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Scale Effects on the Transition of Reflected Shock Waves Read chapter Read first chapter

2018 | OriginalPaper | Chapter

Numerical Simulation of Reactive Gas Mixes Flows in the Detonation Engine

Author : S. N. Martyushov

Published in: Shock Wave Interactions

Publisher: Springer International Publishing

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Abstract

Mathematical modeling of gas flows with chemical reaction, with deflagration and detonation reactions, namely flows in detonation engines, demands taking into account a large number of physical factors: viscosity (laminar or turbulent), heat conductivity, multicomponents diffusion, changing of energy from chemical reactions, and so on.

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Literature
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Liberman, M.A., Ivanov, M.F., Valyev, D.M.: Sci. Tech. 178, 1613 (2006)
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Levin, V.A., Nechaev, Y.N., Tarasov, A.I.: Control of detonation processes. In: Roy, G. (ed.), pp. 197–201. Moscow, Elex-KM Publishers (2000)
3.
Jdan, S.A., Bykovsky, F.A., Vedernikov, E.F.: Continuous spin and pulse detonation of hydrogen-air mixtures in supersonic flow generated by a detonation wave. In: Proceediings of 22 ICDERS. Minsk, Belarus (2009)
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Voitsehovsky, B.V.: Stationery Detonation. Dokl. Akad. Sci. USSR. 129(6), 1254–1256 (1959)
5.
Yee, H.C., Warming, R.P., Harten, A.: Application of TVD-scheme for the Euler equations of gas dynamics. Lect. Ap. Math. 22(2), 357–377 (1985)
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Fujivara, T.: Investigation of pulsing detonation engines in Japan. In: Frolov, C.M. (ed.), pp. 493–517. Moscow, Torus Press (2006)
7.
Glaister, P.J.: An approximation linearised riemann solver for the three-dimensional euler equations for real gas using operator splitting. J. Comp. Phys. 77, 361–383 (1988)CrossRefMATH
Metadata
Title
Numerical Simulation of Reactive Gas Mixes Flows in the Detonation Engine
Author
S. N. Martyushov
Copyright Year
2018
Book
Shock Wave Interactions

Print ISBN: 978-3-319-73179-7

Electronic ISBN: 978-3-319-73180-3

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-319-73180-3_25

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