Shock-tube study of CH2O pyrolysis and oxidation

## 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

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 formation and consumption of CH radicals during shock-induced pyrolysis of a few ppm ethane diluted in argon was measured by a ring-dye laser spectrometer Absorption-overtime profiles, measured at a resonance line in the Q-branch of the A2A -X211 band of C H at A = 431.1311 nm. were recorded and