Direct numerical simulation databases have been used to study the effect of compressibility on mixing layers. The simulations cover convective Mach numbers from 0.2 to 1.2 and all contain a fully resolved turbulent energy cascade to small spatial scales. Statistical information is extracted from the databases to determine reasons for the reduced growth rate that is observed as the convective Mach number is increased. It is found that the dilatational contribution to dissipation is negligible even when eddy shocklets are observed in the flow. Also pressure-dilatation is not found to be significant. Using an accurate relation between the momentum thickness growth rate and the production of turbulence kinetic energy together with integrated eq...
Characteristics of the process of entrainment in plane mixing layers, and the changes with compressi...
International audienceA compressible supersonic mixing layer at convective Mach number (Mc) equal to...
simulations of compressible mixing layers of similar and dissimilar gases: Performance of k–e turbul...
Direct numerical simulation databases have been used to study the effect of compressibility on mixin...
Direct numerical simulation databases have been used to study the effect of com-pressibility on mixi...
The purpose of this study is to investigate compressibility effects on the turbulence in homo-geneou...
The issue of growth rate reduction of high speed mixing layer with convective Mach number is examine...
Results from linear stability analysis are presented for a wide variety of mixing layers, including ...
This article employs LES to simulate temporal mixing layers with Mach numbers ranging from M ...
Direct numerical simulation of turbulent homogeneous shear flow is performed in order to clarify com...
The growth rate and turbulent structure of the compressible, plane shear layer are investigated expe...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
An investigation of compressible, turbulent mixing layers has been completed. The experiments were c...
In modeling the effect of compressibility on the turbulence structure, additional physical mechanism...
It is shown that the dilatational terms that need to be modeled in compressible turbulence include n...
Characteristics of the process of entrainment in plane mixing layers, and the changes with compressi...
International audienceA compressible supersonic mixing layer at convective Mach number (Mc) equal to...
simulations of compressible mixing layers of similar and dissimilar gases: Performance of k–e turbul...
Direct numerical simulation databases have been used to study the effect of compressibility on mixin...
Direct numerical simulation databases have been used to study the effect of com-pressibility on mixi...
The purpose of this study is to investigate compressibility effects on the turbulence in homo-geneou...
The issue of growth rate reduction of high speed mixing layer with convective Mach number is examine...
Results from linear stability analysis are presented for a wide variety of mixing layers, including ...
This article employs LES to simulate temporal mixing layers with Mach numbers ranging from M ...
Direct numerical simulation of turbulent homogeneous shear flow is performed in order to clarify com...
The growth rate and turbulent structure of the compressible, plane shear layer are investigated expe...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
An investigation of compressible, turbulent mixing layers has been completed. The experiments were c...
In modeling the effect of compressibility on the turbulence structure, additional physical mechanism...
It is shown that the dilatational terms that need to be modeled in compressible turbulence include n...
Characteristics of the process of entrainment in plane mixing layers, and the changes with compressi...
International audienceA compressible supersonic mixing layer at convective Mach number (Mc) equal to...
simulations of compressible mixing layers of similar and dissimilar gases: Performance of k–e turbul...