Non-equilibrium dissociating flow over spheres-Reference-Cited by-同舟云学术

Non-equilibrium dissociating flow over spheres

Published:1995-09-25 Issue: Volume:299 Page:389-405
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Wen C.-Y.,Hornung H. G.

Abstract

Previous work on the correlation of dissociative non-equilibrium effects on the flow field in front of blunt bodies considered the dependence of the dimensionless shock stand-off distance on the dimensionless dissociation rate immediately after the normal shock in the simple case of a diatomic gas with only one reaction. In this paper, the correlation is corrected to take into account the additional parameter of the dimensionless free-stream kinetic energy, and extended to the case of complex gas mixtures with many species and many reactions, by introducing a new reaction rate parameter that has a clear physical meaning, and leads to an approximate theory for the stand-off distance. Extensive new experimental results and numerical computations of air, nitrogen and carbon dioxide flow over spheres were obtained over a large range of total enthalpy. The results comprise surface heat flux measurements and differential interferograms. Both experimental results and numerical computations substantiate the approximate theory.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference15 articles.

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3. Park, C. 1988 Assessment of a two-temperature kinetic model for dissociating and weakly ionizing nitrogen.J. Thermophys. Heat Transfer 2,8–16.

4. Rousset, B. 1995 Calibration and study of the contoured nozzle of the T5 free-piston hypervelocity shock tunnel. AeE thesis,Graduate Aeronautical Laboratories,Caltech.

5. Hornung, H. G. , Cummings, E. B. , Germain, P. , Sanderson, S. R. , Sturtevant, B. & Wen, C.-Y. 1994 Recent results from hypervelocity research in T5. AIAA Paper 94-2523.

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