H + CH2O (+M) -> CH2OH (+M)

k_o = 1.27E+32 T^(-4.82) exp(-6530 cal/mol /RT) cm^6/mol^2 s

k_inf = 5.40E+11 T^0.45 exp(-3600 cal/mol /RT) cm3/mol s

F_cent = (1-0.719) exp(-T/103) + 0.719 exp(-T/1291) + exp(-4160/T)

Third-body efficiencies:

N2 1.0 H2 Enhanced by 2.0 H2O Enhanced by 6.0 CH4 Enhanced by 2.0 CO Enhanced by 1.5 CO2 Enhanced by 2.0 C2H6 Enhanced by 3.0

SOURCE:: The expression for k_inf was estimated by analogy to reaction
74 H + C2H4 (+M) -> C2H5 (+M)
with a 4 kcal/mol barrier, according to the calculations of Melius (1992).
k_o and F_cent for N2 are calculated by the method of Troe (1977):
delta-E(0 K) = 4.0 kcal/mol
delta-H(0 K) = -31.0 kcal/mol
<delta E> = 0.30 kcal/mol
The Lennard-Jones parameters: sigma (CH2OH-N2) = 3.72 A, epsilon = 183 K
I+/I = 3.1 (for Waage-Rabinovitch correction)
v = 3640, 3000, 3000, 1460, 1330, 1180, 1050, 900, 420 cm^(-1)

COMMENTS: The pressure broadening is expressed in the Troe form. REFERENCES:

Melius (1992): Melius, C. (1992) private communication.
Troe (1977): Troe, J. (1977) J.Chem.Phys. 66, 4745.

                        PRESSURE = 0.1 atm N2  
______________________________________________________________________
    Temp      delta-S     delta-H      kf          kr         Keq     
     (K)    (cal/mol K)  (kcal/mol) ----(mol,cm3,s)-----   (cm3/mol)  
______________________________________________________________________
                                                                      
     300       -21.4       -29.7    4.05E+09    1.97E-12    2.05E+21
     500       -22.2       -29.9    2.26E+10    3.17E-03    7.15E+12
    1000       -23.1       -30.6    1.33E+10    3.69E+03    3.61E+06
    1500       -23.5       -31.2    3.96E+09    1.30E+05    3.06E+04
    2000       -23.8       -31.6    1.37E+09    4.65E+05    2.94E+03
    2500       -23.9       -31.9    5.51E+08    7.41E+05    7.44E+02
    3000       -24.0       -32.1    2.50E+08    8.19E+05    3.05E+02
______________________________________________________________________


                        PRESSURE = 1 atm N2    
______________________________________________________________________
    Temp      delta-S     delta-H      kf          kr         Keq     
     (K)    (cal/mol K)  (kcal/mol) ----(mol,cm3,s)-----   (cm3/mol)  
______________________________________________________________________
                                                                      
     300       -21.4       -29.7    9.61E+09    4.69E-12    2.05E+21
     500       -22.2       -29.9    7.46E+10    1.04E-02    7.15E+12
    1000       -23.1       -30.6    9.13E+10    2.53E+04    3.61E+06
    1500       -23.5       -31.2    3.23E+10    1.05E+06    3.06E+04
    2000       -23.8       -31.6    1.20E+10    4.08E+06    2.94E+03
    2500       -23.9       -31.9    5.05E+09    6.79E+06    7.44E+02
    3000       -24.0       -32.1    2.35E+09    7.72E+06    3.05E+02
______________________________________________________________________


                        PRESSURE = 10 atm N2   
______________________________________________________________________
    Temp      delta-S     delta-H      kf          kr         Keq     
     (K)    (cal/mol K)  (kcal/mol) ----(mol,cm3,s)-----   (cm3/mol)  
______________________________________________________________________
                                                                      
     300       -21.4       -29.7    1.46E+10    7.14E-12    2.05E+21
     500       -22.2       -29.9    1.60E+11    2.24E-02    7.15E+12
    1000       -23.1       -30.6    3.47E+11    9.61E+04    3.61E+06
    1500       -23.5       -31.2    1.98E+11    6.48E+06    3.06E+04
    2000       -23.8       -31.6    9.09E+10    3.09E+07    2.94E+03
    2500       -23.9       -31.9    4.26E+10    5.73E+07    7.44E+02
    3000       -24.0       -32.1    2.11E+10    6.92E+07    3.05E+02
______________________________________________________________________

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