Thermal reaction of hydrogen–butene-2-cis mixtures at 500°C: Hydrogenation, hydrogenolysis, and thermal reaction of the olefin

## Abstract An analytical and kinetic study of the thermal reaction of __cis__‐ or __trans__‐2‐butene has been performed in a static system over the temperature range of 480–550°C and at a low extent of reaction and initial pressures of 10–100 torr. The rate constant of the unimolecular __cis–tran

## Abstract The thermal reaction of 2‐pentene (__cis__ or __trans__) has been performed in a static system over the temperature range of 470°–535°C at low extent of reaction and for initial pressures of 20–100 torr. The main products of decomposition are methane and 1,3‐butadiene. Other minor prima

## Abstract Initial rates of formation of primary products have been measured in the pyrolysis of ethylene at 500°C, and a mechanism for the reaction is proposed based on the isomerization of the __n__−hexyl radical. Additions of oxygen in amounts less than 0.1% markedly increased the rate of forma

It is shown that, at low extent of reaction. molecular hydrogen 130-260 torr) improves the selectivity of the thermal reaction of propene (30-200 torr), around 800 K, by increasing the rates of production of methane, ethene, and propane whereas it has no effect on those of al-Iene and 4-methylpent-l