136. On the mechanism of surface carbon formation during the pyrolysis of benzene in the presence of hydrogen

This short note describes studies of the pyrolysis of methacrylonitrile over a wide range of temperatures under flowing nitrogen at atmospheric pressure. Hydrogen cyanide was not found to be a primary product, but several organic nitriles are formed which decompose at higher temperature ( > 1100 K)

Ethylene a t concentrations of 2.7 X to 1.0 x mol L ' has been pyrolyzed at 900 K in a flow system. The products ethane and hydrogen have been analyzed by gas chromatography. The results are consistent with a mechanism in which these products are initially formed as follows: L11 141 Reaction [11 o

## Abstract A detailed radical reaction model, both homogeneous and heterogeneous, is shown to describe quantitatively published initial rates of the pyrolysis of 1,2‐dichloroethane in the gas phase. These data were obtained in conditioned static reactors with different surface‐to‐volume ratios, in

## Abstract Review: 55 refs.

The thermal dehydrochlorination has been studied CF ClCH : CF " CH ϩ HCl 2 3 2 2 in a static system between 597 and in the presence of CCl 4 , C 2 Cl 6 , CF 2 "CH 2 , HCl, and 664 K CF 3 CH 3 . A kinetic radical and molecular reaction model has been developed. In addition to describing earlier resul