The high-temperature pyrolysis of 1,3-hexachlorobutadiene

The thermal decomposition of ethylbenzene has been investigated behind reflected shock waves over the temperature and pressure ranges of 1350-2080 K and 0.25-0.5 atm using a 1.6% CxH,o-Ne mixture. Major products of the pyrolysis are C7H,, C,Hi, CGHG, C4H2, C,H,, C2H2, and CH,; CRH, appears throughou

High-temperature pyrolysis of various classes of polymers have been discussed. For the non-carbonizing polymers it was shown that polymer structure can affect the pyrolysis characteristics. Data on the high-temperature pyrolysis of some polypropylene samples with different crystallinity have been pr

High-temperature (> 1000'K) pyrolysis of acetaldehyde (-1 % in an atmosphere of pure nitrogen) was examined in a turbulent flow reactor which permits accurate determination of the spatial distribution of the stable species, Results show that the products in order of decreasing importance are CO, CHI

The kinetics of pyrolysis of dimethyl ether were studied in an adiabatic flow reactor at temperatures between 790 and 950°C. The unimolecular rate constant for the initiating step CH30CH3 = CH30 + CH, was found to be k, = 2.16 X 1015e-76.@""RTse~-1. Aspects of the kinetic mechanism are discussed and

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