ISSN 2658–5782
DOI 10.21662
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Sadriddinov P.B. Numerical study of the dependence of the wave velocity of filtration gas combustion on the process parameters. Multiphase Systems. 16 (2021) 1. 8–15 (in Russian).
2021. Vol. 16. Issue 1, Pp. 8–15
URL: http://mfs.uimech.org/mfs2021.1.002,en
DOI: 10.21662/mfs2021.1.002
Numerical study of the dependence of the wave velocity of filtration gas combustion on the process parameters
Sadriddinov P.B.
Tajik National university, Dushanbe, Tajikistan

Abstract

When solving problems in the field of filtration combustion of gases, numerical methods are often used to analyze the wave structure depending on changes in the hydrogen content in the mixture and other physical and chemical parameters. This work analyzes the stationary structure of the wave of filtration combustion of incompressible gas in the low-speed mode when the parameters of the gas flow and the porous medium change, as well as when the hydrogen content in the mixture changes. The problem is solved by the numerical Runge-Kutta method of the fourth order of accuracy, tested on a system of differential equations. Reduced to a dimensionless form, the system of equations is written in vector format. Programming is performed in Delphi 7. The results presented show agreement with the known experimental data and also allow us to obtain new conclusions about the structure of the filtration combustion wave of gases.

Keywords

equations,
analysis,
temperature,
filtration,
velocity,
numerical method,
hydrogen,
particle diameter,
chemical reaction,
differential equations

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