# tracerinfo.dat # This file contains name weight and index information about the # tracers used in the (GEOS) CTM # It is used by ctm_tracerinfo.pro # -------------------------------------------------------------------- # VERSION 1.0 : mgs, 04/22/1998 # VERSION 2.0 : bmy, 05/08/1998 # VERSION 2.1 : mgs, 05/08/1998 # VERSION 3.0 : bmy, 05/20/1998 # VERSION 3.1 : bmy, 02/08/1999 # -------------------------------------------------------------------- # Format of lines as read is # NAME (A7) # FULLNAME (A31) # MWT (E10.0) molecular weight (as kg N or kg C) # FULLI (I5) tracer index in full chemistry mode # SMALLI (I5) tracer index in small chemistry mode # MOLC (F6.1) For hydrocarbons, moles of C per moles of tracer # (otherwise set equal to 1.0) # SCALE (E10.3) Standard scale factor to convert to unit given below # UNIT (A20) unit as supplied by CTM w/o any conversion # (except for standard scaling 1.0E-9 or 1.0E-12) # -------------------------------------------------------------------- # #NAME FULLNAME MWT FULL SMALL MOLC SCALE UNIT # |. |. |. |. |. |. |. | NOx NOx 14.e-3 1 1 1.0 1.0E+09 ppbv Ox Ox 48.e-3 2 2 1.0 1.0E+09 ppbv PAN PAN 121.e-3 3 0 1.0 1.0E+09 ppbv CO CO 28.e-3 4 3 1.0 1.0E+09 ppbv ALK4 Alkanes(>C4) 12.e-3 5 0 4.0 1.0E+09 ppbC ISOP Isoprene 12.e-3 6 0 5.0 1.0E+09 ppbC HNO3 HNO3 63.e-3 7 4 1.0 1.0E+09 ppbv H2O2 H2O2 34.e-3 8 5 1.0 1.0E+09 ppbv ACET Acetone 58.e-3 9 0 1.0 1.0E+09 ppbv MEK Ketones(>C3) 72.e-3 10 0 1.0 1.0E+09 ppbv ALD2 Acetaldehyde 44.e-3 11 0 1.0 1.0E+09 ppbv RCHO Aldehyde(>C3) 58.e-3 12 0 1.0 1.0E+09 ppbv MVK Methylvinylketone 70.e-3 13 0 1.0 1.0E+09 ppbv MACR Methacrolein 70.e-3 14 0 1.0 1.0E+09 ppbv PMN MPAN 147.e-3 15 0 1.0 1.0E+09 ppbv PPN PPN 135.e-3 16 0 1.0 1.0E+09 ppbv R4N2 Alkylnitrate(>C3) 119.e-3 17 0 1.0 1.0E+09 ppbv PRPE Propene 12.e-3 18 0 3.0 1.0E+09 ppbC C3H8 Propane 12.e-3 19 0 3.0 1.0E+09 ppbC CH2O HCHO 30.e-3 20 6 1.0 1.0E+09 ppbv C2H6 Ethane 12.e-3 21 0 2.0 1.0E+09 ppbC N2O5 N2O5 105.e-3 22 0 1.0 1.0E+09 ppbv HNO4 HNO4 79.e-3 23 0 1.0 1.0E+09 ppbv MP CH3OOH 24.e-3 24 0 1.0 1.0E+09 ppbv O3 O3 48.e-3 25 7 1.0 1.0E+09 ppbv # SPECIAL simulations (60+ = Radon, 70+ = CH3I, 80+ = HCN) Rn Radon 222.e-3 61 61 1.0 1.0E+21 1e21 v/v Pb210 Lead 210 210.e-3 62 62 1.0 1.0 Bq/m3 Be7 Beryllium 7 7.e-3 63 63 1.0 1.0 Bq/m3 Be10 Beryllium 10 10.e-3 64 64 1.0 1.0 Bq/m3 CH3I Methyl Iodide (total) 142.e-3 70 70 1.0 1.0E+12 pptv CH3Ioc Methyl Iodide (oceanic source) 142.e-3 71 71 1.0 1.0E+12 pptv CH3Ibb Methyl Iodide (biomass burning) 142.e-3 72 72 1.0 1.0E+12 pptv CH3Iwb Methyl Iodide (wood burning) 142.e-3 73 73 1.0 1.0E+12 pptv CH3Irc Methyl Iodide (rice paddies) 142.e-3 74 74 1.0 1.0E+12 pptv CH3Iwl Methyl Iodide (wetlands) 142.e-3 75 75 1.0 1.0E+12 pptv HCN Hydrogen Cyanide 27.e-3 81 81 1.0 1.0E+09 ppbv # # Fluxes (mol/cm2/s): OFFSET = 100 # NOx NOx 14.e-3 101 101 1.0 1.0E+00 mol/cm2/s Ox Ox 48.e-3 102 102 1.0 1.0E+00 mol/cm2/s PAN PAN 121.e-3 103 0 1.0 1.0E+00 mol/cm2/s CO CO 28.e-3 104 103 1.0 1.0E+00 mol/cm2/s ALK4 Alkanes(>C4) 12.e-3 105 0 4.0 1.0E+00 mol/cm2/s ISOP Isoprene 12.e-3 106 0 5.0 1.0E+00 mol/cm2/s HNO3 HNO3 63.e-3 107 104 1.0 1.0E+00 mol/cm2/s H2O2 H2O2 34.e-3 108 105 1.0 1.0E+00 mol/cm2/s ACET Acetone 58.e-3 109 0 1.0 1.0E+00 mol/cm2/s MEK Ketones(>C3) 72.e-3 110 0 1.0 1.0E+00 mol/cm2/s ALD2 Acetaldehyde 44.e-3 111 0 1.0 1.0E+00 mol/cm2/s RCHO Aldehyde(>C3) 58.e-3 112 0 1.0 1.0E+00 mol/cm2/s MVK Methylvinylketone 70.e-3 113 0 1.0 1.0E+00 mol/cm2/s MACR Methacrolein 70.e-3 114 0 1.0 1.0E+00 mol/cm2/s PMN MPAN 147.e-3 115 0 1.0 1.0E+00 mol/cm2/s PPN PPN 135.e-3 116 0 1.0 1.0E+00 mol/cm2/s R4N2 Alkylnitrate(>C3) 119.e-3 117 0 1.0 1.0E+00 mol/cm2/s PRPE Propene 12.e-3 118 0 3.0 1.0E+00 mol/cm2/s C3H8 Propane 12.e-3 119 0 3.0 1.0E+00 mol/cm2/s CH2O HCHO 30.e-3 120 106 1.0 1.0E+00 mol/cm2/s C2H6 Ethane 12.e-3 121 0 2.0 1.0E+00 mol/cm2/s N2O5 N2O5 105.e-3 122 0 1.0 1.0E+00 mol/cm2/s HNO4 HNO4 79.e-3 123 0 1.0 1.0E+00 mol/cm2/s MP CH3OOH 24.e-3 124 0 1.0 1.0E+00 mol/cm2/s O3 O3 48.e-3 125 107 1.0 1.0E+00 mol/cm2/s # # Fluxes (kg/m2/s): OFFSET = 200 # NOx NOx 14.e-3 201 201 1.0 1.0E+00 kg/m2/s Ox Ox 48.e-3 202 202 1.0 1.0E+00 kg/m2/s PAN PAN 121.e-3 203 0 1.0 1.0E+00 kg/m2/s CO CO 28.e-3 204 203 1.0 1.0E+00 kg/m2/s ALK4 Alkanes(>C4) 12.e-3 205 0 4.0 1.0E+00 kg/m2/s ISOP Isoprene 12.e-3 206 0 5.0 1.0E+00 kg/m2/s HNO3 HNO3 63.e-3 207 204 1.0 1.0E+00 kg/m2/s H2O2 H2O2 34.e-3 208 205 1.0 1.0E+00 kg/m2/s ACET Acetone 58.e-3 209 0 1.0 1.0E+00 kg/m2/s MEK Ketones(>C3) 72.e-3 210 0 1.0 1.0E+00 kg/m2/s ALD2 Acetaldehyde 44.e-3 211 0 1.0 1.0E+00 kg/m2/s RCHO Aldehyde(>C3) 58.e-3 212 0 1.0 1.0E+00 kg/m2/s MVK Methylvinylketone 70.e-3 213 0 1.0 1.0E+00 kg/m2/s MACR Methacrolein 70.e-3 214 0 1.0 1.0E+00 kg/m2/s PMN MPAN 147.e-3 215 0 1.0 1.0E+00 kg/m2/s PPN PPN 135.e-3 216 0 1.0 1.0E+00 kg/m2/s R4N2 Alkylnitrate(>C3) 119.e-3 217 0 1.0 1.0E+00 kg/m2/s PRPE Propene 12.e-3 218 0 3.0 1.0E+00 kg/m2/s C3H8 Propane 12.e-3 219 0 3.0 1.0E+00 kg/m2/s CH2O HCHO 30.e-3 220 206 1.0 1.0E+00 kg/m2/s C2H6 Ethane 12.e-3 221 0 2.0 1.0E+00 kg/m2/s N2O5 N2O5 105.e-3 222 0 1.0 1.0E+00 kg/m2/s HNO4 HNO4 79.e-3 223 0 1.0 1.0E+00 kg/m2/s MP CH3OOH 24.e-3 224 0 1.0 1.0E+00 kg/m2/s O3 O3 48.e-3 225 207 1.0 1.0E+00 kg/m2/s CH3Ioc Methyl Iodide (oceanic source) 142.e-3 271 271 1.0 1.0E+00 ng/m2/s CH3Ibb Methyl Iodide (biomass burning) 142.e-3 272 272 1.0 1.0E+00 ng/m2/s CH3Iwb Methyl Iodide (wood burning) 142.e-3 273 273 1.0 1.0E+00 ng/m2/s CH3Irc Methyl Iodide (rice paddies) 142.e-3 274 274 1.0 1.0E+00 ng/m2/s CH3Iwl Methyl Iodide (wetlands) 142.e-3 275 275 1.0 1.0E+00 ng/m2/s CH3Iaq CH3I surface water conc. 142.e-3 276 276 1.0 1.0E+00 ng/L KW CH3I ocean atmos. exch. coeff. 142.e-3 277 277 1.0 1.0E+00 cm/h # # Column concentrations (mol/cm2): OFFSET = 300 # NOx NOx 14.e-3 301 301 1.0 1.0E+00 mol/cm2 Ox Ox 48.e-3 302 302 1.0 1.0E+00 mol/cm2 PAN PAN 121.e-3 303 0 1.0 1.0E+00 mol/cm2 CO CO 28.e-3 304 303 1.0 1.0E+00 mol/cm2 ALK4 Alkanes(>C4) 12.e-3 305 0 4.0 1.0E+00 mol/cm2 ISOP Isoprene 12.e-3 306 0 5.0 1.0E+00 mol/cm2 HNO3 HNO3 63.e-3 307 304 1.0 1.0E+00 mol/cm2 H2O2 H2O2 34.e-3 308 305 1.0 1.0E+00 mol/cm2 ACET Acetone 58.e-3 309 0 1.0 1.0E+00 mol/cm2 MEK Ketones(>C3) 72.e-3 310 0 1.0 1.0E+00 mol/cm2 ALD2 Acetaldehyde 44.e-3 311 0 1.0 1.0E+00 mol/cm2 RCHO Aldehyde(>C3) 58.e-3 312 0 1.0 1.0E+00 mol/cm2 MVK Methylvinylketone 70.e-3 313 0 1.0 1.0E+00 mol/cm2 MACR Methacrolein 70.e-3 314 0 1.0 1.0E+00 mol/cm2 PMN MPAN 147.e-3 315 0 1.0 1.0E+00 mol/cm2 PPN PPN 135.e-3 316 0 1.0 1.0E+00 mol/cm2 R4N2 Alkylnitrate(>C3) 119.e-3 317 0 1.0 1.0E+00 mol/cm2 PRPE Propene 12.e-3 318 0 3.0 1.0E+00 mol/cm2 C3H8 Propane 12.e-3 319 0 3.0 1.0E+00 mol/cm2 CH2O HCHO 30.e-3 320 306 1.0 1.0E+00 mol/cm2 C2H6 Ethane 12.e-3 321 0 2.0 1.0E+00 mol/cm2 N2O5 N2O5 105.e-3 322 0 1.0 1.0E+00 mol/cm2 HNO4 HNO4 79.e-3 323 0 1.0 1.0E+00 mol/cm2 MP CH3OOH 24.e-3 324 0 1.0 1.0E+00 mol/cm2 O3 O3 48.e-3 325 307 1.0 1.0E+00 mol/cm2 O3COL Ozone Column (TOMS) 1.0 399 399 1.0 1.0 DU # SPECIAL simulations (360+ = Radon, 370+ = CH3I, 380+ = HCN) Rn Radon 222.e-3 361 361 1.0 1.0E+00 mol/cm2 Pb210 Lead 210 210.e-3 362 362 1.0 1.0E+00 mol/cm2 Be7 Beryllium 7 7.e-3 363 363 1.0 1.0E+00 mol/cm2 Be10 Beryllium 10 10.e-3 364 364 1.0 1.0E+00 mol/cm2 CH3Ioc Methyl Iodide (oceanic source) 142.e-3 371 371 1.0 1.0E+00 mol/cm2 CH3Ibb Methyl Iodide (biomass burning) 142.e-3 372 372 1.0 1.0E+00 mol/cm2 CH3Iwb Methyl Iodide (wood burning) 142.e-3 373 373 1.0 1.0E+00 mol/cm2 CH3Irc Methyl Iodide (rice paddies) 142.e-3 374 374 1.0 1.0E+00 mol/cm2 CH3Iwl Methyl Iodide (wetlands) 142.e-3 375 375 1.0 1.0E+00 mol/cm2 HCN Hydrogen Cyanide 27.e-3 381 381 1.0 1.0E+00 mol/cm2 # # ND01: OFFSET = 500 # MEAN-U Mean U-Wind 0.e0 501 501 1.0 1.0E+00 m/s MEAN-V Mean V-Wind 0.e0 502 502 1.0 1.0E+00 m/s MEAN-W Mean W-Wind 0.e0 503 503 1.0 1.0E+00 m/s # # ND02: OFFSET = 600 # MAX-U Max U-Wind 0.e0 601 601 1.0 1.0E+00 m/s MAX-V Max V-Wind 0.e0 602 602 1.0 1.0E+00 m/s MAX-W Max W-Wind 0.e0 603 603 1.0 1.0E+00 m/s # # ND22: OFFSET = 700 # JNO2 NO2 J-Value (s^-1) 0.e0 701 701 1.0 1.0E+00 s-1 JHNO3 HNO3 J-Value (s^-1) 0.e0 702 702 1.0 1.0E+00 s-1 JH2O2 H2O2 J-Value (s^-1) 0.e0 703 703 1.0 1.0E+00 s-1 JCH2O CH2O J-Value (s^-1) 0.e0 704 704 1.0 1.0E+00 s-1 JO3 O3 J-Value (s^-1) 0.e0 705 705 1.0 1.0E+00 s-1 POH OH-source from O3 photolysis 0.e0 706 706 1.0 1.0E+00 s-1 JCH3I CH3I J-value (s^-1) 0.e0 771 771 1.0 1.0E+00 s-1 # # ND30: OFFSET = 800 # LWI DAO Land-Water Indices 0.e0 801 801 1.0 1.0E+00 none # # ND31: OFFSET = 800 # PSURF Surface Pressure 0.e0 901 901 1.0 1.0E+00 mb # # ND43: OFFSET = 1000 # OH OH Chemical Diagnostic 0.e0 1001 1001 1.0 1.0E-05 mol/cm3 PLOx Ox P-L Chemical Diagnostic 0.e0 1002 1002 1.0 1.0E-05 mol/cm3/s POx Ox Prod Chemical Diagnostic 0.e0 1003 1003 1.0 1.0E-05 mol/cm3/s PLPAN PAN P-L Chemical Diagnostic 0.e0 1004 1004 1.0 1.0E-05 mol/cm3/s PLNOx NOx P-L Chemical Diagnostic 0.e0 1005 1005 1.0 1.0E-05 mol/cm3/s # # ND44: OFFSET = 1100 # NO2df NO2 drydep flux 0.e0 1101 1101 1.0 1.0E+00 mol/cm2/s O3df O3 drydep flux 0.e0 1102 1102 1.0 1.0E+00 mol/cm2/s PANdf PAN drydep flux 0.e0 1103 1103 1.0 1.0E+00 mol/cm2/s HNO3df HNO3 drydep flux 0.e0 1104 1104 1.0 1.0E+00 mol/cm2/s H2O2df H2O2 drydep flux 0.e0 1105 1105 1.0 1.0E+00 mol/cm2/s PMNdf PMN drydep flux 0.e0 1106 1106 1.0 1.0E+00 mol/cm2/s PPNdf PPN drydep flux 0.e0 1107 1107 1.0 1.0E+00 mol/cm2/s ISN2df ISN2 drydep flux 0.e0 1108 1108 1.0 1.0E+00 mol/cm2/s R4N2df R4N2 drydep flux 0.e0 1109 1109 1.0 1.0E+00 mol/cm2/s CH2Odf CH2O drydep flux 0.e0 1110 1110 1.0 1.0E+00 mol/cm2/s INPNdf INPN drydep flux 0.e0 1111 1111 1.0 1.0E+00 mol/cm2/s PRPNdf PRPN drydep flux 0.e0 1112 1112 1.0 1.0E+00 mol/cm2/s RPdf RP drydep flux 0.e0 1113 1113 1.0 1.0E+00 mol/cm2/s PPdf PP drydep flux 0.e0 1114 1114 1.0 1.0E+00 mol/cm2/s GPdf GP drydep flux 0.e0 1115 1115 1.0 1.0E+00 mol/cm2/s GLPdf GLP drydep flux 0.e0 1116 1116 1.0 1.0E+00 mol/cm2/s RLPdf RLP drydep flux 0.e0 1117 1117 1.0 1.0E+00 mol/cm2/s IAPdf IAP drydep flux 0.e0 1118 1118 1.0 1.0E+00 mol/cm2/s ISNPdf ISNP drydep flux 0.e0 1119 1119 1.0 1.0E+00 mol/cm2/s VRPdf VRP drydep flux 0.e0 1120 1120 1.0 1.0E+00 mol/cm2/s MRPdf MRP drydep flux 0.e0 1121 1121 1.0 1.0E+00 mol/cm2/s MAOPd MAOP drydep flux 0.e0 1122 1122 1.0 1.0E+00 mol/cm2/s MAPdf MAP drydep flux 0.e0 1123 1123 1.0 1.0E+00 mol/cm2/s NO2dv NO2 drydep velocity 0.e0 1124 1124 1.0 1.0E+00 cm/s O3dv O3 drydep velocity 0.e0 1125 1125 1.0 1.0E+00 cm/s PANdv PAN drydep velocity 0.e0 1126 1126 1.0 1.0E+00 cm/s HNO3dv HNO3 drydep velocity 0.e0 1127 1127 1.0 1.0E+00 cm/s H2O2dv H2O2 drydep velocity 0.e0 1128 1128 1.0 1.0E+00 cm/s PMNdv PMN drydep velocity 0.e0 1129 1129 1.0 1.0E+00 cm/s PPNdv PPN drydep velocity 0.e0 1130 1130 1.0 1.0E+00 cm/s ISN2dv ISN2 drydep velocity 0.e0 1131 1131 1.0 1.0E+00 cm/s R4N2dv R4N2 drydep velocity 0.e0 1132 1132 1.0 1.0E+00 cm/s CH2Odv CH2O drydep velocity 0.e0 1133 1133 1.0 1.0E+00 cm/s INPNdv INPN drydep velocity 0.e0 1134 1134 1.0 1.0E+00 cm/s PRPNdv PRPN drydep velocity 0.e0 1135 1135 1.0 1.0E+00 cm/s RPdv RP drydep velocity 0.e0 1136 1136 1.0 1.0E+00 cm/s PPdv PP drydep velocity 0.e0 1137 1137 1.0 1.0E+00 cm/s GPdv GP drydep velocity 0.e0 1138 1138 1.0 1.0E+00 cm/s GLPdv GLP drydep velocity 0.e0 1139 1139 1.0 1.0E+00 cm/s RLPdv RLP drydep velocity 0.e0 1140 1140 1.0 1.0E+00 cm/s IAPdv IAP drydep velocity 0.e0 1141 1141 1.0 1.0E+00 cm/s ISNPdv ISNP drydep velocity 0.e0 1142 1142 1.0 1.0E+00 cm/s VRPdv VRP drydep velocity 0.e0 1143 1143 1.0 1.0E+00 cm/s MRPdv MRP drydep velocity 0.e0 1144 1144 1.0 1.0E+00 cm/s MAOPdv MAOP drydep velocity 0.e0 1145 1145 1.0 1.0E+00 cm/s MAPdv MAP drydep velocity 0.e0 1146 1146 1.0 1.0E+00 cm/s # # ND48: OFFSET = 1200 # O3 O3 Time Series (V/V) 48.e-3 1201 1201 1.0 1.0E+09 ppbv OH OH Time Series (V/V) 17.e-3 1202 1202 1.0 1.0E-05 molec/cm3 NOy NOy Time Series (V/V) 0.e0 1203 1203 1.0 1.0E+09 ppbv NO2d NO2 Drydep velocity (cm/s) 0.e0 1204 1204 1.0 1.0E+00 cm/s O3d O3 Drydep velocity (cm/s) 0.e0 1205 1205 1.0 1.0E+00 cm/s PANd PAN drydep velocity (cm/s) 0.e0 1206 1206 1.0 1.0E+00 cm/s HNO3d HNO3 Drydep velocity (cm/s) 0.e0 1207 1207 1.0 1.0E+00 cm/s H2O2d H2O2 Drydep velocity (cm/s) 0.e0 1208 1208 1.0 1.0E+00 cm/s NO NO Time Series (V/V) 0.e0 1209 1209 1.0 1.0E+09 ppbv PBLTOP PBL top (PS - PBL) (mb) 0.e0 1210 1210 1.0 1.0E+00 mb LT Local Time at Station 0.e0 1211 1211 1.0 1.0E+00 h ISOPf Isoprene em flux (mol/cm2/s) 0.e0 1212 1212 1.0 1.0E+00 mol/cm2/s MOLEN Monin-Obhukov Length 0.e0 1213 1213 1.0 1.0E+00 m # # ND67: OFFSET = 1300 # HFLUX DAO Sensible Heat Flux 0.e0 1301 1301 1.0 1.0E+00 W/m2 RADSWG DAO Insolation @ Surface 0.e0 1302 1302 1.0 1.0E+00 W/m2 PREACC DAO Accum Precip @ Surface 0.e0 1303 1303 1.0 1.0E+00 mm/day PRECON DAO Conv Precip @ Surface 0.e0 1304 1304 1.0 1.0E+00 mm/day TS DAO Surface Air Temperature 0.e0 1305 1305 1.0 1.0E+00 K RADSWT DAO Insolation @ Top of Atm 0.e0 1306 1306 1.0 1.0E+00 W/m2 USTAR DAO Friction Velocity 0.e0 1307 1307 1.0 1.0E+00 m/s Z0 DAO Roughness Height 0.e0 1308 1308 1.0 1.0E+00 m PBL DAO PBL depth 0.e0 1309 1309 1.0 1.0E+00 mb CLDFRC DAO Cloud Fraction 0.e0 1310 1310 1.0 1.0E+00 none U10M DAO U-wind @ 10 m 0.e0 1311 1311 1.0 1.0E+00 m/s V10M DAO V-wind @ 10 m 0.e0 1312 1312 1.0 1.0E+00 m/s PS-PBL DAO Boundary Layer Top Pressure 0.e0 1313 1313 1.0 1.0E+00 mb ALBD DAO Surface Albedo 0.e0 1314 1314 1.0 1.0E+00 none PHIS DAO Geopotential Heights 0.e0 1315 1315 1.0 1.0E+00 m # # ND21: OFFSET = 1400 # OPTD Cloud Optical Depth 0.e0 1401 1401 1.0 1.0E+00 none CLMO Maximum Overlap Cloud Fraction 0.e0 1402 1402 1.0 1.0E+00 none CLRO Random Overlap Cloud Fraction 0.e0 1403 1403 1.0 1.0E+00 none # # (DAO A6 fields) OFFSET = 1700 # MOISTQ DAO change in specific humidity 0.e0 1701 1701 1.0 1.0E+00 g/kg/day CLMOLW DAO maximum overlap cloud fraction 0.e0 1702 1702 1.0 1.0E+00 none CLROLW DAO random overlap cloud fraction 0.e0 1703 1703 1.0 1.0E+00 none CLDMAS DAO Cloud mass flux 0.e0 1704 1704 1.0 0.016667 kg/m2/s DTRAIN DAO detrainment rates 0.e0 1705 1705 1.0 0.016667 kg/m2/s # # ND29: OFFSET = 1800 # COanth CO from Anthro Sources 28.e-3 1801 1801 1.0 1.0E+00 mol/cm2/s CObb CO from Biomass Burning 28.e-3 1802 1802 1.0 1.0E+00 mol/cm2/s COwood CO from Wood Burning 28.e-3 1803 1803 1.0 1.0E+00 mol/cm2/s