The effect of counterflow on the development of compressible shear layers-Reference-Cited by-同舟云学术

The effect of counterflow on the development of compressible shear layers

Published:1996-02-10 Issue: Volume:308 Page:63-96
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Strykowski P. J.,Krothapalli A.,Jendoubi S.

Abstract

A compressible countercurrent shear layer was investigated experimentally by establishing reverse flow around the perimeter of a supersonic jet. Measurements demonstrate that spatial growth rates of the countercurrent shear layer significantly exceed those of the classical coflowing layer at comparable density ratios and levels of compressibility. Experiments also reveal the presence of coherent three-dimensional structures in the countercurrent shear layer at convective Mach numbers where similar structures are not present in coflowing layers. It is argued that these kinematic differences are responsible for the enhanced diffusion of the shear layer with counterflow. The spatio-temporal theory is used to examine the connection between the experimental observations and the existence of a transition from convective to absolute instability in high-speed shear layers.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference76 articles.

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2. Strykowski, P. J. & Krothapalli, A. 1993 The countercurrent mixing layer: strategies for shear layer control. AIAA Paper 93-3260.

3. Strykowski, P. J. & Niccum, D. L. 1992 The influence of velocity and density ratio on the dynamics of spatially developing mixing layers.Phys. Fluids A4,770–781.

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5. Peroomian, O. & Kelly, R. E. 1994 Absolute and convective instabilities in compressible confined mixing layers.Phys. Fluids 6,3192–3194.

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