Add to ORKGAbstract. Boundary layers in turbulent flows require fine grid spacings near the walls which depend on the choice of turbulence model. To satisfy these requirements a semi-structured mesh is generally used in this area with orthogonal and layered elements. Adaptation of such a mesh needs to take into account the flow physics along with the standard error indicator approach. In this paper a novel methodology which combines Hessian based error indicators with flow physics to drive mesh adaptation is illustrated. Particular focus is on the thickness adaptation of the layered mesh. The technique is applied to two turbulent incompressible flow cases and its effectiveness is studied.
The efficient representation of the highly directional features in a flow field with adapted anisotr...
Unstructured grid adaptation is a tool to control Computational Fluid Dynamics (CFD) discretization ...
International audienceThe scope of this paper is to determine an optimal mesh adaptation strategy to...
Simulation of wall-bounded turbulent flows poses significant challenges and requires tightly control...
Turbulent flows are found everywhere in nature and are studied, analyzed and simulated using various...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
Capturing accurately the whole flow field around a complex geometry remains a challenge for viscous ...
La simulation numérique des écoulements turbulents en aérodynamique est très complexe. Elle consiste...
International audienceUnstructured grid techniques have the potential of minimizing discretization e...
Multi-element wings are popular in the aerospace community due to their high lift performance. Turbu...
A methodology for error estimation and mesh adaptation for finite element (FE) analysis of incompres...
Unstructured grid techniques have the potential of minimizing discretization errors for production a...
The efficient representation of the highly directional features in a flow field with adapted anisotr...
Unstructured grid adaptation is a tool to control Computational Fluid Dynamics (CFD) discretization ...
International audienceThe scope of this paper is to determine an optimal mesh adaptation strategy to...
Simulation of wall-bounded turbulent flows poses significant challenges and requires tightly control...
Turbulent flows are found everywhere in nature and are studied, analyzed and simulated using various...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
Numerical simulation of turbulent aerodynamics flows remains challenging. Such fluid-structure inter...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
Capturing accurately the whole flow field around a complex geometry remains a challenge for viscous ...
La simulation numérique des écoulements turbulents en aérodynamique est très complexe. Elle consiste...
International audienceUnstructured grid techniques have the potential of minimizing discretization e...
Multi-element wings are popular in the aerospace community due to their high lift performance. Turbu...
A methodology for error estimation and mesh adaptation for finite element (FE) analysis of incompres...
Unstructured grid techniques have the potential of minimizing discretization errors for production a...
The efficient representation of the highly directional features in a flow field with adapted anisotr...
Unstructured grid adaptation is a tool to control Computational Fluid Dynamics (CFD) discretization ...
International audienceThe scope of this paper is to determine an optimal mesh adaptation strategy to...