The recombination of methyl radicals in the low pressure limit

## Abstract The decaying absorption of CH~3~ radicals at 216.4 nm has been followed over more than three half‐lives using a photoelectric split‐beam kinetic spectrometer. The rate constant for recombination __k__~r~ was found to be (5.60 ± 0.76) × 10^−11^ cm^3^/molecule·s.

The kinetics and mechanisms of the unimolecular decompositions of phenyl methyl sulfide (PhSCH,) and benzyl methyl sulfide (PhCHzSCH3) have been studied at very low pressures (VLFP). Both reactions essentially proceed by simple carbon-sulfur bond fission into the stabilized phenylthio (PhS. ) and be

## Abstract A study of the CIDNP effects on methyl protons was carried out for the cage recombination products formed during the thermal decomposition reactions of peracetyls and peracetylcarbonates. The increase of both the cage recombination product yield and the enhancement of CIDNP on the CH~3~

I%c rate conswnt for methyl rzdic;ll recombination has been measured over the rempcrature range 296-577 K and at pressures bcl\vcrn 5 and 500 Torr win: laser 5~11 photolysis. coupled with absorption spectroscopy at 216.36 nm. Analysis 01' lhC f~ll-ol'f curves gives k, = (1.78 2 0.18) x IO-" rsp( 151

A computational study of the effect of heterogeneous radical destruction and crevices on end-wall flame quenching in a lean CH4-O2-Ar mixture at low pressure has been performed. The unsteady conservation edlaations for a chemically reacting multicomponent gas have been solved with the commercially a

The rate constant for the recombination of trichloromethyl radicals has been measured in the gasphase photozhlori.lation of chloroform at 344.7OK. The observed value is IO9.62mole-Ilsec-I, much lower than the value -u-edicted by transition state calculations using Gorin's model.