Information is based on the mechanism definitions file.

Fall-off or pressure dependent reaction rate constants (M equals air number density):

For rate constants with k_o, k_inf, n, F values: k = [ k_oM/(1+k_oM/k_inf)]F^G, where G=(1+(log₁₀(k_oM/k_inf)/n)²)^-1

For rate constants with k₁, k₂: k = k₁ + k₂M

For rate constants with k₀, k₂, k₃: k = k₀ + k₃M/(1+k₃M/k₂)

For rate constants with k₁, k₂, k₃: k = k₁ + k₂M + k₃

For rate constants with the form A<Reference>, k equals A times a reference that represents photolysis rate, a heteorogeneous rate constant, rate constant for the given reaction or an operator. A equals one if not given. In the mechanism definition file, the rate is formatted as

A~<HETEOROGENEOUS>

A*K<REACTION>

A/<PHOTOLYSIS>

A?<OPERATOR>

Reaction Number	Reaction Label	Reaction	Rate Constant Formula	Value (molecules/(sec*cm³)) at 298.15 K 2.4615E+19 molec/cm³ 1.00 Atm.	Value (molecules/(sec*cm³)) at 275.15 K 2.0936E+19 molec/cm³ 0.78 Atm.	Notes	References
1	1	NO2 ⟶ NO + O3P	<NO2_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
2	2	O3P + O2 + M ⟶ O3	5.6800E-34(T/300)^-2.60	5.7721E-34	7.1119E-34
3	3	O3P + O3 ⟶	8.0000E-12exp( -2.0600E+03/T)	7.9879E-15	4.4834E-15
4	4	O3P + NO ⟶ NO2	k_o = 9.0000E-32exp( 0.00/T)(T/300)^-1.50 k_inf = 3.0000E-11exp( 0.00/T)(T/300)^0.00 n = 1.00; F = 0.60	1.6618E-12	1.6052E-12
5	5	O3P + NO2 ⟶ NO	5.5000E-12exp( 1.8800E+02/T)	1.0333E-11	1.0892E-11
6	6	O3P + NO2 ⟶ NO3	k_o = 2.5000E-31exp( 0.00/T)(T/300)^-1.80 k_inf = 2.2000E-11exp( 0.00/T)(T/300)^-0.70 n = 1.00; F = 0.60	3.2805E-12	3.3099E-12
7	7	O3 + NO ⟶ NO2	3.0000E-12exp( -1.5000E+03/T)	1.9596E-14	1.2869E-14
8	8	O3 + NO2 ⟶ NO3	1.4000E-13exp( -2.4700E+03/T)	3.5339E-17	1.7681E-17
9	9	NO + NO3 ⟶ 2.00000 * NO2	1.8000E-11exp( 1.1000E+02/T)	2.6032E-11	2.6847E-11
10	10	NO + NO + O2 ⟶ 2.00000 * NO2	3.3000E-39exp( 5.3000E+02/T)	1.9522E-38	2.2650E-38
11	11	NO2 + NO3 ⟶ N2O5	k_o = 3.6000E-30exp( 0.00/T)(T/300)^-4.10 k_inf = 1.9000E-12exp( 0.00/T)(T/300)^0.20 n = 1.33; F = 0.35	1.2406E-12	1.2532E-12
12	12	N2O5 ⟶ NO2 + NO3	k_o = 1.3000E-03exp(-11000.00/T)(T/300)^-3.50 k_inf = 9.7000E+14exp(-11080.00/T)(T/300)^0.10 n = 1.33; F = 0.35	4.5396E-02	2.0612E-03
13	13	N2O5 + H2O ⟶ 2.00000 * HNO3	1.0000E-22	1.0000E-22	1.0000E-22
14	14	N2O5 + H2O + H2O ⟶ 2.00000 * HNO3	0.0000E+00	0.0000E+00	0.0000E+00
15	15	NO2 + NO3 ⟶ NO + NO2	4.5000E-14exp( -1.2600E+03/T)	6.5744E-16	4.6178E-16
16	16	NO3 ⟶ NO	<NO3NO_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
17	17	NO3 ⟶ NO2 + O3P	<NO3NO2_6>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
18	18	O3 ⟶ O1D	<O3O1D_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
19	19	O3 ⟶ O3P	<O3O3P_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
20	20	O1D + H2O ⟶ 2.00000 * OH	1.6300E-10exp( 6.0000E+01/T)	1.9934E-10	2.0272E-10
21	21	O1D + M ⟶ O3P	2.3800E-11exp( 9.6000E+01/T)	3.2841E-11	3.3737E-11
22	22	OH + NO ⟶ HONO	k_o = 7.0000E-31exp( 0.00/T)(T/300)^-2.60 k_inf = 3.6000E-11exp( 0.00/T)(T/300)^-0.10 n = 1.00; F = 0.60	7.3998E-12	7.6220E-12
23	23	HONO ⟶ OH + NO	<HONO_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
24	24	OH + HONO ⟶ NO2	2.5000E-12exp( 2.6000E+02/T)	5.9795E-12	6.4316E-12
25	25	OH + NO2 ⟶ HNO3	k_o = 3.2000E-30exp( 0.00/T)(T/300)^-4.50 k_inf = 3.0000E-11exp( 0.00/T)(T/300)^0.00 n = 1.24; F = 0.41	9.8821E-12	1.0773E-11
26	26	OH + NO3 ⟶ HO2 + NO2	2.0000E-11	2.0000E-11	2.0000E-11
27	27	OH + HNO3 ⟶ NO3	k₀ = 2.4000E-14exp( 460.00/T) k₁ = 2.7000E-17exp( 2199.00/T) k₃ = 6.5000E-34exp( 1335.00/T)	1.5409E-13	2.0407E-13
28	28	HNO3 ⟶ OH + NO2	<HNO3>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
29	29	OH + CO ⟶ HO2 + CO2	k₀ = 1.4400E-13exp( 0.00/T) k₁ = 3.4300E-33exp( 0.00/T)	2.2843E-13	2.1581E-13
30	30	OH + O3 ⟶ HO2	1.7000E-12exp( -9.4000E+02/T)	7.2647E-14	5.5816E-14
31	31	HO2 + NO ⟶ OH + NO2	3.6000E-12exp( 2.7000E+02/T)	8.9042E-12	9.6044E-12
32	32	HO2 + NO2 ⟶ HNO4	k_o = 2.0000E-31exp( 0.00/T)(T/300)^-3.40 k_inf = 2.9000E-12exp( 0.00/T)(T/300)^-1.10 n = 1.00; F = 0.60	1.1385E-12	1.2567E-12
33	33	HNO4 ⟶ HO2 + NO2	k_o = 3.7200E-05exp(-10650.00/T)(T/300)^-2.40 k_inf = 5.4200E+15exp(-11170.00/T)(T/300)^-2.30 n = 1.00; F = 0.60	8.6986E-02	4.5479E-03
34	34	HNO4 ⟶ 0.61000 * HO2 + 0.61000 * NO2 + 0.39000 * OH + 0.39000 * NO3	<HNO4_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
35	35	HNO4 + OH ⟶ NO2	1.3000E-12exp( 3.8000E+02/T)	4.6501E-12	5.1729E-12
36	36	HO2 + O3 ⟶ OH	2.0300E-16exp( 6.9300E+02/T)(T/300)^4.57	2.0168E-15	1.6971E-15
37	37	HO2 + HO2 ⟶ HO2H	k₀ = 2.2000E-13exp( 600.00/T) k₁ = 1.9000E-33exp( 980.00/T)	2.8975E-12	3.3485E-12
38	38	HO2 + HO2 + H2O ⟶ HO2H	k₀ = 3.0800E-34exp( 2800.00/T) k₁ = 2.6600E-54exp( 3180.00/T)	6.4973E-30	1.3914E-29
39	39	NO3 + HO2 ⟶ 0.80000 * OH + 0.80000 * NO2 + 0.20000 * HNO3	4.0000E-12	4.0000E-12	4.0000E-12
40	40	NO3 + NO3 ⟶ 2.00000 * NO2	8.5000E-13exp( -2.4500E+03/T)	2.2944E-16	1.1544E-16
41	41	HO2H ⟶ 2.00000 * OH	<H2O2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
42	42	HO2H + OH ⟶ HO2	1.8000E-12	1.8000E-12	1.8000E-12
43	43	OH + HO2 ⟶	4.8000E-11exp( 2.5000E+02/T)	1.1102E-10	1.1908E-10
44	44	OH + SO2 ⟶ HO2 + SULF + SULRXN	k_o = 3.3000E-31exp( 0.00/T)(T/300)^-4.30 k_inf = 1.6000E-12exp( 0.00/T)(T/300)^0.00 n = 1.00; F = 0.60	9.5810E-13	1.0094E-12
45	45	OH + H2 ⟶ HO2	7.7000E-12exp( -2.1000E+03/T)	6.7230E-15	3.7314E-15
46	BR01	MEO2 + NO ⟶ NO2 + HCHO + HO2	2.3000E-12exp( 3.6000E+02/T)	7.6933E-12	8.5104E-12
47	BR02	MEO2 + HO2 ⟶ COOH	3.4600E-13exp( 7.8000E+02/T)(T/300)^0.36	4.7237E-12	5.7109E-12
48	BR03	MEO2 + HO2 ⟶ HCHO	3.3400E-14exp( 7.8000E+02/T)(T/300)^-3.53	4.6709E-13	7.7170E-13
49	BR04	MEO2 + NO3 ⟶ HCHO + HO2 + NO2	1.3000E-12	1.3000E-12	1.3000E-12
50	BR05	MEO2 + MEO2 ⟶ MEOH + HCHO	6.3900E-14exp( 3.6500E+02/T)(T/300)^-1.80	2.1979E-13	2.8132E-13
51	BR06	MEO2 + MEO2 ⟶ 2.00000 * HCHO + 2.00000 * HO2	7.4000E-13exp( -5.2000E+02/T)	1.2936E-13	1.1181E-13
52	BR07	RO2C + NO ⟶ NO2	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
53	BR08	RO2C + HO2 ⟶	3.8000E-13exp( 9.0000E+02/T)	7.7759E-12	1.0008E-11
54	BR09	RO2C + NO3 ⟶ NO2	2.3000E-12	2.3000E-12	2.3000E-12
55	BR10	RO2C + MEO2 ⟶ 0.50000 * HO2 + 0.75000 * HCHO + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
56	BR11	RO2C + RO2C ⟶	3.5000E-14	3.5000E-14	3.5000E-14
57	BR12	RO2XC + NO ⟶	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
58	BR13	RO2XC + HO2 ⟶	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
59	BR14	RO2XC + NO3 ⟶ NO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
60	BR15	RO2XC + MEO2 ⟶ 0.50000 * HO2 + 0.75000 * HCHO + 0.25000 * MEOH	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
61	BR16	RO2XC + RO2C ⟶	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
62	BR17	RO2XC + RO2XC ⟶	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
63	BR18	MECO3 + NO2 ⟶ PAN	k_o = 2.7000E-28exp( 0.00/T)(T/300)^-7.10 k_inf = 1.2100E-11exp( 0.00/T)(T/300)^-0.90 n = 1.41; F = 0.30	9.4624E-12	1.0380E-11
64	BR19	PAN ⟶ MECO3 + NO2	k_o = 4.9000E-03exp(-12100.00/T)(T/300)^0.00 k_inf = 4.0000E+16exp(-13600.00/T)(T/300)^0.00 n = 1.41; F = 0.30	4.7483E-04	1.0666E-05
65	BR20	PAN ⟶ 0.60000 * MECO3 + 0.60000 * NO2 + 0.40000 * MEO2 + 0.40000 * CO2 + 0.40000 * NO3	<PAN>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
66	BR21	MECO3 + NO ⟶ MEO2 + CO2 + NO2	7.5000E-12exp( 2.9000E+02/T)	1.9837E-11	2.1518E-11
67	BR22	MECO3 + HO2 ⟶ 0.10500 * CCOOOH + 0.04500 * CCOOH + 0.15000 * O3 + 0.44000 * OH + 0.44000 * MEO2 + 0.44000 * CO2	5.2000E-13exp( 9.8000E+02/T)	1.3916E-11	1.8316E-11
68	BR23	MECO3 + NO3 ⟶ MEO2 + CO2 + NO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
69	BR24	MECO3 + MEO2 ⟶ 0.10000 * CCOOH + HCHO + 0.90000 * HO2 + 0.90000 * MEO2 + 0.90000 * CO2	2.0000E-12exp( 5.0000E+02/T)	1.0699E-11	1.2309E-11
70	BR25	MECO3 + RO2C ⟶ MEO2 + CO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
71	BR26	MECO3 + RO2XC ⟶ MEO2 + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
72	BR27	MECO3 + MECO3 ⟶ 2.00000 * MEO2 + 2.00000 * CO2	2.9000E-12exp( 5.0000E+02/T)	1.5514E-11	1.7848E-11
73	BR28	RCO3 + NO2 ⟶ PAN2	1.2100E-11exp( 0.0000E+00/T)(T/300)^-1.07	1.2180E-11	1.3273E-11
74	BR29	PAN2 ⟶ RCO3 + NO2	8.3000E+16exp( -1.3940E+04/T)	4.1081E-04	8.2470E-06
75	BR30	PAN2 ⟶ 0.60000 * RCO3 + 0.60000 * NO2 + 0.40000 * RO2C + 0.40000 * xHO2 + 0.40000 * yROOH + 0.40000 * xCCHO + 0.40000 * CO2 + 0.40000 * NO3	<PAN>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
76	BR31	RCO3 + NO ⟶ NO2 + RO2C + xHO2 + yROOH + xCCHO + CO2	6.7000E-12exp( 3.4000E+02/T)	2.0957E-11	2.3053E-11
77	BR32	RCO3 + HO2 ⟶ 0.30750 * RCOOOH + 0.10250 * RCOOH + 0.15000 * O3 + 0.44000 * OH + 0.44000 * xHO2 + 0.44000 * RO2C + 0.44000 * CO2 + 0.44000 * xCCHO + 0.44000 * yROOH	<BR22>	1.3916E-11	1.8316E-11	Rate constant multiple of constant for listed reaction
78	BR33	RCO3 + NO3 ⟶ NO2 + RO2C + xHO2 + yROOH + xCCHO + CO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
79	BR34	RCO3 + MEO2 ⟶ HCHO + HO2 + RO2C + xHO2 + xCCHO + yROOH + CO2	<BR24>	1.0699E-11	1.2309E-11	Rate constant multiple of constant for listed reaction
80	BR35	RCO3 + RO2C ⟶ RO2C + xHO2 + xCCHO + yROOH + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
81	BR36	RCO3 + RO2XC ⟶ RO2C + xHO2 + xCCHO + yROOH + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
82	BR37	RCO3 + MECO3 ⟶ 2.00000 * CO2 + MEO2 + RO2C + xHO2 + yROOH + xCCHO	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
83	BR38	RCO3 + RCO3 ⟶ 2.00000 * RO2C + 2.00000 * xHO2 + 2.00000 * xCCHO + 2.00000 * yROOH + 2.00000 * CO2	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
84	BR39	BZCO3 + NO2 ⟶ PBZN	1.3700E-11	1.3700E-11	1.3700E-11
85	BR40	PBZN ⟶ BZCO3 + NO2	7.9000E+16exp( -1.4000E+04/T)	3.1974E-04	6.3117E-06
86	BR41	PBZN ⟶ 0.60000 * BZCO3 + 0.60000 * NO2 + 0.40000 * CO2 + 0.40000 * BZO + 0.40000 * RO2C + 0.40000 * NO3	<PAN>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
87	BR42	BZCO3 + NO ⟶ NO2 + CO2 + BZO + RO2C	<BR31>	2.0957E-11	2.3053E-11	Rate constant multiple of constant for listed reaction
88	BR43	BZCO3 + HO2 ⟶ 0.30750 * RCOOOH + 0.10250 * RCOOH + 0.15000 * O3 + 0.44000 * OH + 0.44000 * BZO + 0.44000 * RO2C + 0.44000 * CO2	<BR22>	1.3916E-11	1.8316E-11	Rate constant multiple of constant for listed reaction
89	BR44	BZCO3 + NO3 ⟶ NO2 + CO2 + BZO + RO2C	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
90	BR45	BZCO3 + MEO2 ⟶ HCHO + HO2 + RO2C + BZO + CO2	<BR24>	1.0699E-11	1.2309E-11	Rate constant multiple of constant for listed reaction
91	BR46	BZCO3 + RO2C ⟶ RO2C + BZO + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
92	BR47	BZCO3 + RO2XC ⟶ RO2C + BZO + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
93	BR48	BZCO3 + MECO3 ⟶ 2.00000 * CO2 + MEO2 + BZO + RO2C	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
94	BR49	BZCO3 + RCO3 ⟶ 2.00000 * CO2 + 2.00000 * RO2C + xHO2 + yROOH + xCCHO + BZO	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
95	BR50	BZCO3 + BZCO3 ⟶ 2.00000 * BZO + 2.00000 * RO2C + 2.00000 * CO2	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
96	BR51	MACO3 + NO2 ⟶ MAPAN	<BR28>	1.2180E-11	1.3273E-11	Rate constant multiple of constant for listed reaction
97	BR52	MAPAN ⟶ MACO3 + NO2	1.6000E+16exp( -1.3486E+04/T)	3.6308E-04	8.2781E-06
98	BR53	MAPAN ⟶ 0.60000 * MACO3 + 0.60000 * NO2 + 0.40000 * CO2 + 0.40000 * HCHO + 0.40000 * MECO3 + 0.40000 * NO3	<PAN>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
99	BR64	TBUO + NO2 ⟶ RNO3	2.4000E-11	2.4000E-11	2.4000E-11
100	BR65	TBUO ⟶ ACETONE + MEO2	7.5000E+14exp( -8.1520E+03/T)	1.0014E+03	1.0186E+02
101	BR66	BZO + NO2 ⟶ NPHE	2.3000E-11exp( 1.5000E+02/T)	3.8038E-11	3.9672E-11
102	BR67	BZO + HO2 ⟶ CRES	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
103	BR68	BZO ⟶ CRES + RO2C + xHO2	1.0000E-03	1.0000E-03	1.0000E-03
104	R019	xHO2 + NO ⟶ NO + HO2	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
105	R020	xHO2 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
106	R021	xHO2 + NO3 ⟶ NO3 + HO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
107	R022	xHO2 + MEO2 ⟶ MEO2 + 0.50000 * HO2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
108	R023	xHO2 + RO2C ⟶ RO2C + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
109	R024	xHO2 + RO2XC ⟶ RO2XC + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
110	R025	xHO2 + MECO3 ⟶ MECO3 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
111	R026	xHO2 + RCO3 ⟶ RCO3 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
112	R027	xHO2 + BZCO3 ⟶ BZCO3 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
113	R028	xHO2 + MACO3 ⟶ MACO3 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
114	R029	xOH + NO ⟶ NO + OH	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
115	R030	xOH + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
116	R031	xOH + NO3 ⟶ NO3 + OH	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
117	R032	xOH + MEO2 ⟶ MEO2 + 0.50000 * OH	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
118	R033	xOH + RO2C ⟶ RO2C + 0.50000 * OH	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
119	R034	xOH + RO2XC ⟶ RO2XC + 0.50000 * OH	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
120	R035	xOH + MECO3 ⟶ MECO3 + OH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
121	R036	xOH + RCO3 ⟶ RCO3 + OH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
122	R037	xOH + BZCO3 ⟶ BZCO3 + OH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
123	R038	xOH + MACO3 ⟶ MACO3 + OH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
124	R039	xNO2 + NO ⟶ NO + NO2	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
125	R040	xNO2 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
126	R041	xNO2 + NO3 ⟶ NO3 + NO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
127	R042	xNO2 + MEO2 ⟶ MEO2 + 0.50000 * NO2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
128	R043	xNO2 + RO2C ⟶ RO2C + 0.50000 * NO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
129	R044	xNO2 + RO2XC ⟶ RO2XC + 0.50000 * NO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
130	R045	xNO2 + MECO3 ⟶ MECO3 + NO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
131	R046	xNO2 + RCO3 ⟶ RCO3 + NO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
132	R047	xNO2 + BZCO3 ⟶ BZCO3 + NO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
133	R048	xNO2 + MACO3 ⟶ MACO3 + NO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
134	R049	xMEO2 + NO ⟶ NO + MEO2	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
135	R050	xMEO2 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
136	R051	xMEO2 + NO3 ⟶ NO3 + MEO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
137	R052	xMEO2 + MEO2 ⟶ 1.50000 * MEO2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
138	R053	xMEO2 + RO2C ⟶ RO2C + 0.50000 * MEO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
139	R054	xMEO2 + RO2XC ⟶ RO2XC + 0.50000 * MEO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
140	R055	xMEO2 + MECO3 ⟶ MECO3 + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
141	R056	xMEO2 + RCO3 ⟶ RCO3 + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
142	R057	xMEO2 + BZCO3 ⟶ BZCO3 + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
143	R058	xMEO2 + MACO3 ⟶ MACO3 + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
144	R059	xMECO3 + NO ⟶ NO + MECO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
145	R060	xMECO3 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
146	R061	xMECO3 + NO3 ⟶ NO3 + MECO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
147	R062	xMECO3 + MEO2 ⟶ MEO2 + 0.50000 * MECO3	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
148	R063	xMECO3 + RO2C ⟶ RO2C + 0.50000 * MECO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
149	R064	xMECO3 + RO2XC ⟶ RO2XC + 0.50000 * MECO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
150	R065	xMECO3 + MECO3 ⟶ 2.00000 * MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
151	R066	xMECO3 + RCO3 ⟶ RCO3 + MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
152	R067	xMECO3 + BZCO3 ⟶ BZCO3 + MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
153	R068	xMECO3 + MACO3 ⟶ MACO3 + MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
154	R069	xRCO3 + NO ⟶ NO + RCO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
155	R070	xRCO3 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
156	R071	xRCO3 + NO3 ⟶ NO3 + RCO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
157	R072	xRCO3 + MEO2 ⟶ MEO2 + 0.50000 * RCO3	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
158	R073	xRCO3 + RO2C ⟶ RO2C + 0.50000 * RCO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
159	R074	xRCO3 + RO2XC ⟶ RO2XC + 0.50000 * RCO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
160	R075	xRCO3 + MECO3 ⟶ MECO3 + RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
161	R076	xRCO3 + RCO3 ⟶ 2.00000 * RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
162	R077	xRCO3 + BZCO3 ⟶ BZCO3 + RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
163	R078	xRCO3 + MACO3 ⟶ MACO3 + RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
164	R079	xMACO3 + NO ⟶ NO + MACO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
165	R080	xMACO3 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
166	R081	xMACO3 + NO3 ⟶ NO3 + MACO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
167	R082	xMACO3 + MEO2 ⟶ MEO2 + 0.50000 * MACO3	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
168	R083	xMACO3 + RO2C ⟶ RO2C + 0.50000 * MACO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
169	R084	xMACO3 + RO2XC ⟶ RO2XC + 0.50000 * MACO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
170	R085	xMACO3 + MECO3 ⟶ MECO3 + MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
171	R086	xMACO3 + RCO3 ⟶ RCO3 + MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
172	R087	xMACO3 + BZCO3 ⟶ BZCO3 + MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
173	R088	xMACO3 + MACO3 ⟶ 2.00000 * MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
174	R089	xTBUO + NO ⟶ NO + TBUO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
175	R090	xTBUO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
176	R091	xTBUO + NO3 ⟶ NO3 + TBUO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
177	R092	xTBUO + MEO2 ⟶ MEO2 + 0.50000 * TBUO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
178	R093	xTBUO + RO2C ⟶ RO2C + 0.50000 * TBUO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
179	R094	xTBUO + RO2XC ⟶ RO2XC + 0.50000 * TBUO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
180	R095	xTBUO + MECO3 ⟶ MECO3 + TBUO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
181	R096	xTBUO + RCO3 ⟶ RCO3 + TBUO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
182	R097	xTBUO + BZCO3 ⟶ BZCO3 + TBUO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
183	R098	xTBUO + MACO3 ⟶ MACO3 + TBUO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
184	R099	xCO + NO ⟶ NO + CO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
185	R100	xCO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
186	R101	xCO + NO3 ⟶ NO3 + CO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
187	R102	xCO + MEO2 ⟶ MEO2 + 0.50000 * CO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
188	R103	xCO + RO2C ⟶ RO2C + 0.50000 * CO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
189	R104	xCO + RO2XC ⟶ RO2XC + 0.50000 * CO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
190	R105	xCO + MECO3 ⟶ MECO3 + CO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
191	R106	xCO + RCO3 ⟶ RCO3 + CO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
192	R107	xCO + BZCO3 ⟶ BZCO3 + CO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
193	R108	xCO + MACO3 ⟶ MACO3 + CO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
194	BP01	HCHO ⟶ 2.00000 * HO2 + CO	<HCHOR_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
195	BP02	HCHO ⟶ CO	<HCHOM_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
196	BP03	HCHO + OH ⟶ HO2 + CO	5.4000E-12exp( 1.3500E+02/T)	8.4926E-12	8.8202E-12
197	BP07	HCHO + NO3 ⟶ HNO3 + HO2 + CO	2.0000E-12exp( -2.4310E+03/T)	5.7539E-16	2.9104E-16
198	BP08	CCHO + OH ⟶ MECO3	4.4000E-12exp( 3.6500E+02/T)	1.4967E-11	1.6579E-11
199	BP09	CCHO ⟶ CO + HO2 + MEO2	<CCHO_R>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
200	BP10	CCHO + NO3 ⟶ HNO3 + MECO3	1.4000E-12exp( -1.8600E+03/T)	2.7340E-15	1.6230E-15
201	BP11	RCHO + OH ⟶ 0.96500 * RCO3 + 0.03500 * RO2C + 0.03500 * xHO2 + 0.03500 * xCO + 0.03500 * xCCHO + 0.03500 * yROOH	5.1000E-12exp( 4.0500E+02/T)	1.9838E-11	2.2224E-11
202	BP12	RCHO ⟶ RO2C + xHO2 + yROOH + xCCHO + CO + HO2	<C2CHO>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
203	BP13	RCHO + NO3 ⟶ HNO3 + RCO3	1.4000E-12exp( -1.6010E+03/T)	6.5172E-15	4.1603E-15
204	BP14	ACETONE + OH ⟶ RO2C + xMECO3 + xHCHO + yROOH	4.5600E-14exp( 4.2900E+02/T)(T/300)^3.65	1.8796E-13	1.5814E-13
205	BP15	ACETONE ⟶ 0.62000 * MECO3 + 1.38000 * MEO2 + 0.38000 * CO	5.0000E-01<ACET_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
206	BP16	MEK + OH ⟶ 0.96700 * RO2C + 0.03900 * RO2XC + 0.03900 * zRNO3 + 0.37600 * xHO2 + 0.51000 * xMECO3 + 0.07400 * xRCO3 + 0.08800 * xHCHO + 0.50400 * xCCHO + 0.37600 * xRCHO + yROOH	1.3000E-12exp( -2.5000E+01/T)(T/300)^2.00	1.1807E-12	9.9857E-13
207	BP17	MEK ⟶ MECO3 + RO2C + xHO2 + xCCHO + yROOH	1.7500E-01<MEK_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
208	BP18	MEOH + OH ⟶ HCHO + HO2	2.8500E-12exp( -3.4500E+02/T)	8.9600E-13	8.1339E-13
209	BP19	HCOOH + OH ⟶ HO2 + CO2	4.5000E-13	4.5000E-13	4.5000E-13
210	BP20	CCOOH + OH ⟶ 0.50900 * MEO2 + 0.49100 * RO2C + 0.50900 * CO2 + 0.49100 * xHO2 + 0.49100 * xMGLY + 0.49100 * yROOH	4.2000E-14exp( 8.5500E+02/T)	7.3904E-13	9.3923E-13
211	BP21	RCOOH + OH ⟶ RO2C + xHO2 + 0.14300 * CO2 + 0.14200 * xCCHO + 0.40000 * xRCHO + 0.45700 * xBACL + yROOH	1.2000E-12	1.2000E-12	1.2000E-12
212	BP22	COOH + OH ⟶ 0.30000 * HCHO + 0.30000 * OH + 0.70000 * MEO2	3.8000E-12exp( 2.0000E+02/T)	7.4321E-12	7.8607E-12
213	BP23	COOH ⟶ HCHO + HO2 + OH	<COOH>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
214	BP24	ROOH + OH ⟶ 0.74400 * OH + 0.25100 * RO2C + 0.00400 * RO2XC + 0.00400 * zRNO3 + 0.74400 * RCHO + 0.23900 * xHO2 + 0.01200 * xOH + 0.01200 * xHCHO + 0.01200 * xCCHO + 0.20500 * xRCHO + 0.03400 * xPROD2 + 0.25600 * yROOH	2.5000E-11	2.5000E-11	2.5000E-11
215	BP25	ROOH ⟶ RCHO + HO2 + OH	<COOH>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
216	BP26	R6OOH + OH ⟶ 0.84000 * OH + 0.22200 * RO2C + 0.02900 * RO2XC + 0.02900 * zRNO3 + 0.84000 * PRD2 + 0.09000 * xHO2 + 0.04100 * xOH + 0.02000 * xCCHO + 0.07500 * xRCHO + 0.08400 * xPROD2 + 0.16000 * yROOH	5.6000E-11	5.6000E-11	5.6000E-11
217	BP27	R6OOH ⟶ OH + 0.14200 * HO2 + 0.78200 * RO2C + 0.07700 * RO2XC + 0.07700 * zRNO3 + 0.08500 * RCHO + 0.14200 * PRD2 + 0.78200 * xHO2 + 0.02600 * xCCHO + 0.05800 * xRCHO + 0.69800 * xPROD2 + 0.85800 * yR6OOH	<COOH>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
218	BP28	RAOOH + OH ⟶ 0.13900 * OH + 0.14800 * HO2 + 0.58900 * RO2C + 0.12400 * RO2XC + 0.12400 * zRNO3 + 0.07400 * PRD2 + 0.14700 * MGLY + 0.13900 * IPRD + 0.56500 * xHO2 + 0.02400 * xOH + 0.44800 * xRCHO + 0.02600 * xGLY + 0.03000 * xMEK + 0.25200 * xMGLY + 0.07300 * xAFG1 + 0.07300 * xAFG2 + 0.71300 * yR6OOH	1.4100E-10	1.4100E-10	1.4100E-10
219	BP29	RAOOH ⟶ OH + HO2 + 0.50000 * GLY + 0.50000 * MGLY + 0.50000 * AFG1 + 0.50000 * AFG2	<COOH>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
220	BP30	GLY ⟶ 2.00000 * CO + 2.00000 * HO2	<GLY_07R>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
221	BP31	GLY ⟶ HCHO + CO	<GLY_07M>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
222	BP32	GLY + OH ⟶ 0.70000 * HO2 + 1.40000 * CO + 0.30000 * HCOCO3	3.1000E-12exp( 3.4220E+02/T)	9.7683E-12	1.0752E-11
223	BP33	GLY + NO3 ⟶ HNO3 + 0.70000 * HO2 + 1.40000 * CO + 0.30000 * HCOCO3	2.8000E-12exp( -2.3900E+03/T)	9.2429E-16	4.7294E-16
224	BP34	MGLY ⟶ HO2 + CO + MECO3	<MGLY_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
225	BP35	MGLY + OH ⟶ CO + MECO3	1.5000E-11	1.5000E-11	1.5000E-11
226	BP36	MGLY + NO3 ⟶ HNO3 + CO + MECO3	1.4000E-12exp( -1.8950E+03/T)	2.4312E-15	1.4291E-15
227	BP37	BACL ⟶ 2.00000 * MECO3	<BACL_07>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
228	BP38	CRES + OH ⟶ 0.20000 * BZO + 0.80000 * RO2C + 0.80000 * xHO2 + 0.80000 * yR6OOH + 0.25000 * xMGLY	1.7000E-12exp( 9.5000E+02/T)	4.1138E-11	5.3693E-11
229	BP39	CRES + NO3 ⟶ HNO3 + BZO	1.4000E-11	1.4000E-11	1.4000E-11
230	BP40	NPHE + OH ⟶ BZO	3.5000E-12	3.5000E-12	3.5000E-12
231	BP41	NPHE ⟶ HONO	1.5000E-03<NO2_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
232	BP42	NPHE ⟶	1.5000E-02<NO2_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
233	BP43	BALD + OH ⟶ BZCO3	1.2000E-11	1.2000E-11	1.2000E-11
234	BP44	BALD ⟶	6.0000E-02<BALD_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
235	BP45	BALD + NO3 ⟶ HNO3 + BZCO3	1.3400E-12exp( -1.8600E+03/T)	2.6168E-15	1.5534E-15
236	BP46	AFG1 + OH ⟶ 0.21700 * MACO3 + 0.72300 * RO2C + 0.06000 * RO2XC + 0.06000 * zRNO3 + 0.52100 * xHO2 + 0.20100 * xMECO3 + 0.33400 * xCO + 0.40700 * xRCHO + 0.12900 * xMEK + 0.10700 * xGLY + 0.26700 * xMGLY + 0.78300 * yR6OOH	7.4000E-11	7.4000E-11	7.4000E-11
237	BP47	AFG1 + O3 ⟶ 0.82600 * OH + 0.52200 * HO2 + 0.65200 * RO2C + 0.52200 * CO + 0.17400 * CO2 + 0.43200 * GLY + 0.56800 * MGLY + 0.65200 * xRCO3 + 0.65200 * xHCHO + 0.65200 * yR6OOH	9.6600E-18	9.6600E-18	9.6600E-18
238	BP48	AFG1 ⟶ 1.02300 * HO2 + 0.17300 * MEO2 + 0.30500 * MECO3 + 0.50000 * MACO3 + 0.69500 * CO + 0.19500 * GLY + 0.30500 * MGLY	<AFG1>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
239	BP49	AFG2 + OH ⟶ 0.21700 * MACO3 + 0.72300 * RO2C + 0.06000 * RO2XC + 0.06000 * zRNO3 + 0.52100 * xHO2 + 0.20100 * xMECO3 + 0.33400 * xCO + 0.40700 * xRCHO + 0.12900 * xMEK + 0.10700 * xGLY + 0.26700 * xMGLY + 0.78300 * yR6OOH	7.4000E-11	7.4000E-11	7.4000E-11
240	BP50	AFG2 + O3 ⟶ 0.82600 * OH + 0.52200 * HO2 + 0.65200 * RO2C + 0.52200 * CO + 0.17400 * CO2 + 0.43200 * GLY + 0.56800 * MGLY + 0.65200 * xRCO3 + 0.65200 * xHCHO + 0.65200 * yR6OOH	9.6600E-18	9.6600E-18	9.6600E-18
241	BP51	AFG2 ⟶ PRD2	<AFG1>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
242	BP52	AFG3 + OH ⟶ 0.20600 * MACO3 + 0.73300 * RO2C + 0.11700 * RO2XC + 0.11700 * zRNO3 + 0.56100 * xHO2 + 0.11700 * xMECO3 + 0.11400 * xCO + 0.27400 * xGLY + 0.15300 * xMGLY + 0.01900 * xBACL + 0.19500 * xAFG1 + 0.19500 * xAFG2 + 0.23100 * xIPRD + 0.79400 * yR6OOH	9.3500E-11	9.3500E-11	9.3500E-11
243	BP53	AFG3 + O3 ⟶ 0.47100 * OH + 0.55400 * HO2 + 0.01300 * MECO3 + 0.25800 * RO2C + 0.00700 * RO2XC + 0.00700 * zRNO3 + 0.58000 * CO + 0.19000 * CO2 + 0.36600 * GLY + 0.18400 * MGLY + 0.35000 * AFG1 + 0.35000 * AFG2 + 0.13900 * AFG3 + 0.00300 * MACR + 0.00400 * MVK + 0.00300 * IPRD + 0.09500 * xHO2 + 0.16300 * xRCO3 + 0.16300 * xHCHO + 0.09500 * xMGLY + 0.26400 * yR6OOH	1.4300E-17	1.4300E-17	1.4300E-17
244	BP55	MACR + O3 ⟶ 0.20800 * OH + 0.10800 * HO2 + 0.10000 * RO2C + 0.45000 * CO + 0.11700 * CO2 + 0.10000 * HCHO + 0.90000 * MGLY + 0.33300 * HCOOH + 0.10000 * xRCO3 + 0.10000 * xHCHO + 0.10000 * yROOH	1.4000E-15exp( -2.1000E+03/T)	1.2224E-18	6.7843E-19
245	BP57	MACR + O3P ⟶ RCHO	6.3400E-12	6.3400E-12	6.3400E-12
246	BP60	MVK + O3 ⟶ 0.16400 * OH + 0.06400 * HO2 + 0.05000 * RO2C + 0.05000 * xHO2 + 0.47500 * CO + 0.12400 * CO2 + 0.05000 * HCHO + 0.95000 * MGLY + 0.35100 * HCOOH + 0.05000 * xRCO3 + 0.05000 * xHCHO + 0.05000 * yROOH	8.5000E-16exp( -1.5200E+03/T)	5.1921E-18	3.3905E-18
247	BP62	MVK + O3P ⟶ 0.45000 * RCHO + 0.55000 * MEK	4.3200E-12	4.3200E-12	4.3200E-12
248	BP63	MVK ⟶ 0.40000 * MEO2 + 0.60000 * CO + 0.60000 * PRD2 + 0.40000 * MACO3	<MVK_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
249	BP64	IPRD + OH ⟶ 0.28900 * MACO3 + 0.67000 * RO2C + 0.67000 * xHO2 + 0.04100 * RO2XC + 0.04100 * zRNO3 + 0.33600 * xCO + 0.05500 * xHCHO + 0.12900 * xHOCCHO + 0.01300 * xRCHO + 0.15000 * xMEK + 0.33200 * xPROD2 + 0.15000 * xGLY + 0.17400 * xMGLY + 0.71100 * yR6OOH	6.1900E-11	6.1900E-11	6.1900E-11
250	BP65	IPRD + O3 ⟶ 0.28500 * OH + 0.40000 * HO2 + 0.04800 * RO2C + 0.04800 * xRCO3 + 0.49800 * CO + 0.14000 * CO2 + 0.12400 * HCHO + 0.21000 * MEK + 0.02300 * GLY + 0.74200 * MGLY + 0.10000 * HCOOH + 0.37200 * RCOOH + 0.04700 * xHOCCHO + 0.00100 * xHCHO + 0.04800 * yR6OOH	4.1800E-18	4.1800E-18	4.1800E-18
251	BP66	IPRD + NO3 ⟶ 0.15000 * MACO3 + 0.15000 * HNO3 + 0.79900 * RO2C + 0.79900 * xHO2 + 0.05100 * RO2XC + 0.05100 * zRNO3 + 0.57200 * xCO + 0.22700 * xHCHO + 0.21800 * xRCHO + 0.00800 * xMGLY + 0.57200 * xRNO3 + 0.85000 * yR6OOH	1.0000E-13	1.0000E-13	1.0000E-13
252	BP67	IPRD ⟶ 1.23300 * HO2 + 0.46700 * MECO3 + 0.30000 * RCO3 + 1.23300 * CO + 0.30000 * HCHO + 0.46700 * HOCCHO + 0.23300 * MEK	<MACR_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
253	BP68	PRD2 + OH ⟶ 0.47200 * HO2 + 0.37900 * xHO2 + 0.02900 * xMECO3 + 0.04900 * xRCO3 + 0.47300 * RO2C + 0.07100 * RO2XC + 0.07100 * zRNO3 + 0.00200 * HCHO + 0.21100 * xHCHO + 0.00100 * CCHO + 0.08300 * xCCHO + 0.14300 * RCHO + 0.40200 * xRCHO + 0.11500 * xMEK + 0.32900 * PRD2 + 0.00700 * xPROD2 + 0.52800 * yR6OOH	1.5500E-11	1.5500E-11	1.5500E-11
254	BP69	PRD2 ⟶ 0.91300 * xHO2 + 0.40000 * MECO3 + 0.60000 * RCO3 + 1.59000 * RO2C + 0.08700 * RO2XC + 0.08700 * zRNO3 + 0.30300 * xHCHO + 0.16300 * xCCHO + 0.78000 * xRCHO + yR6OOH	4.8600E-03<MEK_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
255	BP70	RNO3 + OH ⟶ 0.18900 * HO2 + 0.30500 * xHO2 + 0.01900 * NO2 + 0.31300 * xNO2 + 0.97600 * RO2C + 0.17500 * RO2XC + 0.17500 * zRNO3 + 0.01100 * xHCHO + 0.42900 * xCCHO + 0.00100 * RCHO + 0.03600 * xRCHO + 0.00400 * xACETONE + 0.01000 * MEK + 0.17000 * xMEK + 0.00800 * PRD2 + 0.03100 * xPROD2 + 0.18900 * RNO3 + 0.30500 * xRNO3 + 0.15700 * yROOH + 0.63600 * yR6OOH	7.2000E-12	7.2000E-12	7.2000E-12
256	BP71	RNO3 ⟶ 0.34400 * HO2 + 0.55400 * xHO2 + NO2 + 0.72100 * RO2C + 0.10200 * RO2XC + 0.10200 * zRNO3 + 0.07400 * HCHO + 0.06100 * xHCHO + 0.21400 * CCHO + 0.23000 * xCCHO + 0.07400 * RCHO + 0.06300 * xRCHO + 0.00800 * xACETONE + 0.12400 * MEK + 0.08300 * xMEK + 0.19000 * PRD2 + 0.26100 * xPROD2 + 0.06600 * yROOH + 0.59100 * yR6OOH	<IC3ONO2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
257	BP73	HOCCHO ⟶ CO + 2.00000 * HO2 + HCHO	<HOCCHO_IUPAC>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
258	BP74	HOCCHO + NO3 ⟶ HNO3 + MECO3	<BP10>	2.7340E-15	1.6230E-15	Rate constant multiple of constant for listed reaction
259	BP75	ACROLEIN + OH ⟶ 0.25000 * xHO2 + 0.75000 * MACO3 + 0.25000 * RO2C + 0.16700 * xCO + 0.08300 * xHCHO + 0.16700 * xCCHO + 0.08300 * xGLY + 0.25000 * yROOH	1.9900E-11	1.9900E-11	1.9900E-11
260	BP76	ACROLEIN + O3 ⟶ 0.83000 * HO2 + 0.33000 * OH + 1.00500 * CO + 0.31000 * CO2 + 0.50000 * HCHO + 0.18500 * HCOOH + 0.50000 * GLY	1.4000E-15exp( -2.5280E+03/T)	2.9091E-19	1.4320E-19
261	BP77	ACROLEIN + NO3 ⟶ 0.03100 * xHO2 + 0.96700 * MACO3 + 0.03100 * RO2C + 0.00200 * RO2XC + 0.00200 * zRNO3 + 0.96700 * HNO3 + 0.03100 * xCO + 0.03100 * xRNO3 + 0.03300 * yROOH	1.1800E-15	1.1800E-15	1.1800E-15
262	BP78	ACROLEIN + O3P ⟶ RCHO	2.3700E-12	2.3700E-12	2.3700E-12
263	BP79	ACROLEIN ⟶ 1.06600 * HO2 + 0.17800 * OH + 0.23400 * MEO2 + 0.33000 * MACO3 + 1.18800 * CO + 0.10200 * CO2 + 0.34000 * HCHO + 0.05000 * CCOOH	<ACRO_09>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
264	BP80	CCOOOH + OH ⟶ 0.98000 * MECO3 + 0.02000 * RO2C + 0.02000 * CO2 + 0.02000 * xOH + 0.02000 * xHCHO + 0.02000 * yROOH	5.2800E-12	5.2800E-12	5.2800E-12
265	BP81	CCOOOH ⟶ MEO2 + CO2 + OH	<PAA>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
266	BP82	RCOOOH + OH ⟶ 0.80600 * RCO3 + 0.19400 * RO2C + 0.19400 * yROOH + 0.11000 * CO2 + 0.11000 * xOH + 0.11000 * xCCHO + 0.08400 * xHO2 + 0.08400 * xRCHO	6.4200E-12	6.4200E-12	6.4200E-12
267	BP83	RCOOOH ⟶ xHO2 + xCCHO + yROOH + CO2 + OH	<PAA>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
268	BP84	HCOCO3 + NO ⟶ HO2 + CO + CO2 + NO2	<BR31>	2.0957E-11	2.3053E-11	Rate constant multiple of constant for listed reaction
269	BP85	HCOCO3 + NO2 ⟶ HO2 + CO + CO2 + NO3	<BR28>	1.2180E-11	1.3273E-11	Rate constant multiple of constant for listed reaction
270	BP86	HCOCO3 + HO2 ⟶ 0.44000 * OH + 0.44000 * HO2 + 0.44000 * CO + 0.44000 * CO2 + 0.56000 * GLY + 0.15000 * O3	<BR22>	1.3916E-11	1.8316E-11	Rate constant multiple of constant for listed reaction
271	P001	xHCHO + NO ⟶ NO + HCHO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
272	P002	xHCHO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
273	P003	xHCHO + NO3 ⟶ NO3 + HCHO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
274	P004	xHCHO + MEO2 ⟶ MEO2 + 0.50000 * HCHO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
275	P005	xHCHO + RO2C ⟶ RO2C + 0.50000 * HCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
276	P006	xHCHO + RO2XC ⟶ RO2XC + 0.50000 * HCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
277	P007	xHCHO + MECO3 ⟶ MECO3 + HCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
278	P008	xHCHO + RCO3 ⟶ RCO3 + HCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
279	P009	xHCHO + BZCO3 ⟶ BZCO3 + HCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
280	P010	xHCHO + MACO3 ⟶ MACO3 + HCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
281	P011	xCCHO + NO ⟶ NO + CCHO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
282	P012	xCCHO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
283	P013	xCCHO + NO3 ⟶ NO3 + CCHO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
284	P014	xCCHO + MEO2 ⟶ MEO2 + 0.50000 * CCHO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
285	P015	xCCHO + RO2C ⟶ RO2C + 0.50000 * CCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
286	P016	xCCHO + RO2XC ⟶ RO2XC + 0.50000 * CCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
287	P017	xCCHO + MECO3 ⟶ MECO3 + CCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
288	P018	xCCHO + RCO3 ⟶ RCO3 + CCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
289	P019	xCCHO + BZCO3 ⟶ BZCO3 + CCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
290	P020	xCCHO + MACO3 ⟶ MACO3 + CCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
291	P021	xRCHO + NO ⟶ NO + RCHO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
292	P022	xRCHO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
293	P023	xRCHO + NO3 ⟶ NO3 + RCHO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
294	P024	xRCHO + MEO2 ⟶ MEO2 + 0.50000 * RCHO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
295	P025	xRCHO + RO2C ⟶ RO2C + 0.50000 * RCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
296	P026	xRCHO + RO2XC ⟶ RO2XC + 0.50000 * RCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
297	P027	xRCHO + MECO3 ⟶ MECO3 + RCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
298	P028	xRCHO + RCO3 ⟶ RCO3 + RCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
299	P029	xRCHO + BZCO3 ⟶ BZCO3 + RCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
300	P030	xRCHO + MACO3 ⟶ MACO3 + RCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
301	P031	xACETONE + NO ⟶ NO + ACETONE	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
302	P032	xACETONE + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
303	P033	xACETONE + NO3 ⟶ NO3 + ACETONE	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
304	P034	xACETONE + MEO2 ⟶ MEO2 + 0.50000 * ACETONE	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
305	P035	xACETONE + RO2C ⟶ RO2C + 0.50000 * ACETONE	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
306	P036	xACETONE + RO2XC ⟶ RO2XC + 0.50000 * ACETONE	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
307	P037	xACETONE + MECO3 ⟶ MECO3 + ACETONE	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
308	P038	xACETONE + RCO3 ⟶ RCO3 + ACETONE	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
309	P039	xACETONE + BZCO3 ⟶ BZCO3 + ACETONE	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
310	P040	xACETONE + MACO3 ⟶ MACO3 + ACETONE	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
311	P041	xMEK + NO ⟶ NO + MEK	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
312	P042	xMEK + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
313	P043	xMEK + NO3 ⟶ NO3 + MEK	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
314	P044	xMEK + MEO2 ⟶ MEO2 + 0.50000 * MEK	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
315	P045	xMEK + RO2C ⟶ RO2C + 0.50000 * MEK	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
316	P046	xMEK + RO2XC ⟶ RO2XC + 0.50000 * MEK	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
317	P047	xMEK + MECO3 ⟶ MECO3 + MEK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
318	P048	xMEK + RCO3 ⟶ RCO3 + MEK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
319	P049	xMEK + BZCO3 ⟶ BZCO3 + MEK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
320	P050	xMEK + MACO3 ⟶ MACO3 + MEK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
321	P051	xPROD2 + NO ⟶ NO + PRD2	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
322	P052	xPROD2 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
323	P053	xPROD2 + NO3 ⟶ NO3 + PRD2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
324	P054	xPROD2 + MEO2 ⟶ MEO2 + 0.50000 * PRD2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
325	P055	xPROD2 + RO2C ⟶ RO2C + 0.50000 * PRD2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
326	P056	xPROD2 + RO2XC ⟶ RO2XC + 0.50000 * PRD2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
327	P057	xPROD2 + MECO3 ⟶ MECO3 + PRD2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
328	P058	xPROD2 + RCO3 ⟶ RCO3 + PRD2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
329	P059	xPROD2 + BZCO3 ⟶ BZCO3 + PRD2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
330	P060	xPROD2 + MACO3 ⟶ MACO3 + PRD2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
331	P061	xGLY + NO ⟶ NO + GLY	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
332	P062	xGLY + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
333	P063	xGLY + NO3 ⟶ NO3 + GLY	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
334	P064	xGLY + MEO2 ⟶ MEO2 + 0.50000 * GLY	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
335	P065	xGLY + RO2C ⟶ RO2C + 0.50000 * GLY	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
336	P066	xGLY + RO2XC ⟶ RO2XC + 0.50000 * GLY	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
337	P067	xGLY + MECO3 ⟶ MECO3 + GLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
338	P068	xGLY + RCO3 ⟶ RCO3 + GLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
339	P069	xGLY + BZCO3 ⟶ BZCO3 + GLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
340	P070	xGLY + MACO3 ⟶ MACO3 + GLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
341	P071	xMGLY + NO ⟶ NO + MGLY	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
342	P072	xMGLY + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
343	P073	xMGLY + NO3 ⟶ NO3 + MGLY	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
344	P074	xMGLY + MEO2 ⟶ MEO2 + 0.50000 * MGLY	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
345	P075	xMGLY + RO2C ⟶ RO2C + 0.50000 * MGLY	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
346	P076	xMGLY + RO2XC ⟶ RO2XC + 0.50000 * MGLY	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
347	P077	xMGLY + MECO3 ⟶ MECO3 + MGLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
348	P078	xMGLY + RCO3 ⟶ RCO3 + MGLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
349	P079	xMGLY + BZCO3 ⟶ BZCO3 + MGLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
350	P080	xMGLY + MACO3 ⟶ MACO3 + MGLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
351	P081	xBACL + NO ⟶ NO + BACL	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
352	P082	xBACL + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
353	P083	xBACL + NO3 ⟶ NO3 + BACL	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
354	P084	xBACL + MEO2 ⟶ MEO2 + 0.50000 * BACL	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
355	P085	xBACL + RO2C ⟶ RO2C + 0.50000 * BACL	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
356	P086	xBACL + RO2XC ⟶ RO2XC + 0.50000 * BACL	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
357	P087	xBACL + MECO3 ⟶ MECO3 + BACL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
358	P088	xBACL + RCO3 ⟶ RCO3 + BACL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
359	P089	xBACL + BZCO3 ⟶ BZCO3 + BACL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
360	P090	xBACL + MACO3 ⟶ MACO3 + BACL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
361	P091	xBALD + NO ⟶ NO + BALD	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
362	P092	xBALD + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
363	P093	xBALD + NO3 ⟶ NO3 + BALD	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
364	P094	xBALD + MEO2 ⟶ MEO2 + 0.50000 * BALD	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
365	P095	xBALD + RO2C ⟶ RO2C + 0.50000 * BALD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
366	P096	xBALD + RO2XC ⟶ RO2XC + 0.50000 * BALD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
367	P097	xBALD + MECO3 ⟶ MECO3 + BALD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
368	P098	xBALD + RCO3 ⟶ RCO3 + BALD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
369	P099	xBALD + BZCO3 ⟶ BZCO3 + BALD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
370	P100	xBALD + MACO3 ⟶ MACO3 + BALD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
371	P101	xAFG1 + NO ⟶ NO + AFG1	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
372	P102	xAFG1 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
373	P103	xAFG1 + NO3 ⟶ NO3 + AFG1	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
374	P104	xAFG1 + MEO2 ⟶ MEO2 + 0.50000 * AFG1	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
375	P105	xAFG1 + RO2C ⟶ RO2C + 0.50000 * AFG1	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
376	P106	xAFG1 + RO2XC ⟶ RO2XC + 0.50000 * AFG1	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
377	P107	xAFG1 + MECO3 ⟶ MECO3 + AFG1	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
378	P108	xAFG1 + RCO3 ⟶ RCO3 + AFG1	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
379	P109	xAFG1 + BZCO3 ⟶ BZCO3 + AFG1	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
380	P110	xAFG1 + MACO3 ⟶ MACO3 + AFG1	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
381	P111	xAFG2 + NO ⟶ NO + AFG2	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
382	P112	xAFG2 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
383	P113	xAFG2 + NO3 ⟶ NO3 + AFG2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
384	P114	xAFG2 + MEO2 ⟶ MEO2 + 0.50000 * AFG2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
385	P115	xAFG2 + RO2C ⟶ RO2C + 0.50000 * AFG2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
386	P116	xAFG2 + RO2XC ⟶ RO2XC + 0.50000 * AFG2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
387	P117	xAFG2 + MECO3 ⟶ MECO3 + AFG2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
388	P118	xAFG2 + RCO3 ⟶ RCO3 + AFG2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
389	P119	xAFG2 + BZCO3 ⟶ BZCO3 + AFG2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
390	P120	xAFG2 + MACO3 ⟶ MACO3 + AFG2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
391	P121	xAFG3 + NO ⟶ NO + AFG3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
392	P122	xAFG3 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
393	P123	xAFG3 + NO3 ⟶ NO3 + AFG3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
394	P124	xAFG3 + MEO2 ⟶ MEO2 + 0.50000 * AFG3	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
395	P125	xAFG3 + RO2C ⟶ RO2C + 0.50000 * AFG3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
396	P126	xAFG3 + RO2XC ⟶ RO2XC + 0.50000 * AFG3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
397	P127	xAFG3 + MECO3 ⟶ MECO3 + AFG3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
398	P128	xAFG3 + RCO3 ⟶ RCO3 + AFG3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
399	P129	xAFG3 + BZCO3 ⟶ BZCO3 + AFG3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
400	P130	xAFG3 + MACO3 ⟶ MACO3 + AFG3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
401	P131	xMACR + NO ⟶ NO + MACR	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
402	P132	xMACR + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
403	P133	xMACR + NO3 ⟶ NO3 + MACR	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
404	P134	xMACR + MEO2 ⟶ MEO2 + 0.50000 * MACR	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
405	P135	xMACR + RO2C ⟶ RO2C + 0.50000 * MACR	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
406	P136	xMACR + RO2XC ⟶ RO2XC + 0.50000 * MACR	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
407	P137	xMACR + MECO3 ⟶ MECO3 + MACR	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
408	P138	xMACR + RCO3 ⟶ RCO3 + MACR	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
409	P139	xMACR + BZCO3 ⟶ BZCO3 + MACR	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
410	P140	xMACR + MACO3 ⟶ MACO3 + MACR	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
411	P141	xMVK + NO ⟶ NO + MVK	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
412	P142	xMVK + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
413	P143	xMVK + NO3 ⟶ NO3 + MVK	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
414	P144	xMVK + MEO2 ⟶ MEO2 + 0.50000 * MVK	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
415	P145	xMVK + RO2C ⟶ RO2C + 0.50000 * MVK	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
416	P146	xMVK + RO2XC ⟶ RO2XC + 0.50000 * MVK	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
417	P147	xMVK + MECO3 ⟶ MECO3 + MVK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
418	P148	xMVK + RCO3 ⟶ RCO3 + MVK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
419	P149	xMVK + BZCO3 ⟶ BZCO3 + MVK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
420	P150	xMVK + MACO3 ⟶ MACO3 + MVK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
421	P151	xIPRD + NO ⟶ NO + IPRD	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
422	P152	xIPRD + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
423	P153	xIPRD + NO3 ⟶ NO3 + IPRD	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
424	P154	xIPRD + MEO2 ⟶ MEO2 + 0.50000 * IPRD	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
425	P155	xIPRD + RO2C ⟶ RO2C + 0.50000 * IPRD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
426	P156	xIPRD + RO2XC ⟶ RO2XC + 0.50000 * IPRD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
427	P157	xIPRD + MECO3 ⟶ MECO3 + IPRD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
428	P158	xIPRD + RCO3 ⟶ RCO3 + IPRD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
429	P159	xIPRD + BZCO3 ⟶ BZCO3 + IPRD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
430	P160	xIPRD + MACO3 ⟶ MACO3 + IPRD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
431	P161	xRNO3 + NO ⟶ NO + RNO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
432	P162	xRNO3 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
433	P163	xRNO3 + NO3 ⟶ NO3 + RNO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
434	P164	xRNO3 + MEO2 ⟶ MEO2 + 0.50000 * RNO3	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
435	P165	xRNO3 + RO2C ⟶ RO2C + 0.50000 * RNO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
436	P166	xRNO3 + RO2XC ⟶ RO2XC + 0.50000 * RNO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
437	P167	xRNO3 + MECO3 ⟶ MECO3 + RNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
438	P168	xRNO3 + RCO3 ⟶ RCO3 + RNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
439	P169	xRNO3 + BZCO3 ⟶ BZCO3 + RNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
440	P170	xRNO3 + MACO3 ⟶ MACO3 + RNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
441	PX161	xMTNO3 + NO ⟶ NO + MTNO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
442	PX162	xMTNO3 + HO2 ⟶ HO2	2.6500E-13exp( 1.3000E+03/T)	2.0743E-11	2.9864E-11
443	PX163	xMTNO3 + NO3 ⟶ NO3 + MTNO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
444	PX164	xMTNO3 + MEO2 ⟶ MEO2 + 0.50000 * MTNO3	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
445	PX165	xMTNO3 + RO2C ⟶ RO2C + 0.50000 * MTNO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
446	PX166	xMTNO3 + RO2XC ⟶ RO2XC + 0.50000 * MTNO3	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
447	PX167	xMTNO3 + MECO3 ⟶ MECO3 + MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
448	PX168	xMTNO3 + RCO3 ⟶ RCO3 + MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
449	PX169	xMTNO3 + BZCO3 ⟶ BZCO3 + MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
450	PX170	xMTNO3 + MACO3 ⟶ MACO3 + MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
451	PX170b	xMTNO3 + IMACO3 ⟶ MACO3 + MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
452	P171	yROOH + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
453	P172	yROOH + HO2 ⟶ HO2 + ROOH	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
454	P173	yROOH + NO3 ⟶ NO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
455	P174	yROOH + MEO2 ⟶ MEO2 + 0.50000 * MEK	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
456	P175	yROOH + RO2C ⟶ RO2C + 0.50000 * MEK	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
457	P176	yROOH + RO2XC ⟶ RO2XC + 0.50000 * MEK	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
458	P177	yROOH + MECO3 ⟶ MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
459	P178	yROOH + RCO3 ⟶ RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
460	P179	yROOH + BZCO3 ⟶ BZCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
461	P180	yROOH + MACO3 ⟶ MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
462	P181	yR6OOH + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
463	P182	yR6OOH + HO2 ⟶ HO2 + R6OOH	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
464	P183	yR6OOH + NO3 ⟶ NO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
465	P184	yR6OOH + MEO2 ⟶ MEO2 + 0.50000 * PRD2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
466	P185	yR6OOH + RO2C ⟶ RO2C + 0.50000 * PRD2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
467	P186	yR6OOH + RO2XC ⟶ RO2XC + 0.50000 * PRD2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
468	P187	yR6OOH + MECO3 ⟶ MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
469	P188	yR6OOH + RCO3 ⟶ RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
470	P189	yR6OOH + BZCO3 ⟶ BZCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
471	P190	yR6OOH + MACO3 ⟶ MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
472	P191	yRAOOH + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
473	P192	yRAOOH + HO2 ⟶ HO2 + RAOOH	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
474	P193	yRAOOH + NO3 ⟶ NO3	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
475	P194	yRAOOH + MEO2 ⟶ MEO2 + 0.50000 * PRD2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
476	P195	yRAOOH + RO2C ⟶ RO2C + 0.50000 * PRD2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
477	P196	yRAOOH + RO2XC ⟶ RO2XC + 0.50000 * PRD2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
478	P197	yRAOOH + MECO3 ⟶ MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
479	P198	yRAOOH + RCO3 ⟶ RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
480	P199	yRAOOH + BZCO3 ⟶ BZCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
481	P200	yRAOOH + MACO3 ⟶ MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
482	P201	zRNO3 + NO ⟶ NO + RNO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
483	P202	zRNO3 + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
484	P203	zRNO3 + NO3 ⟶ NO3 + PRD2 + HO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
485	P204	zRNO3 + MEO2 ⟶ MEO2 + 0.50000 * PRD2 + 0.50000 * HO2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
486	P205	zRNO3 + RO2C ⟶ RO2C + 0.50000 * PRD2 + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
487	P206	zRNO3 + RO2XC ⟶ RO2XC + 0.50000 * PRD2 + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
488	P207	zRNO3 + MECO3 ⟶ MECO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
489	P208	zRNO3 + RCO3 ⟶ RCO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
490	P209	zRNO3 + BZCO3 ⟶ BZCO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
491	P210	zRNO3 + MACO3 ⟶ MACO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
492	PZ201	zMTNO3 + NO ⟶ NO + MTNO3	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
493	PZ202	zMTNO3 + HO2 ⟶ HO2	2.6500E-13exp( 1.3000E+03/T)	2.0743E-11	2.9864E-11
494	PZ203	zMTNO3 + NO3 ⟶ NO3 + PRD2 + HO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
495	PZ204	zMTNO3 + MEO2 ⟶ MEO2 + 0.50000 * PRD2 + 0.50000 * HO2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
496	PZ205	zMTNO3 + RO2C ⟶ RO2C + 0.50000 * PRD2 + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
497	PZ206	zMTNO3 + RO2XC ⟶ RO2XC + 0.50000 * PRD2 + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
498	PZ207	zMTNO3 + MECO3 ⟶ MECO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
499	PZ208	zMTNO3 + RCO3 ⟶ RCO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
500	PZ209	zMTNO3 + BZCO3 ⟶ BZCO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
501	PZ210	zMTNO3 + MACO3 ⟶ MACO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
502	PZ210b	zMTNO3 + IMACO3 ⟶ IMACO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
503	P211	xHOCCHO + NO ⟶ NO + HOCCHO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
504	P212	xHOCCHO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
505	P213	xHOCCHO + NO3 ⟶ NO3 + HOCCHO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
506	P214	xHOCCHO + MEO2 ⟶ MEO2 + 0.50000 * HOCCHO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
507	P215	xHOCCHO + RO2C ⟶ RO2C + 0.50000 * HOCCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
508	P216	xHOCCHO + RO2XC ⟶ RO2XC + 0.50000 * HOCCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
509	P217	xHOCCHO + MECO3 ⟶ MECO3 + HOCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
510	P218	xHOCCHO + RCO3 ⟶ RCO3 + HOCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
511	P219	xHOCCHO + BZCO3 ⟶ BZCO3 + HOCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
512	P220	xHOCCHO + MACO3 ⟶ MACO3 + HOCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
513	P221	xACROLEIN + NO ⟶ NO + ACROLEIN	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
514	P222	xACROLEIN + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
515	P223	xACROLEIN + NO3 ⟶ NO3 + ACROLEIN	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
516	P224	xACROLEIN + MEO2 ⟶ MEO2 + 0.50000 * ACROLEIN	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
517	P225	xACROLEIN + RO2C ⟶ RO2C + 0.50000 * ACROLEIN	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
518	P226	xACROLEIN + RO2XC ⟶ RO2XC + 0.50000 * ACROLEIN	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
519	P227	xACROLEIN + MECO3 ⟶ MECO3 + ACROLEIN	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
520	P228	xACROLEIN + RCO3 ⟶ RCO3 + ACROLEIN	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
521	P229	xACROLEIN + BZCO3 ⟶ BZCO3 + ACROLEIN	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
522	P230	xACROLEIN + MACO3 ⟶ MACO3 + ACROLEIN	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
523	BE01	OH + CH4 ⟶ MEO2	1.8500E-12exp( -1.6900E+03/T)	6.3895E-15	3.9782E-15
524	BE02	ETHENE + OH ⟶ xHO2 + RO2C + 1.61000 * xHCHO + 0.19500 * xHOCCHO + yROOH	k_o = 1.0000E-28exp( 0.00/T)(T/300)^-4.50 k_inf = 8.8000E-12exp( 0.00/T)(T/300)^-0.85 n = 1.00; F = 0.60	8.1981E-12	8.8055E-12
525	BE03	ETHENE + O3 ⟶ 0.16000 * HO2 + 0.16000 * OH + 0.51000 * CO + 0.12000 * CO2 + HCHO + 0.37000 * HCOOH	9.1400E-15exp( -2.5800E+03/T)	1.5953E-18	7.7392E-19
526	BE04	ETHENE + NO3 ⟶ xHO2 + RO2C + xRCHO + yROOH	3.3000E-12exp( -2.8800E+03/T)	2.1058E-16	9.3917E-17
527	BE05	ETHENE + O3P ⟶ 0.80000 * HO2 + 0.29000 * xHO2 + 0.51000 * MEO2 + 0.29000 * RO2C + 0.51000 * CO + 0.27800 * xCO + 0.27800 * xHCHO + 0.10000 * CCHO + 0.01200 * xGLY + 0.29000 * yROOH	1.0700E-11exp( -8.0000E+02/T)	7.3127E-13	5.8435E-13
528	BT01	PROPENE + OH ⟶ 0.98400 * xHO2 + 0.98400 * RO2C + 0.01600 * RO2XC + 0.01600 * zRNO3 + 0.98400 * xHCHO + 0.98400 * xCCHO + yROOH	4.8500E-12exp( 5.0400E+02/T)	2.6296E-11	3.0287E-11
529	BT02	PROPENE + O3 ⟶ 0.16500 * HO2 + 0.35000 * OH + 0.35500 * MEO2 + 0.52500 * CO + 0.21500 * CO2 + 0.50000 * HCHO + 0.50000 * CCHO + 0.18500 * HCOOH + 0.07500 * CCOOH	5.5100E-15exp( -1.8780E+03/T)	1.0130E-17	5.9832E-18
530	BT03	PROPENE + NO3 ⟶ 0.94900 * xHO2 + 0.94900 * RO2C + 0.05100 * RO2XC + 0.05100 * zRNO3 + yROOH	4.5900E-13exp( -1.1560E+03/T)	9.5049E-15	6.8737E-15
531	BT04	PROPENE + O3P ⟶ 0.45000 * RCHO + 0.55000 * MEK	1.0200E-11exp( -2.8000E+02/T)	3.9879E-12	3.6868E-12
532	BT05	BUTADIENE13 + OH ⟶ 0.95100 * xHO2 + 1.18900 * RO2C + 0.04900 * RO2XC + 0.04900 * zRNO3 + 0.70800 * xHCHO + 0.58000 * xACROLEIN + 0.47100 * xIPRD + yROOH	1.4800E-11exp( 4.4800E+02/T)	6.6502E-11	7.5402E-11
533	BT06	BUTADIENE13 + O3 ⟶ 0.08000 * HO2 + 0.08000 * OH + 0.25500 * CO + 0.18500 * CO2 + 0.50000 * HCHO + 0.18500 * HCOOH + 0.50000 * ACROLEIN + 0.37500 * MVK + 0.12500 * PRD2	1.3400E-14exp( -2.2830E+03/T)	6.3331E-18	3.3392E-18
534	BT07	BUTADIENE13 + NO3 ⟶ 0.81500 * xHO2 + 0.12000 * xNO2 + 1.05500 * RO2C + 0.06500 * RO2XC + 0.06500 * zRNO3 + 0.11500 * xHCHO + 0.46000 * xMVK + 0.12000 * xIPRD + 0.35500 * xRNO3 + yROOH	1.0000E-13	1.0000E-13	1.0000E-13
535	BT08	BUTADIENE13 + O3P ⟶ 0.25000 * HO2 + 0.11700 * xHO2 + 0.11800 * xMACO3 + 0.23500 * RO2C + 0.01500 * RO2XC + 0.01500 * zRNO3 + 0.11500 * xCO + 0.11500 * xACROLEIN + 0.00100 * xAFG1 + 0.00100 * xAFG2 + 0.75000 * PRD2 + 0.25000 * yROOH	2.2600E-11exp( -4.0000E+01/T)	1.9763E-11	1.9542E-11
536	BE07	ISOPRENE + O3 ⟶ 0.06600 * HO2 + 0.26600 * OH + 0.19200 * xMACO3 + 0.19200 * RO2C + 0.00800 * RO2XC + 0.00800 * zRNO3 + 0.27500 * CO + 0.12200 * CO2 + 0.40000 * HCHO + 0.19200 * xHCHO + 0.20400 * HCOOH + 0.39000 * MACR + 0.16000 * MVK + 0.15000 * IPRD + 0.10000 * PRD2 + 0.20000 * yR6OOH	7.8600E-15exp( -1.9120E+03/T)	1.2893E-17	7.5429E-18
537	BE09	ISOPRENE + O3P ⟶ 0.25000 * MEO2 + 0.24000 * xMACO3 + 0.24000 * RO2C + 0.01000 * RO2XC + 0.01000 * zRNO3 + 0.24000 * xHCHO + 0.75000 * PRD2 + 0.25000 * yR6OOH	3.5000E-11	3.5000E-11	3.5000E-11
538	BT09	APIN + OH ⟶ 0.79900 * xHO2 + 0.00400 * xRCO3 + 1.04200 * RO2C + 0.19700 * RO2XC + 0.19700 * zRNO3 + 0.00200 * xCO + 0.02200 * xHCHO + 0.77600 * xRCHO + 0.03400 * xACETONE + 0.02000 * xMGLY + 0.02300 * xBACL + yR6OOH + TRPRXN	1.2100E-11exp( 4.3600E+02/T)	5.2225E-11	5.9015E-11
539	BT10	APIN + O3 ⟶ 0.00900 * HO2 + 0.10200 * xHO2 + 0.72800 * OH + 0.00100 * xMECO3 + 0.29700 * xRCO3 + 1.51100 * RO2C + 0.33700 * RO2XC + 0.33700 * zRNO3 + 0.02900 * CO + 0.05100 * xCO + 0.01700 * CO2 + 0.34400 * xHCHO + 0.24000 * xRCHO + 0.34500 * xACETONE + 0.00800 * MEK + 0.00200 * xGLY + 0.08100 * xBACL + 0.25500 * PRD2 + 0.73700 * yR6OOH + TRPRXN	5.0000E-16exp( -5.3000E+02/T)	8.4519E-17	7.2849E-17
540	BT11	APIN + NO3 ⟶ 0.05600 * xHO2 + 0.64300 * xNO2 + 0.00700 * xRCO3 + 1.05000 * RO2C + 0.29300 * RO2XC + 0.29300 * zRNO3 + 0.00500 * xCO + 0.00700 * xHCHO + 0.68400 * xRCHO + 0.06900 * xACETONE + 0.00200 * xMGLY + 0.05600 * xRNO3 + yR6OOH	1.1900E-12exp( 4.9000E+02/T)	6.1560E-12	7.0625E-12
541	BT12	APIN + O3P ⟶ PRD2 + TRPRXN	3.2000E-11	3.2000E-11	3.2000E-11
542	BE10	ACETYLENE + OH ⟶ 0.30000 * HO2 + 0.70000 * OH + 0.30000 * CO + 0.30000 * HCOOH + 0.70000 * GLY	k_o = 5.5000E-30exp( 0.00/T)(T/300)^0.00 k_inf = 8.3000E-13exp( 0.00/T)(T/300)^-2.00 n = 1.00; F = 0.60	7.6556E-13	8.8798E-13
543	BE11	ACETYLENE + O3 ⟶ 1.50000 * HO2 + 0.50000 * OH + 1.50000 * CO + 0.50000 * CO2	1.0000E-14exp( -4.1000E+03/T)	1.0661E-20	3.3775E-21
544	BE12	BENZENE + OH ⟶ 0.57000 * HO2 + 0.29000 * xHO2 + 0.11600 * OH + 0.29000 * RO2C + 0.02400 * RO2XC + 0.02400 * zRNO3 + 0.29000 * xGLY + 0.57000 * CRES + 0.02900 * xAFG1 + 0.26100 * xAFG2 + 0.11600 * AFG3 + 0.31400 * yRAOOH + BENZRO2	2.3300E-12exp( -1.9300E+02/T)	1.2196E-12	1.1554E-12
545	BT13	TOLUENE + OH ⟶ 0.18100 * HO2 + 0.45400 * xHO2 + 0.31200 * OH + 0.45400 * RO2C + 0.05400 * RO2XC + 0.05400 * zRNO3 + 0.23800 * xGLY + 0.15100 * xMGLY + 0.18100 * CRES + 0.06500 * xBALD + 0.19500 * xAFG1 + 0.19500 * xAFG2 + 0.31200 * AFG3 + 0.07300 * yR6OOH + 0.43500 * yRAOOH + TOLRO2	1.8100E-12exp( 3.3800E+02/T)	5.6237E-12	6.1827E-12
546	BT14	MXYL + OH ⟶ 0.15900 * HO2 + 0.52000 * xHO2 + 0.23900 * OH + 0.52000 * RO2C + 0.08200 * RO2XC + 0.08200 * zRNO3 + 0.10000 * xGLY + 0.38000 * xMGLY + 0.15900 * CRES + 0.04100 * xBALD + 0.33600 * xAFG1 + 0.14400 * xAFG2 + 0.23900 * AFG3 + 0.04700 * yR6OOH + 0.55500 * yRAOOH + XYLRO2	2.3100E-11	2.3100E-11	2.3100E-11
547	BT15	OXYL + OH ⟶ 0.16100 * HO2 + 0.55400 * xHO2 + 0.19800 * OH + 0.55400 * RO2C + 0.08700 * RO2XC + 0.08700 * zRNO3 + 0.08400 * xGLY + 0.23800 * xMGLY + 0.18500 * xBACL + 0.16100 * CRES + 0.04700 * xBALD + 0.25300 * xAFG1 + 0.25300 * xAFG2 + 0.19800 * AFG3 + 0.05500 * yR6OOH + 0.58600 * yRAOOH + XYLRO2	1.3600E-11	1.3600E-11	1.3600E-11
548	BT16	PXYL + OH ⟶ 0.15900 * HO2 + 0.48700 * xHO2 + 0.27800 * OH + 0.48700 * RO2C + 0.07600 * RO2XC + 0.07600 * zRNO3 + 0.28600 * xGLY + 0.11200 * xMGLY + 0.15900 * CRES + 0.08800 * xBALD + 0.04500 * xAFG1 + 0.06700 * xAFG2 + 0.27800 * AFG3 + 0.28600 * xAFG3 + 0.10200 * yR6OOH + 0.46100 * yRAOOH + XYLRO2	1.4300E-11	1.4300E-11	1.4300E-11
549	BT17	TMBENZ124 + OH ⟶ 0.02200 * HO2 + 0.62700 * xHO2 + 0.23000 * OH + 0.62700 * RO2C + 0.12100 * RO2XC + 0.12100 * zRNO3 + 0.07400 * xGLY + 0.40500 * xMGLY + 0.11200 * xBACL + 0.02200 * CRES + 0.03600 * xBALD + 0.08800 * xAFG1 + 0.35200 * xAFG2 + 0.23000 * AFG3 + 0.15100 * xAFG3 + 0.04300 * yR6OOH + 0.70500 * yRAOOH + XYLRO2	3.2500E-11	3.2500E-11	3.2500E-11
550	BT18	ETOH + OH ⟶ 0.95000 * HO2 + 0.05000 * xHO2 + 0.05000 * RO2C + 0.08100 * xHCHO + 0.95000 * CCHO + 0.01000 * xHOCCHO + 0.05000 * yROOH	5.4900E-13exp( 5.3000E+02/T)(T/300)^2.00	3.2078E-12	3.1697E-12
551	BL01	ALK1 + OH ⟶ xHO2 + RO2C + xCCHO + yROOH	1.3400E-12exp( -4.9900E+02/T)(T/300)^2.00	2.4824E-13	1.8382E-13
552	BL02	ALK2 + OH ⟶ 0.96500 * xHO2 + 0.96500 * RO2C + 0.03500 * RO2XC + 0.03500 * zRNO3 + 0.26100 * xRCHO + 0.70400 * xACETONE + yROOH	1.4900E-12exp( -8.7000E+01/T)(T/300)^2.00	1.0992E-12	9.1361E-13
553	BL03	ALK3 + OH ⟶ 0.69500 * xHO2 + 0.23600 * xTBUO + 1.25300 * RO2C + 0.07000 * RO2XC + 0.07000 * zRNO3 + 0.02600 * xHCHO + 0.44500 * xCCHO + 0.12200 * xRCHO + 0.02400 * xACETONE + 0.33200 * xMEK + 0.98300 * yROOH + 0.01700 * yR6OOH	1.5100E-12exp( 1.2600E+02/T)	2.3042E-12	2.3870E-12
554	BL04	ALK4 + OH ⟶ 0.83000 * xHO2 + 0.01000 * xMEO2 + 0.01100 * xMECO3 + 1.76300 * RO2C + 0.14900 * RO2XC + 0.14900 * zRNO3 + 0.00200 * xCO + 0.02900 * xHCHO + 0.43800 * xCCHO + 0.23600 * xRCHO + 0.42600 * xACETONE + 0.10600 * xMEK + 0.14600 * xPROD2 + yR6OOH	3.7500E-12exp( 4.4000E+01/T)	4.3463E-12	4.4003E-12
555	BL05	ALK5 + OH ⟶ 0.64700 * xHO2 + 1.60500 * RO2C + 0.35300 * RO2XC + 0.35300 * zRNO3 + 0.04000 * xHCHO + 0.10600 * xCCHO + 0.20900 * xRCHO + 0.07100 * xACETONE + 0.08600 * xMEK + 0.40700 * xPROD2 + yR6OOH	2.7000E-12exp( 3.7400E+02/T)	9.4655E-12	1.0512E-11
556	AALK	SOAALK + OH ⟶ OH + 0.00600 * SVAVB2 + 0.05200 * SVAVB3 + 0.08100 * SVAVB4	2.7000E-12exp( 3.7400E+02/T)	9.4655E-12	1.0512E-11
557	BL06	OLE1 + OH ⟶ 0.87100 * xHO2 + 0.00100 * xMEO2 + 1.20200 * RO2C + 0.12800 * RO2XC + 0.12800 * zRNO3 + 0.58200 * xHCHO + 0.01000 * xCCHO + 0.00700 * xHOCCHO + 0.66600 * xRCHO + 0.00700 * xACETONE + 0.03600 * xACROLEIN + 0.00100 * xMACR + 0.01200 * xMVK + 0.00900 * xIPRD + 0.16800 * xPROD2 + 0.16900 * yROOH + 0.83100 * yR6OOH	6.7200E-12exp( 5.0100E+02/T)	3.6070E-11	4.1509E-11
558	BL07	OLE1 + O3 ⟶ 0.09500 * HO2 + 0.05700 * xHO2 + 0.12800 * OH + 0.09000 * RO2C + 0.00500 * RO2XC + 0.00500 * zRNO3 + 0.30300 * CO + 0.08800 * CO2 + 0.50000 * HCHO + 0.01100 * xCCHO + 0.50000 * RCHO + 0.04400 * xRCHO + 0.00300 * xACETONE + 0.00900 * MEK + 0.18500 * HCOOH + 0.15900 * RCOOH + 0.26800 * PRD2 + 0.01100 * yROOH + 0.05200 * yR6OOH	3.1900E-15exp( -1.7010E+03/T)	1.0618E-17	6.5909E-18
559	BL08	OLE1 + NO3 ⟶ 0.77200 * xHO2 + 1.46300 * RO2C + 0.22800 * RO2XC + 0.22800 * zRNO3 + 0.01300 * xCCHO + 0.00300 * xRCHO + 0.03400 * xACETONE + 0.77400 * xRNO3 + 0.16900 * yROOH + 0.83100 * yR6OOH	5.3700E-13exp( -1.0470E+03/T)	1.6028E-14	1.1951E-14
560	BL09	OLE1 + O3P ⟶ 0.45000 * RCHO + 0.39000 * MEK + 0.16000 * PRD2	1.6100E-11exp( -3.2600E+02/T)	5.3947E-12	4.9235E-12
561	BL10	OLE2 + OH ⟶ 0.91200 * xHO2 + 0.95300 * RO2C + 0.08800 * RO2XC + 0.08800 * zRNO3 + 0.17900 * xHCHO + 0.83500 * xCCHO + 0.51000 * xRCHO + 0.14400 * xACETONE + 0.08000 * xMEK + 0.00200 * xMVK + 0.01200 * xIPRD + 0.02300 * xPROD2 + 0.31900 * yROOH + 0.68100 * yR6OOH	1.2600E-11exp( 4.8800E+02/T)	6.4745E-11	7.4238E-11
562	BL11	OLE2 + O3 ⟶ 0.09400 * HO2 + 0.04100 * xHO2 + 0.44300 * OH + 0.30700 * MEO2 + 0.15600 * xMECO3 + 0.00800 * xRCO3 + 0.21200 * RO2C + 0.00300 * RO2XC + 0.00300 * zRNO3 + 0.29900 * CO + 0.16100 * CO2 + 0.13100 * HCHO + 0.11400 * xHCHO + 0.45300 * CCHO + 0.07100 * xCCHO + 0.33300 * RCHO + 0.01900 * xRCHO + 0.05100 * ACETONE + 0.03300 * MEK + 0.00100 * xMEK + 0.02400 * HCOOH + 0.06500 * CCOOH + 0.23500 * RCOOH + 0.03700 * PRD2 + 0.07300 * yROOH + 0.13600 * yR6OOH	8.5900E-15exp( -1.2550E+03/T)	1.2762E-16	8.9766E-17
563	BL12	OLE2 + NO3 ⟶ 0.40000 * xHO2 + 0.42600 * xNO2 + 0.03500 * xMEO2 + 1.19300 * RO2C + 0.14000 * RO2XC + 0.14000 * zRNO3 + 0.07200 * xHCHO + 0.57900 * xCCHO + 0.16300 * xRCHO + 0.11600 * xACETONE + 0.00200 * xMEK + 0.32000 * xRNO3 + 0.31900 * yROOH + 0.68100 * yR6OOH	2.3100E-13exp( 3.8200E+02/T)	8.3185E-13	9.2589E-13
564	BL13	OLE2 + O3P ⟶ 0.07900 * RCHO + 0.75100 * MEK + 0.17000 * PRD2	1.4300E-11exp( 1.1100E+02/T)	2.0750E-11	2.1406E-11
565	BL14	ARO1 + OH ⟶ 0.12300 * HO2 + 0.56600 * xHO2 + 0.20200 * OH + 0.56600 * RO2C + 0.11000 * RO2XC + 0.11000 * zRNO3 + 0.15800 * xGLY + 0.10000 * xMGLY + 0.12300 * CRES + 0.07200 * xAFG1 + 0.18500 * xAFG2 + 0.20200 * AFG3 + 0.30900 * xPROD2 + 0.36900 * yR6OOH + TOLRO2	7.8400E-12	7.8400E-12	7.8400E-12
566	BL15a	ARO2MN + OH ⟶ 0.07700 * HO2 + 0.61700 * xHO2 + 0.17800 * OH + 0.61700 * RO2C + 0.12800 * RO2XC + 0.12800 * zRNO3 + 0.08800 * xGLY + 0.31200 * xMGLY + 0.13400 * xBACL + 0.07700 * CRES + 0.02600 * xBALD + 0.22100 * xAFG1 + 0.24700 * xAFG2 + 0.17800 * AFG3 + 0.06800 * xAFG3 + 0.05700 * xPROD2 + 0.10100 * yR6OOH + XYLRO2	3.0900E-11	3.0900E-11	3.0900E-11
567	BL15b	NAPHTHAL + OH ⟶ 0.07700 * HO2 + 0.61700 * xHO2 + 0.17800 * OH + 0.61700 * RO2C + 0.12800 * RO2XC + 0.12800 * zRNO3 + 0.08800 * xGLY + 0.31200 * xMGLY + 0.13400 * xBACL + 0.07700 * CRES + 0.02600 * xBALD + 0.22100 * xAFG1 + 0.24700 * xAFG2 + 0.17800 * AFG3 + 0.06800 * xAFG3 + 0.05700 * xPROD2 + 0.10100 * yR6OOH + PAHRO2	3.0900E-11	3.0900E-11	3.0900E-11
568	BL16	TERP + OH ⟶ 0.73400 * xHO2 + 0.06400 * xRCO3 + 1.21100 * RO2C + 0.20100 * RO2XC + 0.20100 * zMTNO3 + 0.00100 * xCO + 0.41100 * xHCHO + 0.38500 * xRCHO + 0.03700 * xACETONE + 0.00700 * xMEK + 0.00300 * xMGLY + 0.00900 * xBACL + 0.00300 * xMVK + 0.00200 * xIPRD + 0.40900 * xPROD2 + yR6OOH + TRPRXN	2.2700E-11exp( 4.3500E+02/T)	9.7647E-11	1.1031E-10
569	BL17	TERP + O3 ⟶ 0.07800 * HO2 + 0.04600 * xHO2 + 0.49900 * OH + 0.20200 * xMECO3 + 0.05900 * xRCO3 + 0.49000 * RO2C + 0.12100 * RO2XC + 0.12100 * zMTNO3 + 0.24900 * CO + 0.06300 * CO2 + 0.12700 * HCHO + 0.03300 * xHCHO + 0.20800 * xRCHO + 0.05700 * xACETONE + 0.00200 * MEK + 0.17200 * HCOOH + 0.06800 * RCOOH + 0.00300 * xMGLY + 0.03900 * xBACL + 0.00200 * xMACR + 0.00100 * xIPRD + 0.50200 * PRD2 + 0.42800 * yR6OOH + TRPRXN	8.2800E-16exp( -7.8500E+02/T)	5.9508E-17	4.7752E-17
570	BL18	TERP + NO3 ⟶ TERPNRO2	1.3300E-12exp( 4.9000E+02/T)	6.8802E-12	7.8934E-12
571	BL18a	TERPNRO2 + NO ⟶ 0.82700 * NO2 + 0.68800 * MTNO3 + 0.42400 * RO2C + 0.22700 * HO2 + 0.02600 * RCO3 + 0.01200 * CO + 0.02300 * HCHO + 0.00200 * HOCCHO + 0.40300 * RCHO + 0.23900 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
572	BL18b	TERPNRO2 + HO2 ⟶ MTNO3	2.6500E-13exp( 1.3000E+03/T)	2.0743E-11	2.9864E-11
573	BL18c	TERPNRO2 + NO3 ⟶ 1.53100 * NO2 + 0.42200 * MTNO3 + 0.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
574	BL18d	TERPNRO2 + MEO2 ⟶ 0.26600 * NO2 + 0.71100 * MTNO3 + 0.39300 * RO2C + 0.71000 * HO2 + 0.02400 * RCO3 + 0.01100 * CO + 0.77200 * HCHO + 0.00200 * HOCCHO + 0.37300 * RCHO + 0.22200 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD + 0.25000 * MEOH	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
575	BL18e	TERPNRO2 + RO2C ⟶ 0.26600 * NO2 + 0.71100 * MTNO3 + 0.39300 * RO2C + 0.21000 * HO2 + 0.02400 * RCO3 + 0.01100 * CO + 0.02200 * HCHO + 0.00200 * HOCCHO + 0.37300 * RCHO + 0.22200 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
576	BL18f	TERPNRO2 + RO2XC ⟶ 0.26600 * NO2 + 0.71100 * MTNO3 + 0.39300 * RO2C + 0.21000 * HO2 + 0.02400 * RCO3 + 0.01100 * CO + 0.02200 * HCHO + 0.00200 * HOCCHO + 0.37300 * RCHO + 0.22200 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
577	BL18g	TERPNRO2 + MECO3 ⟶ 0.53100 * NO2 + 0.42200 * MTNO3 + 0.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + MEO2 + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
578	BL18h	TERPNRO2 + RCO3 ⟶ 0.53100 * NO2 + 0.42200 * MTNO3 + 1.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + CO2 + xHO2 + xCCHO + yROOH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
579	BL18i	TERPNRO2 + BZCO3 ⟶ 0.53100 * NO2 + 0.42200 * MTNO3 + 1.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + CO2 + BZO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
580	BL19j	TERPNRO2 + MACO3 ⟶ CO2 + 1.04300 * HCHO + MECO3 + 0.78600 * RO2C + 0.42000 * HO2 + 0.53100 * NO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + 0.42200 * MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
581	BL19k	TERPNRO2 + IMACO3 ⟶ CO2 + 1.04300 * HCHO + MECO3 + 0.78600 * RO2C + 0.42000 * HO2 + 0.53100 * NO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + 0.42200 * MTNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
582	BL19	TERP + O3P ⟶ 0.23700 * RCHO + 0.76300 * PRD2 + TRPRXN	4.0200E-11	4.0200E-11	4.0200E-11
583	BT19	SESQ + OH ⟶ 0.73400 * xHO2 + 0.06400 * xRCO3 + 1.21100 * RO2C + 0.20100 * RO2XC + 0.20100 * zRNO3 + 0.00100 * xCO + 0.41100 * xHCHO + 0.38500 * xRCHO + 0.03700 * xACETONE + 0.00700 * xMEK + 0.00300 * xMGLY + 0.00900 * xBACL + 0.00300 * xMVK + 0.00200 * xIPRD + 0.40900 * xPROD2 + yR6OOH + SESQRXN	<BL16>	9.7647E-11	1.1031E-10	Rate constant multiple of constant for listed reaction
584	BT20	SESQ + O3 ⟶ 0.07800 * HO2 + 0.04600 * xHO2 + 0.49900 * OH + 0.20200 * xMECO3 + 0.05900 * xRCO3 + 0.49000 * RO2C + 0.12100 * RO2XC + 0.12100 * zRNO3 + 0.24900 * CO + 0.06300 * CO2 + 0.12700 * HCHO + 0.03300 * xHCHO + 0.20800 * xRCHO + 0.05700 * xACETONE + 0.00200 * MEK + 0.17200 * HCOOH + 0.06800 * RCOOH + 0.00300 * xMGLY + 0.03900 * xBACL + 0.00200 * xMACR + 0.00100 * xIPRD + 0.50200 * PRD2 + 0.42800 * yR6OOH + SESQRXN	<BL17>	5.9508E-17	4.7752E-17	Rate constant multiple of constant for listed reaction
585	BT21	SESQ + NO3 ⟶ 0.22700 * xHO2 + 0.28700 * xNO2 + 0.02600 * xRCO3 + 1.78600 * RO2C + 0.46000 * RO2XC + 0.46000 * zRNO3 + 0.01200 * xCO + 0.02300 * xHCHO + 0.00200 * xCCHO + 0.40300 * xRCHO + 0.23900 * xACETONE + 0.00500 * xMACR + 0.00100 * xMVK + 0.00400 * xIPRD + 0.22800 * xRNO3 + yR6OOH + SESQRXN	<BL18>	6.8802E-12	7.8934E-12	Rate constant multiple of constant for listed reaction
586	BT22	SESQ + O3P ⟶ 0.23700 * RCHO + 0.76300 * PRD2 + SESQRXN	<BL19>	4.0200E-11	4.0200E-11	Rate constant multiple of constant for listed reaction
587	CI01	CL2 ⟶ 2.00000 * CL	<CL2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
588	CI02	CL + NO + M ⟶ CLNO	7.6000E-32(T/300)^-1.80	7.6851E-32	8.8799E-32
589	CI03	CLNO ⟶ CL + NO	<CLNO_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
590	CI04	CL + NO2 ⟶ CLONO	k_o = 1.3000E-30exp( 0.00/T)(T/300)^-2.00 k_inf = 1.0000E-10exp( 0.00/T)(T/300)^-1.00 n = 1.00; F = 0.60	1.6244E-11	1.6732E-11
591	CI05	CL + NO2 ⟶ CLNO2	k_o = 1.8000E-31exp( 0.00/T)(T/300)^-2.00 k_inf = 1.0000E-10exp( 0.00/T)(T/300)^-1.00 n = 1.00; F = 0.60	3.5840E-12	3.6129E-12
592	CI06	CLONO ⟶ CL + NO2	<CLONO>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
593	CI07	CLNO2 ⟶ CL + NO2	<CLNO2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
594	CI08	CL + HO2 ⟶ HCL	3.4400E-11(T/300)^-0.56	3.4519E-11	3.6107E-11
595	CI09	CL + HO2 ⟶ CLO + OH	9.4100E-12(T/300)^2.10	9.2886E-12	7.8475E-12
596	CI10	CL + O3 ⟶ CLO	2.8000E-11exp( -2.5000E+02/T)	1.2106E-11	1.1287E-11
597	CI11	CL + NO3 ⟶ CLO + NO2	2.4000E-11	2.4000E-11	2.4000E-11
598	CI12	CLO + NO ⟶ CL + NO2	6.2000E-12exp( 2.9500E+02/T)	1.6676E-11	1.8114E-11
599	CI13	CLO + NO2 ⟶ CLONO2	k_o = 1.8000E-31exp( 0.00/T)(T/300)^-3.40 k_inf = 1.5000E-11exp( 0.00/T)(T/300)^-1.90 n = 1.00; F = 0.60	2.3359E-12	2.6506E-12
600	CI14	CLONO2 ⟶ CLO + NO2	<CLONO2_1>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
601	CI15	CLONO2 ⟶ CL + NO3	<CLONO2_2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
602	CI16	CLONO2 ⟶ CLO + NO2	k_o = 4.4800E-05exp(-12530.00/T)(T/300)^-1.00 k_inf = 3.7100E+15exp(-12530.00/T)(T/300)^3.50 n = 1.00; F = 0.60	3.1797E-04	8.0782E-06
603	CI17	CL + CLONO2 ⟶ CL2 + NO3	6.2000E-12exp( 1.4500E+02/T)	1.0083E-11	1.0502E-11
604	CI18	CLO + HO2 ⟶ HOCL	2.2000E-12exp( 3.4000E+02/T)	6.8814E-12	7.5697E-12
605	CI19	HOCL ⟶ OH + CL	<HOCL_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
606	CI20	CLO + CLO ⟶ 0.29000 * CL2 + 1.42000 * CL	1.2500E-11exp( -1.9600E+03/T)	1.7455E-14	1.0075E-14
607	CI21	OH + HCL ⟶ CL	1.7000E-12exp( -2.3000E+02/T)	7.8600E-13	7.3692E-13
608	CI22	CL + H2 ⟶ HCL + HO2	3.9000E-11exp( -2.3100E+03/T)	1.6836E-14	8.8101E-15
609	CP01	HCHO + CL ⟶ HCL + HO2 + CO	8.1000E-11exp( -3.0000E+01/T)	7.3246E-11	7.2633E-11
610	CP02	CCHO + CL ⟶ HCL + MECO3	8.0000E-11	8.0000E-11	8.0000E-11
611	CP03	MEOH + CL ⟶ HCL + HCHO + HO2	5.5000E-11	5.5000E-11	5.5000E-11
612	CP04	RCHO + CL ⟶ HCL + 0.90000 * RCO3 + 0.10000 * RO2C + 0.10000 * xCCHO + 0.10000 * xCO + 0.10000 * xHO2 + 0.10000 * yROOH	1.2300E-10	1.2300E-10	1.2300E-10
613	CP05	ACETONE + CL ⟶ HCL + RO2C + xHCHO + xMECO3 + yROOH	7.7000E-11exp( -1.0000E+03/T)	2.6907E-12	2.0328E-12
614	CP06	MEK + CL ⟶ HCL + 0.97500 * RO2C + 0.03900 * RO2XC + 0.03900 * zRNO3 + 0.84000 * xHO2 + 0.08500 * xMECO3 + 0.03600 * xRCO3 + 0.06500 * xHCHO + 0.07000 * xCCHO + 0.84000 * xRCHO + yROOH	3.6000E-11	3.6000E-11	3.6000E-11
615	CP07	RNO3 + CL ⟶ HCL + 0.03800 * NO2 + 0.05500 * HO2 + 1.28200 * RO2C + 0.20200 * RO2XC + 0.20200 * zRNO3 + 0.00900 * RCHO + 0.01800 * MEK + 0.01200 * PRD2 + 0.05500 * RNO3 + 0.15900 * xNO2 + 0.54700 * xHO2 + 0.04500 * xHCHO + 0.30000 * xCCHO + 0.02000 * xRCHO + 0.00300 * xACETONE + 0.04100 * xMEK + 0.04600 * xPROD2 + 0.54700 * xRNO3 + 0.90800 * yR6OOH	1.9200E-10	1.9200E-10	1.9200E-10
616	CP08	PRD2 + CL ⟶ HCL + 0.31400 * HO2 + 0.68000 * RO2C + 0.11600 * RO2XC + 0.11600 * zRNO3 + 0.19800 * RCHO + 0.11600 * PRD2 + 0.54100 * xHO2 + 0.00700 * xMECO3 + 0.02200 * xRCO3 + 0.23700 * xHCHO + 0.10900 * xCCHO + 0.59100 * xRCHO + 0.05100 * xMEK + 0.04000 * xPROD2 + 0.68600 * yR6OOH	2.0000E-10	2.0000E-10	2.0000E-10
617	CP09	GLY + CL ⟶ HCL + 0.63000 * HO2 + 1.26000 * CO + 0.37000 * RCO3	8.1000E-11exp( -3.0000E+01/T)	7.3246E-11	7.2633E-11
618	CP10	MGLY + CL ⟶ HCL + CO + MECO3	8.0000E-11	8.0000E-11	8.0000E-11
619	CP11	CRES + CL ⟶ HCL + xHO2 + xBALD + yR6OOH	6.2000E-11	6.2000E-11	6.2000E-11
620	CP12	BALD + CL ⟶ HCL + BZCO3	8.0000E-11	8.0000E-11	8.0000E-11
621	CP13	ROOH + CL ⟶ HCL + 0.41400 * OH + 0.58800 * RO2C + 0.41400 * RCHO + 0.10400 * xOH + 0.48200 * xHO2 + 0.10600 * xHCHO + 0.10400 * xCCHO + 0.19700 * xRCHO + 0.28500 * xMEK + 0.58600 * yROOH	1.6600E-10	1.6600E-10	1.6600E-10
622	CP14	R6OOH + CL ⟶ HCL + 0.14500 * OH + 1.07800 * RO2C + 0.11700 * RO2XC + 0.11700 * zRNO3 + 0.14500 * PRD2 + 0.50200 * xOH + 0.23700 * xHO2 + 0.18600 * xCCHO + 0.67600 * xRCHO + 0.28000 * xPROD2 + 0.85500 * yR6OOH	3.0000E-10	3.0000E-10	3.0000E-10
623	CP15	RAOOH + CL ⟶ 0.40400 * HCL + 0.13900 * OH + 0.14800 * HO2 + 0.58900 * RO2C + 0.12400 * RO2XC + 0.12400 * zRNO3 + 0.07400 * PRD2 + 0.14700 * MGLY + 0.13900 * IPRD + 0.56500 * xHO2 + 0.02400 * xOH + 0.44800 * xRCHO + 0.02600 * xGLY + 0.03000 * xMEK + 0.25200 * xMGLY + 0.07300 * xAFG1 + 0.07300 * xAFG2 + 0.71300 * yR6OOH	4.2900E-10	4.2900E-10	4.2900E-10
624	TP01	ACROLEIN + CL ⟶ 0.48400 * xHO2 + 0.27400 * xCL + 0.21600 * MACO3 + 1.03200 * RO2C + 0.02600 * RO2XC + 0.02600 * zRNO3 + 0.21600 * HCL + 0.48400 * xCO + 0.27400 * xHCHO + 0.27400 * xGLY + 0.48400 * xCLCCHO + 0.78400 * yROOH	2.9400E-10	2.9400E-10	2.9400E-10
625	CP17	MVK + CL ⟶ 1.28300 * RO2C + 0.05300 * RO2XC + 0.05300 * zRNO3 + 0.32200 * xHO2 + 0.62500 * xMECO3 + 0.94700 * xCLCCHO + yROOH	2.3200E-10	2.3200E-10	2.3200E-10
626	CP18	IPRD + CL ⟶ 0.40100 * HCL + 0.08400 * HO2 + 0.15400 * MACO3 + 0.73000 * RO2C + 0.05100 * RO2XC + 0.05100 * zRNO3 + 0.04200 * AFG1 + 0.04200 * AFG2 + 0.71200 * xHO2 + 0.49800 * xCO + 0.19500 * xHCHO + 0.01700 * xMGLY + 0.00900 * xAFG1 + 0.00900 * xAFG2 + 0.11500 * xIPRD + 0.14000 * xCLCCHO + 0.42000 * xCLACET + 0.76200 * yR6OOH	4.1200E-10	4.1200E-10	4.1200E-10
627	CP19	CLCCHO ⟶ HO2 + CO + RO2C + xCL + xHCHO + yROOH	<CLCCHO>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
628	CP20	CLCCHO + OH ⟶ RCO3	3.1000E-12	3.1000E-12	3.1000E-12
629	CP21	CLCCHO + CL ⟶ HCL + RCO3	1.2900E-11	1.2900E-11	1.2900E-11
630	CP22	CLACET ⟶ MECO3 + RO2C + xCL + xHCHO + yROOH	5.0000E-01<CLACET>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
631	CP29	xCL + NO ⟶ NO + CL	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
632	CP30	xCL + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
633	CP31	xCL + NO3 ⟶ NO3 + CL	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
634	CP32	xCL + MEO2 ⟶ MEO2 + 0.50000 * CL	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
635	CP33	xCL + RO2C ⟶ RO2C + 0.50000 * CL	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
636	CP34	xCL + RO2XC ⟶ RO2XC + 0.50000 * CL	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
637	CP35	xCL + MECO3 ⟶ MECO3 + CL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
638	CP36	xCL + RCO3 ⟶ RCO3 + CL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
639	CP37	xCL + BZCO3 ⟶ BZCO3 + CL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
640	CP38	xCL + MACO3 ⟶ MACO3 + CL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
641	CP39	xCLCCHO + NO ⟶ NO + CLCCHO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
642	CP40	xCLCCHO + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
643	CP41	xCLCCHO + NO3 ⟶ NO3 + CLCCHO	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
644	CP42	xCLCCHO + MEO2 ⟶ MEO2 + 0.50000 * CLCCHO	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
645	CP43	xCLCCHO + RO2C ⟶ RO2C + 0.50000 * CLCCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
646	CP44	xCLCCHO + RO2XC ⟶ RO2XC + 0.50000 * CLCCHO	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
647	CP45	xCLCCHO + MECO3 ⟶ MECO3 + CLCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
648	CP46	xCLCCHO + RCO3 ⟶ RCO3 + CLCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
649	CP47	xCLCCHO + BZCO3 ⟶ BZCO3 + CLCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
650	CP48	xCLCCHO + MACO3 ⟶ MACO3 + CLCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
651	CP49	xCLACET + NO ⟶ NO + CLACET	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
652	CP50	xCLACET + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
653	CP51	xCLACET + NO3 ⟶ NO3 + CLACET	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
654	CP52	xCLACET + MEO2 ⟶ MEO2 + 0.50000 * CLACET	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
655	CP53	xCLACET + RO2C ⟶ RO2C + 0.50000 * CLACET	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
656	CP54	xCLACET + RO2XC ⟶ RO2XC + 0.50000 * CLACET	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
657	CP55	xCLACET + MECO3 ⟶ MECO3 + CLACET	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
658	CP56	xCLACET + RCO3 ⟶ RCO3 + CLACET	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
659	CP57	xCLACET + BZCO3 ⟶ BZCO3 + CLACET	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
660	CP58	xCLACET + MACO3 ⟶ MACO3 + CLACET	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
661	CE01	CL + CH4 ⟶ HCL + MEO2	7.3000E-12exp( -1.2800E+03/T)	9.9732E-14	6.9660E-14
662	CE02	ETHENE + CL ⟶ xHO2 + 2.00000 * RO2C + xHCHO + CLCHO	k_o = 1.6000E-29exp( 0.00/T)(T/300)^-3.30 k_inf = 3.1000E-10exp( 0.00/T)(T/300)^-1.00 n = 1.00; F = 0.60	1.0603E-10	1.1616E-10
663	TE01	PROPENE + CL ⟶ 0.12400 * HCL + 0.97100 * xHO2 + 0.97100 * RO2C + 0.02900 * RO2XC + 0.02900 * zRNO3 + 0.12400 * xACROLEIN + 0.30600 * xCLCCHO + 0.54000 * xCLACET + yROOH	2.6700E-10	2.6700E-10	2.6700E-10
664	TE02	BUTADIENE13 + CL ⟶ 0.39000 * xHO2 + 0.54100 * xCL + 1.88400 * RO2C + 0.06900 * RO2XC + 0.06900 * zRNO3 + 0.86300 * xHCHO + 0.45700 * xACROLEIN + 0.47300 * xIPRD + yROOH	4.9000E-10	4.9000E-10	4.9000E-10
665	CE03	ISOPRENE + CL ⟶ 0.15000 * HCL + 0.73800 * xHO2 + 0.17700 * xCL + 1.16800 * RO2C + 0.08500 * RO2XC + 0.08500 * zRNO3 + 0.27500 * xHCHO + 0.17700 * xMVK + 0.67100 * xIPRD + 0.06700 * xCLCCHO + yR6OOH	4.8000E-10	4.8000E-10	4.8000E-10
666	TE03	APIN + CL ⟶ 0.54800 * HCL + 0.25200 * xHO2 + 0.06800 * xCL + 0.03400 * xMECO3 + 0.05000 * xRCO3 + 0.01600 * xMACO3 + 2.25800 * RO2C + 0.58200 * RO2XC + 0.58200 * zRNO3 + 0.03500 * xCO + 0.15800 * xHCHO + 0.18500 * xRCHO + 0.27400 * xACETONE + 0.00700 * xGLY + 0.00300 * xBACL + 0.00300 * xMVK + 0.15800 * xIPRD + 0.00600 * xAFG1 + 0.00600 * xAFG2 + 0.00100 * xAFG3 + 0.10900 * xCLCCHO + yR6OOH	5.4600E-10	5.4600E-10	5.4600E-10
667	CE04	ACETYLENE + CL ⟶ HO2 + CO	k_o = 5.2000E-30exp( 0.00/T)(T/300)^-2.40 k_inf = 2.2000E-10exp( 0.00/T)(T/300)^0.00 n = 1.00; F = 0.60	5.0269E-11	5.1105E-11
668	TE04	TOLUENE + CL ⟶ 0.89400 * xHO2 + 0.89400 * RO2C + 0.10600 * RO2XC + 0.10600 * zRNO3 + 0.89400 * xBALD	6.2000E-11	6.2000E-11	6.2000E-11
669	TE05	MXYL + CL ⟶ 0.86400 * xHO2 + 0.86400 * RO2C + 0.13600 * RO2XC + 0.13600 * zRNO3 + 0.86400 * xBALD	1.3500E-10	1.3500E-10	1.3500E-10
670	TE06	OXYL + CL ⟶ 0.86400 * xHO2 + 0.86400 * RO2C + 0.13600 * RO2XC + 0.13600 * zRNO3 + 0.86400 * xBALD	1.4000E-10	1.4000E-10	1.4000E-10
671	TE07	PXYL + CL ⟶ 0.86400 * xHO2 + 0.86400 * RO2C + 0.13600 * RO2XC + 0.13600 * zRNO3 + 0.86400 * xBALD	1.4400E-10	1.4400E-10	1.4400E-10
672	TE08	TMBENZ124 + CL ⟶ 0.83800 * xHO2 + 0.83800 * RO2C + 0.16200 * RO2XC + 0.16200 * zRNO3 + 0.83800 * xBALD	2.4200E-10	2.4200E-10	2.4200E-10
673	TE09	ETOH + CL ⟶ HCL + 0.68800 * HO2 + 0.31200 * xHO2 + 0.31200 * RO2C + 0.50300 * xHCHO + 0.68800 * CCHO + 0.06100 * xHOCCHO + 0.31200 * yROOH	8.6000E-11exp( 4.5000E+01/T)	1.0001E-10	1.0128E-10
674	BC01	ALK1 + CL ⟶ HCL + xHO2 + RO2C + xCCHO + yROOH	8.3000E-11exp( -1.0000E+02/T)	5.9349E-11	5.7708E-11
675	BC02	ALK2 + CL ⟶ HCL + 0.97000 * xHO2 + 0.97000 * RO2C + 0.03000 * RO2XC + 0.03000 * zRNO3 + 0.48200 * xRCHO + 0.48800 * xACETONE + yROOH	1.2000E-10exp( 4.0000E+01/T)	1.3723E-10	1.3878E-10
676	BC03	ALK3 + CL ⟶ HCL + 0.83500 * xHO2 + 0.09400 * xTBUO + 1.36100 * RO2C + 0.07000 * RO2XC + 0.07000 * zRNO3 + 0.07800 * xHCHO + 0.34000 * xCCHO + 0.34300 * xRCHO + 0.07500 * xACETONE + 0.25300 * xMEK + 0.98300 * yROOH + 0.01700 * yR6OOH	1.8600E-10	1.8600E-10	1.8600E-10
677	BC04	ALK4 + CL ⟶ HCL + 0.82700 * xHO2 + 0.00300 * xMEO2 + 0.00400 * xMECO3 + 1.73700 * RO2C + 0.16500 * RO2XC + 0.16500 * zRNO3 + 0.00300 * xCO + 0.03400 * xHCHO + 0.28700 * xCCHO + 0.41200 * xRCHO + 0.24700 * xACETONE + 0.07600 * xMEK + 0.13000 * xPROD2 + yR6OOH	2.6300E-10	2.6300E-10	2.6300E-10
678	BC05	ALK5 + CL ⟶ HCL + 0.64700 * xHO2 + 1.54100 * RO2C + 0.35200 * RO2XC + 0.35200 * zRNO3 + 0.02200 * xHCHO + 0.08000 * xCCHO + 0.25800 * xRCHO + 0.04400 * xACETONE + 0.04100 * xMEK + 0.37800 * xPROD2 + yR6OOH	4.2100E-10	4.2100E-10	4.2100E-10
679	BC06	OLE1 + CL ⟶ 0.38400 * HCL + 0.87300 * xHO2 + 1.60800 * RO2C + 0.12700 * RO2XC + 0.12700 * zRNO3 + 0.03600 * xHCHO + 0.20600 * xCCHO + 0.07200 * xRCHO + 0.21500 * xACROLEIN + 0.01900 * xMVK + 0.03800 * xIPRD + 0.19200 * xCLCCHO + 0.33700 * xCLACET + 0.16900 * yROOH + 0.83100 * yR6OOH	3.9200E-10	3.9200E-10	3.9200E-10
680	BC07	OLE2 + CL ⟶ 0.27900 * HCL + 0.45000 * xHO2 + 0.44200 * xCL + 0.00100 * xMEO2 + 1.49200 * RO2C + 0.10600 * RO2XC + 0.10600 * zRNO3 + 0.19000 * xHCHO + 0.38300 * xCCHO + 0.31700 * xRCHO + 0.08600 * xACETONE + 0.04200 * xMEK + 0.02500 * xMACR + 0.05800 * xMVK + 0.16100 * xIPRD + 0.01300 * xCLCCHO + 0.19100 * xCLACET + 0.31900 * yROOH + 0.68100 * yR6OOH	3.7700E-10	3.7700E-10	3.7700E-10
681	BC08	ARO1 + CL ⟶ 0.84000 * xHO2 + 0.84000 * RO2C + 0.16000 * RO2XC + 0.16000 * zRNO3 + 0.84000 * xPROD2	2.1600E-10	2.1600E-10	2.1600E-10
682	BC09a	ARO2MN + CL ⟶ 0.82800 * xHO2 + 0.82800 * RO2C + 0.17200 * RO2XC + 0.17200 * zRNO3 + 0.46900 * xBALD + 0.35900 * xPROD2	2.6600E-10	2.6600E-10	2.6600E-10
683	BC09b	NAPHTHAL + CL ⟶ 0.82800 * xHO2 + 0.82800 * RO2C + 0.17200 * RO2XC + 0.17200 * zRNO3 + 0.46900 * xBALD + 0.35900 * xPROD2	2.6600E-10	2.6600E-10	2.6600E-10
684	BC10	TERP + CL ⟶ 0.54800 * HCL + 0.25200 * xHO2 + 0.06800 * xCL + 0.03400 * xMECO3 + 0.05000 * xRCO3 + 0.01600 * xMACO3 + 2.25800 * RO2C + 0.58200 * RO2XC + 0.58200 * zRNO3 + 0.03500 * xCO + 0.15800 * xHCHO + 0.18500 * xRCHO + 0.27400 * xACETONE + 0.00700 * xGLY + 0.00300 * xBACL + 0.00300 * xMVK + 0.15800 * xIPRD + 0.00600 * xAFG1 + 0.00600 * xAFG2 + 0.00100 * xAFG3 + 0.10900 * xCLCCHO + yR6OOH	5.4600E-10	5.4600E-10	5.4600E-10
685	BC11	SESQ + CL ⟶ 0.25200 * xHO2 + 0.06800 * xCL + 0.03400 * xMECO3 + 0.05000 * xRCO3 + 0.01600 * xMACO3 + 2.25800 * RO2C + 0.58200 * RO2XC + 0.58200 * zRNO3 + 0.54800 * HCL + 0.03500 * xCO + 0.15800 * xHCHO + 0.18500 * xRCHO + 0.27400 * xACETONE + 0.00700 * xGLY + 0.00300 * xBACL + 0.00300 * xMVK + 0.15800 * xIPRD + 0.00600 * xAFG1 + 0.00600 * xAFG2 + 0.00100 * xAFG3 + 0.10900 * xCLCCHO + yR6OOH	<BC10>	5.4600E-10	5.4600E-10	Rate constant multiple of constant for listed reaction
686	AE51	BENZRO2 + NO ⟶ NO + 0.03400 * SVAVB2 + 0.39200 * SVAVB4	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
687	AE52	BENZRO2 + HO2 ⟶ HO2 + 0.14600 * SVAVB1	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
688	AE53	XYLRO2 + NO ⟶ NO + 0.01500 * SVAVB2 + 0.02300 * SVAVB3 + 0.06000 * SVAVB4	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
689	AE54	XYLRO2 + HO2 ⟶ HO2 + 0.19300 * SVAVB1	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
690	AE55	TOLRO2 + NO ⟶ NO + 0.01600 * SVAVB2 + 0.05100 * SVAVB3 + 0.04700 * SVAVB4	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
691	AE56	TOLRO2 + HO2 ⟶ HO2 + 0.14000 * SVAVB1	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
692	AE57	PAHRO2 + NO ⟶ NO + 0.02800 * SVAVB2 + 0.22500 * SVAVB3 + 0.19100 * SVAVB4	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
693	AE58	PAHRO2 + HO2 ⟶ HO2 + 0.47300 * SVAVB1	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
694	TR01	HCHO_PRIMARY ⟶	<HCHOR_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
695	TR02	HCHO_PRIMARY ⟶	<HCHOM_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
696	TR03	HCHO_PRIMARY + OH ⟶ OH	5.4000E-12exp( 1.3500E+02/T)	8.4926E-12	8.8202E-12
697	TR05	HCHO_PRIMARY + NO3 ⟶ NO3	2.0000E-12exp( -2.4310E+03/T)	5.7539E-16	2.9104E-16
698	TR06	HCHO_PRIMARY + CL ⟶ CL	8.1000E-11exp( -3.0000E+01/T)	7.3246E-11	7.2633E-11
699	TR07	CCHO_PRIMARY + OH ⟶ OH	4.4000E-12exp( 3.6500E+02/T)	1.4967E-11	1.6579E-11
700	TR08	CCHO_PRIMARY ⟶	<CCHO_R>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
701	TR09	CCHO_PRIMARY + NO3 ⟶ NO3	1.4000E-12exp( -1.8600E+03/T)	2.7340E-15	1.6230E-15
702	TR10	CCHO_PRIMARY + CL ⟶ CL	8.0000E-11	8.0000E-11	8.0000E-11
703	TR11	ACRO_PRIMARY + OH ⟶ OH	1.9900E-11	1.9900E-11	1.9900E-11
704	TR12	ACRO_PRIMARY + O3 ⟶ O3	1.4000E-15exp( -2.5280E+03/T)	2.9091E-19	1.4320E-19
705	TR13	ACRO_PRIMARY + NO3 ⟶ NO3	1.1800E-15	1.1800E-15	1.1800E-15
706	TR14	ACRO_PRIMARY + O3P ⟶ O3P	2.3700E-12	2.3700E-12	2.3700E-12
707	TR15	ACRO_PRIMARY ⟶	<ACRO_09>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
708	TR16	ACRO_PRIMARY + CL ⟶ CL	2.9400E-10	2.9400E-10	2.9400E-10
709	IS1	ISOPRENE + OH ⟶ ISOPO2 + ISOPRXN	2.5400E-11exp( 4.1000E+02/T)	1.0047E-10	1.1271E-10
710	IS2	ISOPO2 + NO ⟶ 0.40000 * MVK + 0.26000 * MACR + 0.88300 * NO2 + 0.07000 * ISOPND + 0.04700 * ISOPNB + 0.66000 * HCHO + 0.10000 * HC5 + 0.04300 * ARO2MN + 0.08000 * DIBOO + 0.80300 * HO2	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
711	IS3	ISOPO2 + HO2 ⟶ 0.88000 * ISOPOOH + 0.12000 * OH + 0.04700 * MACR + 0.07300 * MVK + 0.12000 * HO2 + 0.12000 * HCHO	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
712	IS4	ISOPO2 + MEO2 ⟶ 0.95000 * HO2 + 1.12000 * HCHO + 0.23000 * MVK + 0.15000 * MACR + 0.05000 * DIBOO + 0.06000 * HC5 + 0.02000 * ARO2MN + 0.50000 * PRD2 + 0.25000 * MEOH	1.8000E-12	1.8000E-12	1.8000E-12
713	IS5	ISOPO2 + RO2C ⟶ 0.45000 * HO2 + 0.37000 * HCHO + 0.23000 * MVK + 0.15000 * MACR + 0.05000 * DIBOO + 0.06000 * HC5 + 0.02000 * ARO2MN + 0.50000 * PRD2	6.8000E-13	6.8000E-13	6.8000E-13
714	IS6	ISOPO2 + ISOPO2 ⟶ 0.91000 * HO2 + 0.75000 * HCHO + 0.45000 * MVK + 0.29000 * MACR + 0.09000 * DIBOO + 0.11000 * HC5 + 0.05000 * ARO2MN + PRD2	2.3000E-12	2.3000E-12	2.3000E-12
715	IS7	ISOPO2 + MECO3 ⟶ MEO2 + CO2 + 0.91000 * HO2 + 0.75000 * HCHO + 0.45000 * MVK + 0.29000 * MACR + 0.09000 * DIBOO + 0.11000 * HC5 + 0.05000 * ARO2MN	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
716	IS107	ISOPO2 ⟶ HO2 + HPALD	4.0700E+08exp( -7.6940E+03/T)	2.5251E-03	2.9204E-04
717	IS137	HPALD ⟶ OH + HO2 + 0.50000 * HACET + 0.50000 * MGLY + 0.25000 * HOCCHO + 0.25000 * GLY + HCHO	<HPALD>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
718	IS138	HPALD + OH ⟶ OH + PRD2	4.6000E-11	4.6000E-11	4.6000E-11
719	IS9	ISOPRENE + NO3 ⟶ NISOPO2	3.0300E-12exp( -4.4800E+02/T)	6.7433E-13	5.9473E-13
720	IS10	NISOPO2 + NO3 ⟶ 0.70000 * NIT1 + 0.03500 * MVK + 0.03500 * MACR + 1.30000 * NO2 + 0.80000 * HO2 + 0.07000 * HCHO + 0.23000 * HC5	2.3000E-12	2.3000E-12	2.3000E-12
721	IS11	NISOPO2 + NO ⟶ 0.70000 * NIT1 + 0.03500 * MVK + 0.03500 * MACR + 1.30000 * NO2 + 0.80000 * HO2 + 0.07000 * HCHO + 0.23000 * HC5	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
722	IS12	NISOPO2 + HO2 ⟶ NISOPOOH	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
723	IS13	NISOPO2 + MEO2 ⟶ 0.60000 * NIT1 + 0.01750 * MVK + 0.01750 * MACR + 0.15000 * NO2 + 0.90000 * HO2 + 0.78500 * HCHO + 0.11500 * HC5 + 0.25000 * ISOPND + 0.25000 * MEOH	1.3000E-12	1.3000E-12	1.3000E-12
724	IS14	NISOPO2 + RO2C ⟶ 0.60000 * NIT1 + 0.01750 * MVK + 0.01750 * MACR + 0.15000 * NO2 + 0.40000 * HO2 + 0.03500 * HCHO + 0.11500 * HC5 + 0.25000 * ISOPND	6.0400E-13	6.0400E-13	6.0400E-13
725	IS140	NISOPO2 + NISOPO2 ⟶ 1.20000 * NIT1 + 0.03500 * MVK + 0.03500 * MACR + 0.30000 * NO2 + 0.80000 * HO2 + 0.07000 * HCHO + 0.23000 * HC5 + 0.50000 * ISOPND	1.2000E-12	1.2000E-12	1.2000E-12
726	IS15	NISOPO2 + MECO3 ⟶ MEO2 + CO2 + 0.70000 * NIT1 + 0.03500 * MVK + 0.03500 * MACR + 0.30000 * NO2 + 0.80000 * HO2 + 0.07000 * HCHO + 0.23000 * HC5	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
727	IS17	HC5 + OH ⟶ HC5OO	1.4200E-11exp( 6.1000E+02/T)	1.0986E-10	1.3035E-10
728	IS18	HC5OO + NO ⟶ NO2 + 0.23400 * HOCCHO + 0.23400 * MGLY + 0.21600 * GLY + 0.21600 * HACET + 0.29000 * DHMOB + 0.17000 * RCOOH + 0.09000 * PRD2 + 0.09000 * CO + HO2	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
729	IS19	HC5OO + HO2 ⟶ R6OOH	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
730	IS20	HC5OO + MEO2 ⟶ 0.11700 * HOCCHO + 0.11700 * MGLY + 0.10800 * GLY + 0.10800 * HACET + 0.14500 * DHMOB + 0.08500 * RCOOH + 0.54500 * PRD2 + 0.04500 * CO + HO2 + 0.75000 * HCHO + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
731	IS21	HC5OO + RO2C ⟶ 0.11700 * HOCCHO + 0.11700 * MGLY + 0.10800 * GLY + 0.10800 * HACET + 0.14500 * DHMOB + 0.08500 * RCOOH + 0.54500 * PRD2 + 0.04500 * CO + 0.50000 * HO2	3.5000E-14	3.5000E-14	3.5000E-14
732	IS22	HC5OO + MECO3 ⟶ MEO2 + CO2 + 0.23400 * HOCCHO + 0.23400 * MGLY + 0.21600 * GLY + 0.21600 * HACET + 0.29000 * DHMOB + 0.17000 * RCOOH + 0.09000 * PRD2 + 0.09000 * CO + HO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
733	IS24	HC5 + O3 ⟶ 0.50000 * MGLY + 0.35000 * GLY + 0.79000 * OH + 0.02000 * HCHO + 0.35000 * HOCCHO + 0.59000 * CO + 0.15000 * HACET + 0.13000 * RCOOH + 0.08000 * CO2 + 0.60000 * HO2 + 0.35000 * MECO3	3.9400E-15exp( -1.5200E+03/T)	2.4067E-17	1.5716E-17
734	IS25	ISOPND + OH ⟶ ISOPNOOD	1.2000E-11exp( 6.5200E+02/T)	1.0688E-10	1.2832E-10
735	IS26	ISOPNOOD + NO ⟶ 0.34000 * PRD2 + 0.15000 * PROPNN + 0.44000 * HACET + 0.07000 * MVKN + 0.13000 * ETHLN + 0.31000 * HCOOH + 0.31000 * NO3 + 0.72000 * HCHO + 0.15000 * HOCCHO + 1.34000 * NO2 + 0.35000 * HO2	2.4000E-12exp( 3.6000E+02/T)	8.0278E-12	8.8804E-12
736	IS141	ISOPNOOD + HO2 ⟶ RNO3I	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
737	IS142	ISOPNOOD + MEO2 ⟶ 0.17000 * PRD2 + 0.07500 * PROPNN + 0.22000 * HACET + 0.03500 * MVKN + 0.06500 * ETHLN + 0.15500 * HCOOH + 0.15500 * NO3 + 1.11000 * HCHO + 0.07500 * HOCCHO + 0.17000 * NO2 + 0.67500 * HO2 + 0.50000 * RNO3I + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
738	IS143	ISOPNOOD + RO2C ⟶ 0.17000 * PRD2 + 0.07500 * PROPNN + 0.22000 * HACET + 0.03500 * MVKN + 0.06500 * ETHLN + 0.15500 * HCOOH + 0.15500 * NO3 + 0.36000 * HCHO + 0.07500 * HOCCHO + 0.17000 * NO2 + 0.17500 * HO2 + 0.50000 * RNO3I	3.5000E-14	3.5000E-14	3.5000E-14
739	IS144	ISOPNOOD + MECO3 ⟶ MEO2 + CO2 + 0.34000 * PRD2 + 0.15000 * PROPNN + 0.44000 * HACET + 0.07000 * MVKN + 0.13000 * ETHLN + 0.31000 * HCOOH + 0.31000 * NO3 + 0.72000 * HCHO + 0.15000 * HOCCHO + 0.34000 * NO2 + 0.35000 * HO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
740	IS27	ISOPND + O3 ⟶ 0.36000 * ETHLN + 0.29000 * PROPNN + 0.70000 * MGLY + 0.12000 * RCOOH + 0.39000 * HO2 + 0.03800 * HCHO + 0.02900 * CO + 0.73000 * OH + 0.01700 * CO2 + 0.36000 * NO2 + 0.16000 * HACET + 0.34000 * HOCCHO	2.9000E-17	2.9000E-17	2.9000E-17
741	IS28	ISOPNB + OH ⟶ ISOPNOOB	2.4000E-12exp( 7.4500E+02/T)	2.9201E-11	3.5984E-11
742	IS29	ISOPNOOB + NO ⟶ 0.60000 * HOCCHO + 0.60000 * HACET + 0.40000 * HCHO + 0.40000 * HO2 + 0.26000 * MACRN + 0.14000 * MVKN + 1.60000 * NO2	2.4000E-12exp( 3.6000E+02/T)	8.0278E-12	8.8804E-12
743	IS145	ISOPNOOB + HO2 ⟶ RNO3I	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
744	IS146	ISOPNOOB + MEO2 ⟶ 0.30000 * HOCCHO + 0.30000 * HACET + 0.95000 * HCHO + 0.70000 * HO2 + 0.13000 * MACRN + 0.07000 * MVKN + 0.30000 * NO2 + 0.50000 * RNO3I + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
745	IS147	ISOPNOOB + RO2C ⟶ 0.30000 * HOCCHO + 0.30000 * HACET + 0.20000 * HCHO + 0.20000 * HO2 + 0.13000 * MACRN + 0.07000 * MVKN + 0.30000 * NO2 + 0.50000 * RNO3I	3.5000E-14	3.5000E-14	3.5000E-14
746	IS148	ISOPNOOB + MECO3 ⟶ MEO2 + CO2 + 0.60000 * HOCCHO + 0.60000 * HACET + 0.40000 * HCHO + 0.40000 * HO2 + 0.26000 * MACRN + 0.14000 * MVKN + 0.60000 * NO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
747	IS30	ISOPNB + O3 ⟶ 0.12000 * MVKN + 0.32000 * MACRN + 0.34000 * OH + 0.08000 * HO2 + 0.26000 * CO + 0.07000 * CO2 + 0.16000 * HCOOH + 0.56000 * HCHO + 0.28000 * RNO3I + 0.04000 * HACET + 0.28000 * NO2 + 0.24000 * BACL	3.7000E-19	3.7000E-19	3.7000E-19
748	IS31	NIT1 + NO3 ⟶ 0.60000 * NIT1NO3OOA + 0.60000 * HNO3 + 0.40000 * NIT1NO3OOB	3.1500E-13exp( -4.4800E+02/T)	7.0104E-14	6.1829E-14
749	IS32	NIT1NO3OOA + NO3 ⟶ NO2 + PROPNN + CO + CO2 + HO2	4.0000E-12	4.0000E-12	4.0000E-12
750	IS34	NIT1NO3OOA + NO ⟶ NO2 + PROPNN + CO + CO2 + HO2	<BR31>	2.0957E-11	2.3053E-11	Rate constant multiple of constant for listed reaction
751	IS109	NIT1NO3OOA + NO2 ⟶ MAPAN	<BR28>	1.2180E-11	1.3273E-11	Rate constant multiple of constant for listed reaction
752	IS36	NIT1NO3OOA + HO2 ⟶ 0.75000 * RCOOOH + 0.25000 * RCOOH + 0.25000 * O3	<BR22>	1.3916E-11	1.8316E-11	Rate constant multiple of constant for listed reaction
753	IS38	NIT1NO3OOA + RO2C ⟶ PROPNN + CO + CO2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
754	IS40	NIT1NO3OOA + MEO2 ⟶ PROPNN + CO + CO2 + 2.00000 * HO2 + HCHO	<BR24>	1.0699E-11	1.2309E-11	Rate constant multiple of constant for listed reaction
755	IS41	NIT1NO3OOA + MECO3 ⟶ MEO2 + 2.00000 * CO2 + PROPNN + CO + HO2	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
756	IS33	NIT1NO3OOB + NO3 ⟶ ISOPNN + GLY + NO2	2.3000E-12	2.3000E-12	2.3000E-12
757	IS35	NIT1NO3OOB + NO ⟶ 0.94000 * ISOPNN + 0.94000 * GLY + 0.94000 * NO2 + 0.06000 * RNO3I	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
758	IS37	NIT1NO3OOB + HO2 ⟶ RNO3I	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
759	IS39	NIT1NO3OOB + RO2C ⟶ 0.70000 * ISOPNN + 0.70000 * GLY + 0.30000 * RNO3I	3.5000E-14	3.5000E-14	3.5000E-14
760	IS43	NIT1NO3OOB + MEO2 ⟶ 0.70000 * ISOPNN + 0.70000 * GLY + 0.30000 * RNO3I + 0.75000 * HCHO + 0.25000 * MEOH + 0.50000 * HO2	2.0000E-13	2.0000E-13	2.0000E-13
761	IS44	NIT1NO3OOB + MECO3 ⟶ MEO2 + CO2 + ISOPNN + GLY	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
762	IS46	NIT1 + O3 ⟶ 0.30000 * PROPNN + 0.45000 * CO + 0.85000 * OH + 0.45000 * HO2 + 0.15000 * CO2 + 0.70000 * GLY + 0.70000 * NO2 + 0.70000 * MGLY	4.1500E-15exp( -1.5200E+03/T)	2.5349E-17	1.6554E-17
763	IS47	NIT1 + OH ⟶ 0.34500 * NIT1NO3OOA + 0.65500 * NIT1OHOO	7.4800E-12exp( 4.1000E+02/T)	2.9588E-11	3.3193E-11
764	IS48	NIT1OHOO + NO ⟶ 0.91900 * PROPNN + 0.91900 * GLY + 0.01500 * CO + 0.08100 * RNO3I + 0.93400 * NO2 + 0.93400 * HO2	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
765	IS50	NIT1OHOO + HO2 ⟶ R6OOH	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
766	IS51	NIT1OHOO + RO2C ⟶ 0.68900 * PROPNN + 0.68900 * GLY + 0.01100 * CO + 0.31100 * RNO3I + 0.70000 * HO2	3.5000E-14	3.5000E-14	3.5000E-14
767	IS52	NIT1OHOO + MEO2 ⟶ 0.68900 * PROPNN + 0.68900 * GLY + 0.01100 * CO + 0.31100 * RNO3I + 1.20000 * HO2 + 0.75000 * HCHO + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
768	IS53	NIT1OHOO + MECO3 ⟶ MEO2 + CO2 + 0.98400 * PROPNN + 0.98400 * GLY + 0.01600 * CO + 0.01600 * RNO3I + HO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
769	IS55	DIBOO + NO ⟶ NO2 + HO2 + 0.52000 * HOCCHO + 0.52000 * MGLY + 0.48000 * GLY + 0.48000 * HACET	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
770	IS102	DIBOO + HO2 ⟶ R6OOH	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
771	IS103	DIBOO + MEO2 ⟶ HO2 + 0.26000 * HOCCHO + 0.26000 * MGLY + 0.24000 * GLY + 0.24000 * HACET + 0.50000 * PRD2 + 0.75000 * HCHO + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
772	IS104	DIBOO + RO2C ⟶ 0.50000 * HO2 + 0.26000 * HOCCHO + 0.26000 * MGLY + 0.24000 * GLY + 0.24000 * HACET + 0.50000 * PRD2	3.5000E-14	3.5000E-14	3.5000E-14
773	IS105	DIBOO + MECO3 ⟶ HO2 + 0.52000 * HOCCHO + 0.52000 * MGLY + 0.48000 * GLY + 0.48000 * HACET + MEO2 + CO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
774	IS56	MVK + OH ⟶ MVKOO	2.6000E-12exp( 6.1000E+02/T)	2.0115E-11	2.3867E-11
775	IS57	MVKOO + NO ⟶ 0.62500 * HOCCHO + 0.62500 * MECO3 + 0.26500 * MGLY + 0.26500 * HCHO + 0.26500 * HO2 + 0.11000 * MVKN + 0.89000 * NO2	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
776	IS58	MVKOO + HO2 ⟶ ROOH	1.8200E-13exp( 1.3000E+03/T)	1.4246E-11	2.0511E-11
777	IS59	MVKOO + MEO2 ⟶ 0.35000 * HOCCHO + 0.35000 * MECO3 + 0.15000 * MGLY + 0.90000 * HCHO + 0.65000 * HO2 + 0.50000 * MEK + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
778	IS60	MVKOO + RO2C ⟶ 0.35000 * HOCCHO + 0.35000 * MECO3 + 0.15000 * MGLY + 0.15000 * HCHO + 0.15000 * HO2 + 0.50000 * MEK	3.5000E-14	3.5000E-14	3.5000E-14
779	IS61	MVKOO + MECO3 ⟶ MEO2 + CO2 + 0.70000 * HOCCHO + 0.70000 * MECO3 + 0.30000 * MGLY + 0.30000 * HCHO + 0.30000 * HO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
780	IS63	MACROO + NO ⟶ 0.85000 * NO2 + 0.85000 * HO2 + 0.72000 * HACET + 0.72000 * CO + 0.13000 * HCHO + 0.13000 * MGLY + 0.15000 * MACRN	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
781	IS64	MACROO + HO2 ⟶ ROOH	1.8200E-13exp( 1.3000E+03/T)	1.4246E-11	2.0511E-11
782	IS65	MACROO + MEO2 ⟶ HO2 + 0.42400 * HACET + 0.42400 * CO + 0.82600 * HCHO + 0.07600 * MGLY + 0.50000 * PRD2 + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
783	IS66	MACROO + RO2C ⟶ 0.50000 * HO2 + 0.42400 * HACET + 0.42400 * CO + 0.07600 * HCHO + 0.07600 * MGLY + 0.50000 * PRD2	3.5000E-14	3.5000E-14	3.5000E-14
784	IS67	MACROO + MECO3 ⟶ MEO2 + CO2 + HO2 + 0.15000 * MGLY + 0.85000 * HACET + 0.85000 * CO + 0.15000 * HCHO	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
785	IS69	MACO3 + NO ⟶ NO2 + CO + CO2 + HCHO + MEO2	6.7000E-12exp( 3.4000E+02/T)	2.0957E-11	2.3053E-11
786	IS70	MACO3 + HO2 ⟶ 0.30750 * RCOOOH + 0.10250 * RCOOH + 0.15000 * O3 + 0.44000 * OH + 0.44000 * HCHO + 0.44000 * MECO3 + 0.44000 * CO2	<BR22>	1.3916E-11	1.8316E-11	Rate constant multiple of constant for listed reaction
787	IS71	MACO3 + NO3 ⟶ NO2 + CO + CO2 + HCHO + MEO2	4.0000E-12	4.0000E-12	4.0000E-12
788	IS72	MACO3 + MEO2 ⟶ 2.00000 * HCHO + HO2 + CO + CO2 + MEO2	<BR24>	1.0699E-11	1.2309E-11	Rate constant multiple of constant for listed reaction
789	IS73	MACO3 + RO2C ⟶ CO + CO2 + HCHO + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
790	IS74	MACO3 + RO2XC ⟶ CO + CO2 + HCHO + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
791	IS75	MACO3 + MECO3 ⟶ 2.00000 * CO2 + 2.00000 * MEO2 + CO + HCHO	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
792	IS76	MACO3 + RCO3 ⟶ CO + 2.00000 * CO2 + HCHO + MEO2 + RO2C + xHO2 + yROOH + xCCHO	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
793	IS77	MACO3 + BZCO3 ⟶ CO + 2.00000 * CO2 + HCHO + MEO2 + BZO + RO2C	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
794	IS78	MACO3 + MACO3 ⟶ 2.00000 * CO + 2.00000 * CO2 + 2.00000 * HCHO + 2.00000 * MEO2	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
795	IS108	MAPAN + OH ⟶ HACET + CO + NO2	2.9000E-11	2.9000E-11	2.9000E-11
796	IS79	HOCCHO + OH ⟶ 0.75000 * HO2 + 0.25000 * OH + 0.13000 * GLY + 0.52000 * CO + 0.35000 * CO2 + 0.16000 * HCOOH + 0.71000 * HCHO	8.0000E-12	8.0000E-12	8.0000E-12
797	IS80	HACET + OH ⟶ 0.75000 * MGLY + 0.82500 * HO2 + 0.12500 * HCOOH + 0.10000 * OH + 0.12500 * MEO2 + 0.20000 * CO2 + 0.05000 * CO + 0.12500 * CCOOH	2.1500E-12exp( 3.0500E+02/T)	5.9801E-12	6.5140E-12
798	IS81	HACET ⟶ HO2 + MECO3 + HCHO	1.7500E-01<MEK_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
799	IS82	ETHLN + OH ⟶ HCHO + CO2 + NO2	2.9400E-12exp( 3.6500E+02/T)	1.0000E-11	1.1078E-11
800	IS111	ETHLN ⟶ NO2 + HCHO + HO2 + CO	<NOA>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
801	IS83	PROPNN + OH ⟶ MGLY + NO2	4.0000E-13	4.0000E-13	4.0000E-13
802	IS93	ISOPNN + OH ⟶ PROPNN + NO2	4.0000E-13	4.0000E-13	4.0000E-13
803	IS97	PROPNN ⟶ MECO3 + HCHO + NO2	<NOA>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
804	IS98	ISOPNN ⟶ MECO3 + HCHO + 2.00000 * NO2	<IC3ONO2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
805	IS84	MVKN + OH ⟶ 0.65000 * HCOOH + 0.65000 * MGLY + 0.35000 * HCHO + 0.35000 * PYRUACD + NO3	3.5000E-12exp( 1.4000E+02/T)	5.5975E-12	5.8216E-12
806	IS106	MVKN ⟶ MECO3 + NO2 + HOCCHO	<NOA>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
807	IS85	MACRN + OH ⟶ 0.08000 * CCOOH + 0.08000 * HCHO + 0.15000 * NO3 + 0.07000 * HCOOH + 0.07000 * MGLY + 0.85000 * HACET + 0.85000 * NO2 + 0.93000 * CO2	1.2800E-11exp( 4.0500E+02/T)	4.9790E-11	5.5777E-11
808	IS110	MACRN ⟶ HACET + NO2 + CO + HO2	<C2CHO>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
809	IS86	DHMOB + OH ⟶ 1.50000 * CO + 0.50000 * HO2 + 0.50000 * HACET + 0.50000 * PRD2	1.0000E-11	1.0000E-11	1.0000E-11
810	IS87	PYRUACD ⟶ CCHO + CO2	<MGLY_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
811	IS88	ISOPOOH + OH ⟶ IEPOX + OH	1.9000E-11exp( 3.9000E+02/T)	7.0281E-11	7.8402E-11
812	IS89	ISOPOOH + OH ⟶ 0.38700 * ISOPO2 + 0.61300 * HC5 + 0.61300 * OH	4.7500E-12exp( 2.0000E+02/T)	9.2901E-12	9.8259E-12
813	IS90	IEPOX + OH ⟶ IEPOXOO	5.7800E-11exp( -4.0000E+02/T)	1.5110E-11	1.3507E-11
814	IS91	IEPOXOO + HO2 ⟶ 0.72500 * HACET + 0.27500 * HOCCHO + 0.27500 * GLY + 0.27500 * MGLY + 1.12500 * OH + 0.82500 * HO2 + 0.20000 * CO2 + 0.37500 * HCHO + 0.07400 * HCOOH + 0.25100 * CO	2.0600E-13exp( 1.3000E+03/T)	1.6125E-11	2.3215E-11
815	IS96	IEPOXOO + NO ⟶ 0.72500 * HACET + 0.27500 * HOCCHO + 0.27500 * GLY + 0.27500 * MGLY + 0.12500 * OH + 0.82500 * HO2 + 0.20000 * CO2 + 0.37500 * HCHO + 0.07400 * HCOOH + 0.25100 * CO + NO2	2.6000E-12exp( 3.8000E+02/T)	9.3002E-12	1.0346E-11
816	IS112	IEPOXOO + MEO2 ⟶ 0.36300 * HACET + 0.13800 * HOCCHO + 0.13800 * GLY + 0.13800 * MGLY + 0.06300 * OH + 0.91300 * HO2 + 0.10000 * CO2 + 0.93800 * HCHO + 0.03700 * HCOOH + 0.12600 * CO + 0.50000 * PRD2 + 0.25000 * MEOH	2.0000E-13	2.0000E-13	2.0000E-13
817	IS113	IEPOXOO + RO2C ⟶ 0.36300 * HACET + 0.13800 * HOCCHO + 0.13800 * GLY + 0.13800 * MGLY + 0.06300 * OH + 0.41300 * HO2 + 0.10000 * CO2 + 0.18800 * HCHO + 0.03700 * HCOOH + 0.12600 * CO + 0.50000 * PRD2	3.5000E-14	3.5000E-14	3.5000E-14
818	IS114	IEPOXOO + MECO3 ⟶ 0.72500 * HACET + 0.27500 * HOCCHO + 0.27500 * GLY + 0.27500 * MGLY + 0.12500 * OH + 0.82500 * HO2 + 1.20000 * CO2 + 0.37500 * HCHO + 0.07400 * HCOOH + 0.25100 * CO + MEO2	4.4000E-13exp( 1.0700E+03/T)	1.5924E-11	2.1495E-11
819	IS92	ISOPOOH ⟶ OH + 0.91000 * HO2 + 0.75000 * HCHO + 0.45000 * MVK + 0.29000 * MACR + 0.09000 * DIBOO + 0.11000 * HC5 + 0.05000 * ARO2MN	<COOH>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
820	IS94	RNO3I + OH ⟶ NO2 + HO2 + PRD2	8.0000E-12	8.0000E-12	8.0000E-12
821	IS99	NISOPOOH + OH ⟶ RNO3I + OH	5.0000E-11	5.0000E-11	5.0000E-11
822	IS139	NISOPOOH + OH ⟶ 0.30000 * NISOPO2 + 0.70000 * OH + 0.70000 * NIT1	3.8000E-12exp( 2.0000E+02/T)	7.4321E-12	7.8607E-12
823	IS00	MACR + OH ⟶ 0.53000 * MACROO + 0.47000 * IMACO3	8.0000E-12exp( 3.8000E+02/T)	2.8616E-11	3.1833E-11
824	BP56	MACR + NO3 ⟶ 0.50000 * IMACO3 + 0.50000 * RO2C + 0.50000 * HNO3 + 0.50000 * xHO2 + 0.50000 * xCO + 0.50000 * yROOH	1.5000E-12exp( -1.8150E+03/T)	3.4065E-15	2.0479E-15
825	BP58	MACR ⟶ 0.33000 * OH + 0.67000 * HO2 + 0.34000 * MECO3 + 0.33000 * IMACO3 + 0.33000 * RO2C + 0.67000 * CO + 0.34000 * HCHO + 0.33000 * xMECO3 + 0.33000 * xHCHO + 0.33000 * yROOH	<MACR_06>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
826	CP16	MACR + CL ⟶ 0.25000 * HCL + 0.16500 * IMACO3 + 0.80200 * RO2C + 0.03300 * RO2XC + 0.03300 * zRNO3 + 0.80200 * xHO2 + 0.54100 * xCO + 0.08200 * xIPRD + 0.18000 * xCLCCHO + 0.54100 * xCLACET + 0.83500 * yROOH	3.8500E-10	3.8500E-10	3.8500E-10
827	IA69	IMACO3 + NO ⟶ NO2 + CO + CO2 + HCHO + MEO2	6.7000E-12exp( 3.4000E+02/T)	2.0957E-11	2.3053E-11
828	IA70	IMACO3 + HO2 ⟶ 0.75000 * IMPAA + 0.25000 * RCOOH + 0.25000 * O3	<BR22>	1.3916E-11	1.8316E-11	Rate constant multiple of constant for listed reaction
829	IA71	IMACO3 + NO3 ⟶ NO2 + CO + CO2 + HCHO + MEO2	4.0000E-12	4.0000E-12	4.0000E-12
830	IA72	IMACO3 + MEO2 ⟶ 2.00000 * HCHO + HO2 + CO + CO2 + MEO2	<BR24>	1.0699E-11	1.2309E-11	Rate constant multiple of constant for listed reaction
831	IA73	IMACO3 + RO2C ⟶ CO + CO2 + HCHO + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
832	IA74	IMACO3 + RO2XC ⟶ CO + CO2 + HCHO + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
833	IA75	IMACO3 + MECO3 ⟶ 2.00000 * CO2 + 2.00000 * MEO2 + CO + HCHO	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
834	IA76	IMACO3 + RCO3 ⟶ CO + 2.00000 * CO2 + HCHO + MEO2 + RO2C + xHO2 + yROOH + xCCHO	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
835	IA77	IMACO3 + BZCO3 ⟶ CO + 2.00000 * CO2 + HCHO + MEO2 + BZO + RO2C	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
836	IA78	IMACO3 + MACO3 ⟶ 2.00000 * CO + 2.00000 * CO2 + 2.00000 * HCHO + 2.00000 * MEO2	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
837	IA79	IMACO3 + IMACO3 ⟶ 2.00000 * CO + 2.00000 * CO2 + 2.00000 * HCHO + 2.00000 * MEO2	<BR27>	1.5514E-11	1.7848E-11	Rate constant multiple of constant for listed reaction
838	IA80	MACROO ⟶ HACET + CO + OH	2.9000E+07exp( -5.2970E+03/T)	5.5799E-01	1.2637E-01
839	IA51	IMACO3 + NO2 ⟶ IMAPAN	<BR28>	1.2180E-11	1.3273E-11	Rate constant multiple of constant for listed reaction
840	IA52	IMAPAN ⟶ IMACO3 + NO2	1.6000E+16exp( -1.3486E+04/T)	3.6308E-04	8.2781E-06
841	IA53	IMAPAN ⟶ 0.60000 * IMACO3 + 0.60000 * NO2 + 0.40000 * CO2 + 0.40000 * HCHO + 0.40000 * MECO3 + 0.40000 * NO3	<PAN>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
842	IC01	xCO + IMACO3 ⟶ IMACO3 + CO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
843	IC02	xTBUO + IMACO3 ⟶ IMACO3 + TBUO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
844	IC03	xMACO3 + IMACO3 ⟶ IMACO3 + MACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
845	IC04	xRCO3 + IMACO3 ⟶ IMACO3 + RCO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
846	IC05	xMECO3 + IMACO3 ⟶ IMACO3 + MECO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
847	IC06	xMEO2 + IMACO3 ⟶ IMACO3 + MEO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
848	IC07	xNO2 + IMACO3 ⟶ IMACO3 + NO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
849	IC08	xOH + IMACO3 ⟶ IMACO3 + OH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
850	IC09	xHO2 + IMACO3 ⟶ IMACO3 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
851	IC10	xACROLEIN + IMACO3 ⟶ IMACO3 + ACROLEIN	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
852	IC11	xHOCCHO + IMACO3 ⟶ IMACO3 + HOCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
853	IC12	zRNO3 + IMACO3 ⟶ IMACO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
854	IC13	yRAOOH + IMACO3 ⟶ IMACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
855	IC14	yR6OOH + IMACO3 ⟶ IMACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
856	IC15	yROOH + IMACO3 ⟶ IMACO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
857	IC16	xRNO3 + IMACO3 ⟶ IMACO3 + RNO3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
858	IC17	xIPRD + IMACO3 ⟶ IMACO3 + IPRD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
859	IC18	xMVK + IMACO3 ⟶ IMACO3 + MVK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
860	IC19	xMACR + IMACO3 ⟶ IMACO3 + MACR	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
861	IC20	xAFG3 + IMACO3 ⟶ IMACO3 + AFG3	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
862	IC21	xAFG2 + IMACO3 ⟶ IMACO3 + AFG2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
863	IC22	xAFG1 + IMACO3 ⟶ IMACO3 + AFG1	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
864	IC23	xBALD + IMACO3 ⟶ IMACO3 + BALD	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
865	IC24	xBACL + IMACO3 ⟶ IMACO3 + BACL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
866	IC25	xMGLY + IMACO3 ⟶ IMACO3 + MGLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
867	IC26	xGLY + IMACO3 ⟶ IMACO3 + GLY	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
868	IC27	xPROD2 + IMACO3 ⟶ IMACO3 + PRD2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
869	IC28	xMEK + IMACO3 ⟶ IMACO3 + MEK	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
870	IC29	xACETONE + IMACO3 ⟶ IMACO3 + ACETONE	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
871	IC30	xRCHO + IMACO3 ⟶ IMACO3 + RCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
872	IC31	xCCHO + IMACO3 ⟶ IMACO3 + CCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
873	IC32	xHCHO + IMACO3 ⟶ IMACO3 + HCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
874	IC33	xCL + IMACO3 ⟶ IMACO3 + CL	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
875	IC34	xCLACET + IMACO3 ⟶ IMACO3 + CLACET	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
876	IC35	xCLCCHO + IMACO3 ⟶ IMACO3 + CLCCHO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
877	IA108	IMAPAN + OH ⟶ 0.03000 * HACET + 0.03000 * CO + 0.81000 * NO3 + 0.21000 * IMAE + 0.57000 * IHMML + 0.19000 * PAN + 0.19000 * HCHO + 0.19000 * HO2	3.0000E-11	3.0000E-11	3.0000E-11
878	IA90	IMAE + OH ⟶	1.0000E-12	1.0000E-12	1.0000E-12
879	IA91	IHMML + OH ⟶	4.4000E-12	4.4000E-12	4.4000E-12
880	IA92	IMPAA + OH ⟶ 0.83000 * IMACO3 + 0.17000 * IHMML	1.6600E-11	1.6600E-11	1.6600E-11
881	CP07mtp	MTNO3 + CL ⟶ HCL + 0.03800 * NO2 + 0.05500 * HO2 + 1.28200 * RO2C + 0.20200 * RO2XC + 0.20200 * zMTNO3 + 0.00900 * RCHO + 0.01800 * MEK + 0.01200 * PRD2 + 0.05500 * MTNO3 + 0.15900 * xNO2 + 0.54700 * xHO2 + 0.04500 * xHCHO + 0.30000 * xCCHO + 0.02000 * xRCHO + 0.00300 * xACETONE + 0.04100 * xMEK + 0.04600 * xPROD2 + 0.54700 * xMTNO3 + 0.90800 * yR6OOH	1.9200E-10	1.9200E-10	1.9200E-10
882	BP70mtp	MTNO3 + OH ⟶ 0.18900 * HO2 + 0.30500 * xHO2 + 0.01900 * NO2 + 0.31300 * xNO2 + 0.97600 * RO2C + 0.17500 * RO2XC + 0.17500 * zMTNO3 + 0.01100 * xHCHO + 0.42900 * xCCHO + 0.00100 * RCHO + 0.03600 * xRCHO + 0.00400 * xACETONE + 0.01000 * MEK + 0.17000 * xMEK + 0.00800 * PRD2 + 0.03100 * xPROD2 + 0.18900 * MTNO3 + 0.30500 * xMTNO3 + 0.15700 * yROOH + 0.63600 * yR6OOH	7.2000E-12	7.2000E-12	7.2000E-12
883	BP71mtp	MTNO3 ⟶ 0.34400 * HO2 + 0.55400 * xHO2 + NO2 + 0.72100 * RO2C + 0.10200 * RO2XC + 0.10200 * zMTNO3 + 0.07400 * HCHO + 0.06100 * xHCHO + 0.21400 * CCHO + 0.23000 * xCCHO + 0.07400 * RCHO + 0.06300 * xRCHO + 0.00800 * xACETONE + 0.12400 * MEK + 0.08300 * xMEK + 0.19000 * PRD2 + 0.26100 * xPROD2 + 0.06600 * yROOH + 0.59100 * yR6OOH	<IC3ONO2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
884	HET_N02	NO2 ⟶ 0.50000 * HONO + 0.50000 * HNO3	<HETERO_NO2>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
885	HET_N2O5IJ	N2O5 ⟶ HNO3 + H2NO3PIJ	<HETERO_N2O5IJ>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
886	HET_N2O5K	N2O5 ⟶ HNO3 + H2NO3PK	<HETERO_N2O5K>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
887	HET_H2NO3PIJA	H2NO3PIJ ⟶ HNO3	<HETERO_H2NO3PAIJ>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
888	HET_H2NO3PKA	H2NO3PK ⟶ HNO3	<HETERO_H2NO3PAK>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
889	HET_H2NO3PIB	H2NO3PIJ + ACLI ⟶ CLNO2	<HETERO_H2NO3PBIJ>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
890	HET_H2NO3PJB	H2NO3PIJ + ACLJ ⟶ CLNO2	<HETERO_H2NO3PBIJ>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
891	HET_H2NO3PKB	H2NO3PK + ACLK ⟶ CLNO2	<HETERO_H2NO3PBK>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
892	HAL_Ozone	O3 ⟶	min( 2.896E-11exp( 1.200E+01P) + 0.000E+00exp( 0.000E+00P), 2.675E-6)	2.4000E-06	3.5488E-07	Set to zero if sun is below the horizon and if surface does not include sea or surf zones; P equals air pressure in atmospheres
893	HET_IEPOX	IEPOX ⟶ IEPOXP	<HETERO_IEPOX>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
894	HET_IMAE	IMAE ⟶ IMAEP	<HETERO_IMAE>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
895	HET_IHMML	IHMML ⟶ IHMMLP	<HETERO_IMAE>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
896	HET_TETROL	IEPOXP ⟶ AIETETJ	<HETERO_TETROL>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
897	HET_IEPOXOS	IEPOXP ⟶ AIEOSJ	<HETERO_IEPOXOS>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
898	HET_DIM1	IEPOXP + AIETETJ ⟶ ADIMJ	<HETERO_TETROLDIM>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
899	HET_DIM2	IEPOXP + AIEOSJ ⟶ ADIMJ	<HETERO_IEPOXOSDI>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
900	HET_2MG1	IMAEP ⟶ AIMGAJ	<HETERO_2MG>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
901	HET_IMAEOS1	IMAEP ⟶ AIMOSJ	<HETERO_IMAEOS>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
902	HET_2MG2	IHMMLP ⟶ AIMGAJ	<HETERO_2MG>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
903	HET_IMAEOS2	IHMMLP ⟶ AIMOSJ	<HETERO_IMAEOS>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
904	HET_NO3	NO3 ⟶ HNO3	<HETERO_IMAEOS>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
905	OLIG_ISOPRENE1	AISO1J ⟶ 0.50000 * AOLGBJ	9.4882E-06	9.4882E-06	9.4882E-06
906	OLIG_ISOPRENE2	AISO2J ⟶ 0.50000 * AOLGBJ	9.4882E-06	9.4882E-06	9.4882E-06
907	OLIG_SESQT1	ASQTJ ⟶ 1.50000 * AOLGBJ	9.4882E-06	9.4882E-06	9.4882E-06
908	OLIG_AROMATIC1	AAVB2J ⟶ 0.90700 * AOLGAJ	9.4882E-06	9.4882E-06	9.4882E-06
909	OLIG_AROMATIC2	AAVB3J ⟶ 0.92500 * AOLGAJ	9.4882E-06	9.4882E-06	9.4882E-06
910	OLIG_AROMATIC3	AAVB4J ⟶ 0.94300 * AOLGAJ	9.4882E-06	9.4882E-06	9.4882E-06
911	PCSOA	PCVOC + OH ⟶ OH + PCSOARXN	1.2500E-11	1.2500E-11	1.2500E-11
912	POA_AGE1	VLVPO1 + OH ⟶ OH + 0.48570 * VLVPO1 + 0.00620 * VSVPO1 + 0.00250 * VSVPO2 + 0.00260 * VSVPO3 + 0.00230 * VIVPO1 + 0.29440 * VLVOO1 + 0.20210 * VLVOO2 + 0.00190 * VSVOO2 + 0.00230 * VSVOO3	4.0000E-11	4.0000E-11	4.0000E-11
913	POA_AGE2	VSVPO1 + OH ⟶ OH + 0.30030 * VLVPO1 + 0.28620 * VSVPO1 + 0.00410 * VSVPO2 + 0.00350 * VSVPO3 + 0.22390 * VLVOO1 + 0.18200 * VLVOO2	4.0000E-11	4.0000E-11	4.0000E-11
914	POA_AGE3	VSVPO2 + OH ⟶ OH + 0.38560 * VLVPO1 + 0.09500 * VSVPO1 + 0.13730 * VSVPO2 + 0.00050 * VSVPO3 + 0.20510 * VLVOO1 + 0.17640 * VLVOO2	4.0000E-11	4.0000E-11	4.0000E-11
915	POA_AGE4	VSVPO3 + OH ⟶ OH + 0.21810 * VLVPO1 + 0.30630 * VSVPO1 + 0.01530 * VSVPO2 + 0.10430 * VSVPO3 + 0.18930 * VLVOO1 + 0.16680 * VLVOO2	4.0000E-11	4.0000E-11	4.0000E-11
916	POA_AGE5	VIVPO1 + OH ⟶ OH + 0.24120 * VLVPO1 + 0.20890 * VSVPO1 + 0.30000 * VSVPO2 + 0.20280 * VLVOO1 + 0.04710 * VLVOO2	4.0000E-11	4.0000E-11	4.0000E-11
917	POA_AGE6	VLVOO1 + OH ⟶ OH + 0.66640 * VLVOO1 + 0.01430 * VLVOO2 + 0.01230 * VSVOO1 + 0.12390 * VSVOO2 + 0.18310 * VSVOO3	4.0000E-11	4.0000E-11	4.0000E-11
918	POA_AGE7	VLVOO2 + OH ⟶ OH + 0.28580 * VLVOO1 + 0.39310 * VLVOO2 + 0.01390 * VSVOO1 + 0.10270 * VSVOO2 + 0.20450 * VSVOO3	4.0000E-11	4.0000E-11	4.0000E-11
919	POA_AGE8	VSVOO1 + OH ⟶ OH + 0.33030 * VLVOO1 + 0.22720 * VLVOO2 + 0.26070 * VSVOO1 + 0.07020 * VSVOO2 + 0.11160 * VSVOO3	4.0000E-11	4.0000E-11	4.0000E-11
920	POA_AGE9	VSVOO2 + OH ⟶ OH + 0.34440 * VLVOO1 + 0.27490 * VLVOO2 + 0.04910 * VSVOO1 + 0.25770 * VSVOO2 + 0.07390 * VSVOO3	4.0000E-11	4.0000E-11	4.0000E-11
921	POA_AGE10	VSVOO3 + OH ⟶ OH + 0.38860 * VLVOO1 + 0.24210 * VLVOO2 + 0.06400 * VSVOO1 + 0.03850 * VSVOO2 + 0.26670 * VSVOO3	4.0000E-11	4.0000E-11	4.0000E-11
922	IVOC_3	IVOCP3 + OH ⟶ OH + 0.14610 * VLVOO2 + 0.18890 * VSVOO1 + 1.19510 * VSVOO2 + 0.43820 * VSVOO3	2.1800E-11	2.1800E-11	2.1800E-11
923	IVOC_4	IVOCP4 + OH ⟶ OH + 0.12720 * VLVOO2 + 0.15650 * VSVOO1 + 0.98590 * VSVOO2 + 0.45390 * VSVOO3	2.0100E-11	2.0100E-11	2.0100E-11
924	IVOC_5	IVOCP5 + OH ⟶ OH + 0.08230 * VLVOO2 + 0.09910 * VSVOO1 + 0.64040 * VSVOO2 + 0.80890 * VSVOO3	1.7500E-11	1.7500E-11	1.7500E-11
925	IVOC_6	IVOCP6 + OH ⟶ OH + 0.01220 * VLVOO2 + 0.06150 * VSVOO1 + 0.16110 * VSVOO2 + 0.64660 * VSVOO3	2.5600E-11	2.5600E-11	2.5600E-11
926	IVOC_5ARO	IVOCP5ARO + OH ⟶ OH + 0.20740 * VLVOO2 + 0.03070 * VSVOO1 + 0.48080 * VSVOO2 + 0.52710 * VSVOO3	1.7500E-11	1.7500E-11	1.7500E-11
927	IVOC_6ARO	IVOCP6ARO + OH ⟶ OH + 0.02620 * VLVOO2 + 0.13100 * VSVOO1 + 0.30170 * VSVOO2 + 0.00610 * VSVOO3	2.5600E-11	2.5600E-11	2.5600E-11
928	HYD_MT	AMTNO3J ⟶ HNO3 + AMTHYDJ	9.2590E-05	9.2590E-05	9.2590E-05
929	HYD_ISOP	AISOPNNJ ⟶ 2.00000 * HNO3 + 0.50000 * AMTHYDJ	9.2590E-05	9.2590E-05	9.2590E-05
930	HET_GLY	GLY ⟶ AGLYJ	<HETERO_IMAEOS>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
931	HET_MGLY	MGLY ⟶ AGLYJ	<HETERO_IMAEOS>	Not Available	Not Available	Heteorogeneous Reaction;Depends predicted concentrations	Check routine AEROSOL_CHEMISTRY.F for calculation
932	SAALK	SOAALKSOLV + OH ⟶ OH	2.7000E-12exp( 3.7400E+02/T)	9.4655E-12	1.0512E-11
933	SBL14	ARO1SOLV + OH ⟶ 0.12300 * HO2 + 0.56600 * xHO2 + 0.20200 * OH + 0.56600 * RO2C + 0.11000 * RO2XC + 0.11000 * zRNO3 + 0.15800 * xGLY + 0.10000 * xMGLY + 0.12300 * CRES + 0.07200 * xAFG1 + 0.18500 * xAFG2 + 0.20200 * AFG3 + 0.30900 * xPROD2 + 0.36900 * yR6OOH + TOLRO2SOLV	7.8400E-12	7.8400E-12	7.8400E-12
934	SBC08	ARO1SOLV + CL ⟶ 0.84000 * xHO2 + 0.84000 * RO2C + 0.16000 * RO2XC + 0.16000 * zRNO3 + 0.84000 * xPROD2	2.1600E-10	2.1600E-10	2.1600E-10
935	SBT13	TOLUENESOLV + OH ⟶ 0.18100 * HO2 + 0.45400 * xHO2 + 0.31200 * OH + 0.45400 * RO2C + 0.05400 * RO2XC + 0.05400 * zRNO3 + 0.23800 * xGLY + 0.15100 * xMGLY + 0.18100 * CRES + 0.06500 * xBALD + 0.19500 * xAFG1 + 0.19500 * xAFG2 + 0.31200 * AFG3 + 0.07300 * yR6OOH + 0.43500 * yRAOOH + TOLRO2SOLV	1.8100E-12exp( 3.3800E+02/T)	5.6237E-12	6.1827E-12
936	STE04	TOLUENESOLV + CL ⟶ 0.89400 * xHO2 + 0.89400 * RO2C + 0.10600 * RO2XC + 0.10600 * zRNO3 + 0.89400 * xBALD	6.2000E-11	6.2000E-11	6.2000E-11
937	SBL15a	ARO2MNSOLV + OH ⟶ 0.07700 * HO2 + 0.61700 * xHO2 + 0.17800 * OH + 0.61700 * RO2C + 0.12800 * RO2XC + 0.12800 * zRNO3 + 0.08800 * xGLY + 0.31200 * xMGLY + 0.13400 * xBACL + 0.07700 * CRES + 0.02600 * xBALD + 0.22100 * xAFG1 + 0.24700 * xAFG2 + 0.17800 * AFG3 + 0.06800 * xAFG3 + 0.05700 * xPROD2 + 0.10100 * yR6OOH + XYLRO2SOLV	3.0900E-11	3.0900E-11	3.0900E-11
938	SBC09a	ARO2MNSOLV + CL ⟶ 0.82800 * xHO2 + 0.82800 * RO2C + 0.17200 * RO2XC + 0.17200 * zRNO3 + 0.46900 * xBALD + 0.35900 * xPROD2	2.6600E-10	2.6600E-10	2.6600E-10
939	SBT14	MXYLSOLV + OH ⟶ 0.15900 * HO2 + 0.52000 * xHO2 + 0.23900 * OH + 0.52000 * RO2C + 0.08200 * RO2XC + 0.08200 * zRNO3 + 0.10000 * xGLY + 0.38000 * xMGLY + 0.15900 * CRES + 0.04100 * xBALD + 0.33600 * xAFG1 + 0.14400 * xAFG2 + 0.23900 * AFG3 + 0.04700 * yR6OOH + 0.55500 * yRAOOH + XYLRO2SOLV	2.3100E-11	2.3100E-11	2.3100E-11
940	STE05	MXYLSOLV + CL ⟶ 0.86400 * xHO2 + 0.86400 * RO2C + 0.13600 * RO2XC + 0.13600 * zRNO3 + 0.86400 * xBALD	1.3500E-10	1.3500E-10	1.3500E-10
941	SBT15	OXYLSOLV + OH ⟶ 0.16100 * HO2 + 0.55400 * xHO2 + 0.19800 * OH + 0.55400 * RO2C + 0.08700 * RO2XC + 0.08700 * zRNO3 + 0.08400 * xGLY + 0.23800 * xMGLY + 0.18500 * xBACL + 0.16100 * CRES + 0.04700 * xBALD + 0.25300 * xAFG1 + 0.25300 * xAFG2 + 0.19800 * AFG3 + 0.05500 * yR6OOH + 0.58600 * yRAOOH + XYLRO2SOLV	1.3600E-11	1.3600E-11	1.3600E-11
942	STE06	OXYLSOLV + CL ⟶ 0.86400 * xHO2 + 0.86400 * RO2C + 0.13600 * RO2XC + 0.13600 * zRNO3 + 0.86400 * xBALD	1.4000E-10	1.4000E-10	1.4000E-10
943	SBT16	PXYLSOLV + OH ⟶ 0.15900 * HO2 + 0.48700 * xHO2 + 0.27800 * OH + 0.48700 * RO2C + 0.07600 * RO2XC + 0.07600 * zRNO3 + 0.28600 * xGLY + 0.11200 * xMGLY + 0.15900 * CRES + 0.08800 * xBALD + 0.04500 * xAFG1 + 0.06700 * xAFG2 + 0.27800 * AFG3 + 0.28600 * xAFG3 + 0.10200 * yR6OOH + 0.46100 * yRAOOH + XYLRO2SOLV	1.4300E-11	1.4300E-11	1.4300E-11
944	STE07	PXYLSOLV + CL ⟶ 0.86400 * xHO2 + 0.86400 * RO2C + 0.13600 * RO2XC + 0.13600 * zRNO3 + 0.86400 * xBALD	1.4400E-10	1.4400E-10	1.4400E-10
945	SBT17	TMBENZ124SOLV + OH ⟶ 0.02200 * HO2 + 0.62700 * xHO2 + 0.23000 * OH + 0.62700 * RO2C + 0.12100 * RO2XC + 0.12100 * zRNO3 + 0.07400 * xGLY + 0.40500 * xMGLY + 0.11200 * xBACL + 0.02200 * CRES + 0.03600 * xBALD + 0.08800 * xAFG1 + 0.35200 * xAFG2 + 0.23000 * AFG3 + 0.15100 * xAFG3 + 0.04300 * yR6OOH + 0.70500 * yRAOOH + XYLRO2SOLV	3.2500E-11	3.2500E-11	3.2500E-11
946	STE08	TMBENZ124SOLV + CL ⟶ 0.83800 * xHO2 + 0.83800 * RO2C + 0.16200 * RO2XC + 0.16200 * zRNO3 + 0.83800 * xBALD	2.4200E-10	2.4200E-10	2.4200E-10
947	SBE12	BENZENESOLV + OH ⟶ 0.57000 * HO2 + 0.29000 * xHO2 + 0.11600 * OH + 0.29000 * RO2C + 0.02400 * RO2XC + 0.02400 * zRNO3 + 0.29000 * xGLY + 0.57000 * CRES + 0.02900 * xAFG1 + 0.26100 * xAFG2 + 0.11600 * AFG3 + 0.31400 * yRAOOH + BENZRO2SOLV	2.3300E-12exp( -1.9300E+02/T)	1.2196E-12	1.1554E-12
948	SBL15b	NAPHTHALSOLV + OH ⟶ 0.07700 * HO2 + 0.61700 * xHO2 + 0.17800 * OH + 0.61700 * RO2C + 0.12800 * RO2XC + 0.12800 * zRNO3 + 0.08800 * xGLY + 0.31200 * xMGLY + 0.13400 * xBACL + 0.07700 * CRES + 0.02600 * xBALD + 0.22100 * xAFG1 + 0.24700 * xAFG2 + 0.17800 * AFG3 + 0.06800 * xAFG3 + 0.05700 * xPROD2 + 0.10100 * yR6OOH + PAHRO2SOLV	3.0900E-11	3.0900E-11	3.0900E-11
949	SBC09b	NAPHTHALSOLV + CL ⟶ 0.82800 * xHO2 + 0.82800 * RO2C + 0.17200 * RO2XC + 0.17200 * zRNO3 + 0.46900 * xBALD + 0.35900 * xPROD2	2.6600E-10	2.6600E-10	2.6600E-10
950	SAE51	BENZRO2SOLV + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
951	SAE52	BENZRO2SOLV + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
952	SAE53	XYLRO2SOLV + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
953	SAE54	XYLRO2SOLV + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
954	SAE55	TOLRO2SOLV + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
955	SAE56	TOLRO2SOLV + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
956	SAE57	PAHRO2SOLV + NO ⟶ NO	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
957	SAE58	PAHRO2SOLV + HO2 ⟶ HO2	<BR08>	7.7759E-12	1.0008E-11	Rate constant multiple of constant for listed reaction
958	SBT09	APINSOLV + OH ⟶ 0.79900 * xHO2 + 0.00400 * xRCO3 + 1.04200 * RO2C + 0.19700 * RO2XC + 0.19700 * zRNO3 + 0.00200 * xCO + 0.02200 * xHCHO + 0.77600 * xRCHO + 0.03400 * xACETONE + 0.02000 * xMGLY + 0.02300 * xBACL + yR6OOH	1.2100E-11exp( 4.3600E+02/T)	5.2225E-11	5.9015E-11
959	SBT10	APINSOLV + O3 ⟶ 0.00900 * HO2 + 0.10200 * xHO2 + 0.72800 * OH + 0.00100 * xMECO3 + 0.29700 * xRCO3 + 1.51100 * RO2C + 0.33700 * RO2XC + 0.33700 * zRNO3 + 0.02900 * CO + 0.05100 * xCO + 0.01700 * CO2 + 0.34400 * xHCHO + 0.24000 * xRCHO + 0.34500 * xACETONE + 0.00800 * MEK + 0.00200 * xGLY + 0.08100 * xBACL + 0.25500 * PRD2 + 0.73700 * yR6OOH	5.0000E-16exp( -5.3000E+02/T)	8.4519E-17	7.2849E-17
960	SBT11	APINSOLV + NO3 ⟶ 0.05600 * xHO2 + 0.64300 * xNO2 + 0.00700 * xRCO3 + 1.05000 * RO2C + 0.29300 * RO2XC + 0.29300 * zRNO3 + 0.00500 * xCO + 0.00700 * xHCHO + 0.68400 * xRCHO + 0.06900 * xACETONE + 0.00200 * xMGLY + 0.05600 * xRNO3 + yR6OOH	1.1900E-12exp( 4.9000E+02/T)	6.1560E-12	7.0625E-12
961	SBT12	APINSOLV + O3P ⟶ PRD2	3.2000E-11	3.2000E-11	3.2000E-11
962	STE03	APINSOLV + CL ⟶ 0.54800 * HCL + 0.25200 * xHO2 + 0.06800 * xCL + 0.03400 * xMECO3 + 0.05000 * xRCO3 + 0.01600 * xMACO3 + 2.25800 * RO2C + 0.58200 * RO2XC + 0.58200 * zRNO3 + 0.03500 * xCO + 0.15800 * xHCHO + 0.18500 * xRCHO + 0.27400 * xACETONE + 0.00700 * xGLY + 0.00300 * xBACL + 0.00300 * xMVK + 0.15800 * xIPRD + 0.00600 * xAFG1 + 0.00600 * xAFG2 + 0.00100 * xAFG3 + 0.10900 * xCLCCHO + yR6OOH	5.4600E-10	5.4600E-10	5.4600E-10
963	SBL16	TERPSOLV + OH ⟶ 0.73400 * xHO2 + 0.06400 * xRCO3 + 1.21100 * RO2C + 0.20100 * RO2XC + 0.20100 * zMTNO3SOLV + 0.00100 * xCO + 0.41100 * xHCHO + 0.38500 * xRCHO + 0.03700 * xACETONE + 0.00700 * xMEK + 0.00300 * xMGLY + 0.00900 * xBACL + 0.00300 * xMVK + 0.00200 * xIPRD + 0.40900 * xPROD2 + yR6OOH	2.2700E-11exp( 4.3500E+02/T)	9.7647E-11	1.1031E-10
964	SBL17	TERPSOLV + O3 ⟶ 0.07800 * HO2 + 0.04600 * xHO2 + 0.49900 * OH + 0.20200 * xMECO3 + 0.05900 * xRCO3 + 0.49000 * RO2C + 0.12100 * RO2XC + 0.12100 * zMTNO3SOLV + 0.24900 * CO + 0.06300 * CO2 + 0.12700 * HCHO + 0.03300 * xHCHO + 0.20800 * xRCHO + 0.05700 * xACETONE + 0.00200 * MEK + 0.17200 * HCOOH + 0.06800 * RCOOH + 0.00300 * xMGLY + 0.03900 * xBACL + 0.00200 * xMACR + 0.00100 * xIPRD + 0.50200 * PRD2 + 0.42800 * yR6OOH	8.2800E-16exp( -7.8500E+02/T)	5.9508E-17	4.7752E-17
965	SBL18	TERPSOLV + NO3 ⟶ TERPNRO2SOLV	1.3300E-12exp( 4.9000E+02/T)	6.8802E-12	7.8934E-12
966	SBL19	TERPSOLV + O3P ⟶ 0.23700 * RCHO + 0.76300 * PRD2	4.0200E-11	4.0200E-11	4.0200E-11
967	SBC10	TERPSOLV + CL ⟶ 0.54800 * HCL + 0.25200 * xHO2 + 0.06800 * xCL + 0.03400 * xMECO3 + 0.05000 * xRCO3 + 0.01600 * xMACO3 + 2.25800 * RO2C + 0.58200 * RO2XC + 0.58200 * zRNO3 + 0.03500 * xCO + 0.15800 * xHCHO + 0.18500 * xRCHO + 0.27400 * xACETONE + 0.00700 * xGLY + 0.00300 * xBACL + 0.00300 * xMVK + 0.15800 * xIPRD + 0.00600 * xAFG1 + 0.00600 * xAFG2 + 0.00100 * xAFG3 + 0.10900 * xCLCCHO + yR6OOH	5.4600E-10	5.4600E-10	5.4600E-10
968	SBL18a	TERPNRO2SOLV + NO ⟶ 0.82700 * NO2 + 0.68800 * MTNO3SOLV + 0.42400 * RO2C + 0.22700 * HO2 + 0.02600 * RCO3 + 0.01200 * CO + 0.02300 * HCHO + 0.00200 * HOCCHO + 0.40300 * RCHO + 0.23900 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
969	SBL18b	TERPNRO2SOLV + HO2 ⟶ MTNO3SOLV	2.6500E-13exp( 1.3000E+03/T)	2.0743E-11	2.9864E-11
970	SBL18c	TERPNRO2SOLV + NO3 ⟶ 1.53100 * NO2 + 0.42200 * MTNO3SOLV + 0.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
971	SBL18d	TERPNRO2SOLV + MEO2 ⟶ 0.26600 * NO2 + 0.71100 * MTNO3SOLV + 0.39300 * RO2C + 0.71000 * HO2 + 0.02400 * RCO3 + 0.01100 * CO + 0.77200 * HCHO + 0.00200 * HOCCHO + 0.37300 * RCHO + 0.22200 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD + 0.25000 * MEOH	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
972	SBL18e	TERPNRO2SOLV + RO2C ⟶ 0.26600 * NO2 + 0.71100 * MTNO3SOLV + 0.39300 * RO2C + 0.21000 * HO2 + 0.02400 * RCO3 + 0.01100 * CO + 0.02200 * HCHO + 0.00200 * HOCCHO + 0.37300 * RCHO + 0.22200 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
973	SBL18f	TERPNRO2SOLV + RO2XC ⟶ 0.26600 * NO2 + 0.71100 * MTNO3SOLV + 0.39300 * RO2C + 0.21000 * HO2 + 0.02400 * RCO3 + 0.01100 * CO + 0.02200 * HCHO + 0.00200 * HOCCHO + 0.37300 * RCHO + 0.22200 * ACETONE + 0.00500 * MACR + 0.00100 * MVK + 0.00400 * IPRD	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
974	SBL18g	TERPNRO2SOLV + MECO3 ⟶ 0.53100 * NO2 + 0.42200 * MTNO3SOLV + 0.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + MEO2 + CO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
975	SBL18h	TERPNRO2SOLV + RCO3 ⟶ 0.53100 * NO2 + 0.42200 * MTNO3SOLV + 1.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + CO2 + xHO2 + xCCHO + yROOH	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
976	SBL18i	TERPNRO2SOLV + BZCO3 ⟶ 0.53100 * NO2 + 0.42200 * MTNO3SOLV + 1.78600 * RO2C + 0.42000 * HO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.04300 * HCHO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + CO2 + BZO	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
977	SBL19j	TERPNRO2SOLV + MACO3 ⟶ CO2 + 1.04300 * HCHO + MECO3 + 0.78600 * RO2C + 0.42000 * HO2 + 0.53100 * NO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + 0.42200 * MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
978	SBL19k	TERPNRO2SOLV + IMACO3 ⟶ CO2 + 1.04300 * HCHO + MECO3 + 0.78600 * RO2C + 0.42000 * HO2 + 0.53100 * NO2 + 0.04800 * RCO3 + 0.02200 * CO + 0.00400 * HOCCHO + 0.74600 * RCHO + 0.44300 * ACETONE + 0.00900 * MACR + 0.00200 * MVK + 0.00700 * IPRD + 0.42200 * MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
979	SPZ201	zMTNO3SOLV + NO ⟶ NO + MTNO3SOLV	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
980	SPZ202	zMTNO3SOLV + HO2 ⟶ HO2	2.6500E-13exp( 1.3000E+03/T)	2.0743E-11	2.9864E-11
981	SPZ203	zMTNO3SOLV + NO3 ⟶ NO3 + PRD2 + HO2	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
982	SPZ204	zMTNO3SOLV + MEO2 ⟶ MEO2 + 0.50000 * PRD2 + 0.50000 * HO2	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
983	SPZ205	zMTNO3SOLV + RO2C ⟶ RO2C + 0.50000 * PRD2 + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
984	SPZ206	zMTNO3SOLV + RO2XC ⟶ RO2XC + 0.50000 * PRD2 + 0.50000 * HO2	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
985	SPZ207	zMTNO3SOLV + MECO3 ⟶ MECO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
986	SPZ208	zMTNO3SOLV + RCO3 ⟶ RCO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
987	SPZ209	zMTNO3SOLV + BZCO3 ⟶ BZCO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
988	SPZ210	zMTNO3SOLV + MACO3 ⟶ MACO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
989	SPZ210b	zMTNO3SOLV + IMACO3 ⟶ IMACO3 + PRD2 + HO2	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
990	SCP07mtp	MTNO3SOLV + CL ⟶ HCL + 0.03800 * NO2 + 0.05500 * HO2 + 1.28200 * RO2C + 0.20200 * RO2XC + 0.20200 * zMTNO3SOLV + 0.00900 * RCHO + 0.01800 * MEK + 0.01200 * PRD2 + 0.05500 * MTNO3SOLV + 0.15900 * xNO2 + 0.54700 * xHO2 + 0.04500 * xHCHO + 0.30000 * xCCHO + 0.02000 * xRCHO + 0.00300 * xACETONE + 0.04100 * xMEK + 0.04600 * xPROD2 + 0.54700 * xMTNO3SOLV + 0.90800 * yR6OOH	1.9200E-10	1.9200E-10	1.9200E-10
991	SBP70mtp	MTNO3SOLV + OH ⟶ 0.18900 * HO2 + 0.30500 * xHO2 + 0.01900 * NO2 + 0.31300 * xNO2 + 0.97600 * RO2C + 0.17500 * RO2XC + 0.17500 * zMTNO3SOLV + 0.01100 * xHCHO + 0.42900 * xCCHO + 0.00100 * RCHO + 0.03600 * xRCHO + 0.00400 * xACETONE + 0.01000 * MEK + 0.17000 * xMEK + 0.00800 * PRD2 + 0.03100 * xPROD2 + 0.18900 * MTNO3SOLV + 0.30500 * xMTNO3SOLV + 0.15700 * yROOH + 0.63600 * yR6OOH	7.2000E-12	7.2000E-12	7.2000E-12
992	SBP71mtp	MTNO3SOLV ⟶ 0.34400 * HO2 + 0.55400 * xHO2 + NO2 + 0.72100 * RO2C + 0.10200 * RO2XC + 0.10200 * zMTNO3SOLV + 0.07400 * HCHO + 0.06100 * xHCHO + 0.21400 * CCHO + 0.23000 * xCCHO + 0.07400 * RCHO + 0.06300 * xRCHO + 0.00800 * xACETONE + 0.12400 * MEK + 0.08300 * xMEK + 0.19000 * PRD2 + 0.26100 * xPROD2 + 0.06600 * yROOH + 0.59100 * yR6OOH	<IC3ONO2>	Not Available	Not Available	Photolysis Reaction;depends on radiation and predicted concentrations	Check UTILS/inline_phot_preproc for cross-section and quantum data
993	SPX161	xMTNO3SOLV + NO ⟶ NO + MTNO3SOLV	<BR07>	9.3002E-12	1.0346E-11	Rate constant multiple of constant for listed reaction
994	SPX162	xMTNO3SOLV + HO2 ⟶ HO2	2.6500E-13exp( 1.3000E+03/T)	2.0743E-11	2.9864E-11
995	SPX163	xMTNO3SOLV + NO3 ⟶ NO3 + MTNO3SOLV	<BR09>	2.3000E-12	2.3000E-12	Rate constant multiple of constant for listed reaction
996	SPX164	xMTNO3SOLV + MEO2 ⟶ MEO2 + 0.50000 * MTNO3SOLV	<BR10>	2.0000E-13	2.0000E-13	Rate constant multiple of constant for listed reaction
997	SPX165	xMTNO3SOLV + RO2C ⟶ RO2C + 0.50000 * MTNO3SOLV	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
998	SPX166	xMTNO3SOLV + RO2XC ⟶ RO2XC + 0.50000 * MTNO3SOLV	<BR11>	3.5000E-14	3.5000E-14	Rate constant multiple of constant for listed reaction
999	SPX167	xMTNO3SOLV + MECO3 ⟶ MECO3 + MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
1000	SPX168	xMTNO3SOLV + RCO3 ⟶ RCO3 + MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
1001	SPX169	xMTNO3SOLV + BZCO3 ⟶ BZCO3 + MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
1002	SPX170	xMTNO3SOLV + MACO3 ⟶ MACO3 + MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
1003	SPX170b	xMTNO3SOLV + IMACO3 ⟶ MACO3 + MTNO3SOLV	<BR25>	1.5924E-11	2.1495E-11	Rate constant multiple of constant for listed reaction
1004	SBT19	SESQSOLV + OH ⟶ 0.73400 * xHO2 + 0.06400 * xRCO3 + 1.21100 * RO2C + 0.20100 * RO2XC + 0.20100 * zRNO3 + 0.00100 * xCO + 0.41100 * xHCHO + 0.38500 * xRCHO + 0.03700 * xACETONE + 0.00700 * xMEK + 0.00300 * xMGLY + 0.00900 * xBACL + 0.00300 * xMVK + 0.00200 * xIPRD + 0.40900 * xPROD2 + yR6OOH	<BL16>	9.7647E-11	1.1031E-10	Rate constant multiple of constant for listed reaction
1005	SBT20	SESQSOLV + O3 ⟶ 0.07800 * HO2 + 0.04600 * xHO2 + 0.49900 * OH + 0.20200 * xMECO3 + 0.05900 * xRCO3 + 0.49000 * RO2C + 0.12100 * RO2XC + 0.12100 * zRNO3 + 0.24900 * CO + 0.06300 * CO2 + 0.12700 * HCHO + 0.03300 * xHCHO + 0.20800 * xRCHO + 0.05700 * xACETONE + 0.00200 * MEK + 0.17200 * HCOOH + 0.06800 * RCOOH + 0.00300 * xMGLY + 0.03900 * xBACL + 0.00200 * xMACR + 0.00100 * xIPRD + 0.50200 * PRD2 + 0.42800 * yR6OOH	<BL17>	5.9508E-17	4.7752E-17	Rate constant multiple of constant for listed reaction
1006	SBT21	SESQSOLV + NO3 ⟶ 0.22700 * xHO2 + 0.28700 * xNO2 + 0.02600 * xRCO3 + 1.78600 * RO2C + 0.46000 * RO2XC + 0.46000 * zRNO3 + 0.01200 * xCO + 0.02300 * xHCHO + 0.00200 * xCCHO + 0.40300 * xRCHO + 0.23900 * xACETONE + 0.00500 * xMACR + 0.00100 * xMVK + 0.00400 * xIPRD + 0.22800 * xRNO3 + yR6OOH	<BL18>	6.8802E-12	7.8934E-12	Rate constant multiple of constant for listed reaction
1007	SBT22	SESQSOLV + O3P ⟶ 0.23700 * RCHO + 0.76300 * PRD2	<BL19>	4.0200E-11	4.0200E-11	Rate constant multiple of constant for listed reaction
1008	SBC11	SESQSOLV + CL ⟶ 0.25200 * xHO2 + 0.06800 * xCL + 0.03400 * xMECO3 + 0.05000 * xRCO3 + 0.01600 * xMACO3 + 2.25800 * RO2C + 0.58200 * RO2XC + 0.58200 * zRNO3 + 0.54800 * HCL + 0.03500 * xCO + 0.15800 * xHCHO + 0.18500 * xRCHO + 0.27400 * xACETONE + 0.00700 * xGLY + 0.00300 * xBACL + 0.00300 * xMVK + 0.15800 * xIPRD + 0.00600 * xAFG1 + 0.00600 * xAFG2 + 0.00100 * xAFG3 + 0.10900 * xCLCCHO + yR6OOH	<BC10>	5.4600E-10	5.4600E-10	Rate constant multiple of constant for listed reaction
1009	SNMOG	NMOGSOLV + OH ⟶ NMOGSRXN + OH	2.1800E-11	2.1800E-11	2.1800E-11