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Shock Waves pp 915-920 | Cite as

H2 injection in Mach 5 air flow: numerical study

  • Y. Burtschell
  • D. E. Zeitoun
Conference paper

Abstract

A numerical study of the hydrogen injection has been investigated in a flow configuration obtained from the interaction of two axisymmetric oblique shock waves produced by a conical ring and a centre-body. This configuration was named a Viscous Mach Interaction (V.M.I) due to a strong shock/boundary layer interaction. The geometry which leads to this configuration is used as hypersonic inlet and as this inlet could be axisymmetric or two-dimensional, a first result was to show that this V.M.I configuration exists in both cases. Different injection locations are tested in order to keep this V.M.I configuration. The influence of the hydrogen injection on the mixing flow behavior is analyzed. The numerical results show that the equivalence ratio Φ of the gas-mixture is high enough in order to have a non-reactive gas close to the wall which keeps the hydrogen temperature along the centre-body. Thus the hydrogen injection can play the role of a forward-facing jet reducing heat-transfer at the centre-body wall.

Keywords

Incident Shock Oblique Shock Wave Conical Ring Shock Wave Interaction Hydrogen Injection 
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References

  1. 1.
    A. Chpoun, G. Ben-Dor, T. Elperin, H. Li, E. Vasiliev: In: Proceed, of the 22nd ISSW, Univ. of Southampton, 1999 pp. 1299–1304Google Scholar
  2. 2.
    Y. Burtschell and D.E. Zeitoun: Shock wave interactions in an axisymmetric steady flow, Shock Wave Journal, To be published (see also CD Room Proceeding of the 23th ISSW, Texas USA, July 20–25, 2001, paper 2915) (2002)Google Scholar
  3. 3.
    Y. Burtschell, M. Cardoso, D.E. Zeitoun: Numerical analysis of reducing driver gas contamination in impulse shock tunnels. AIAA Journal 39(12), 2357 (2001)ADSCrossRefGoogle Scholar

Copyright information

© Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2005

Authors and Affiliations

  • Y. Burtschell
    • 1
  • D. E. Zeitoun
    • 1
  1. 1.Ecole Polytechnique Universitaire de Marseille, Tecnopole de Chateau-GombertUniversité de ProvenceMarseilleFrance

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