Volume 89, № 6
COMPARISON OF THE RESULTS OF MODELING THE FLAME PROPAGATION IN A HYBRID GAS SUSPENSION WITH EXPERIMENTAL DATA
This article considers the laminary combustion of a hybrid gas suspension consisting of a gaseous combustible, an oxidizer, and an inert gas, as well as particles capable of interacting with the gas-phase oxidizer. The mathematical
model takes into account the thermal expansion of the gas and its related relative motion of particles. The problem has been solved numerically in dimensionless variables. The dependences of the steady velocity of the fl ame front on the initial concentration of the combustible in the gas phase at various values of the parameters of the dispersed
phase are presented. A comparison has been made between experimental and calculated data for a gas suspension
consisting of a gaseous oxidizer, an inert gas, and reactive particles.
This article considers the laminary combustion of a hybrid gas suspension consisting of a gaseous combustible, an oxidizer, and an inert gas, as well as particles capable of interacting with the gas-phase oxidizer. The mathematical
model takes into account the thermal expansion of the gas and its related relative motion of particles. The problem has been solved numerically in dimensionless variables. The dependences of the steady velocity of the fl ame front on the initial concentration of the combustible in the gas phase at various values of the parameters of the dispersed
phase are presented. A comparison has been made between experimental and calculated data for a gas suspension
consisting of a gaseous oxidizer, an inert gas, and reactive particles.
Author: A. A. Dement′ev, K. M. Moiseeva, Y. Yu. Krainov, and D. Yu. Paleev
Keywords: gas suspension, laminar fl ame, reactive particles, inert particles, rate of combustion, processes in the gas phase, mathematical modeling
Page: 1514
A. A. Dement′ev, K. M. Moiseeva, Y. Yu. Krainov, and D. Yu. Paleev.
COMPARISON OF THE RESULTS OF MODELING THE FLAME PROPAGATION IN A HYBRID GAS SUSPENSION WITH EXPERIMENTAL DATA //Journal of engineering physics and thermophysics.
. Volume 89, № 6. P. 1514 .
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