An experimental and analytical study of methanol ignition behind shock waves

An experimental and analytical study of the oxidation of acetylene and ethylene behind incident shock waves was carried out over the temperature range 1815-2365 K at reaction pressures between 1.1 and 1.7 atm. The oxidation process was monitored by measuring radiation from carbon dioxide, carbon mon

The interaction ~,f ~seous sbock and detonation waves with liquid layer~ has been studied in a shock tube in order to elucidate the i~Jitian mechanism in heterogeneous systems consisting of a liquid fuel film and a gaseous oxidizer. It was shown t~'~tt after passage of the shock front over the liqui

## Abstract The homogeneous thermal isomerization of cyclopropane to propene was studied in the presence of large excesses (99.6%–99.8%) of argon or helium diluent. Reaction temperatures ranged from 1038°−1208°K, and total gas pressures were varied from 533 to 5097 torr. The comparative‐rate single

An experimental investigation of the ignition of methane-acetylene--oxygen-argon mixtures was carried out behind reflected shock waves over the temperature range 1400-1900 K and reaction pressures between l and 4 bar. Pure methane, acetylene, and methane-acetylene mixtures (C2H2/CH 4 = 0. I-I) were