Add to ORKGRecent work on the development of a second-order closure model for high-speed compressible flows is reviewed. This turbulent closure is based on the solution of modeled transport equations for the Favre-averaged Reynolds stress tensor and the solenoidal part of the turbulent dissipation rate. A new model for the compressible dissipation is used along with traditional gradient transport models for the Reynolds heat flux and mass flux terms. Consistent with simple asymptotic analyses, the deviatoric part of the remaining higher-order correlations in the Reynolds stress transport equations are modeled by a variable density extension of the newest incompressible models. The resulting second-order closure model is tested in a variety of compress...
The development of an invariant model designed expressly for the computation of shear flows is discu...
The roles of pressure-strain and turbulent diffusion models in the numerical calculation of turbulen...
The full text of a paper presented at the Whither Turbulence Workshop (Cornell University, March 22-...
Theoretically based turbulence models have had success in predicting many features of incompressible...
Despite all the recent developments in computer technologies and numerical algorithms, full numerica...
Two second-order-closure turbulence models were devised that are suitable for predicting properties ...
Equations for the mean and turbulent quantities for compressible turbulent flows are derived. Both t...
The objective was the development of a complete second order closure for wall bounded flows, includi...
A second order closure turbulence model for compressible flows is developed and implemented in a 2D ...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
This viewgraph presentation discusses project description, turbulence models, and computational engi...
Equations for the mean and the turbulence quantities of compressible turbulent flows are derived in ...
AbstractThe Spalart-Allmaras (S-A) turbulence model, the shear-stress transport (SST) turbulence mod...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
This report outlines the development of a general purpose aerodynamic solver for compressible turbul...
The development of an invariant model designed expressly for the computation of shear flows is discu...
The roles of pressure-strain and turbulent diffusion models in the numerical calculation of turbulen...
The full text of a paper presented at the Whither Turbulence Workshop (Cornell University, March 22-...
Theoretically based turbulence models have had success in predicting many features of incompressible...
Despite all the recent developments in computer technologies and numerical algorithms, full numerica...
Two second-order-closure turbulence models were devised that are suitable for predicting properties ...
Equations for the mean and turbulent quantities for compressible turbulent flows are derived. Both t...
The objective was the development of a complete second order closure for wall bounded flows, includi...
A second order closure turbulence model for compressible flows is developed and implemented in a 2D ...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
This viewgraph presentation discusses project description, turbulence models, and computational engi...
Equations for the mean and the turbulence quantities of compressible turbulent flows are derived in ...
AbstractThe Spalart-Allmaras (S-A) turbulence model, the shear-stress transport (SST) turbulence mod...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
This report outlines the development of a general purpose aerodynamic solver for compressible turbul...
The development of an invariant model designed expressly for the computation of shear flows is discu...
The roles of pressure-strain and turbulent diffusion models in the numerical calculation of turbulen...
The full text of a paper presented at the Whither Turbulence Workshop (Cornell University, March 22-...