Compressible wall-bounded turbulence is generally assumed to be devoid of genuine compressibility effects, meaning that the effect of finite fluid dilatation is regarded as "small," at least in the absence of disturbing pressure gradients. In the present paper we attempt to answer the basic question of how small these effects are, by interrogating a DNS database of compressible channel flow and by using Helmholtz decomposition to infer the relative magnitude and correlations between the solenoidal and the dilatational parts of turbulence velocity fields. Not surprisingly, we find dilatational velocity fluctuations to be much smaller than solenoidal ones, but perhaps unexpectedly, we find that finite correlation between the two components ac...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
The results of an asymptotic theory for statistical closures for compressible turbulence are explore...
When analyzing many turbulent flows, the effects of compressibility can be neglected. Even some rela...
Classical Mach-number (M) scaling in compressible wall turbulence was suggested by van Driest (Van D...
The present paper addresses some topical issues in modelling compressible turbulent shear flows. The...
The results of an asymptotic theory for statistical closures for compressible turbulence are explore...
The structure of the wall pressure field beneath supersonic adiabatic turbulent boundary layers is a...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
Local cascade (LC) scheme and space-time correlations are used to study turbulent structures and the...
A compressible near-wall two-equation model is derived by relaxing the assumption of dynamical field...
Compressible turbulent channel flows at two Mach numbers (M = 0.8 and 1.3) are simulated by the nume...
Several questions that are relevant to turbulence modeling are addressed on the basis of recently ob...
The purpose of this study is to investigate compressibility effects on the turbulence in homo-geneou...
Compressibility effects are present in many practical turbulent flows, ranging from shockwave/bounda...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
The results of an asymptotic theory for statistical closures for compressible turbulence are explore...
When analyzing many turbulent flows, the effects of compressibility can be neglected. Even some rela...
Classical Mach-number (M) scaling in compressible wall turbulence was suggested by van Driest (Van D...
The present paper addresses some topical issues in modelling compressible turbulent shear flows. The...
The results of an asymptotic theory for statistical closures for compressible turbulence are explore...
The structure of the wall pressure field beneath supersonic adiabatic turbulent boundary layers is a...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
Local cascade (LC) scheme and space-time correlations are used to study turbulent structures and the...
A compressible near-wall two-equation model is derived by relaxing the assumption of dynamical field...
Compressible turbulent channel flows at two Mach numbers (M = 0.8 and 1.3) are simulated by the nume...
Several questions that are relevant to turbulence modeling are addressed on the basis of recently ob...
The purpose of this study is to investigate compressibility effects on the turbulence in homo-geneou...
Compressibility effects are present in many practical turbulent flows, ranging from shockwave/bounda...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
The results of an asymptotic theory for statistical closures for compressible turbulence are explore...
When analyzing many turbulent flows, the effects of compressibility can be neglected. Even some rela...