Counter-flow configurations in a confined channel flow provide an efficient framework to study high intensity turbulent mixing processes. In a previous study (Physical Review Fluids, 6(9), p.094603), a wall-bounded counter-flow turbulent channel configuration was presented as an effective framework for addressing certain challenges related to the study of compressibility effects on turbulence as an alternative to free shear layer and Poiseuille/Couette type flows. Here, the previous direct numerical simulations are extended to a higher Mach number (M = 0.7) to quantify direct and indirect effects of compressibility. It is found that the configuration is able to produce large numbers of embedded shocklets, leading to significant asymmetry in...
High Mach number mixing layers play an important role in the development of supersonic combustor ram...
Wall bounded turbulence have been investigated by many authors to understand the underlying physics,...
A study of compressible supersonic turbulent flow in a plane channel with isothermal walls has been ...
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 ...
Counter-flow configurations, whereby two streams of fluid are brought together from opposite directi...
Compressibility effects are present in many practical turbulent flows, ranging from shockwave/bounda...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
The present paper addresses some topical issues in modelling compressible turbulent shear flows. The...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
Compressible turbulent channel flows at two Mach numbers (M = 0.8 and 1.3) are simulated by the nume...
Turbulence in supersonic channel ow is studied using direct numerical simulation. The ability of out...
Direct numerical simulation databases have been used to study the effect of compressibility on mixin...
Direct numerical simulations of compressible turbulent channel flow including passive scalar transpo...
High Mach number mixing layers play an important role in the development of supersonic combustor ram...
Wall bounded turbulence have been investigated by many authors to understand the underlying physics,...
A study of compressible supersonic turbulent flow in a plane channel with isothermal walls has been ...
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 ...
Counter-flow configurations, whereby two streams of fluid are brought together from opposite directi...
Compressibility effects are present in many practical turbulent flows, ranging from shockwave/bounda...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
The present paper addresses some topical issues in modelling compressible turbulent shear flows. The...
The aim of this work is to improve the present understanding of compressibility effects in wall-boun...
The effect of Reynolds and Mach number variation in compressible isothermal channel flow is investi-...
Compressible turbulent channel flows at two Mach numbers (M = 0.8 and 1.3) are simulated by the nume...
Turbulence in supersonic channel ow is studied using direct numerical simulation. The ability of out...
Direct numerical simulation databases have been used to study the effect of compressibility on mixin...
Direct numerical simulations of compressible turbulent channel flow including passive scalar transpo...
High Mach number mixing layers play an important role in the development of supersonic combustor ram...
Wall bounded turbulence have been investigated by many authors to understand the underlying physics,...
A study of compressible supersonic turbulent flow in a plane channel with isothermal walls has been ...