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Studies of Shock Wave Reflections and Interactions (Paul Vieille Lecture) Read chapter Read first chapter

2017 | OriginalPaper | Chapter

Stabilization of Detonation Combustion of a Supersonic Flow due to Using the Special Form Plane Channel

Authors : V. A. Levin, T. A. Zhuravskaya

Published in: 30th International Symposium on Shock Waves 1

Publisher: Springer International Publishing

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Abstract

The numerical investigation of detonation combustion of a stoichiometrical hydrogen-air mixture flowing at a supersonic velocity into a plane channel has been carried out with the purpose of ascertaining a channel form that guarantees detonation stabilization in the flow without any expenditure of energy. So the possibility of stabilization of a formed detonation wave in the combustible gas mixture flowing into the plane channel with narrowing has been determined. The stability of the flow with stabilized detonation in the channel with narrowing to strong disturbances has been examined. For some Mach numbers of the incoming flow, the method of determination of the channel shape which provides detonation initiation and its stabilization in the flow without any energy input is proposed. 

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previous chapter Numerical Simulation of Reactive Gas Mixes Flows in the Detonation Engines
next chapter Role of Wall Temperature on Shock Train in a Rectangular Isolator
Literature
1.
Zhuravskaya, T.A., Levin, V.A.: Investigation of certain techniques for stabilizing detonation waves in a supersonic flow. J. Fluid Dynam. 47(6), 793–801 (2012)MathSciNetCrossRefMATH
2.
3.
Tunik, Y.V.: Numerical modeling of detonation combustion of hydrogen-air mixtures in a convergent-divergent nozzle. J. Fluid Dynam. 45(2), 264–270 (2010)MathSciNetCrossRefMATH
4.
Fujiwara, T., Hishida, M., Kindracki, J., Wolanski, P.: Stabilization of detonation for any incoming Mach numbers. Combust. Explos. Shock Waves 45(5), 603–605 (2009)CrossRef
5.
Trotsyuk, A.V., Kudryavtsev, A.N., Ivanov, M.S.: Numerical investigations of detonation waves in supersonic steady flows. In: Roy, G., et al. (eds.) Pulse and continuous detonation propulsion, pp. 125–138. Moscow, Torus press (2006)
6.
Fan, H.Y., Lu, F.K.: Numerical modelling of oblique shock and detonation wave induced in a wedged channel. Proceedings of the Institution of Mechanical Engineers Part G. J. Aerospace Eng. 222, 687–703 (2008)
7.
Levin, V.A., Manuilovich, I.S., Markov, V.V.: Excitation and quenching of detonation in gases. IFZh 83(6), 1174–1201 (2010)
8.
Glushko, V.P. (ed.): Thermodynamic properties of individual substances. Nauka, Moscow (1978)
9.
Warnatz, J., Maas, U., Dibble, R.W.: Combustion. Physical and chemical fundamentals, modeling and simulation, experiments, pollutant formation. Springer, Berlin (2001)MATH
10.
Starik, A.M., Titova, N.S., Sharipov, A.S., Kozlov, V.E.: Syngas oxidation mechanism. Combust. Explos. Shock Waves 46(5), 491–506 (2010)CrossRef
11.
Lee, J.H.S.: The detonation phenomenon. Cambridge University Press, New York (2008)CrossRef
12.
Gui, M.Y., Fan, B.C., Dong, G.: Periodic oscillation fine structure of wedge-induced oblique detonation waves. Acta Mach. Sin. 27(6), 922–928 (2011)CrossRefMATH
13.
Verreault, J., Higgins, A., Stowe, R.: Formation of transverse wave in oblique detonations. Proc. Comb. Inst. 34, 1913–1920 (2013)CrossRef
Metadata
Title
Stabilization of Detonation Combustion of a Supersonic Flow due to Using the Special Form Plane Channel
Authors
V. A. Levin
T. A. Zhuravskaya
Copyright Year
2017
Book
30th International Symposium on Shock Waves 1

Print ISBN: 978-3-319-46211-0

Electronic ISBN: 978-3-319-46213-4

Copyright Year: 2017

DOI
https://doi.org/10.1007/978-3-319-46213-4_71

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