OH + C2H -> H + HCCO

k = 2.00E+13 cm3/mol s

SOURCE:: Frenklach, M., Wang, H., and Rabinowitz, M. J. (1992) Prog. Energy Combust. Sci. 18, 47.

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

     300        -8.5       -50.2    2.00E+13    3.76E-22    5.32E+34
     500        -8.4       -50.2    2.00E+13    1.63E-07    1.23E+20
    1000        -7.4       -49.4    2.00E+13    1.32E+04    1.52E+09
    1500        -6.9       -48.8    2.00E+13    4.99E+07    4.01E+05
    2000        -6.7       -48.4    2.00E+13    2.94E+09    6.81E+03
    2500        -6.6       -48.2    2.00E+13    3.34E+10    5.99E+02
    3000        -6.5       -48.1    2.00E+13    1.68E+11    1.19E+02
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