论文信息 - An Analysis of Combustion Studies in Shock Expansion Tunnels and Reflected Shock Tunnels

An Analysis of Combustion Studies in Shock Expansion Tunnels and Reflected Shock Tunnels

The effect of initial nonequilibrium dissociated air constituents on the combustion of hydrogen in high-speed flows for a simulated Mach 17 flight condition was investigated by analyzing the results of comparative combustion experiments performed in a reflected shock tunnel test gas and in a shock expansion tunnel test gas. The results were analyzed and interpreted with a one-dimensional quasi-three-stream combustor code that includes finite rate combustion chemistry. The results of this study indicate that the combustion process is kinetically controlled in the experiments in both tunnels and that the presence of the nonequilibrium partially dissociated oxygen in the reflected shock tunnel enhances the combustion. Methods of compensating for the effect of dissociated oxygen are discussed.

J Jachimowski Casimir | J. J. Casimir

[1] C. J. Jachimowski,et al. An analytical study of the hydrogen-air reaction mechanism with application to scramjet combustion , 1988 .

[2] V. J. Scullin,et al. General chemical kinetics computer program for static and flow reactions, with application to combustion and shock-tube kinetics , 1972 .

[3] A. G. Mclain,et al. A hybrid computer program for rapidly solving flowing or static chemical kinetic problems involving many chemical species , 1976 .

[4] John I. Erdos,et al. Progress in hypersonic combustion technology with computation and experiment , 1990 .