Methods which allow for construction of flow feature aligned meshes in two- and three-dimensions have been developed in this thesis to investigate their potential for improvements in the numerical solution relative to globally refining the mesh. Of particular interest in the work is the generation of high-quality quadrilateral and hexahedral elements aligned with the dominant flow features. The two-dimensional techniques are applied on unstructured quad-dominant meshes, whilst the three-dimensional problems involve embedding high-quality hex-dominant mesh blocks into a hybrid volume mesh to improve their ability to capture anisotropic flow features such as shock waves, trailing shear layers/wakes and wing tip vortices. A method involving ...
Numerical simulation is a powerful tool to analyze complex physical phenomena for scientific analysi...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
A three-dimensional, parallel, anisotropic, block-based, adaptive mesh refinement (AMR) algorithm is...
Methods which allow for construction of flow feature aligned meshes in two- and three-dimensions hav...
A method to represent complex flow features as geometric entities, using the medial axis for the pur...
A method to generate feature-aligned anisotropic structured meshes automatically is presented for hi...
The use of computational fluid dynamics (CFD) is now a ubiquitous part of of the engineering design ...
Even though more complex to generate and adapt, hybrid structured-unstructured meshes are increasing...
The paper presents generation of adaptive hybrid prismatic/tetrahedral grids for complex 3-D geometr...
An intense research effort over the last few years has produced several competing and apparently div...
Generating smooth mixed block-unstructured meshes is a promising way to reduce mesh sizes for outer ...
The efficient representation of the highly directional features in a flow field with adapted anisotr...
IntroductionUnless the boundary element method (see Brebbia and Wrobel 1980), mesh less methods such...
Mesh generation is a critical step in image-based computational fluid dynamic investigation of vascu...
AbstractA hybrid grid generation technique and a multigrid/parallel algorithm are presented in this ...
Numerical simulation is a powerful tool to analyze complex physical phenomena for scientific analysi...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
A three-dimensional, parallel, anisotropic, block-based, adaptive mesh refinement (AMR) algorithm is...
Methods which allow for construction of flow feature aligned meshes in two- and three-dimensions hav...
A method to represent complex flow features as geometric entities, using the medial axis for the pur...
A method to generate feature-aligned anisotropic structured meshes automatically is presented for hi...
The use of computational fluid dynamics (CFD) is now a ubiquitous part of of the engineering design ...
Even though more complex to generate and adapt, hybrid structured-unstructured meshes are increasing...
The paper presents generation of adaptive hybrid prismatic/tetrahedral grids for complex 3-D geometr...
An intense research effort over the last few years has produced several competing and apparently div...
Generating smooth mixed block-unstructured meshes is a promising way to reduce mesh sizes for outer ...
The efficient representation of the highly directional features in a flow field with adapted anisotr...
IntroductionUnless the boundary element method (see Brebbia and Wrobel 1980), mesh less methods such...
Mesh generation is a critical step in image-based computational fluid dynamic investigation of vascu...
AbstractA hybrid grid generation technique and a multigrid/parallel algorithm are presented in this ...
Numerical simulation is a powerful tool to analyze complex physical phenomena for scientific analysi...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
A three-dimensional, parallel, anisotropic, block-based, adaptive mesh refinement (AMR) algorithm is...