The shock tube pyrolysis of pyridine

NO 2 concentration profiles in shock-heated NO 2 /Ar mixtures were measured in the temperature range of 1350 -2100 K and pressures up to 380 atm using Ar ϩ laser absorption at 472.7 nm, IR emission at , and visible emission at 300 -600 nm. In the course of this study, the absorption coefficient of N

The kinetics of decomposition of azetidine {(CH 2 ) 3 N9 H)} was measured using single-pulse shock-tube techniques, over the temperature range in high argon 855-1100 K, dilution. These data confirm and extend an earlier investigation that utilized the very lowpressure pyrolysis method. A brief surve

A shock tube technique was employed to study the fast pyrolysis of cellulose with methane under conditions of high temperature, high heating rate, short reaction time, and rapid quenching. The effects of temperature, methane atmosphere, and reaction time are investigated. Experiments were carried ou

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

Mixtures of cyclopentadiene diluted with argon were used to investigate its decomposition pattern in a single pulse shock tube. The temperatures ranged from 1080 to 1550 K and pressures behind the shock were between 1.7 -9.6 atm. The cyclopentadiene concentrations ranged from 0.5 to 2%. Gas-chromato