Add to ORKGTurbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot and Orszag with scale expansions for the Reynolds stress and production of dissipation terms. The additional expansion parameter (eta) is the ratio of the turbulent to mean strain time scale. While low-order expansions appear to provide an adequate description of the Reynolds stress, no finite truncation of the expansion for the production of dissipation term in powers of eta suffices - terms of all orders must be retained. Based on these ideas, a new two-equation model and Reynolds stress transport model are developed for turbulent shear flows. The models are tested for homogeneous shear flow and flow over a backward facing step. Comparisons...
The invariance theory in continuum mechanics is applied to analyze Reynolds stresses in high Reynold...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
The state-of-the-art of turbulent flow computation is surveyed. The formulations were generalized to...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...
In a recent paper, the authors compared the performance of a variety of turbulence models including ...
The performance is evaluated of three distinct classes of turbulence model. These classes are: (1) T...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
Reynolds stress closure models based on the recursion renormalization group theory are developed for...
In recent years codes that use the Navier-Stokes equations to compute aerodynamic flows have evolved...
The pressure velocity correlation and return to isotropy term in the Reynolds stress transport equat...
The full text of a paper presented at the Whither Turbulence Workshop (Cornell University, March 22-...
The invariance theory in continuum mechanics is applied to analyze Reynolds stresses in high Reynold...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
A two-equation turbulence model of the K-epsilon type was recently derived by using Renormalization ...
Two second-order-closure turbulence models were devised that are suitable for predicting properties ...
The invariance theory in continuum mechanics is applied to analyze Reynolds stresses in high Reynold...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
The state-of-the-art of turbulent flow computation is surveyed. The formulations were generalized to...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...
In a recent paper, the authors compared the performance of a variety of turbulence models including ...
The performance is evaluated of three distinct classes of turbulence model. These classes are: (1) T...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
Reynolds stress closure models based on the recursion renormalization group theory are developed for...
In recent years codes that use the Navier-Stokes equations to compute aerodynamic flows have evolved...
The pressure velocity correlation and return to isotropy term in the Reynolds stress transport equat...
The full text of a paper presented at the Whither Turbulence Workshop (Cornell University, March 22-...
The invariance theory in continuum mechanics is applied to analyze Reynolds stresses in high Reynold...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
A two-equation turbulence model of the K-epsilon type was recently derived by using Renormalization ...
Two second-order-closure turbulence models were devised that are suitable for predicting properties ...
The invariance theory in continuum mechanics is applied to analyze Reynolds stresses in high Reynold...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
The state-of-the-art of turbulent flow computation is surveyed. The formulations were generalized to...