NCO + O -> NO + CO

k = 2.35E+13 cm3/mol s

SOURCE:: Mertens, J.D., Dean, A.J., Hanson, R.K., and Bowman, C.T. (1992) 24th Symposium (International) on Combustion, p. 701.
COMMENTS:: Served as an optimization variable in GRI-Mech 2.1 release. The preexponential factor was decreased by a factor of 2.

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    Temp      delta-S     delta-H      kf          kr         Keq
     (K)    (cal/mol K)  (kcal/mol) ----(mol,cm3,s)-----   
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     300         3.6       -95.7    2.35E+13    8.02E-58    2.93E+70
     500         2.9       -95.9    2.35E+13    6.41E-30    3.66E+42
    1000         1.3       -97.1    2.35E+13    7.34E-09    3.20E+21
    1500          .5       -98.2    2.35E+13    9.36E-02    2.51E+14
    2000         -.1       -99.2    2.35E+13    3.66E+02    6.43E+10
    2500         -.6      -100.2    2.35E+13    5.50E+04    4.27E+08
    3000         -.9      -101.1    2.35E+13    1.61E+06    1.46E+07
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