Turbulence in the compressible channel flow is studied by direct numerical simulation at Re_Γ= 430 with Ma = 1.5,3.0,6.0 and modelled by multi-layer structure theory.As an extension of the mixing length for incompressible flow,an efficient Reynolds stress is defined and a closure new length order...Turbulence in the compressible channel flow is studied by direct numerical simulation at Re_Γ= 430 with Ma = 1.5,3.0,6.0 and modelled by multi-layer structure theory.As an extension of the mixing length for incompressible flow,an efficient Reynolds stress is defined and a closure new length order...The International Union of Theoretical and Applied Mechanics(IUTAM)、The Chinese Society of Theoretical and Applied Mechanics(CST
Developing an effective turbulence model is important for engineering applications as well as for fu...
Turbulence in supersonic channel ow is studied using direct numerical simulation. The ability of out...
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...
A quantitative model for turbulent channel flow is presented, based on the multi-layer hypothesis an...
Counter-flow configurations, whereby two streams of fluid are brought together from opposite directi...
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...
The relative scaling exponents and intermittency of three-dimensional compressible turbulent channel...
Numerical modeling and simulation of compressible reacting turbulent shear layers are considered. In...
The turbulent stresses must be defined to calculate the velocity distributions in open channel flows...
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...
This work focuses on the performance and validation of compressible turbulence models for the pressu...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
Developing an effective turbulence model is important for engineering applications as well as for fu...
Turbulence in supersonic channel ow is studied using direct numerical simulation. The ability of out...
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...
A quantitative model for turbulent channel flow is presented, based on the multi-layer hypothesis an...
Counter-flow configurations, whereby two streams of fluid are brought together from opposite directi...
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...
The relative scaling exponents and intermittency of three-dimensional compressible turbulent channel...
Numerical modeling and simulation of compressible reacting turbulent shear layers are considered. In...
The turbulent stresses must be defined to calculate the velocity distributions in open channel flows...
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...
This work focuses on the performance and validation of compressible turbulence models for the pressu...
In this work, experiments on planar free shear layers are conducted to obtain a set of benchmark com...
Developing an effective turbulence model is important for engineering applications as well as for fu...
Turbulence in supersonic channel ow is studied using direct numerical simulation. The ability of out...
Classical Mach-number (M) scaling in compressible wall turbulence was suggested by van Driest (Van D...