Add to ORKGA two-equation turbulence model of the K-epsilon type was recently derived by using Renormalization Group (RNG) methods. It was later reported that this RNG based model yields substantially better predictions than the standard K-epsilon model for turbulent flow over a backward facing step - a standard test case used to benchmark the performance of turbulence models in separated flows. The improvements obtained from the RNG K-epsilon model were attributed to the better treatment of near wall turbulence effects. In contrast to these earlier claims, it is shown in this paper that the original version of the RNG K-epsilon model substantially underpredicts the reattachment point in the backstep problem. This is a deficiency that is traced to the...
A k-epsilon model is proposed for wall bonded turbulent flows. In this model, the eddy viscosity is ...
A k-epsilon model is proposed for turbulent bounded flows. In this model, the turbulent velocity sca...
Two new versions of the kappa-omega two-equation turbulence model will be presented. The new Baselin...
In a recent paper, the authors compared the performance of a variety of turbulence models including ...
Reynolds stress closure models based on the recursion renormalization group theory are developed for...
The ability of two-equation models to accurately predict separated flows is analyzed from a combined...
A numerical study of incompressible turbulent separated flows is carried out by using two-equation t...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...
The problem of turbulent flow past a backward facing step is important in many technological applica...
The objective is to understand and extend a recent theory of turbulence based on dynamic renormaliza...
Two projects are considered: the Renormalization Group (RNG) analysis of turbulence modeling, and th...
The RNG-based algebraic turbulence model, with a new method of solving the cubic equation and applyi...
A numerical method for computing incompressible turbulent flows is presented. The method is tested b...
Turbulent backward-facing step flow was examined using four low turbulent Reynolds number k-epsilon ...
A k-epsilon model is proposed for wall bonded turbulent flows. In this model, the eddy viscosity is ...
A k-epsilon model is proposed for turbulent bounded flows. In this model, the turbulent velocity sca...
Two new versions of the kappa-omega two-equation turbulence model will be presented. The new Baselin...
In a recent paper, the authors compared the performance of a variety of turbulence models including ...
Reynolds stress closure models based on the recursion renormalization group theory are developed for...
The ability of two-equation models to accurately predict separated flows is analyzed from a combined...
A numerical study of incompressible turbulent separated flows is carried out by using two-equation t...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
Turbulence models are developed by supplementing the renormalization group (RNG) approach of Yakhot ...
The problem of turbulent flow past a backward facing step is important in many technological applica...
The objective is to understand and extend a recent theory of turbulence based on dynamic renormaliza...
Two projects are considered: the Renormalization Group (RNG) analysis of turbulence modeling, and th...
The RNG-based algebraic turbulence model, with a new method of solving the cubic equation and applyi...
A numerical method for computing incompressible turbulent flows is presented. The method is tested b...
Turbulent backward-facing step flow was examined using four low turbulent Reynolds number k-epsilon ...
A k-epsilon model is proposed for wall bonded turbulent flows. In this model, the eddy viscosity is ...
A k-epsilon model is proposed for turbulent bounded flows. In this model, the turbulent velocity sca...
Two new versions of the kappa-omega two-equation turbulence model will be presented. The new Baselin...