A shock tube kinetic study on the reaction of C3F6 and H atoms at high temperatures

## Abstract The reaction of CH~2~O with NO~2~ has been studied with a shock tube equipped with two stabilized ew CO lasers. The production of CO, NO, and H~2~O has been monitored with the CO lasers in the temperature range of 1140–1650 K using three different Ar‐diluted CH~2~O‐NO~2~ mixtures. Kinet

The reaction of H atoms with SiCl 4 was studied behind reflected shock waves at temperatures between 1530 K and 1730 K and pressures around 1.5 bar by applying atomic resonance absorption spectroscopy (ARAS) for time resolved measurements of H atoms at the L ␣ -line. The thermal decomposition of a f

The present work deals with experimental investigations on the bimolecular reaction of H-atoms with cyclohexane (cC 6 H 12 ). Iodoethane (C 2 H 5 I) was used as an in situ source for H-atoms to investigate the bimolecular reaction. As the reaction of cC 6 H 12 with H-atoms yields H 2 and cyclohexyl

Concentration-time profiles have been measured for hydroxyl radicals generated by the shock-tube decomposition of hydrogen peroxide in the presence of a variety of additives. At temperatures close to 1300"K, the rate constants for the reaction OH + R H + R + HzO arr found to be in the ratio 0.18:0.

Kinetics for reactions of phenoxy radical, C 6 H 5 O, with itself and with O 3 were examined at 298 K and low pressure (1 Torr) using discharge flow coupled with mass spectrometry (DF/MS). The rate constant for the phenoxy radical self-reaction was determined to be k The rate constant for the C 6 H