Temperature dependence and branching ratio of the CH3OH + OH reaction

## Rate consrants of hydrogen abmaction from CzHsOH by hydroxyl radicals have been measured in the temperature range 300-1000 K by laser-induced fluorescence detection of OH. An Arrhenius evpresslon k(T) = (4.4 f 1.0) x IO-\*\* x exp[(-274 i 90) K/T] cm3/s was derived. Mass spectrometrlc mvestigat

## Abstract The oxidation of methanol in a flow reactor has been studied experimentally under diluted, fuel‐lean conditions at 650–1350 K, over a wide range of O~2~ concentrations (1%–16%), and with and without the presence of nitric oxide. The reaction is initiated above 900 K, with the oxidation

## Abstract The reaction between methyl and hydroxyl radicals has been studied in reflected shock wave experiments using narrow‐linewidth OH laser absorption. OH radicals were generated by the rapid thermal decomposition of tert‐butyl hydroperoxide. Two different species were used as CH~3~ radical

## Abstract We study dynamics of the CH~3~ + OH reaction over the temperature range of 300–2500 K using a quasiclassical method for the potential energy composed of explicit forms of short‐range and long‐range interactions. The explicit potential energy used in the study gives minimum energy paths