Counter-flow configurations, whereby two streams of fluid are brought together from opposite directions, are highly efficient mixers due to the high turbulence intensities that can be maintained. In this paper, a simplified version of the problem is introduced that is amenable to direct numerical simulation. The resulting turbulent flow problem is confined between two walls, with one nonzero mean velocity component varying in the space direction normal to the wall, corresponding to a simple shear flow. Compared to conventional channel flows, the mean flow is inflectional and the maximum turbulence intensity relative to the maximum mean velocity is nearly an order of magnitude higher. The numerical requirements and turbulence properties of t...
Model free simulations are performed to study the effect of the presence of side wall in compressibl...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
Counter-flow configurations, whereby two streams of fluid are brought together from opposite directi...
Counter-flow configurations in a confined channel flow provide an efficient framework to study high ...
Counter-flow or counter-current configurations can maintain high turbulence intensities and exhibit ...
Compressible turbulent channel flows at two Mach numbers (M = 0.8 and 1.3) are simulated by the nume...
A study of compressible supersonic turbulent flow in a plane channel with isothermal walls has been ...
Summarization: Countercurrent flow is a generalized plane Couette flow in which a shear-induced drif...
The present paper addresses some topical issues in modelling compressible turbulent shear flows. The...
Turbulence in the compressible channel flow is studied by direct numerical simulation at Re_Γ= 430 w...
Direct numerical simulations of turbulent channels with artificially prescribed velocity profiles ar...
We present a simple model for the development of shear layers between parallel flows in confining ch...
Direct numerical simulations of compressible turbulent channel flow including passive scalar transpo...
Several questions that are relevant to turbulence modeling are addressed on the basis of recently ob...
Model free simulations are performed to study the effect of the presence of side wall in compressibl...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
Counter-flow configurations, whereby two streams of fluid are brought together from opposite directi...
Counter-flow configurations in a confined channel flow provide an efficient framework to study high ...
Counter-flow or counter-current configurations can maintain high turbulence intensities and exhibit ...
Compressible turbulent channel flows at two Mach numbers (M = 0.8 and 1.3) are simulated by the nume...
A study of compressible supersonic turbulent flow in a plane channel with isothermal walls has been ...
Summarization: Countercurrent flow is a generalized plane Couette flow in which a shear-induced drif...
The present paper addresses some topical issues in modelling compressible turbulent shear flows. The...
Turbulence in the compressible channel flow is studied by direct numerical simulation at Re_Γ= 430 w...
Direct numerical simulations of turbulent channels with artificially prescribed velocity profiles ar...
We present a simple model for the development of shear layers between parallel flows in confining ch...
Direct numerical simulations of compressible turbulent channel flow including passive scalar transpo...
Several questions that are relevant to turbulence modeling are addressed on the basis of recently ob...
Model free simulations are performed to study the effect of the presence of side wall in compressibl...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...