+10
.83205+11
.00000
.15994+07
.17083+06
.34285+09
.15141+09
.377.8.8 + 09
.88084+07
.67290+09
.13100+09
.00000
.10386+05
.41535+09
.60721+10
.72698+12
.28046+05
.10997+05
.10997+05
.13269+09
.94094+06
.91699+06
.ooono
.10789+03
.19404+03
.41925+05
.68602+04
.13735+05
.26233+05
.16582+05
.61187+04
.00000
.29845+02
.14630+05
.56867+06
.93273+06 »
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
NOX
NOX
NOX
POM
POM
NOX
SOX
POH
NOX
SOX
NOX
CO
NOX
CU
SOX
sox
sox
sox
sox
HI
HI
POM
POM
HI
1
POM
Sux
CU
sox
Nt
PART
CR
PART
CR
HI
HI CR
HI CR
PART
NI
PART
AL
BE
NI
BE
NI
Nt
NI
BE
BE
CO
CR
V
CR
V
V
V
CR
CR
-------
TABLE 6-3. Continued
1985 -- SUMMARY
£7)
WAR"
BAS
SOURCE.
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 HH
ANTHRACITE
BIT/LIG COAL
HRT BOILERS <29 HH
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COMM STEAM + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIG COAL
RESIDUAL OIL
AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
TURBINES
SIMPLE CYCLE >15 MK
DISTILLATE OIL
NATURAL 6AS
SIMPLE CYCLE 3.7-15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE <3.7 HH
DISTILLATE OIL
NATURAL GAS
G
G
G
G
6
G
G
G
0
0
D
D
D
D
D
0
D
D
G
G
0
D
0
0
SINGLE
RURHL
.00000
.00000
.15852+02
.13500+06
.77069+05
.75353+03
.OOOUO
.17281+01
•00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.50105+04
.31935+04
.00000
.00000
.00000
.00000
SINGLE
UNBflN
.00000
.00000
.18563*0'*
.10842+09
.60991+08
.16533+05
.00000
.45400+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.11041+06
.67360+05
.00000
,00000
.00000
.00000
TOTAL SINGLE SOURCE
.00000
.00000
.37294+08
.44483'+!!
.56465+12
.65493+08
.00000
.25236+09
.OOOOU
.00000
.00000
.ooonu
.00000
.00000
.00000
.00000
.00000
.00000
.26731+08
.14132+08
.00000
.00000
.00000
.00000
.00000
.00000
.77004+03
.26124+00
.25052+08
.61187+04
.OOOOU
.14830+09
.00000
.00000
.00000
• .00000
.00000
.00000
.00000
.00000
.00000
.00000
.58765+05
.48992+05
.00000
.00000
.00000
.00000
NI V
SOX PART POM HI BE CR
CO
SOX PART POM MI BE CR
AL
POM HI
SOX POM HI CR NI V
NOX SOX HC PART
NOX SOX HC PART
RECIPROCATING 1/C ENGINE
C. I. >75 KH/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >7!> KH/CYL
NATURAL GAS
C. I. 75KH-75KH/CH
DISTILLATE OIL
S. I. 75KH-75KW/CU
NATURAL GAS
GASOLINE
G
G
G
D
D
D
.39339+03
.11045+04
.15395+04
.00000
.00000
.00000
.82930+04
.19131+05
.27027+05
.00000
.00000
.00000
.93843+07
.26328+08
.10805+09
.00000
.00000
.00000
.19653+04
.47097+04
.53626+04
.00000
.00000
.00000
NOX SOX HC PANT
NOX HC
NOX HC
-------
TABLE G-3. Concluded
SOURCE
19B5 — SUMMARY
5. I.
GASOLINE
<75 kW
£75
INO. PROCESS COMBUSTION
CEMENT KILNS
PROCESSED MAT'L
GLOSS MELTING FURNACES
PROCESStD MAT'L
GLASS ANNEALING LEHRS
PROCESSED MAT
COKE OVEN UNOiHFIRE
PROCESSED MAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FURNCE (OIL)
PROCESSED MAT'L
BRICK + CERAMIC KILNS
PROCESSED MAT'L
C«T CRACKING (FCCU)
PROCESSED MAT'L
REFINERY FLARES
PROCESSED MAT'L
IRON + STEEL FLARES
PROCESSED MAT'L
REF. HTR.-NAT. DHAFTtGAS
PROCESSED MAT'L
REF. HTR.-NAT. URAFT
PROCESSED MAT'L
REF. HTR.-FOR. DRAFT,GAS
PROCESSED MAT'L
REF. hTR.-FOR. DRAFT.OIL
PROCESSED MAT'L
L
i
L
'L
L
if c
1 to
L
>l 1
. L 1
L
L
L
L
L
'AS
L
>IL
L
• AS
L
IlL
L
P
G
G
6
G
G
G
G
G
G
G
G
G
G
G
SINGLE
RURAL
.00000
.12286404
.00000
.00000
.16617 + 014
.00000
.26306+03
.16372+04
.00000
.00000
.00000
.28342+04
•72HT6+OU
,3Uj76+0"t
.7B166+04
SINGLE
URBAN
.00000
.23669+05
.00000
.00000
.66553+05
.00000
."^SlO + Oi*
.30311+05
.00000
.00000
.00000
.52926+05
.11(766 + 06
.67531+05
.16143+06
TOTAL SINGLE SOURCE
.00000
.30097+08
.onooo
.oooou
.31524+09
.00000
.17912+08
.22273+09
.00000
.00000
.00000
.24478+09
.15566+08
.35667+07
.53381+07
.00000
.13571+05
.00000
.00000
.21040+05
.00000
.23727+04
.73720+04
.OOOUO
.00000
.00000
.22871+05
.63421+05
.29075+05
.69261+05
SOX PART
SOX PART
PART
PART
NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
PART
PART
"FIN
-------
TABLE G-4. POLLUTION POTENTIAL OF THE REFERENCE LOW NUCLEAR ENERGY SCENARIO FOR 2000
2000 -- SUMMARY
CT3
cn
SUUKCt
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUniN.
CENTRAL BITUniN.
WESTERN BITUMIN.
LIGNITE
HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
WALL FIRED BOILER
EASTERN BITUMIN.
CENTRAL BITUniN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
M.ED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
OPPOSED WALL BOILER
EASTERN BITUMIN,
CENTRAL BITUMIN.
WESTERN BITUMIN.
LIGNITE
HIGH 3 RES. OIL
MED S RES. OIL
LOW S RES. OIL
6
S
G
G
G
6
e
G
G
G
G
G
6
e
G
G
G
G
e
6
G
6
6
SINGLE
RURAL
.37785+08
.37809+08
.37721+08
.40886+08
.12323+07
.12029+07
.11334+07
.39327+05
.15813+08
.15830+08
.15784+08
.20572+08
.16296+06
.16046+06
.15455+06
.24845+04
.57138+08
;57174+OB
.58034+08
.74150+08
.13927+07
.12765+07
.11998+07
SINGLE
URBAN
.85506+09
.85545+09
.85346+09
.10274+10
.25249+08
.24435+06
.22588+08
.95124+06
.49279+09
.49323+09
.49201+09
.56803+09
.43273+07
.42565+07
.40931+07
.68214+05
.11718+10
.11724+10
.11884+10
.14391+10
.28819+08
.25800+08
.23748+08
TOTAL SINGLE SOURCE
.39924+12
.24111+12
.13193+12
.74033+10
.60739+09
.14760+10
.17645+10
.26686+07
.30953+12
.18713+12
.10230+12
.19676+10
.50017+09
.12377+10
.15379+10
.43338+07
.58726+11
.35417+11
.19707+11
.27422+10
.27003+09
.60924+09
.72749+09
,37287+09
.37304+09
.37217+09
.34244+09
.17564+08
.17000+08
.15722+08
.42001+06
.21137+09
.21157+09
.21104+09
.18481+09
.29947+07
.29458+07
.28328+07
.30091+05
.51415+09
.51441+09
.52148+09
.48365+09
.20042+08
.17952+08
.16533+08
NOX
CU
NOX
CU
NOX
CU
NOX
C»
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
CU
NOX
cu
NOX
CU
NOX
CR
NOX
CU
SC
NOX
CU
SE
NOX
CU
5E
SOX
Nl
SOX
Nl
SOX
Nl
sox
AL
sox
PB
sox
PB
sox
PB
SOX
sox
sox
sox
sox
AL
sox
sox
sox
sox
sox
PB
sox
PB
sox
PB
sox
CU
sox
PB
sox
PB
sox
PB
PART
AL
PART
AL
PART
AL
PART
PART
Nl
PART
Nl
PART
m
PART
PART
PART
PART
CR
CR
CR
PART
Nl
PART
Nl
PART
Nl
PART
Nl
PART
Nl
PART
Nl
PART
Nl
BE
CO
BE
CO
BE
CD
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
Nl
Nl
Nl
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
V
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CR
CO
CR
CD
BE
CO
AL
CO
AL
CO
AL
-------
TABLE G-4. Continued
o
I
01
SOURCE
DISTILLATE OIL G
CTCLONE BOILER
CENTRAL BITUMIN. G
LIGNITE G
HIGH S RES. OIL G
RED S RES. OIL G
LOU S RES. OIL G
VERTICAL + STOKER BOILER
ANTHRACITE 6
EASTERN BITUMIN. 6
CENTRAL BITUMIN. G
LIGNITE 6
PACKAGED BOILERS
HALL FIRED U-TUBE >29 MW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
BIT/LI6 COAL G
RESIDUAL OIL G
STOKER W-TUBE >29 MW
BIT/LIG COAL G
SINGLE BURNER U-T <29 KW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
SCOTCH FIRETUBE <29 MW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
FIREBOX FIRETUBE <29 KW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
STOKER FIRED W-TUBE <29 MW
ANTHRACITE G
BIT/LIG COAL G
CAST IRON BOILERS
DISTILLATE OIL G
NATURAL GAS G
RESIDUAL OIL G
STOKER F-T BOILER <29 MW
ANTHRACITE G
2000 — SUMMARY
SINGLE
RURAL
.46269+08
.60198+08
.30821+06
.26379+06
.24801*06
.21423*07
.14265*07
.14306*07
.18734*07
.12158*04
.63641*03
.63389+03
.34826+07
.66988+05
.22432+07
.17483+02
.32928+02
.59797+02
.42765+04
.94565+03
.50223+04
.96137+04
.21647+04
.84381+03
.00000
.47462+01
.19351+04
.14481+07
.98579+06
.00000
.00000
.51345+02
SINGLE
URBAN
.13816+07
.99702+09
.12154+10
.70015+1)7
.58090+07
.53752+07
.27206*09
.26032*09
.26044*09
.26750*09
.34040*05
.17371+05
.17331*05
.29362*09
.25059*07
.27366*09
.53144+03
.90804+03
.16269+04
.14244+06
.20756+05
.10859+06
.20708+06
.56839+05
.18512+05
.00000
.13198+03
.50833*05
.26081+09
.25330+09
.00000
.00000
.20785+04
TOTAL SINGLE SOURCE
.15626*07 .61069*06
.42946*11
.42485+10
.17190*08
.34659*08
.41518*08
.14429*11
.28100*11
.28113*11
.16381*10
.37909*07
.92228*07
.12881*07
.13327*12
.12762*10
.13086*12
.33856*06
.16063*07
.17140*06
.41460*09
.18797*09
.38070*09
.68728*07
.83593+09
.16263+09
.00000
.54715+04
.51561+09
.95502+10
.11436+13
.00000
.00000
.46296+08
.43608+09
.40676*09
,4B59b+07
.40345+07
.37345+07
.56126+08
.10757+09
. 10762+09
.81561+08
.23208+05
.71630+04
.71456+04
.14855+09
.10426+07
.10267+09
.19223+03
.12044+03
.21651+03
.457*8+05
.76813+04
.15379+05
.29360+05
.18567+05
.68510+04
.00000
.17470+02
.16604+05
.63694+08
.10443+09
.00000
.00000
.86219+03
HULLUI
NOX
NOX
CU
NOX
CR
NOX
NOX
NOX
BE
*SOX
SOX
PART
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
POM HI
POM HI
NOX
SOX
POM HI
NOX
SOX
NOX
CO
NOX
CU
NI
Ami &
SOX
SOX
PR
SOX
AL
SOX
SOX
SOX
CR
BE
BE
BE
SOX
SOX
SOX
SOX
SOX
POM
POM
POM
SOX
CO-
SCX
NI
V
t.xie.c.uin
PART
NI
PART
CR
CR
CR
PART
CR
PART
CR
HI
HI CR
HI CR
PART
NI
PART
AL
l*» 1 u»
BE
AL
BA
NI
NI
NI
BE
Nt
BE
NI
NI
NI
BE
BE
CD
nc.u
CR
CD
BE
V
V
V
CR
V
CR
V
V
V
CR
CR
.15117*06
.12140*09
.69946*11
.29251+08
CR
-------
TABLE 6-4. Continued
2000 -- SUMMART
CT5
I
,
B1T/LS6 COAL
HRT BOILERS <29 HW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COHH STEAM + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIB COAL
RESIDUAL OIL
G
G
G
G
0
0
0
0
0
SINGLE
RURAL
•86302+05
.84381+03
.00000
•I9351t0»
.00000
.00000
.00000
•ooooo
.00000
IMPACT
SINGLE
URBAN
•66289+09
.16512+09
.00000
.50833+05
.00000
.00000
.ooooo
.00000
.00000
FACTORS -•
POLLUTANTS EXCEEDING It
TOTAL SINGLE SOURCE
.66793+12
.10612+09
.00000
.31326+09
.00000
.00000
.00000
.00000
.ooooo
.28050+08
.68510+04
.00000
.16604+05
.00000
.00000 '
.00000
.ooooo
.00010
CO
SOX PART POM HI BE
AL
POM HI
SOX POM HI CR NI
M«RH «IR FURNACES
GAS
WARN AIR CENTRAL FURNACE
NATURAL 6AS
OIL
WARN AIR SPACE HEATER
NATURAL 6AS
OIL
MISCELLANEOUS COMBUSTION
NATURAL 6AS
TURBINES
SIMPLE CTCLE >15 NW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 3.T-15 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <3.7 HW
DISTILLATE OIL
NATURAL 6AS
0
D
0
D
0
G
G
D
D
0
D
.ooooo
.00000
•ooooo
•ooooo
•ooooo
.32123+04
• 27197+0i(
•ooooo
•ooooo
.00000
.00000
.ooooo
.00000
.00000
.00000
.00000
.66104+05
.55697+05
.00000
.00000
.00000
.00000
.ooooo
.00000
.00000
.00000
.00000
.38231+08
.34102+08
.00000
.ooooo
.00000
.ooooo
.00000
.00000
.ooooo
.00000
.OOPOO
.35287+05
.40228+05
.ooooo
.ooooo
.ooooo
.ooooo
NOX SOX HC PART
MOX SOX HC PART
RECIPROCATIN6 I/C ENGINE
C. I. >7S KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
*• '• >7S KW/CYL
NATURAL GAS
£• t« 75KW-75KW/CYL
DISTILLATE OIL
S- '• 75KW-75KW/CYL
NATURAL GAS
GASOLINE '
s« 1« <75 kW
GASOLINE
G
G
G
0
D
D
0
4386811+03
.12061+04
.17239+04
•OOOOO
.00000
.00000
•ooooo
.79693+04
.20646+05
.30262+05
.00000
.00000
.ooooo
.00000
.14297+Ofl
.32036+06
.45455+08
.00000
.00000
.00000
.oonnn
.19033+04
.50940+04
.60045+04
.00000
.00000
.ooooo
. nnnnn
NOX SOX HC PART
NOX HC
NOX HC
CR
-------
TABLE G-4. Concluded
2000 -- SUMMARY
CO
SOURCE
INDt PROCESS COMBUSTION
CEMENT KILNS
PROCESSED MAT'L
GLOSS flELTJNG FURNACES
PROCESSED MAT
GLASS ANNEALING LEHRS
PROCESSED MAT'L
COKE OVEN UNUEHFIRE
PROCESSED MAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FURNCE (OIL!
PROCESSED MAT'L
BRICK + CERAMIC KILNS
PROCESSED MAT'L
CAT CRACKING
PROCESSED M«T«L
REFINERY FLARES
PROCESSED MAT'L
IRON + STEEL FLARES
PROCESSED MAT'L
REP. HTR.-NAT. DRAFT.GAS
PROCESSED MAT
REF. HTR.-NAT. DRAFT.OIL
PROCESSED MAT
REF. HTR.-FOR. DRAFT,GAS
PROCESSED PIAT'L
REF. HTR.-FOR. DRAFT,OIL
PROCESSED MAT'L
•L
•L
•L
•L
jrc
VLo
•L
[L )
'L
'L
'L
L
'L
* A C
ifla
L
IIL
L
' A C
• «;>
L
IT 1
IIL
L
G
G
e
G
G
6
G
G
G
G
6
6
G
G
SINGLE:
MURAL
.137!>fl-fO
-------
TABLE G-5. POLLUTION POTENTIAL OF THE CONSERVATION ENERGY SCENARIO FOR 1985
19«5 -- SUMMARY
SUUKCt.
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
WED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN B1TUHIN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
HED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL, 6AS
OPPOSED- WALL BOILER
EASTERN BITUMIN.
CENTRAL BITUMIN.
WESTERN BITUMIN.
LIGNITE
HIGH S RES. OIL
MCO S RES. OIL
LOW S RES. OIL
G
G
G
G
6
G
6
G
G
G
G
6
6
G
G
G
G
G
G
6
6
e
G
G
G
SINGLE
RURAL
.43740+08
.3383i»+08
.33742+08
.43678+08
.13732+07
•11068+07
•10145+07
.33937+09
.2237J+05
.11150+08
.142311+08
.14128+08
.18368+08
.17397+06
.14941+06
.14054+06
.47352+04
,12007+03
.91099+08
.51148+08
.50998+08
.66258+08
.19005+07
.12068+07
.11090+07
SINGLE
URBAN
•76461+09
.76532+09
.76365+09
.91820+09
.29654+08
.22674+08
.20234+08
.90990+06
.96055+06
.44094+09
.44327+09
.44040+09
.50728+09
.46337+07
.39691+07
.37219+07
.12716+06
.30490+06
.10480+10
.10487+10
.10463+10
.12863+10
.32520+08
.24774+08
.22064+08
TOTAL SINGLE SOURCE
.13325+12
.80522+11
.44065+11
.24704+10
.40906+09
.78592+09
.90724+09
.14650+07
.30626+08
.10337+12
.62771+11
.34190+11
.65592+09 *
.30745+09
.66251+09
.80259+09
.46137+07
.10795+09
.19601+11
.11825+11
.64778+10
.9.1474+09
.17472+09
.33577+09
.38776+09
.33343+09
.33374+09
.33300+09
.30604+09
S
.20604+08
I
.15772+08
.14084+08
,40184+06
,24303+06
.18913+09
.19014+09
.18890+09
.16504+09
.32066+07
.27468+07
.25759+07
.56154+05
.13210+06
.43981+09
.46014+09
.45906+09
.43228+09
.22594+08
.17232+08
.15357+08
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
cu
SE
NOX
SOX
MI
SOX
NI
SOX
NI
SOX
AL
SOX
PB
SOX
PB
sox
PB
sox
PART
SOX
sox
sox
sox
At
sox
sox
sox
sox
sox
PB
sox
PB
sox
PB
sox
GU
SOX
PB
sox
PB
sox
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
pon HI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
M.
PART
NI
PART
NI
PART
NI
PART
BE
CD
BE
CD
BE
CD
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CR
CD
CR
CD
BE
CO
AL
CO
AL
CO
-------
TABLE G-5. Continued
IN3
O
SOURCE
OISTILt*TE OIL
NATURAL GAS
CYCLONE BOILER
EASTERN BITUHIN.
CENTRAL BITUHIN.
LIGNITE
HIGH S RES. OIL
HCD S RES. OIL
LOU S RES. OIL
NATURAL GAS
VERTICAL + STOKER BOILER
ANTHRACITE
EASTERN BITUfllN.
CENTRAL BITUNIN.
LIGNITE
PACKAGED BOILERS
WALL FIRED W-TU8E >29 MW
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
BIT/LI6 COAL
RESIDUAL OIL
STOKER W-TUBE >29 HW
BIT/LIG COAL
SINGLE BURNER H-T (29 MW
DISTILLATE OIL
NATURAL 6AS
PROCESS GAS
RESIDUAL OIL
SCOTCH FIRETUBE <29 MW
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
FIREBOX FIRETUBE <29 MW
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
STOKE" FIRED W-TUBE <29 MW
ANTHRACITE
BIT/LIG COAL
1985 -- SUHMARf
G
G
G
G
G
G
G
6
G
6
G
6
6
SINGLE
RURAL
.60462+05
.128U4+06
.41187+08
.41319+08
.537S7+08
.27524+06
.23557+06
.22147+06
.95569+04
.19131+07
.12739+07
.12775+07
.16740+07
SINBLE
UKBAN TOTAL SINGLE SOURCE
.20885+07
.31821+07
.88834+09
.89046+09
.10855+10
.62532+07
.51881+07
.48007+07
.24251+06
.24298+09
.23250+09
.23260+09
.23891+09
.13564+07
.12325+09
.36059+10
.29663+11
.29435+10
.21932+06
.40059+08
.50564+08
.22185+07
.10010+11
.19407+11
.19416+11
.11704+10
.92386+06
.13802+07
.38852+09
.38947+09
.36328+09
.43402+07
,36033+07
.33354+07
.10507+06
.50127+00
.96075+08
.96121+08
.72843+08
POCLUTAWTS EXCEEDING ion *"c
cu Pa NI v
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX-
PART
SOX
PON HI
SOX
PB
SUX
PB
SOX
AL
SUX
SOX
SOX
CH
BE.
BE
Bt
PART
M
PART
NI
PART
CR
CR
CR
BE
AL
BE
AL
BA
NI
NI
NI
nt w
AL
CR
CO
CR
CD
BE
V
V
V
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G *
G
•S1474+03
.11116+04
•11116+04
.30979+07
.99498+05
.199S5+07
.15613+02
.29600+02
.596V2+02
.38236+04
.84466+03
.44850+04
.85918+04
.19373+04
.75353+03
.uoouo
.82102+01
.17281+04
.12932+07
.88035+06
.23057+05
.29954+05
.29954+05
.26200+09
.22292+07
.24424+09
.47464+03
.81414+03
.16282+04
.12731+06
.18538+05
.96981+03
.18513+06
.50882+05
.16533+05
.00000
.22603+03
,45400+05
.23293+09
.22623+09
.21209+07
.16055+08
.22483+07
.72550+11
.93794+09
.71252+11
.24973+06
.14543+07
.17314+06
.30619+09
.13873+09
.34318+09
.00036+07
.61830+09
.12001+09
.00000
.94790+0*
.38052+09
.52034+10
.62278+12
.15717+05
.12360+05
.12360+05
.13255+09
.92739+06
.91627+06
.17168+03
.10605+03
.21673+03
.40869+05
,68602+04
,13735+05
.26246+05
.16621+05
.61187+04
.00000
,29992+02
.14830+05
,56887+08
.93273+08
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
pon
POM
NOX
NOX
V
POM
NOX
SOX
NOX
CO
NOX
SOX
SUX
SOX
SOX
SOX
HI
HI
PON
SOX
HI
POM
SOX
CU
SUX
PART
CR
PART
CR
HI
PON HI
HI CR
PART
NI
PART
BE
NI
BC
NI
CR
NI
BC
BE
CR
V
CR
V
NI
V
CR
CR
-------
TABLE 6-5. Continued
1963 -- SUHMARY
CD
I
rsi
SUUHLL
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 MW
ANTHRACITE
BIT/LIG COAL
HRT BOILERS <29 MW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COMM STEAM + HOT HAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIG COAL
RESIDUAL OIL
HARM AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
GAS TURBINES
SIMPLE CYCLE >15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE 3.7-15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <8.7 MW
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >7b KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >75 KW/CYL
NATURAL GAS
C. I. 75KW-75KH/CYL
DISTILLATE OIL
S. I. 75KU-75KM/CYL
NATURAL GAS
6
G
G
6
e
e
G
6
D
0
0
0
0
D
0
D
D
0
6
6
D
D
0
0
S
B
G
D
D
SINGLE
RURAL
.00000
.00000
.45852+02
.13500+06
.77069+05
.75353+03
.00000
.17281+04
.00000
.00000
.00000
.ooouo
.00000
.00000
.00000
.00000
.00000
.00000
.55069+04
.29615+04
.00000
.00000
.00000
.00000
.39494+03
.11047+04
.15395+04
.00000
.udooo
SINGLE
URBAN
.00000
.00000
.18563+04
.10642+09
.60991+08
.16533+05
.00000
.45400+03
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.12183+06
.62751+03
.00000
.00000
.00000
.00000
.82779+04
.19134+05
.27027+05
.00000
.00000
TOTAL
.00000
.00000
.34173+08
.38120+11
.48389+12
.78319+08
.00000
.23119+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000 '
.00000
.00000
.00000
.20643+08
.11567+08
.00000
.00000
.00000
.00000
.80363+07
.24962+08
.10805+09
.00000
.00000
SINGLE SOURCE
.00000
.00000
.77004+03
.26124+08
.25032+08
.61187+04
.00000
.14830+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.64630+03
.45298+05
.00000
.00000
.00000
.00000
.19715+04
.47107+04
.53626+04
.00000
.00000
POLLUTANTS EXCEEDING 101 MEB
CU NI AL CO
NI V
SOX PART POM HI BE CR
CO
SOX PART POM HI BE CR
AL
POM HI
SOX POM HI CR NI V
NOX SOX HC PART
NOX SOX HC PART
NOX • SOX HC PART
NOX HC
NOX HC
-------
TABLE G-5. Concluded
CD
I
ro
ro
SOURCE
GASOLINE
S. I.
'L
n i
LL. 1
'L
'L
'L
'L
'L
L AC
•HO
'L
I Tl
' 1 U
'L
i AC
'Ad
L
ITI
>^L
L
D
0
6
G
6
G
6
6
e
e
G
6
G
e
e
e
SINGLE
RUR«L
.UOOUO
.00000
• 122t>6*0<»
.OOQUO
.OOOUO
.16617*01
.00000
.26306+03
.16372+01
.00000
.00000
.00000
.20311+01
.72381+0*
.31319+04
.raotT+o*
SINGLE
URBAN
.00000
.00000
.23669+05
.00000
.00000
.86553 + 1)5
.00000
.19510+Ot
.30311+05
.00000
.00000
.00000
.52877+05
.1*753+06
.67439+05
.16123+06
TOTAL SINGLE SOURCE
.00000 .00000
.00000
.32159+08
.00000
.onooo
.33787+09
.00000
.19193+08
.23873+09
.00000
.00000
.00000
.26210+08
.16637+08
.36260+07
,57053+07
.00000
.13571+05
.00000
.00000
.21040+05
.00000
.23727+04
.73720+04
.00000
.00000
.00000
.22850+05
.63356+05
.29035+05
.69176+05
SOX PART
SOX PART
PART
PART
NOX HC PART
NOX SUX HC
NOX HC PART
NOX SOX HC
PART
PART
•FIN
-------
TABLE G-6. POLLUTION POTENTIAL OF THE CONSERVATION ENERGY SCENARIO FOR 2000
2000 --
cn
i
ro
co
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.
CENTRAL BITUMIN.
WESTERN BITUniN.
LIGNITE
HIGH S RESi OIL
flEO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
WALL FIRED BOILER
EASTERN BITUniN.
CENTRAL BITUHIN.
WESTERN BITUniN.
LIGNITE
HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
OPPOSED WALL BOILER
EASTERN BITUfllN.
CENTRAL BITUniN.
WESTERN BITUHIN.
LISNITE
HIGH S RES. OIL
BED S RES. OIL
LOW S RES. OIL
6
6
e
6
9
e
9
6
6
e
G
G
6
6
G
6
6
G
G
6
G
6
G
SINGLE
RURAL
.38126+06
.38135*08
.88029+08
.49325*08
.14773+07
.12334*07
.11336+07
.39S7H+05
.15936+08
.16010+08
.13883+08
.20674+08
.18459+06
.16415+06
.15568+06
.36146+04
.57730+08
.57767+08
.57577+08
.74979+08
.13596+07
.13117+07
.12153+07
SINGLE
URBAN
.86140+09
.86143+09
.85972+09
.10357+10
.31697+08
.25267+08
.22592+08
.95522+06
.49559+09
.49764+09
.49428+09
.56999+09
.49103+07
.43581+07
,41230+07
.98094+05
.11828+10
.11833+10
.11802+10
.14548+10
.33186+U8
.26691+08
.24143+08
TOTAL SINGLE SOURCE
.16417+12
.99128+11
.54248+11
.30475+10
.43360+09
.86841+09
.10044+10
.15249+07
.12709+12
.77096+11
.41967+11
.80596+09
.32306+09
.72113+09
.88157+09
.35482+07
.24195+11
.14593+11
.79899+10
.11316+10
.17684+09
.33857+09
.42094+09
.37567+09
.37369+09
,37492+09
.34524+09
.22027+08
.17976+08
.15725+08
.42182+06
.21259+09
.21348+09
.21203+09
.18547+09
.33981+07
.30161+07
.28535+07
.43296+05
.51902+09
.51925+09
.51784+09
.48893+09
.23066+08
.18570+08
.16806+08
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
SOX
NI
SOX
NI
SUX
NI
SOX
AL
SOX
PB
SOX
PB
sox
PB
SOX
SOX
SOX
SOX
SOX
AL
sox
sox
SUX
sox
sox
PB
sox
pa
sox
PB
sox
cu
sox
PB
sox
Pt)
SUX
PB
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
BE
CO
BE
CO
BE
CO
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
V
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CR
CO
CR
CD
BE
CO
AL
CO
AL
CO
AL
-------
TABLE G-6. Continued
£73
I
ro
SOURCE
DISTILLATE OIL
CYCLONE BOILER
CENTRAL BITUMIN.
LIGNITE
HIGH S RES. OIL
RED S RES. OIL
LOW S RES. OIL
VERTICAL * STOKER BOILER
ANTHRACITE
EASTERN BITUHIN.
CENTRAL BITUHIN.
LIGNITE
PACKAGED BOILERS
WALL FIRED U-TUBE >29 HU
DISTILLATE OIL •
NATURAL GAS
PROCESS GAS
BIT/LIG COAL
RESIDUAL OIL
STOKER W-TUBE >29 HW
BIT/LIS COAL
SINGLE BURNER W-T
-------
TABLE 6-6. Continued
2000 -- SUMMARY
IN}
C_n
UARI
8AS
SUUKtt.
HRT BOILERS «9.3 MW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/CONM STEAM + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIS COAL
RESIDUAL OIL
* AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
HARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
TURBINES
SIMPLE CTCLE >15 MW
DISTILLATE OIL
SIMPLE CYCLE 3.7-13 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE <3,7 MW
DISTILLATE OIL
NATURAL GAS
e
6
G
D
D
0
D
D
D
D
0
D
0
6
D
0
D
D
SINGLE
RURAL
.S4381+03
.OOOUO
.19391+04
.00000
.00000
.00000
.00000
.00000
,00000
.00000
.00000
.00000
.00000
.31944+04
.00000
.00000
.00000
.00000
SINGLE
URBAN
.18512*05
.00000
.50833+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,00000
.00000
.63815+05
.00000
.00000
.00000
.00000
TOTAL SINGLE SOURCE
.90668+08
.00000
.26771+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.39660+08
.00000
.00000
.00000
.00000
.68510+04
.00000
.16604+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.35131+03
.00000
.00000
.00000
.00000
POLLUTANT
AL
POM HI
SOX POM
NOX SOX
RECIPROCATING I/C ENGINE
I NO
C. I. >75 KW/CYL
DISTILLATE OIL
DUAL (OIL * GAS)
S. I. >7S KW/CYL
NATURAL GAS
C. I. 75KW-75KW/CYL
DISTILLATE OIL
S. I. 75KW-75KW/CYL
GASOLINE
S. I. <73 KM
GASOLINE
. PROCESS COMBUSTION '
CEMENT KILNS
PROCESSED MAT'L
GLASS MELTING FURNACES
PROCESSED MAT'L
GLASS ANNEALING LEHRS
PROCESSED MAT'L
G
6
0
0
D
D
G
G
6
.36807+03
.12008+04
.17239+04
,00000
.00000
.00000
.13758+04
.00000
.00000
.74961+04
.20514+05
.30262+05
.00000
.00000
.00000
.26302+05
.00000
.00000
.19636+08
.36857*08
.45455+08
.00000
.00000
.00000
.40425+08
.00000
.00000
.17937+04
.50635+04
.60045+04
.00000
.00000
.00000
.15195+05
.00000
.00000
NOX SOX
NOX HC
NOX HC
'
SOX PART
HC
PART
HC
PART
t*
-------
TABLE G-6. Concluded
CD
ro
en
"FIN
SOURCE
COKE OVEN UNDERFIRE
PROCESSED MAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FURNCE (OIL)
PROCESSED MAT
BRICK + CERAMIC KILNS
PROCESSED HAT'L
CAT CRACKING (f-CCU)
PROCESSED MAT'L
REFINERY FLARES
PROCESSED M
IRON + STEEL FLARES
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT
PROCESSED MAT'L
REF. HTR.-NAT. ORAFT.OIL
PROCESSED MAT'L
REF. HTR.-FOR. DRAFT.6AS
PROCESSLD MAT'L
REF. HTR.-FOR. DRAFT.OIL
PROCESSED MAT'L
2000 -- SUMMAKT
L
Iff
• E.O
L
' 1 1
' L f
'L
L
L
L
L
;* C
IR3
L
in
'1 L
L
; AC
'Wo
L
itl
'*U
L
G
G
6
e
G
G
G
G
G
G
6-
SINGLE
RUHAL
.S22U?*OH
.OOOUO
.291)50 + 03
.IBSiH-tOt
.UOOUO
.00000
.00000
.29697+OH
.T^Stt+OH
.35265+04
.7917J+OH
— -- jnpALi f
SINGLE
UKBAN
.96910+05
.00000
.55MJ5+OH
.3J939+05
.00000
.00000
.00000
.5"»217+03
. m892»l)6
,67«i»l + 05
.16000+06
TOTAL SINGLE SOURCE
.12)176 + 09
.00000
.21132+08
.30010+09
.00000
.00000
.00000
.30236+08
.1A8B1+08
.43260+07
.63871+07
.23558+05
.00000
.26566+04
.82544+04
.00000
.00000
.00000
.23469+0!
.61040+05
.29252+05
.68750+05
SOX PART
PART
PART
NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
PART
PART
-------
TABLE 6-7. POLLUTION POTENTIAL OF THE ELECTRIFICATION ENERGY SCENARIO FOR 1985
19&5 -- SUttMART
ST)
ro
•-J
SUUKLfc.
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUM1N.
CENTRAL BITUHIN.
WESTERN BITUNIN.
LIGNITE
HIGH S RES. OIL
NED S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN BITUniN.
CENTRAL BITUHIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUP1IN.
CENTRAL BITUNIN.
WESTERN BITUHIN.
LIGNITE
HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
G
G
G
G
G
S
6
G
G
6
G
G
S
6
S
G
G
G
G
6
G
G
G
G
G
SINGLE
RURAL
.33999+08
.34039+08
.33953+06
.43952+08
.13732+07
.11066+07
.10145+07
.33937+05
.29020+05
.14213+08
.14265+08
.14164+06
.16434+08
!
.17397+06
.14941+06
.14054+06
.473S2+04
.15251+05
.51470 + 08-
.51530+06
.51344+08
.66804+06
.15005+07
.12068+07
.11050+07
SINGLE
URBAN
.76846+09
.76911+09
.76772+09
.92326+09
.29654+06
.22674+08
.20234+08
.90990+06
.62733+06
.44220+09
.44362+09
.44096+09
.50853+09
.46337+07
.39691+07
.37219+07
.12716+06
.38608+06
.10549+10
.10559+10
.10527+10
.12965+10
.32520+08
.24774+08
.22064+06
TOTAL SINGLE SOURCE
.17480+12
.10562+12
.97620+11
.32432+10
.26677+09
.51652+09
.59609+09
.96263+06
.24396+06
.13533+12
.82014+11
.44689+11
.85629+09
.20201+09
.43517+09
.52740+09
.30501+07
.96689+08
.85754+11
,15540+11
.65049+10
.12035+10
.11480+09
.27056+09
.25477+09
.33513+09
.33542+09
.33460+09
.30775+09
.20604+08
.15772+08
.1*084+08
.40184+06
.27197+06
.16969+09
.19030+09
.16913+09
.16546+09
.32066+07
.27468+07
.25759+07
.56154+05
.16729+06
.46287+09
.46331+09
.46191+09
.43571+09
.22594+08
.17232+08
.15357+08
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
SOX
NI
sox
Nl
SOX
Nl
sox
AL
sox
PB
SOX
PB
SOX
PB
SOX
PART
sox
sox
sox
SOX
AL
sox
sox
sox
sox
sox
PB
sox
PB
sox
PB
sox
'Cu
sox
PB
sox
PB
sox
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POH HI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
BE
CO
BE
CD
BE
CD
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CD
CR
CD
CR
CD
BE
CO
AL
CO
AL
CO
-------
TABLE G-7. Continued
CD
CO
SOURCE
DISTILLATE OIL G
NATURAL GAS G
CYCLONE BOILER
EASTERN BITUnlN. G
CENTRAL BITUHIN. G
LIGNITE G
HIGH S RES. OIL 6
flLO S HES. OIL G
LOW S RES. OIL 6
NATURAL GAS G
VERTICAL + STOKER BOILER
ANTHRACITE 6
EASTERN BITUNIN. G
CENTRAL BITUNIN. G
LIGNITE 6
PACKAGED BOILERS
WALL FIRED W-TUBE >29 HW
DISTILLATE OIL 6
NATURAL GAS 6
PROCESS GAS G
BIT/LIG COAL ' 6
RESIDUAL OIL S
STOKER W-TUBE >29 MM
BIT/LIG COAL 6
SINGLE BURNER W-T <29 HW
DISTILLATE OIL G
NATURAL GAS 6
PROCESS GAS G
RESIDUAL OIL G
SCOTCH FIRETUBt <29 HW
DISTILLATE OIL 6
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
FIREBOX FIRETUBE <29 MM
DISTILLATE OIL 6
NATURAL GAS 6
PROCESS GAS G
RESIDUAL OIL G
, STOKER FIRED W-TURE <29 HW
ANTHRACITE G
1965 — SUhHARY
BIT/US COAL
G
SINGLE
RURAL
.80162+05
.16209406
.11187406
.11319408
.53757408
.27521+06
.23557+06
.22117+06
.95569+01
.19131+07
.12739+07
'.12775+07
.167*0+07
.16691+01
.11116+01
.11121+01
.30981+07
.60117+05
.19956+07
.15613+02
.29600+02
.599U8+02
.38891+01
.61166+03
,116!>0 + 0l
.85918+01
.19373+01
.75363+03
.00000
.62111+01
.17281+01
.12992+07
.86035+06
SINGLE
URBAN
.20665+07
.10196+07
.66831+09
.89016+09
.10855+10
.62532+07
.51881+07
.18007+07
.21251+06
.21298+09
.23250+09
.23260+09
.23891+09
,15871+05
.29951+05
.29967+05
.26200+09
.22537+07
. 21121+09
.17161+03
.61111+03
.16285+01
.12915+06,
.16536+05
.96981+05
.16513+06
.50882+05
.16533+05
.00000
.22605+03
.15100+05
.23293+09
.22623+09
TOTAL SINGLE SOURCE
.89132+06
.11017+09
.36059+10
.29663+11
.29135+10
.21932+08
.10059+08
.50561+08
.22165+07
.10010+11
.19107+11
.19116+11
.11701+10
.11666+07
.16008+06
.22131+07
.71162+11
.93562+09
.69666+11
.21615+06
.11501*07
.17269+06
.30617+09
.13665+09
.31222+09
.79606+07
.60998+09
.11636+09
.00000
.91529+01
.37536+09
.51013+10
.61131+12
.92386+06
.17137+07
.36652+09
.38917+09
.36326+09
.13102+07
.36033+07
.33351+07
.10507+06
.50127+06
.96075+06
.96121+08
.72613+08
.31287+05
.12360+05
.12366+05
.13255+09
.93775+06
.91626+09
.17166+03
.10805+03
.21677+03
.11167+05
.66602+01
.13735+05
.26216+05
.16621+05
.61167+01
.00000
.29995+02
.11630+05
.56667+06
.93273+08
PULLUI
CU
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX
PART
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
pon HI
POM HI
NOX
NOX
V
pon HI
NOX
sox
NOX
co
NOX
fl« 1 3 C.H
PB
SOX
pon HI
sox
PB
SOX
PB
sox
AL
sox
sox
sox
CR
Bt
BE
BE
SOX
SOX
SOX
sox
SOX
pon HI
SOX
pon HI
sox
cu
sox
UC-C.uiNb
NI
PART
NI
PART
NI
PART
CR
CR
CR
PART
CR
PART
CR
pon HI
CR
PART
NI
PART
' 1U»
V
BE
AL
BE
AL
BA
NI
NI
NI
BE
NI
BE
NI
CR
NI
BE
BE
ncu
AL
CR
CO
CR
CD
BE
V
V
V
CR
V
CR
V
NI
V
CR
C«
-------
TABLE G-7. Continued
1985 — SUMMARV
ro
SOURCE
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 HW
ANTHRACITE
BIT/LIG COAL
HRT BORERS <29 HU
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COMN STEACI + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
EIT/L1G COAL
RESIDUAL OIL
UARH AIR FURNACES
WARN AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARN AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
6AS TURBINES
SIMPLE CTCLE >15 NW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 3.7-15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE <3.7 UK
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >7S KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >7S ICW/CYL
NATURAL GAS
C. I. 75 KK-75KK/CYL
DISTILLATE OIL
S. I. 75KW-75KH/CVL
NATURAL GAS
6
G
G
6
G
G
6
G
0
0
0
D
0
D
0
0
D
D
G
G
0
D
0
D
G
G
G
0
0
SINGLE
RURAL
.00000
.UOOUO
.438!>2 + 02
.13500+06
.77069+03
.753*3+03
.00000
.17281+04
.1)0000
.00000
.UOOUO
.00000
.00000
.UOOUO
.00000
.00000
.110000
.00000
.42901+04
.24474+ 0*
.00000
.00000
.00000
.ooouo
.39310+03
.11045+04
.15395+0"*
.00000
.ooouo
SINGLE
URBAN
.00000
.00000
.18563+04
.106*2+09
.60991+08
.16533+05
.00000
.45400+05
.00000
.ouooo
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.93043+05
.500<)4+05
.00000
.00000
.00000
.00000
.82483+0*
.19130+09
.27027+09
.00000
.00000
TOTAL SINGLE SOURCE
.00000
.00000
.33714+08
.37394+11
.47467+12
.77254+08
.00000
.22806+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,00000
.25256+08
.14798+08
.00000
.00000
.00000
.00000
.97216+07
.26601+08
.10809+09
.00000
.00000
.00000
.00000
.77004+03
.26124+08
.25052+08
.61187+04
.00000
.14830+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.49554+05
.36146+05
.00000
.00000
.00000
,00000
.19641+04
.47095+04
.53626+04
.00000
.00000
TUI.I.IM A" ga c.Alc.c.u*nt? iu» nc.v
CU NI AL CD
NI V
SOX PART PON HI BE CR
CO
SOX PART PON HI BE CR
AL
PON HI
SOX POM HI CR NI V
NOX sox HC PART
NOX SOX HC PAKT
NOX SOX HC PANT
NOX HC
NOX HC
-------
TABLE G-7. Concluded
1985 -- SUMMARY
O
CO
o
SOURCE
GASOLINE
S. I. L
1ES
L
'L }
'L
'L
L
L
L
>AS
'L
>IL
'L
iAS
L
IIL
L
0
D
G
G
G
G
G
G
G
6
G
G
6
G
G
G
SINGLE
RURAL
.00000
.OOOUO
,12286 + 01*
.00000
.OOOUO
.t6617 + 0i»
.00000
.26306*03
.163T2+OH
.00000
.00000
.00000
.27662+01*
.70545 + 01*
.331b2*0i»
.75715+0"*
inK-flti i-
SINGLE
UKBAN
.00000
.00000
.23669+05
.00000
.00000
.66553+05
.00000
.t95lO+Oi*
.30311+05
.00000
.00000
.00000
.51119+05
.1H263+06
.6H317+05
.15506+06
TOTAL SINGLE SOURCE
.00000 .00000
.00000
.38615*08
.00000
.00000
.40610+09
.00000
.23070+08
.2S689+09
.00000
.00000
.00000
.30510+08
.193H6+OB
.1*3898+07
.66259+07
.00000
.13571+05
.00000
.00000
.2101*0+05
.00000
.23727 + 0<*
,73720+Ot
.00000
.00000
.00000
.22119+05
.61264+05
.27728+05
.66565+05
SOX PART
SOX PART
PART
PART
NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
PART
PART
•flu
-------
TABLE G-8. POLLUTION POTENTIAL OF THE ELECTRIFICATION ENERGY SCENARIO FOR 2000
2000 -- SUMMARY
CD
I
co
SUUKLt
UTILITT BOILERS
TANGEdTIAL BOILERS
EASTERN BITUniN.
CENTRAL BITimiN.
WESTERN BITUniN.
LI6NITE
HIGH S RES. OIL
RED S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL' GAS
HALL FIRED BOILER
EASTERN BITUMIN.
CENTRAL BITUHIN.
WESTERN BITUniN.
LIGNITE
HI6H S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUMIN.
CENTRAL BITUniN.
WESTERN BITUMIN.
LIGNITE
HIGH S RES. OIL
flED S HES. OIL
LOU S RES. OIL
G
6
G
S
G
G
G
G
G
G
G
6
G
G
G
6
G
G
G
6
G
G
G
G
G
SINGLE
RURAL
.37626+08
.37895+08
.377*1+08
.48966+08
.135S5+07
.12035+07
.11333+07
•35215+05
.28016+05
.15820+08
U5853+08
.15793+08
.20574+08
,1912«+06
.15671+06
.15311+06
.17233+0*
.12039+05
.57193+08
.57235+08
.57119+08
.7*250+06
.1*160+07
, .12728+07
.119S3+OT
SINGLE
URBAN
.85581+09
.85690+09
.85383+09
.10289+10
.28521+08
.2*41*5+08
.22586+08
.9*9*5+06
.702*0+06
.49290+09
.*9382+09
,*9217+09
.56805+09
.50934+07
,*1535+07
.*05*0+07
,*757*+05
.30517+06
.11727+10
.117314 + 10
,1171»+10
.14*09+10
,29*76+08
.25702+08
.23636+DA
TOTAL SINGLE SOURCE
.25569+12
.15*53+12
.8*«69+ll
.*7*56+10
.62962+09
.13559+10
.16202+10
.2*456+07
.12706+08
.19311+12
.11986+12
.65507+11
.12589+10
.5*05*+09
.11091+10
.13986+10
.277*9+07
.35550+08
.37606+11
.22683+11
.12*31+11
.17567+10
.25358+09
.55732+09
.66486+09
.37320+09
.37369+09
,3723»+09
.3*295+09
.19829+09
.17008+08
.15721+08
.41919+06
.30*52+06
.211*2+09
.21182+09
.21111+09
.18*82+09
.352*7+07
.267*5+07
.28057+07
.20981+05
.13222+06
.51*55+09
.51485+09
.51398+09
,*8»2*+09
.20497+08
.1768*+08
.16*55+08
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CH
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
sox
NI
sox
Nl
sux
MI
sox
AL
SUX
P8
SOX
PH
sox
PU
sox
PART
SOX
SOX
sox
sox
AL
sox
sox
sox
sox
sox
pa
SOX
PB
sox
PH
SUX
c,"
sox
PB
sox
PB
sox
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POfl HI
PART
PART
PART
PART
CR
CR
CR
PART
HI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
8C
CO
BE
CO
BE
CD
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
CR
CR
CR
BC
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CO
CR
CO
CR
CO
BE
CO
AL
CO
AL
CO
-------
TABLE 6-8. Continued
GO
SOURCE
DISTILLATE OIL
NATURAL GAS
CTCLOKE BOILER
CENTRAL RITUMIN.
LIGNITE
HIGH S HES. OIL
WED S RES. OIL
LOU S HES. OIL
VERTICAL + STOKER BOILER
ANTHRACITE
EASTERN BITUHIN.
CENTRAL BITUPIIN.
LI6NITE
PACKA6ED BOILERS
WALL FIRED W-TUBE >29 MM
DISTILLATE OIL
NATURAL GAS •
PROCESS GAS
BIT/LIG COAL
RESIDUAL OIL
STOKER H-TUBE >29 MW
BIT/LIG COAL
SINGLE BURNER W-T <29 KW
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
SCOTCH FIRETUBE <29 MW
DISTILLATE OIL
NATUHAL GAS
PROCESS GAS
RESIDUAL OIL
FIREBOX FIRETUHt <29 MM
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
RESIDUAL OIL
STOKER FIRED M-TUBE <29 MM
ANTHRACITE
BIT/LIG COAL
CAST IRON BOILERS
DISTILLATE OIL
2000 -- SUMMARY
G
G
G
6
G
G
G
G
G
6
G
SINGLE
RURBL
.47923+05
.181M + 06
.46269+08
.6019A+08
.30821+06
.26379+06
.24801+06
.21423+07
,142b5+07
.14306+07
.18734+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.12700+07
.45007+U7
.99702+09
.12154+10
.70015+07
.58090+07
.53752+07
.27206+09
.26032+09
.26044+09
.26750+09
.13183+07
.57378+08
.24541+11
.24269+10
.17190+08
.34659+08
.41518+08
.82452+10
.16050+11
.16058+11
.93607+09
.56120+06
.19524+07
.43608*09
.40676+09
.48596+07
.40345+07
.37345+07
.56126+06
.10757+09
.10762+09
.61561+06
POLLUTANTS EXCEEDING 101
CU P« NI V
SE
NOX
NOX
NOX
CU
NOX
CR
NOX
NOX
NOX
BE
SOX
SOX
PART
SUX
PUM HI
SOX
PB
SOX
AL
SUX
SOX
SUX
CR
Bt
Bt
BE.
PART
NI
PART
CR
CR
CR
BE
AL
BA
NI
NI
NI
BEG
AL
CR
CD
BE
V
V
V
G
G
6
G
G
G
S
e
6
6
e
s
6
e
6
G
G
G
6
6
.12305+04
.83802+03
.83802+03
.34330+07
.66954+05
.22042+07
.17483+02
.32976+02
.39896+02
.42650+04
.9*585+03
.50223+04
.96194+04
.21647+04
.84381+03
.00000
.57627+01
.19351+04
.14401+07
.96579+06
.34276+05
.22838+05
.22838+05
.29259+09
.25054+07
.27282+09
.53144+03
.90882+1)3
.16285+04
.14213+06
.20756+05
.10859+06
.20713+06
.56839+05
. 18512+09
.00000
.15965+03
.50833+05
.26081+09
.25390+09
.31449+07
.10661+08
.14932+07
.18144+12
.10511+10
.17621+12
.27896+06
.14139+07
.15093+06
.34082+09
.15486+09
.33482+09
.78036+07
.68838+09
.13398+09
.00000
.58307+04
.42484+09
.13049+11
.15621+13
.23371+05
.94182+04
.94182+04
.14801+09
.10423+07
.10233+09
.19223+03
.12056+03
.21676+03
,45625+05
.76813+04
.15379+05
.29367+05
.18567+05
.68510+04
.00000
.21172+02
.16604+05
.63694+06
.10443+09
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
sox
NOX
NOX
SOX
PON
pon
NOX
sox
POfl
NOX
sox
NOX
CO
NOX
CU
sox
SOX
sox
sox
CR
HI
HI
PON
POM
HI
pon
SOX
co
sox
NI
PART
CR
PART
NI
HI
HI CR
HI CR
PART
NI
PART
AL
BE
NI
BE
V
NI
NI
BE
BE
CO
CR
V
CR
V
V
CR
CR
.00000
.00000
.00000
.noooo
-------
TABLE 6-8. Continued
2000 -- SUHMAKT
GO
I
to
to
auunit
RESIDUAL OIL
STOKER F't BOILER <29 MW
ANTHRACITE
BIT/LIB COAL
HRt BOILERS <29 MM
DISTILLATE OIL
NATURAL GAS
RESIUUAL OIL
RES/COHH STEAM 4 HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIB COAL
RESIDUAL OIL
UARH AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
CAS TURBINES
SIMPLE CYCLE MS MW
DISTILLATE OIL
NATURAL GAS
SIHPLE CTCLE 3.T-15 HW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <3.7 MW
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >75 KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S, I. >75 KW/CYL
NATURAL GAS
C. I. 75KW-75KW/CYL
DISTILLATE OIL
S. I. 75KW-75KW/CYL
NATURAL GAS
GASOLINE
S. I. <75 KW
GASOLINE
G
G
G
G
G
G
b
0
0
0
0
D
0
D
D
D
6
6
0
D
0
0
6
G
6
0
D
D .
0
SINGLE
RURAL
.S1345402
.15117+06
.66302+09
.84361403
.00000
.19351404
.00000
.00000
.0001)0
.00000
.00000
.00000
.00000
.00000
.ooouo
.00000
.3169940"*
.200S5404
.00000
.00000
.00000
.00000
. 5860
-------
TABLE 6-8. Concluded
20UO -- SUMMARY
I
CO
SOURCE
IND. PROCESS COMBUSTION
CE«ENT KILNS
PROCESSED MAT'L
GLASS MELTING FURNACES
PROCESSLO MAT'L
GLASS ANNEALING LEHHS
PROCESSED MAT'L
COKE OVtN UNdtHFIRE
PROCESSLO WAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FURNCE IOIL)
PROCESSED MBT'L
BRICK + CERAMIC KILNS
PROCESSED MAT'L
CAT CRACKING (FCCU)
PROCCSSEU MAT'L
REFINERY FLARES
PROCESSED MAT'L
IRON * STEEL FLARES
PROCESSED MAT'L
RCF, HTR.-NAT. JRAFT.GAS
PROCESSED MAT'L
REF. HTR.-NAT. URAFT.OIL
PROCESSLO MAT'L
REF. HTR.-FOR. URAFT.GAS
PROCESSED MAT'L
REF. HTR.-FOR. DRAFT.OIL
PROCESSED MAT'L
'L
>
'L
'L
'L
tfC
iLa
'L
>i i
.L I
'L
'L
L
'L
L
rAS
'L
HL
L
iAS
L
llL
L
6
G
G
G
G
G
6
e
G
G
G
G
G
G
SINGLE
RURAL
.137bfl-fOM
.oonuo
.00000
.52202*0"*
.00000
.29tb8+03
.IBSJt+OI
.00000
.0001)0
.000 DO
.29697+0*
.TUStS+OH
.35265+01
.79172+0*
---- IMPALT ^
SINGLE
URBAN
.26502+05
.00000
.00000
.96910+05
.00000
.55H35+0*
.33939+05
.00000
.00000
.00000
.5H217+U5
.11*892 + 06
.67811+03
.16000+06
TOTAL SINGLE SOURCE
.15983+08
.00000
.00000
.18311+09
.00000
.27145+06
.31133+09
.00000
.00000
.00000
.31396+08
.21191+08
.1908»+07
.7231H+07
.15195+05
.00000
.00000
.23556+05
.00000
.26566+04
.62511+01
.00000
.00000
.00000
.23469+05
.64040+05
.29252+09
.66750+05
SOX PART
SOX PART
PART
PART
NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
PART
PART
"FIN
-------
TABLE G-9. POLLUTION POTENTIAL OF THE SYNTHETICS ENERGY SCENARIO FOR 1985
1985 -- SUMMARY
CD
CO
cn
3UUKIC.
BOILERS
TANGENTIAL BOILERS
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUniN.
LIGNITE
HIGH S RES. OIL
BED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
MALL FIRED BOILER
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUHIN,
LIGNITE
HIGH S RES. OIL
AED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUHIN.
CENTRAL BITUHIN.
WESTERN BITUHIN,
LIGNITE
HIGH S RES. OIL
HED S RES. OIL
LOW S RES. OIL
6
6
G
G
G
G
G
G
G
G
6
G
G
G
G
B
G
G
G
G
G
B
B
G
B
SINGLE
RURAL
.34724+08
.34723+08
.34561+08
.44600+08
.12328+07
.10867+07
.10123+07
.31774+05
,.21210+05
.14413+06
.14460+08
.14337+08
.18689+08
.15867+06
.14540+06
.13909+06
.32915+04
.10693+05
.52033+08
.32107+08
.51935+08
.67079+08
.13929+07
.11871+07
.10853+07
SINGLE
UHBAN
.76193+09
.78176+09
.77902+09
.93322+09
.25988+08
.22169+08
.20177+08
.85323+06
.53066+06
.44639+09
.44758+09
.44430+U9
.51326+09
.42186+07
.38593+07
.36640+07
.89270+05
.27162+06
.10650+10
.10662+10
.10635+10
.13005+10
.29642+08
.24272+08
.21563+08
TOTAL SINGLE SOURCE
.80047+11
.48309+11
.26419+11
.14782+10
.63540+09
.13619+10
.16032+10
.24346+07
.35640+08
.61492+11
.37233+11
.20262+11
.39012+09
.49590+09
.11414+10
.14077+10
.57709+07
.11743+09
.11702+11
.70624+10
.38665+10
.54330+09
.28240+09
.58284+09
.67167+09
..14108+09
.34101+09
.33979+09
.31179+09
.16066+08
.15423+08
.14044+08
.37679+06
,23008+06
.19133+09
.19204+09
.19062+09
.16706+09
.29196+07
.26708+07
.23496+07
.39403+05
.11767+06
.46737+09
.46790+09
,46667+09
.43711+09
.20602+08
.16885+08
.15010+08
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
* CU
SE
NOX
CU
SE
NOX
cu
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
sox
NI
sux
NI
SOX
NI
SOX
AL
SUX
PB
sox
PB
sox
PB
SOX
PART
SOX
SOX
SOX
sox
AL
SOX
sox
sox
sox
sox
PB
SOX
PH
sox
PB
SOX
CU
sox
PB
sox
PB
SOX
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POH MI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
BE
CO
BE
CO
BE
CD
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
9E
AL
BE
AL
BE
AL
BA
AL
CR
V
CR
V
CR
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CD
CR
CO
CR
CO
BE
CO
AL
CO
AL
CO
-------
TABLE G-9. Continued
en
i
en
SOURCE
DISTILLATE OIL
NATURAL GAS
CYCLONE BOILER
EASTERN BITUI1IN.
CENTRAL BITUMIN.
LIGNITE
HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
NATURAL GAS
VERTICAL * STOKER BOILER
ANTHRACITE
EASTERN BITUHIN.
CENTRAL BITUMIN.
LIGNITE
PACM6EO BOILERS
WALL FIRED W-TU8E >29 HW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
BIT/LIE COAL G
RESIDUAL OIL G
STOKER W-TUBE >29 MW
BIT/CIS COAL G
SINGLE BURNER W-T <29 MW
DISTILLATE OIL G
NATURAL GAS 6
PROCESS GAS G
RESIDUAL OIL G
SCOTCH FIRETUBE <29 HW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL 6
FIREBOX FIRETUBE <29 MW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
STOKER FIRED W-TUBC <29 MW
ANTHRACITE G
BIT/LIG COAL G
1965 — SUMMARY
G
G
G
G
G
G
6
G
G
G
G
G
B
SINGLE
RURAL
.60915+05
,11427+06
.41187+08
.41319+08
.53757+08
.27524+06
.23557+06
.22147+06
.95569+01
.19131+07
.12739+07
.127/5+07
.16740+07
SINGLE
UKBAN TOTAL SINGLE SOURCE
.15903+07
.28390*07
.88834*09
.89046+09
.10835+10
.62532+07
.51861+07
,48007+07
.24251+06
.24298+09
.23250+09
.23260+09
.23891+09
.18300+07
.13431+09
.25241+10
.20764+11
.20604+10
.21932+06
.10059*08
.50564+08
.22185+07
.70072+10
.13585+11
.13591+11
.81930+09
,.70327+06
.12314+07
.38652+09
,38917+09
.36328+09
.43402+07
.36033+07
.33354+07
.10507+06
.90127+08
.96075+08
.96121+08
.72813+08
PHI 1 IITAMTV fYfrenti:
"ULuUTW'15 t r
CU PB
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
sox
PART
SOX
POH HI
SOX
PB
SOX
PH
SOX
AL
SOX
SOX
sox
CR
Bt
BE
BE
\ *• (. *. V A "
NI
PART
NI
PART
NI
PART
CR
CR
CR
IG 1 0 K
V
BC
AL
BE
AL
BA
NI
NI
NI
MEG
AL
CR
CO
CR
CD
BE
V
V
V
.14931+04
.98321+03
.98321+03
.30733+07
.99732+05
.19745+07
.19613+02
.29537+02
.53670+02
.38931+04
.84466+03
.44850+04
.89682+04
.19331+04
.75353+03
.00000
.82395+01
.17281+04
.12932+07
.88035+06
.41124+09
.26600+05
.26600+05
.26146+09
.22356+07
.24380+09
.47464+03
.81312+03.
.14574+04
.12927+1)6
.18536+05
.96981+05
.18503+06
.50761+05
.16533+05
.00000
.22748+03
.45400+05
.23293+09
.22623+09
.41209+07
.15888+08
.22247+07
.11015+12
.10239+10
.10620+12
.27190+06
.16180+07
.17276+06
.33847+09
.15099+09
.38234+09
.89147+07
.67135+09
.13064+09
.00000
.10624+05
.41420+09
.79173+10
.91780+12
.28016+05
.10974+05
,10974+05
.13228+09
.93009+06
.91448+08
.17168+03
.10789+03
.19404+03
.41507+05
.66602+04
.13735+09
.26233+09
,16582+09
.61187+04
.00000
.30163+02
.14830+05
.96887+08
.93273+08
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
POM
POM
NOX
sox
POM
NOX
sox
NOX
CO
NOX
CU
sox
sox
sox
sox
SOX
HI
HI
POM
POM
HI
POM
sox
cu
sox
NI
PART
CR
PART
CR
HI
HI CR
HI CR
PART
NI
PART
AL
BE
NI
BE
NI
NI
NI
BE
BE
CO
CR
V
CR
V
V
V
CR
CR
-------
TABLE 6-9. Continued
I
OJ
SOURCE
COST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 MW
ANTHRACITE
BIT/LIB COAL
HRT BOILERS <29 MW
DISTILLATE Olt
NATURAL GAS
RESIDUAL OIL
RES/COMH STEtn + HOT WAT
ANTHRACITE '
DISTILLATE OIL
NATURAL 6AS
BIT/LIG COAL
RESIDUAL OIL
WAR* AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
HARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL 6AS
8AS TURBINES
SIMPLE CYCLE >15 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE 3.7-13 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE <3.7 MW
DISTILLATE OIL
NATURAL 6AS
RCCIPROCATINQ I/C EN6INE
C. I. >75KM/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >75KW/CYL
NATURAL 6AS
C. I. 75KM-75KM/CYL
DISTILLATE OIL
S. I. 75KW-75KH/CYL
NATURAL GAS
GASOLINE
e
G
6
G
6
G
G
G
D
D
D
D
D
D
D
D
0
0
e
G
0
0
D
D
8
G
G
0
0
D
SINGLE
HURAL
.00000
.00000
.45852+02
.13500+06
,77069+05
.75353+03
.00000
.17281+04
,00000
.00000
,00000
.00000
.00000
.00000
.uoooo
.00000
.00000
.00000
.432M+04
.24623+04
.00000
lOoooo
.00000
.00000
.39201+03
.10946+04
.15395+04
.00000
.00000
.00000
SINGLE
URBAN
.00000
.00000
.18563+04
.10842+09
.60991+08
.16533+09
.00000
.45400+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.93607+09
.S0285+OS
,00000
.00000
.00000
.00000
.82437+04
.18867+09
.27027+09
.00000
.00000
.00000
TOTAL SINGLE SOURCE
.00000
.00000
.37196+08
.57997+11
.73591+12
.85256+08
.00000
.25166+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.24277+08
.14193+08
.00000
.00000
.00000
.00000
.10099+08
.28697+08
.10805+09
.00000
.00000
.00000
.00000
.00000
.77004+03
.26124+08
.25052+08
.61187+04
.00000
.14830+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,49859+05
,36320+05
.00000
.00000
.00000
,00000
,19630+04
.46492+04
.53626+04
.00000
.00000
.ooouo
NI V
SOX PART POM HI BE CR
CO
SOX PART POM HI BC CR
AL
POM HI
SOX POM HI CR NI V
NOX SOX HC PART
NOX SOX HC PART
NOX SOX HC PART
NOX HC
NOX HC
-------
TABLE G-9. Concluded
1985 -- SUMMARY
SOURCE
I
CO
00
<75 KW
GASOLINE
INO. PROCESS COMBUSTION
CEMEN1 KILNS
PROCESSED NAT'L
GLASS MELTING FURNACES
PROCESSED MAT'L
GLASS ANNEALING LEHRS
PROCESSED HAT'L
COKE OVEN UNDERFIRE
PROCESSED MAT'L
STEEL SINTERING MACHINES
PROCESSED MAT'L
OPEN HEARTH FURNCE (OIL)
PROCESSED MAT'L
BRICK » CERAMIC KILNS
PROCESSED MAT
CAT CRACKING IFCCUI
PROCESSED MAT'L
REFINERY FLARES
PROCESSED NAT'L
IRON + STEEL FLARES
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT,GAS
PROCESSED MAT'L
REF. HTR.-NAT. URAFT.OIL
PROCESSED MAT'L
REF. HTR.-FOR. DRAFT,GAS
PROCESSED MAT'L
REF. HTR.-FOR. DRAFT,OIL
PROCESSED MAT'L
4
•L
>L
'L
'L
IES
'L
!L )
'L
'L
L
L
L
i AS
L
111
'IL
L
>AS
L
>1L
L
-
D
G
G
G
G
G
G
G
8
G
6
G
G
G
6
SINGLE
RURAL
.00000
.12286+04
.00000
.00000
.46617+04
.00000
.26306+03
.16372+OH
.00000
.00000
.00000
.Z76^1*OH
.TOttO+OW
.3309ct+0t
.7S99H+01
SINGLE
URBAN
.00000
.23669*05
.00000
.00000
.86553+05
.00000
.49510+04
.30311+05
.00000
.00000
.00000
.51099+05
.1H2HS+06
.64293+05
.15486+06
TOTAL SINGLE SOURCE
.00000
.42607+08
.00000
.00000
.44955+09
.00000
.25539*08
.31764+09
.00000
.00000
.00000
.33727+08
.21415+08
.96852+07
.73106+07
.00000
.13571+05
.00000
.00000
.21040+05
,»0000
,23727+04
.73720+04
.00000
.00000
.00000
.22096+05
.61218+05
.27687+05
.66*80+09
SOX PART
SOX PART
PART
PART
NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
PAHT
PART
•FIN
-------
TABLE G-10. POLLUTION POTENTIAL OF THE SYNTHETICS ENERGY SCENARIO FOR 2000
aooo -- SUMMARY
co
3GURCL
UTILITT BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.
CENTRAL BITUfllN.
WESTERN BITUMIN.
LIGNITE
HIGH S RES. OIL
.
MCD S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN BITUMIN.
CENTRAL BITUMIN,
WESTERN BITUMIN,
LIGNITE
HIGH S RES. OIL
MEO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUMIN.
CENTRAL BITUMIN.
WESTERN BITUNtN.
LIGNITE
HIGH S RES, OIL
BED S RES. OIL
LOU S RES. OIL
G
G
G
6
6
6
S
G
G
6
6
G
G
e
s
s
G
G
G
G
G
6
G
G
G
SINGLE
RURAL
.36409+08
,38202+08
.36066+06
.49406+08
.12304+07
.11861+07
411313+07
.33277+05
.23751+05
.15966+08
.15966+08
.15895+08
.20641+06
.16202+06
.15832+06
.1S3<>1+06
.15376+04
.11974+05
.57923+06
•50037+06
(S78SB+08
.79116+06
.12670+07
f
.12420+07
.11914+07
SINGLE
URBAN
.86663+09
.86270+09
.86064+09
.10373+10
.25197+06
.24000+06
.22533+06
.69680+06
.59416+06
.49634+09
.49694+09
.49449+09
.56933+09
.43021+07
.41992+07
.40677+07
.42763+05
.30412+06
.11664+10
.11682+10
.11653+10
.14573+10
.26076+06
.24869+08
.23940+08
TOTAL SINGLE SOURCE
.55429+11
-.33309+11
.18229+11
.10242+10
..15769 + 10
.37760+10
,458524-10
.65527+07
.16177+08
.42714+11
.25835+11
,14086+11
.27022+09
.12953+10
.31795+10
.39603+10
.70724+07
.53319+08
.61458+10
.49165+10
,26934+10
.36043+09
,63660+09
..15300 + 10
.16761+10
.37798+09
.37625+09
,37541+09
.34576+09
.17528+08
.16699+08
.15685+06
.39596+06
.25762+06
.21292+09
.21318+09
.21212+09
.16525+09
.29778+07
.29061+07
.26152+07
.18652+05
.13175+06
.52060+09
.52141+09
.52013+09
.48977+09
.16144+08
.17308+06
.16369+06
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
cu
SE
NOX
CU
SE
NOX
NOX
NOX
AL
NOX
AL
NOX
AL
NOX
CW
NOX
NOX
NOX
NOX
NOX
NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
SOX
NI
sox
NI
SUX
NI
SOX
AL
sox
PB
SOX
PB
sox
PB
SOX
PART
SOX
SOX
sox
sox
AL
sox
sox
sox
sox
SOX
PB
SOX
PB
sox
PB
sox
CU
sox
PB
sox
PB
sox
PART
AL
PART
AL
PART
AL
PART
PART
NI
PART
NI
PART
NI
POM HI
PART
PART
PART
PART
CR
CR
CR
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
NI
PART
BE
CO
BE
CO
BE
CO
BA
CR
V
CR
V
CR
V
BE
BE
BE
BA
NI
NI
NI
BE
AL
BE
AL
BE
AL
B«
AL
CR
V
CR
V
CR
CR
CR
CR
BE
CO
AL
CO
AL
CO
AL
CR
CR
CR
BE
V
V
V
CR
CD
CR
CO
CH
CO
BE
CO
AL
CO
AL
CO
-------
TABLE G-10. Continued
en
^
o
SOURCE
DISTILLATE OIL
NATURAL GAS
CYCLONE BOILER
CENTRAL BITUNIN.
LIGNITE
HIGH S RES. OIL
NED S RES. OIL
LOU S RES. OIL
VERTICAL + STOKER BOILER
ANTHRACITE
EASTERN BITUNIN.
CENTRAL BITUNIN.
LIGNITE
PACKAGED BOILERS
WALL FIRED U-TUBE >29 MM
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS 6
BIT/LIG COAL 6
RESIDUAL OIL G
STOKER W-TUBE >29 MW
BIT/LIG COAL 6
SINGLE BURNER w-T <29 MW
DISTILLATE OIL G
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
SCOTCH FIRETUB6. <29 MW
DISTILLATE OIL 6
NATURAL GAS G
PROCESS GAS G
RESIDUAL OIL G
FIREBOX FIRETUBE <29 MW
DISTILLATE OIL 6
NATURAL GAS 6
PROCESS GAS G
RESIDUAL OIL G
STOKER FIRED H-TUBE <29 MW
ANTHRACITE G
BIT/LIG COAL 6
CAST IRON BOILERS
DISTILLATE OIL G
NATURAL GAS G
2000 -- SUMMARY
G
G
G
G
6
G
G
G
G
G
6
SINGLE
RURAL
.4*062+05
.12796+06
.46269+08
.60198*08
.30621+06
.26379+06
.2*601+06
.21*123 + 07
.11265+07
.1*306+07
.16734+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.11737+07
.31786+07
.99702+09
.12154+10
.70015+07
.56090+07
.53752+07
.27206+09
.26032+09
.26044+09
.26750+09
.345*6+07
.60981+08
.12270+11
.12134+10
.17190+06
.34659+08
.41516+06
.41226+10
.60250+10
.60286+10
.46804+09
.51652+06
.13786+07
.43606+09
.40676+09
.46596+07
.40345+07
.37345+07
.56126+08
.10757+09
.10762+09
.61561+08
POLLUTANTS EXCEEDING 10K
CU PB NI V
SE
NOX
NOX
NOX
CU
NOX
CR
NOX
NOX
MOX
BE
sox
SOX
PART
sox
POM HI
sox
PB
sox
AL
SOX
SOX
sox
C«
BE
BE
BE
PART
NI
PART
CR
CR
CR
BE
AL
Bfl
NI
NI
NI
MEG
AL
CR
CD
BE
V
V
V
•91235+03
.56233+03
.56233+03
,34273+07
•66258+05
•22003+07
•17*83+02
.32833+02
•59668+02
•42663+04
•94565+03
•50223+04
,96079+04
.216*7+04
•64361+03
.00000
•00000
•19351+0*
.14461+07
,96579+06
.25816+05
.15453+05
,15453+05
.29246+09
.24656+07
.27273+09
.53144+03
.90663+03
.16256+04
.14216+06
.20756+05
.10859+06
.20692+06
.56839+1)5
.16512+05
.00000
,00000
.50633+05
.26081+09
,25330+09
.44964+07
.10421+06
.14594+07
.20561+12
.19802+10
,20198+12
,52986+06
.20361+07
.21762+06
,64731+09
.29*0*+09
.46371+09
.11266+06
.13076+10
..25449+09
.00000
.00000
.60707+09
.14799+11
.17714+13
.17596+05
.63696+04
.63696+04
,14794+09
,10341+07
.10229+09
.19223+03
.12025+03
.21628+03
.45634+05
.76813+04
.15379+05
.29339+05
,18567+05
.66510+04
.00000
.00000
.16604+05
.63694+08
.10443+09
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
MOX
pon HI
pon HI
pon HI
sox
pon HI
sox
NOX
CO
NOX
SOX
SOX PART BE
SOX CR NI
SOX PART BE
SOX
CR
PON HI CR .
POH HI CR
sox PART
CU M
SOX PART
CU NI AL
NI
NI
NI
BE
BE
cn
CR
v
CR
V
CR
CR
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
-------
CD
-p.
SOURCE
•RESIDUAL OIL
STOKER F-T BOILER <29 MM
ANTHRACITE
BIT/LIB COAL
HRT BOILERS <29 MM
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COMPI STEAM + HOT UAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LI6 COAL
RESIDUAL OIL
HARH AIR FURNACES
WASH AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATCR
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
GAS TURBINES
SIMPLE CYCLE >13 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 3.7-15 MU
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <3.7 HW
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >75KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >75KW/CYL
NATURAL GAS
C. I. 75KW-75KW/CYL
DISTILLATE OIL
S. I. 75KU-75KW/CYL
NATURAL GAS
GASOLINE
S. I. <73 KM
GASOLINE
TABLE 6-10. Continued
2000 -- SUMMARY
6
e
6
U>« IB
0
0
0
0
D
D
D
D
D
D
G
S
0
D
0
0
6
6
e
0
0
D
SINGLE
RURAL
.913*5+02
.15117*06
.86302*05
.8*381+03
.0001)0
.19351+0*
.00000
.ooouo
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.33094+0*
.211*5+0*
.00000
.00000
.00000
.00000
.385*1+03
.11997+014
.17239+04
.00000
.00000
.00000
SINGLE
URBAN
.20705+0*
.121*0+09
.68269+00
.18512+05
.00000
.50833+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.68*09+05
.11075*03
.00000
.00000
.00000
.00000 •
.793*8+0*
.20*96+03
.30262+09
.00000
,00000
.00000
TOTAL SINGLE SOURCE
.72*55+06 .86219+09 NI V
..108*1 + 12
,1375*+13
.16606+09
.00000
.*9025+09
.00000
.00090
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.32638+08
.21*61+08
.00000
.00000
.00000
.00000
.16*83+08
.50371+08
.15155+08
.00000
.00000
.00000
.29231+08 SOX PART POM HI BE
CO
.28050+08 SOX PART PON HI BE
AU
.68510+0* POM HI
.00000
.16601+03 SOX POM HI CR NI
.00000
.00000
.00000
.ooouo
.00000
.00000
.00000
.00000
.00000
.00000
.36510+03 NOX SOX HC PAHT
.29698 + 03 NOX SOX HC PAKT
.00000
.00000
.00000
.00000
.18997+0* NOX SOX HC PART
.30589+0* NOX HC
.600*5+0* NOX HC
.00000
.00000
.00000
PIE 6
CR
CR
V
.00000
.00000
.00000
.00000
-------
TABLE G-10. Concluded
2000 -- SUMMARY
CD
I
-Pi
ro
SOURCE
INO. PROCESS COMBUSTION
CERENT KILNS
PROCESSED HAT'L
GLASS MELTING FURNACES
PROCESSED BAT
CLASS ANNEALING LEHRS
PROCESSED HAT'L
COKE OVEN UNOERFIRE
PROCESSED HAT
STEEL SINTERING MACHINES
PROCESSED flAT'L
OPEN HEARTH FbKNCE (OIL)
PROCESSED HAT'L
BRICK + CERAMIC KILNS
PROCESSED MAT'L
CAT CRACKING (FCCU)
PROCESSED MAT'L
REFINERY FLARES
PROCESSED BAT'L
IRON + STEEL FLARES
PROCESSED MAT'L
REF. HTR.-NAT. ORAFTt
PROCESSED MAT'L
REF. HTR.-NAT. DRAFT.OIL
PROCESSED HAT'L
REF. HTR.-FOR. URAFT.
PROCESSED MAT
REF. HTft.-FOR. ORAFTtOlL
PROCESSED MAT'L
'L
'L
'L
L
IF Q
IC.9
L
'L }
L
L
L
L
L
'A e
iAS
L
IT 1
UU
L
>AS
L
tii
IIL
L
6
e
6
6
G
6
G
G
G
6
G
G
G
B
SINGLE
RURAL
.13758*0t
.00000
.00000
.92202+04
.00000
.291*18+03
. 1633<*+0i»
.UOOOO
.00000
.00000
.292*8+01
.732T5+OH
.ass-tz+OH
.TB40S*Oi>
SINGLE
URBAN
.26502+05
.00000
.00000
.96910+05
.00000
.55
-------
APPENDIX H
POLLUTION POTENTIAL TRENDS TO THE YEAR 2000
FOR THE ENERGY PROJECTION SCENARIOS
Appendix H gives the pollution potential trends of the energy
projection scenarios described in Section 3.4.1. These graphs are
displayed as follows:
• Reference high nuclear scenario: H-l to H-5
t Reference low nuclear scenario: H-6 to H-10
• Conservation scenario: H-ll to H-15
• Electrification scenario: H-16 to H-20
• Synthetics scenario: H-21 to H-25
The pollution potential values for these scenarios were obtained using the
Source Analysis Model (SAM) described in Section 5.1. The plots show the
total national pollution impact factors for each equipment type. For
example, the impact value for coal-fired utility boilers results from the
summation of total impact factors for all coal-fired equipment types
within the utility boiler sector.
The plots displayed here show that coal fired sources have the
highest total source impact through the year 2000 due to the increasing
dependence on coal as an energy source. Natural gas-fired sources become
less important due to decreased use of natural gas as an energy resource.
For further perusal, Sections 5.3 and 5.4 discuss the results and
conclusions of the trends assessment through the year 2000.
H-l
-------
Coal
1011
o
09
CO
I
Ho
B
10
10
109
1974
Figure H-l. Reference high nuclear scenario trends in pollution
potential for utility and large industrial boilers.
H-2
-------
1012
1011
o
(0
u_
Q.
E
15
O
1010
10"
10"
1974
Coal
Gas
1985
Year
2000
Figure H-2. Reference high nuclear scenario trends in pollution
potential for packaged boilers.
H-3
-------
108 -
o
S
03
CO
Q.
E
15
106
10s
1974
1985
Year
2000
Figure H-3. Reference high nuclear scenario trends in pollution
potential for gas turbines.
H-4
-------
o
(0
u.
T3
(0
Q.
E
15
Oil
1974
1985
Year
2000
Figure H-4. Reference high nuclear scenario trends in pollution
potential for reciprocating 1C engines.
H-5
-------
109
10"
o
73
«J
u.
73
-------
1013
-OCoal
10
12
*
<
101
o
CO
LL.
T>
CO
a
E
o
1010
109
Reference low nuclear scenario trends in pollution
potential for utility and large industrial boilers.
H-7
-------
io13 r
1012
o
Z
10
10
"5
o
109
Coal
2
-©Gas
108
1974
1985
Year
2000
Figure H-7.
Reference low nuclear scenario trends in pollution
potential for packaged boilers.
H-8
-------
10
10
10"
S
1
03
*-»
o
106
105
1974
Figure H-8.
1985 2000
Year
Reference low nuclear scenario trends in
pollution potential for gas turbines.
H-9
-------
10
,10
10"
105
Oil
1974
1985
Year
2000
Figure H-9. Reference low nuclear scenario trends in pollution
potential for reciprocating 1C engines.
H-10
-------
10
10
109
o
« 10"
£
2
o
107
106
1974
i
i
Proc. Material(a)
JL
1985
Year
2000
^Emission factors given as a function of processed material
Fiaure H-10 Reference low nuclear scenario trends in pollution
ngure n iu. potentia] for industrial process heating.
H-ll
-------
1012 r
Coal
10"
10s
Gas
1974
1985
Year
2000
Figure H-ll.
Conservation scenario trends in pollution potential
for utility and large industrial boilers.
H-12
-------
i
1012
Coal
1011
o
a
a.
o
to
a,
E
10
10
-© Oil
108
Gas
108
1974
1985
Year
2000
Figure H-12.
Conservation scenario trends in pollution
potential for packaged boilers.
H-13
-------
108
%
9
u.
CO
a
"5
**
o
10"
10s
1974
1985
Year
2000
Figure H-13. Conservation scenario trends in pollution
potential for gas turbines.
H-14
-------
o
CO
u.
o
«8
ex
E
o
1974
2000
Figure H-14.
Conservation scenario trends in pollution
potential for reciprocating 1C engines.
H-15
-------
10"
§ 10'
CO
u.
«
a.
E
To
o
107
106
1974
(a)
1985
Year
I
4
Proc. Material*8'
2000
Emission factors given as a function of processed material
Figure H-15. Conservation scenario trends in pollution
potential for industrial process combustion.
H-16
-------
1012
Coal
101
CO
E 1010
109
10e
Gas
1974
1985
Year
2000
Figure H-16.
Electrification scenario trends in pollution
potential for utility and large industrial boilers,
H-17
-------
Coal
1012
o
i
€
to
u.
1
0.
75
•5
1010
109
-OGas
10"
1974
Figure H-17.
1985 2000
Year
Electrification scenario trends in pollution
potential for packaged boilers.
H-18
-------
1
10s
eg
u.
OB
Q.
"5
S
107
1974
1985
Year
2000
Figure H-18. Electrification scenario trends in pollution
potential for gas turbines.
H-19
-------
10'
10s -
1974
1985
Year
2000
Figure H-19,
Electrification scenario trends in pollution
potential for reciprocating 1C engines.
H-20
-------
109
o
CO
u
a
a
E
o
10"
107
Proc. Material'8'
©
Gas
-©
Oil
1974
1985
Year
2000
^'Emission factors given as a function of processed material
Figure H-20. Electrification scenario trends in pollution
potential for industrial process combustion.
H-21
-------
1012
1011
u
CD
ts
CO
I 1010
Coal
Oil
109
Gas
108,
1974
1985
Year
2000
Figure H-21.
Synthetics scenario trends in pollution
potential for utility and large industrial
bo i1ers.
H-22
-------
1012
101
cs
UL
«B
a
E
3
o
Coal
109
10s
Gas
1974
1985
Year
2000
Figure H-22. Synthetics scenario trends in pollution
potential for packaged boilers.
H-23
-------
i
108
o
CO
Q.
E
To
o
106
105
1974
1985
Year
2000
Figure H-23.
Synthetics scenario trends in pollution
potential for gas turbines.
H-24
-------
1974
2000
Figure H-24.
Synthetics scenario trends in pollution
potential for reciprocating 1C engines.
H-25
-------
I
Proc. Material'"
107
106
1974
1985
Year
2000
(a)
Emission factors given as a function of processed material
Figure H-25. Synthetics scenario trends in pollution
potential for industrial process combustion.
H-26
-------
TECHNICAL REPORT DATA
(Please read Iituructions on the reverse before completing)
DEPORT NO
EPA-600/7 - 78-l20b
|3. RECIPIENT'S ACCESSION NO.
. TITLE AMD SUBTITLE
Emission Characterization of Stationary NOx
Sources: Volume n. Data Supplement
,5. REPORT DATE
August 1978
6. PERFORMING ORGANIZATION CODE
. AUTHORIS)
K. G.Salvesen, M.Herther, K.J. Wolfe, andE.Chu
B. PERFORMING ORGANIZATION REPORT NO.
i. PERFORMING ORGANIZATION NAME AND ADDRESS
Acurex Corporation/Energy and Environmental Div.
485 Clyde Avenue
Mountain View, California 94042
10. PROGRAM ELEMENT NO.
EHE624A
11. CONTRACT/GRANT NO.
68-02-2160
12. SPONSORING AGENCY NAME AND ADDRESS
13. TYPE OF REPORT AND PERIOD COVERED
EPA, Office of Research and Development
Industrial Environmental Research Laboratory
Research Triangle Park, NC 27711
Special: 1-10/77
14. SPONSORING AGENCY CODE
EPA/600/13
15.SUPPLEMENTARY NOTES JERL-RTP project officer is JoshuaS. Bowen, Mail Drop 65,
919/541-2470.
16. ABSTRACT
The report gives results of an inventory of gaseous, liquid, and solid
effluents from stationary NOx sources, projected to the year 2000, and ranks them
according to their potential for environmental hazard. It classifies sources accor-
ding to their pollution formation characteristics, and gives results of a compilation
of emission factors and regional and national fuel consumption data for specific
equipment/fuel types. It gives results of an emission inventory for NOx, SOx, CO,
HC, particulates, sulfates, POM, and liquid or solid effluents. It projects emissions
to 1985 and to 2000 for five energy scenarios, depicting alternative uses of coal,
nuclear power, and synthetic fuels. It ranks sources by nationwide emissions loading
for 1974, 1985, and 2000. It describes a source analysis model used to estimate pol-
lution hazard, considering ambient dispersion, population exposure, background
concentrations, and health-based impact threshold limits. It applies the model the
model to the emission inventory to produce source rankings based on both single-
pollutant and total-multimedia impact factors.
17.
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS
b.lDENTIFIERS/OPEN ENDED TERMS
COSATl Field/Group
Air Pollution
Nitrogen Oxides
Organic Compounds
Inorganic Compounds
Fossil Fuels
Dust
Boilers
Gas Turbines
Internal Combustion
Engines
Ranking
Inventories
Air Pollution Control
Stationary Sources
Environmental Assess-
ment
Particulates
Emission Factors
13 B
07B
07C
21D
11G
13A
13G
21G
12 B
15E
18. DISTRIBUTION STATEMENT
Unlimited
Unclassified
283
20 SECURITY CLASS (This pageJ
Unclassified
22. PRICE
EPA Form 2220-1 (9-73)
H-27
-------