Fang Q. Hu scite author profile

In this paper the normal-mode small-amplitude waves of high-speed jets are investigated analytically and computationally. Three families of instability waves, each having a distinct wave pattern and propagation characteristics, have been found. One of the families of waves is the familiar Kelvin-Helmholtz instability wave. The other two families of waves do not appear to have been clearly identified and systematically studied before. Waves of one of the new wave family propagate with supersonic phase velocities relative to the ambient gas. They are, therefore, referred to as supersonic instability waves. Waves of the other family have subsonic phase velocities. Accordingly they are called subsonic waves. The subsonic waves have the unusual property that they are unstable only for jets with finite thickness mixing layers. They are neutral waves when calculated by a vortex-sheet jet model.Earlier Oertel (1979, 1980, 1982) using a novel optical technique observed in a series of experiments three sets of waves in high-speed jets. The origin of these waves, however, remains so far unexplained and a theory has yet to be developed. In the present study it will be shown that the computed wave patterns and propagation characteristics of the Kelvin-Helmholtz, the supersonic and the subsonic instability waves match essentially those observed by Oertel. The physical mechanisms which give rise to the three families of waves as well as some of the most salient characteristic features of each set of waves are discussed and reported here.

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On Absorbing Boundary Conditions for Linearized Euler Equations by a Perfectly Matched Layer

1996

Journal of Computational Physics

324

233

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A Stable, Perfectly Matched Layer for Linearized Euler Equations in Unsplit Physical Variables

Hu¹

2001

Journal of Computational Physics

263

170

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An Analysis of the Discontinuous Galerkin Method for Wave Propagation Problems

Hu¹,

Hussaini²,

Rasetarinera³

1999

Journal of Computational Physics

250

112

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Fang Q. Hu

Low-Dissipation and Low-Dispersion Runge–Kutta Schemes for Computational Acoustics

On the three families of instability waves of high-speed jets

On Absorbing Boundary Conditions for Linearized Euler Equations by a Perfectly Matched Layer

A Stable, Perfectly Matched Layer for Linearized Euler Equations in Unsplit Physical Variables

An Analysis of the Discontinuous Galerkin Method for Wave Propagation Problems

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