Three-dimensional supersonic homogeneous turbulence: A numerical study

D. H. Porter; A. Pouquet; P. R. Woodward

doi:10.1103/PhysRevLett.68.3156

Three-dimensional supersonic homogeneous turbulence: A numerical study

D. H. Porter, A. Pouquet, P. R. Woodward

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Abstract

A turbulent homogeneous perfect gas with no forcing is computed using the piecewise-parabolic method on a uniform grid of 2563 zones. The initial rms Mach number is one. The main results are (i) persistence of a quasisupersonic phase with strong density contrasts over several shock formation times; (ii) late appearance of a post-supersonic self-similarly decaying regime in which the total velocity spectrum varies with wave number as k-1; and (iii) both shock curvature and velocity gradients are important mechanisms of vorticity production in the first half of the supersonic phase.

Original language	English (US)
Pages (from-to)	3156-3159
Number of pages	4
Journal	Physical review letters
Volume	68
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevLett.68.3156
State	Published - 1992

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AB - A turbulent homogeneous perfect gas with no forcing is computed using the piecewise-parabolic method on a uniform grid of 2563 zones. The initial rms Mach number is one. The main results are (i) persistence of a quasisupersonic phase with strong density contrasts over several shock formation times; (ii) late appearance of a post-supersonic self-similarly decaying regime in which the total velocity spectrum varies with wave number as k-1; and (iii) both shock curvature and velocity gradients are important mechanisms of vorticity production in the first half of the supersonic phase.

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Three-dimensional supersonic homogeneous turbulence: A numerical study

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