Add to ORKGA numerical method for computing incompressible turbulent flows is presented. The method is tested by calculating laminar recirculating flows and is applied in conjunction with a modified Kappa-epsilon model to compute the flow over a backward-facing step. In the laminar regime, the computational results are in good agreement with the experimental data. The turbulent flow study shows that the reattachment length is underpredicted by the standard Kappa-epsilon model. The addition of a term to the standard model that accounts for the effects of rotation on turbulent flow improves the results in the recirculation region and increases the computed reattachment length
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
The phenomenon of atmospheric shear layer separation over a man-made structure such as a building (m...
The problem of turbulent flow past a backward facing step is important in many technological applica...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
The ability of two-equation models to accurately predict separated flows is analyzed from a combined...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
A viscous-inviscid interaction scheme is presented for computing steady, two-dimensional, incompress...
Two-dimensional incompressible turbulent flow in a channel with a backward-facing step was studied n...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
The objectives of this study are as follows: (1) to conduct a direct numerical simulation of turbule...
A numerical study of incompressible turbulent separated flows is carried out by using two-equation t...
Backward-facing step (BFS) is a benchmarked geometry for visualizing recirculation flow and validat...
A comparative study was conducted for computational fluid dynamic solutions to flow over a backward-...
Turbulent backward-facing step flow was examined using four low turbulent Reynolds number k-epsilon ...
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
The phenomenon of atmospheric shear layer separation over a man-made structure such as a building (m...
The problem of turbulent flow past a backward facing step is important in many technological applica...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
The ability of two-equation models to accurately predict separated flows is analyzed from a combined...
The two-equation kappa-epsilon model is used to analyze turbulent separated flow past a backward-fac...
A viscous-inviscid interaction scheme is presented for computing steady, two-dimensional, incompress...
Two-dimensional incompressible turbulent flow in a channel with a backward-facing step was studied n...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
The objectives of this study are as follows: (1) to conduct a direct numerical simulation of turbule...
A numerical study of incompressible turbulent separated flows is carried out by using two-equation t...
Backward-facing step (BFS) is a benchmarked geometry for visualizing recirculation flow and validat...
A comparative study was conducted for computational fluid dynamic solutions to flow over a backward-...
Turbulent backward-facing step flow was examined using four low turbulent Reynolds number k-epsilon ...
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Investigation of flow separation and reattachment length over a backward facing step are such as the...
The phenomenon of atmospheric shear layer separation over a man-made structure such as a building (m...