High-temperature pyrolysis of ketene in shock waves

## Abstract Thermal decomposition of formaldehyde diluted with Ar was studied behind reflected shock waves in the temperature range of 1200–2000 K at total pressures between 1.3 and 3.0 atm. The study was carried out for compositions from the concentrated mixture, 4% CH~2~O, to the highly dilute mi

The pyrolysis of CF,H mixture, highly diluted with Ar, was studied over the temperature range 1150-I 570 K at pressures 1.5-2.6 atm behind reflected shock waves. The mechanism and the rate constant of CFXH pyrolysis at the high temperatures were discussed. The pyrolysis of CFgH was found to be inter

The kinetics of the thermal decomposition of acetylacetone has been studied in a shock tube in the temperature range of 1120-1660 K. Detailed analyses of CO and H20 formation data indicate that HzO is formed by a four-center molecular channel, whereas CO is formed by the rapid dissociation of CH3C0

## Abstract 1,5‐cyclooctadiene or 4‐vinylcyclohexene mixture diluted with argon was heated to temperatures in the range 880–1230 K behind reflected shock waves. Profiles of IR‐laser absorption were measured at 3.39 μm. From these profiles, rate constants __k__~1~ and __k__~2~ for the decyclization

The thermal decomposition of acetylene has been studied in the temperature and pressure regimes of 1900-2500 K and 0.3-0.55 atm using a shock tube coupled to a time-of-flight mass spectrometer. A series of mixtures varying from 1.0-6.2% CzHz diluted in a Ne-Ar mixture yielded a carbon atom density r