Theoretical Rate Constants for the Formation and Decomposition of Chlorinated Ethyl Radicals

An absolute value of k, of ethyl radicals at 860 f 17°K of 4.5 X l o 9 M-l.sec-' was determined under VLPP conditions, where the value of k,/k," should be about M. Thus k,"(M-'.sec-') -10' 0 at 860°K. An error of as much as a factor of 2 in k, would be surprising, but possible. The value of lO'OM-'

The relative rate technique has been used to measure the hydroxyl radical (OH) reaction rate constant of ethyl 3-ethoxypropionate (EEP, CH 3 CH 2 -O -CH 2 CH 2 C(O)O -CH 2 CH 3 ). EEP reacts with OH with a bimolecular rate constant of (22.9 Ϯ 7.4) ϫ 10 Ϫ12 cm 3 molecule Ϫ1 s Ϫ1 at 297 Ϯ 3 K and 1 at

Data on the kinetics of the decomposition of methane, ethane, propane, and isobutane and the reverse radical combination processes have been examined. From room to combustion temperatures, the limiting high-pressure rate expressions have been found to be Falloff effects have been treated in the con

## Abstract The rate constant for the bimolecular combination of benzyl radicals in cyclohexane and toluene is determined as a function of temperature. Further, it is studied in cyclohexane–toluene mixtures of different compositions. In the entire range covered, 9.8 × 10^8^ ⩽ 2__k__~t~ ⩽ 9.0 × 10^9