Add to ORKGThe current progress is documented in the research and development of modeling techniques for turbulent shear flows. These include a two-scale model for compressible turbulent flows and a new energy transfer model. The former represents the status of the efforts to identify compressibility effects in turbulence. The energy transfer model refines a weakly nonlinear wave model developed earlier, which models directly the turbulent large structures. The objective of these activities is to develop second-order closures for compressible turbulent flows
This article describes the second order closure progress that was made to calculate compressible hom...
In modeling the effect of compressibility on the turbulence structure, additional physical mechanism...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...
A multiple-scale model for compressible turbulent flows is proposed. It is assumed that turbulent ed...
Despite all the recent developments in computer technologies and numerical algorithms, full numerica...
Turbulence models are necessary in numerical simulations because of the impracticality of computing ...
A new sub-grid scale model is presented for the large-eddy simulation of compressible turbulence. In...
This letter investigates the compressible energy transfer process. We extend a methodology developed...
Theoretically based turbulence models have had success in predicting many features of incompressible...
The purpose of this study is to investigate compressibility effects on the turbulence in homo-geneou...
Equations for the mean and turbulent quantities for compressible turbulent flows are derived. Both t...
Development of improved turbulence closure models for compressible fluid flow simulations requires b...
Two second-order-closure turbulence models were devised that are suitable for predicting properties ...
Compressibility effects were studied on turbulence by direct numerical simulation of homogeneous she...
Equations for the mean and the turbulence quantities of compressible turbulent flows are derived in ...
This article describes the second order closure progress that was made to calculate compressible hom...
In modeling the effect of compressibility on the turbulence structure, additional physical mechanism...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...
A multiple-scale model for compressible turbulent flows is proposed. It is assumed that turbulent ed...
Despite all the recent developments in computer technologies and numerical algorithms, full numerica...
Turbulence models are necessary in numerical simulations because of the impracticality of computing ...
A new sub-grid scale model is presented for the large-eddy simulation of compressible turbulence. In...
This letter investigates the compressible energy transfer process. We extend a methodology developed...
Theoretically based turbulence models have had success in predicting many features of incompressible...
The purpose of this study is to investigate compressibility effects on the turbulence in homo-geneou...
Equations for the mean and turbulent quantities for compressible turbulent flows are derived. Both t...
Development of improved turbulence closure models for compressible fluid flow simulations requires b...
Two second-order-closure turbulence models were devised that are suitable for predicting properties ...
Compressibility effects were studied on turbulence by direct numerical simulation of homogeneous she...
Equations for the mean and the turbulence quantities of compressible turbulent flows are derived in ...
This article describes the second order closure progress that was made to calculate compressible hom...
In modeling the effect of compressibility on the turbulence structure, additional physical mechanism...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...