Ethylene pyrolysis and oxidation: A kinetic modeling study

The oxidation of ethylene was studied in a jet stirred flow reactor in the temperature range 900-1200K at pressures extending from 1 to 10 atm for a wide range of fuel-oxygen equivalence ratios (0.15--4.0). A computer program has been developed to model the experimental data using a chemical kinetic

## Abstract Pyrolysis and oxidation of acetaldehyde were studied behind reflected shock waves in the temperature range 1000–1700 K at total pressures between 1.2 and 2.8 atm. The study was carried out using the following methods, (1) time‐resolved IR‐laser absorption at 3.39 μm for acetaldehyde dec

## Abstract The high‐temperature pyrolysis and oxidation of chloroethane were studied behind reflected shock waves using single‐pulse, time‐resolved IR absorption (3.39 μm), time‐resolved UV absorption (306.7 nm), and time‐resolved IR emission (4.24 μm) methods. The studies were performed over the

Isobutane pyrolysis is studied in an unpacked Pyrex reactor at 20-100 torr initial pressures and Results are interpreted in terms of a long chain radical mechanism 750-793 K. and the reaction is modeled. The reaction selectivity or ratio of the initial production rate of isobutene (or hydrogen) to t

A chemical kinetic model was constructed for the pyrolysis of butylbenzene. The mechanism was based on free radical reactions. All relevant reactions were considered, and a final selection of 60 reactions involving 29 molecules and free radicals was made. The rate constants and thermodynamic paramet