CH + NO -> HCN + O

• Dean, A.J., Hanson, R.K., and Bowman, C.T. (1991) J. Phys. Chem. 95, 3180;
• Becker, K.H., Engelhardt, B., Geiger, H., Kurtenbach, R., and Wiesen, P. (1993) Chem. Phys. Letters 210, 135.
• Lambrecht, R.K., and Hershberger, J.F. (1994) J. Phys. Chem. 98, 8406.
• Markus, M.W., and Roth, P. (1995) Shock Waves @ Marseille II, Springer-Verlag (Brun, R., and Drunitrescu, L.Z. eds.) p. 95.

as analyzed by
Dean, A.M., and Bozzelli, J.W. (1996) in Combustion Chemistry II, Springer-Verlag, New York.

COMMENTS:

Served as an optimization variable in GRI-Mech 2.1 release. The rate coefficient value was not changed.

______________________________________________________________________
    Temp      delta-S     delta-H      kf          kr         Keq
     (K)    (cal/mol K)  (kcal/mol) ----(mol,cm3,s)-----    
______________________________________________________________________

     300        -7.4       -72.8    5.00E+13    2.04E-38    2.46E+51
     500        -7.3       -72.7    5.00E+13    3.22E-17    1.55E+30
    1000        -6.5       -72.2    5.00E+13    2.26E-01    2.21E+14
    1500        -6.1       -71.6    5.00E+13    3.93E+04    1.27E+09
    2000        -5.8       -71.1    5.00E+13    1.56E+07    3.20E+06
    2500        -5.6       -70.7    5.00E+13    5.54E+08    9.03E+04
    3000        -5.5       -70.3    5.00E+13    5.89E+09    8.48E+03
______________________________________________________________________