#EQUATIONS {CBM4} {01:J01} NO2+hv=NO+O : phot(j_no2) ; {02:J02} O3+hv=O : phot(j_o33p) ; {03:J03} O3+hv=O1D_CB4 : phot(j_o31d) ; {04:J04} NO3+hv=0.89 NO2+0.89 O+0.11 NO : phot(j_no3o)+phot(j_no3o2); {05:J05} HONO+hv=HO+NO : phot(j_hono) ; {06:J06} H2O2+hv=2 HO : phot(j_h2o2) ; {07:J07} HCHO+hv{+2 O2}= 2 HO2+CO : phot(j_ch2or) ; {08:J08} HCHO+hv=CO : phot(j_ch2om) ; {09:J09} ALD2+hv{+ 2 O2}=HCHO+XO2+CO+ 2 HO2 : 4.6E-4_dp*phot(j_no2) ; {10:J10} OPEN+hv=C2O3+CO+HO2 : 9.04_dp*phot(j_ch2or) ; {11:J11} MGLY+hv=C2O3+CO+HO2 : 9.64_dp*phot(j_ch2or) ; {12:01} O{+O2+M}=O3 : arr2(1.4E+3_dp, -1175.0_dp, temp) ; {13:02} O3+NO=NO2 : arr2(1.8E-12_dp, +1370.0_dp, temp) ; {14:03} O+NO2=NO : 9.3E-12_dp ; {15:04} O+NO2=NO3 : arr2(1.6E-13_dp, -687.0_dp, temp) ; {16:05} O+NO=NO2 : arr2(2.2E-13_dp, -602.0_dp, temp) ; {17:06} O3+NO2=NO3 : arr2(1.2E-13_dp, +2450.0_dp, temp) ; {18:07} O1D_CB4=O : arr2(1.9E+8_dp, -390.0_dp, temp) ; {19:08} O1D_CB4+H2O=2HO : 2.2E-10_dp ; {20:09} O3+HO=HO2 : arr2(1.6E-12_dp, +940.0_dp, temp) ; {21:10} O3+HO2=HO : arr2(1.4E-14_dp, +580.0_dp, temp) ; {22:11} NO3+NO=2 NO2 : arr2(1.3E-11_dp, -250.0_dp, temp) ; {23:12} NO3+NO2=NO+NO2 : arr2(2.5E-14_dp, +1230.0_dp, temp) ; {24:13} NO3+NO2=N2O5 : arr2(5.3E-13_dp, -256.0_dp, temp) ; {25:14} N2O5+H2O=2 HNO3 : 1.3E-21_dp ; {26:15} N2O5=NO3+NO2 : arr2(3.5E+14_dp, +10897.0_dp, temp) ; {27:16} 2 NO=2 NO2 : arr2(1.8E-20_dp, -530.0_dp, temp) ; {28:17} NO+NO2+H2O=2 HONO : 4.4E-40_dp ; {29:18} HO+NO=HONO : arr2(4.5E-13_dp, -806.0_dp, temp) ; {30:19} HO+HONO=NO2 : 6.6E-12_dp ; {31:20} 2 HONO=NO+NO2 : 1.0E-20_dp ; {32:21} HO+NO2=HNO3 : arr2(1.0E-12_dp, -713.0_dp, temp) ; {33:22} HO+HNO3=NO3 : arr2(5.1E-15_dp, -1000.0_dp, temp) ; {34:23} HO2+NO=HO+NO2 : arr2(3.7E-12_dp, -240.0_dp, temp) ; {35:24} HO2+NO2=PNA : arr2(1.2E-13_dp, -749.0_dp, temp) ; {36:25} PNA=HO2+NO2 : arr2(4.8E+13_dp, +10121.0_dp, temp) ; {37:26} HO+PNA=NO2 : arr2(1.3E-12_dp, -380.0_dp, temp) ; {38:27} 2 HO2=H2O2 : arr2(5.9E-14_dp, -1150.0_dp, temp) ; {39:28} 2 HO2+H2O=H2O2 : arr2(2.2E-38_dp, -5800.0_dp, temp) ; {40:29} HO+H2O2=HO2 : arr2(3.1E-12_dp, +187.0_dp, temp) ; {41:30} HO+CO=HO2 : 2.2E-13_dp ; {42:31} HCHO+HO=HO2+CO : 1.0E-11_dp ; {43:32} HCHO+O=HO+HO2+CO : arr2(3.0E-11_dp, +1550.0_dp, temp) ; {44:33} HCHO+NO3=HNO3+HO2+CO : 6.3E-16_dp ; {45:34} ALD2+O=C2O3+HO : arr2(1.2E-11_dp, +986.0_dp, temp) ; {46:35} ALD2+HO=C2O3 : arr2(7.0E-12_dp, -250.0_dp, temp) ; {47:36} ALD2+NO3=C2O3+HNO3 : 2.5E-15_dp ; {48:37} C2O3+NO=HCHO+XO2+HO2+NO2 : arr2(5.4E-12_dp, -250.0_dp, temp) ; {49:38} C2O3+NO2=PAN : arr2(8.0E-20_dp, -5500.0_dp, temp) ; {50:39} PAN=C2O3+NO2 : arr2(9.4E+16_dp, +14000.0_dp, temp) ; {51:40} 2 C2O3=2 HCHO+2 XO2+2 HO2 : 2.0E-12_dp ; {52:41} C2O3+HO2=0.79 HCHO+0.79 XO2 +0.79 HO2+0.79 HO : 6.5E-12_dp ; {53:42} HO=HCHO+XO2+HO2 : arr2(1.1E+2_dp, +1710.0_dp, temp) ; {54:43} PAR+HO=0.87 XO2+0.13 XO2N +0.11 HO2+0.11 ALD2 +0.76 ROR-0.11 PAR : 8.1E-13_dp ; {55:44} ROR=1.1 ALD2+0.96 XO2 +0.94 HO2 +0.04 XO2N +0.02 ROR-2.10 PAR : arr2(1.0E+15_dp, +8000.0_dp, temp) ; {56:45} ROR=HO2 : 1.6E+03_dp ; {57:46} ROR+NO2= PROD : 1.5E-11_dp ; {58:47} O+OLE=0.63 ALD2+0.38 HO2 +0.28 XO2+0.3 CO +0.2 HCHO+0.02 XO2N +0.22 PAR+0.2 HO : arr2(1.2E-11_dp, +324.0_dp, temp) ; {59:48} HO+OLE=HCHO+ALD2+XO2+HO2-PAR : arr2(5.2E-12_dp, -504.0_dp, temp) ; {60:49} O3+OLE=0.5 ALD2+0.74 HCHO +0.33 CO+0.44 HO2 +0.22 XO2+0.1 HO-PAR : arr2(1.4E-14_dp, +2105.0_dp, temp) ; {61:50} NO3+OLE=0.91 XO2+HCHO +ALD2+0.09 XO2N +NO2-PAR : 7.7E-15_dp ; {62:51} O+ETH=HCHO+0.7 XO2 +CO+1.7 HO2+0.3 HO : arr2(1.0E-11_dp, +792.0_dp, temp) ; {63:52} HO+ETH=XO2+1.56 HCHO +HO2+0.22 ALD2 : arr2(2.0E-12_dp, -411.0_dp, temp) ; {64:53} O3+ETH=HCHO+0.42 CO+0.12 HO2 : arr2(1.3E-14_dp, +2633.0_dp, temp) ; {65:54} HO+TOL=0.08 XO2+0.36 CRES +0.44 HO2+0.56 TO2 : arr2(2.1E-12_dp, -322.0_dp, temp) ; {66:55} TO2+NO=0.9 NO2+0.9 OPEN+0.9 HO2 : 8.1E-12_dp ; {67:56} TO2=HO2+CRES : 4.20_dp ; {68:57} HO+CRES=0.4 CRO+0.6 XO2 +0.6 HO2+0.3 OPEN : 4.1E-11_dp ; {69:58} NO3+CRES=CRO+HNO3 : 2.2E-11_dp ; {70:59} CRO+NO2=PROD : 1.4E-11_dp ; {71:60} HO+XYL=0.7 HO2+0.5 XO2 +0.2 CRES+0.8 MGLY +1.10 PAR+0.3 TO2 : arr2(1.7E-11_dp, -116.0_dp, temp) ; {72:61} HO+OPEN=XO2+C2O3+2 HO2+2 CO+HCHO : 3.0E-11_dp ; {73:62} O3+OPEN=0.03 ALD2+0.62 C2O3 +0.7 HCHO+0.03 XO2 +0.69 CO+0.08 HO +0.76 HO2+0.2 MGLY : arr2(5.4E-17_dp, +500.0_dp, temp) ; {74:63} HO+MGLY=XO2+C2O3 : 1.70E-11_dp ; {75:64} O+ISOP=0.6 HO2+0.8 ALD2 +0.55 OLE+0.5 XO2 +0.5 CO+0.45 ETH +0.9 PAR : 1.80E-11_dp ; {76:65} HO+ISOP=HCHO+XO2 +0.67 HO2+0.4 MGLY +0.2 C2O3+ETH +0.2 ALD2+0.13 XO2N : 9.6E-11_dp ; {77:66} O3+ISOP=HCHO+0.4 ALD2 +0.55 ETH+0.2 MGLY +0.06 CO+0.1 PAR +0.44 HO2+0.1 HO : 1.2E-17_dp ; {78:67} NO3+ISOP=XO2N : 3.2E-13_dp ; {79:68} XO2+NO=NO2 : 8.1E-12_dp ; {80:69} 2 XO2=PROD : arr2(1.7E-14_dp, -1300.0_dp, temp) ; {81:70} XO2N+NO=PROD : 6.8E-13_dp ;