This paper deals with the numerical simulation of a turbulent flow around two-dimensional bodies by the finite volume method with non-orthogonal body-fitted grid. The governing equations are expressed in Cartesian velocity components and solution is carried out using the SIMPLE algorithm for collocated arrangement of scalar and vector variables. Turbulence is modeled by the turbulence model and wall functions are used to bridge the solution variables at the near wall cells and the corresponding quantities on the wall. A simplified pressure correction equation is derived and proper under-relaxation factors are used so that computational cost is reduced without adversely affecting the convergence rate. The numerical procedure is validated by ...
International audienceAn improved coupling of immersed boundary method and turbulence wall models on...
The subject of this thesis is modelling and numerical simulation of the interaction of two-dimension...
Selection of an appropriate and efficient turbulence models is important for fast and accurate compu...
The present study aims at calculation of 2D turbulent13; flow around aerofoil and its wake by solvin...
Numerical solutions are obtained for two-dimensional incompressible turbulent viscous flow over airf...
grantor: University of TorontoA finite-volume solver for the two-dimensional compressible ...
A computer program has been developed for both two-dimensional compressible and incompressible turbu...
This article presents a new and substantially improved finite volume procedure for simulation of inc...
A method for calculating turbulent flows around ships is described and its capabilities are investig...
flows around complex configurations is illustrated; the IB is based on the use of non-body conformal...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
International audienceToday, Computational Fluid Dynamics (CFD) offers to engineers a promising way ...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
SIGLELD:3106.076(CEGB-RD/B/--5010N81). / BLDSC - British Library Document Supply CentreGBUnited King...
Applying the Voronoi diagram to the cell system for the finite volume method, a new method on the un...
International audienceAn improved coupling of immersed boundary method and turbulence wall models on...
The subject of this thesis is modelling and numerical simulation of the interaction of two-dimension...
Selection of an appropriate and efficient turbulence models is important for fast and accurate compu...
The present study aims at calculation of 2D turbulent13; flow around aerofoil and its wake by solvin...
Numerical solutions are obtained for two-dimensional incompressible turbulent viscous flow over airf...
grantor: University of TorontoA finite-volume solver for the two-dimensional compressible ...
A computer program has been developed for both two-dimensional compressible and incompressible turbu...
This article presents a new and substantially improved finite volume procedure for simulation of inc...
A method for calculating turbulent flows around ships is described and its capabilities are investig...
flows around complex configurations is illustrated; the IB is based on the use of non-body conformal...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
International audienceToday, Computational Fluid Dynamics (CFD) offers to engineers a promising way ...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
SIGLELD:3106.076(CEGB-RD/B/--5010N81). / BLDSC - British Library Document Supply CentreGBUnited King...
Applying the Voronoi diagram to the cell system for the finite volume method, a new method on the un...
International audienceAn improved coupling of immersed boundary method and turbulence wall models on...
The subject of this thesis is modelling and numerical simulation of the interaction of two-dimension...
Selection of an appropriate and efficient turbulence models is important for fast and accurate compu...