A three-dimensional, parallel, anisotropic, block-based, adaptive mesh refinement (AMR) algorithm is proposed and described for the solution of fluid flows on body-fitted, multi-block, hexahedral meshes. Refinement and de-refinement in any grid block computational direction, or combination of directions, allows the mesh to rapidly adapt to anisotropic flow features such as shocks, boundary layers, or flame fronts, common to complex flow physics. Anisotropic refinements and an efficient and highly scalable parallel implementation lead to a potential for significant reduction in computational cost as compared to a more typical isotropic approach. Unstructured root-block topology allows for greater flexibility in the treatment of complex geom...
International audienceMesh adaptation has proven to be very efficient for simulating transient multi...
AbstractIn this paper a parallel adaptive mesh refinement for LES simulation of turbulent flows is p...
Abstract. An anisotropic solution adaptive method based on unstructured quadrilat-eral meshes for in...
A three-dimensional, parallel, anisotropic, block-based, adaptive mesh refinement (AMR) algorithm is...
A novel parallel block-based anisotropic adaptive mesh refinement (AMR) technique for multi-block bo...
A novel parallel block-based anisotropic adaptive mesh refinement (AMR) technique for multi-block bo...
A parallel adaptive mesh refinement (AMR) algorithm is described for predicting tur-bulent non-premi...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
An anisotropic output-based adaptive mesh refinement (AMR) scheme is proposed and developed for the ...
An anisotropic output-based adaptive mesh refinement (AMR) scheme is proposed and developed for the ...
Researchers and engineers practicing Computational Fluid Dynamics (CFD) have over the years gained a...
A parallel, block-based, adaptive mesh refinement, finite-volume scheme is developed and validated f...
A parallel, block-based, adaptive mesh refinement, finite-volume scheme is developed and validated f...
Researchers and engineers practicing Computational Fluid Dynamics (CFD) have over the years gained a...
International audienceMesh adaptation has proven to be very efficient for simulating transient multi...
International audienceMesh adaptation has proven to be very efficient for simulating transient multi...
AbstractIn this paper a parallel adaptive mesh refinement for LES simulation of turbulent flows is p...
Abstract. An anisotropic solution adaptive method based on unstructured quadrilat-eral meshes for in...
A three-dimensional, parallel, anisotropic, block-based, adaptive mesh refinement (AMR) algorithm is...
A novel parallel block-based anisotropic adaptive mesh refinement (AMR) technique for multi-block bo...
A novel parallel block-based anisotropic adaptive mesh refinement (AMR) technique for multi-block bo...
A parallel adaptive mesh refinement (AMR) algorithm is described for predicting tur-bulent non-premi...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
An anisotropic output-based adaptive mesh refinement (AMR) scheme is proposed and developed for the ...
An anisotropic output-based adaptive mesh refinement (AMR) scheme is proposed and developed for the ...
Researchers and engineers practicing Computational Fluid Dynamics (CFD) have over the years gained a...
A parallel, block-based, adaptive mesh refinement, finite-volume scheme is developed and validated f...
A parallel, block-based, adaptive mesh refinement, finite-volume scheme is developed and validated f...
Researchers and engineers practicing Computational Fluid Dynamics (CFD) have over the years gained a...
International audienceMesh adaptation has proven to be very efficient for simulating transient multi...
International audienceMesh adaptation has proven to be very efficient for simulating transient multi...
AbstractIn this paper a parallel adaptive mesh refinement for LES simulation of turbulent flows is p...
Abstract. An anisotropic solution adaptive method based on unstructured quadrilat-eral meshes for in...
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