Add to ORKGThis paper considers grid-adaptation techniques for the boundary-layer region of hybrid meshes, where the mesh is of regular structure consisting of prismatic resp. hexaedral elements. The method helps to improve convergence, accuracy and reliability of aerodynamic simulations for the two possible types of wall-boundary conditions for viscous flows, i.e., integrating the flow equations down to the wall (no-slip) or using wall-functions. The underlying algorithms and their parallelization are described and the method is applied to 3D aerodynamic configurations. Moreover, accuracy and performance gain using wall-functions with grid-adaptation are discussed for transonic airfoil flows
A set of algorithms building a program package for the generation of twoandthree-dimensional unstruc...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...
The numerical solution of the Reynolds averaged Navier-Stokes (RANS) equations for aerodynamic flows...
This paper presents a grid and flow adaptive wall-function method for RANS turbulence modelling wi...
This report is dedicated to a new wall-function approach for RANS turbulence modelling of subsonic a...
Simulation of wall-bounded turbulent flows poses significant challenges and requires tightly control...
Capturing accurately the whole flow field around a complex geometry remains a challenge for viscous ...
Turbulent flows are found everywhere in nature and are studied, analyzed and simulated using various...
International audienceThe scope of this paper is to determine an optimal mesh adaptation strategy to...
grantor: University of TorontoUnstructured grids are used in numerical models applied to ...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
An hybrid mesh generation algorithm for two-dimensional viscous flows at high-Reynolds number is pre...
International audienceAn improved coupling of immersed boundary method and turbulence wall models on...
A common alternative to full resolution of the near-wall region in computational fluid dynamics (CFD...
A set of algorithms building a program package for the generation of twoandthree-dimensional unstruc...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...
The numerical solution of the Reynolds averaged Navier-Stokes (RANS) equations for aerodynamic flows...
This paper presents a grid and flow adaptive wall-function method for RANS turbulence modelling wi...
This report is dedicated to a new wall-function approach for RANS turbulence modelling of subsonic a...
Simulation of wall-bounded turbulent flows poses significant challenges and requires tightly control...
Capturing accurately the whole flow field around a complex geometry remains a challenge for viscous ...
Turbulent flows are found everywhere in nature and are studied, analyzed and simulated using various...
International audienceThe scope of this paper is to determine an optimal mesh adaptation strategy to...
grantor: University of TorontoUnstructured grids are used in numerical models applied to ...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
An hybrid mesh generation algorithm for two-dimensional viscous flows at high-Reynolds number is pre...
International audienceAn improved coupling of immersed boundary method and turbulence wall models on...
A common alternative to full resolution of the near-wall region in computational fluid dynamics (CFD...
A set of algorithms building a program package for the generation of twoandthree-dimensional unstruc...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...