A shock tube study of the CO+OH→CO2+H reaction

The rate coefficients for the reactions were determined using mixtures of HN03/CO/Ar and HN03/HNCO/Ar in incident shock wave experiments Simultaneous OH and COz absorption time-histories were obtained via cw uv narrow-linewidth absorption at 32606 56 cm-' ( A = 306 687 nm) and cw infrared narrowlin

The rate coefficient for the reaction (1) OH + OH --\* HzO + 0 has been determined in mixtures of nitric acid (HNO3) and argon in incident shock wave experiments. Quantitative OH time-histories were obtained by cw narrow-linewidth uv laser absorption of the Rl(5) line of the A2 x+ + X 2 ni (0,O) tra

## Abstract The reaction of atomic hydrogen with isocyanic acid (HNCO) to produce the amidogen radical (NH~2~) and carbon monoxide, equation image has been studied in shock‐heated mixtures of HNCO dilute in argon. Time‐histories of the ground‐state NH~2~ radical were measured behind reflected sho

The results of an experimental investigation designed to determine t-he vibrational energy content in the praducts of the reaction OH + CO + CO\* + H are presented. No 1R emission wm observed in any of the fundamental or strong combination bands of C02, 3nd thus OUT results are expressed as bounds o

## Using translationally excited H atoms generated by laser photolysis of H2S at 193 nm, the reaction dynamics of H + H,O+OH + H2 and H + COIdOH + CO was investigated at collision energies of 2.2 and 2.3 eV, respectively. Nascent OH rotational and vibrational quantum-state distributions and OH pro