Immersed Boundary Method

Immersed Boundary Method

Development and Applications

De, Ashoke; Balaras, Elias; Roy, Somnath

Springer Verlag, Singapore

05/2021

442

Mole

Inglês

9789811539428

15 a 20 dias

816

Descrição não disponível.
Chapter 1: Coupled Curvilinear Immersed Boundary (CURVIB) and Rotation-Free Finite Element (RFFE) method: Concept and Applications.- Chapter 2: Immersed Boundary Methods for Simulating Human Motion Events.- Chapter 3: Immersed Boundary Method for High Reynolds Number Compressible Flows around an Aircraft Configuration.- Chapter 4: Handling Slender/Thin Geometries with Sharp Edges in Sharp-interface Immersed Boundary Approach.- Chapter 5: Mass conservation in sharp interface immersed boundary method - A GPGPU accelerated implementation.- Chapter 6: Solid/Fluid Thermal Coupling Using the Immersed Boundary Method.- Chapter 7: Immersed Boundary Methods for High Reynolds Number Turbulent Flows.- Chapter 8: Immersed boundary method applied to Unsteady Aerodynamics.- Chapter 9: Ghost Fluid Lattice Boltzmann Methods for Complex Geometries.- Chapter 10: Level Set Method based Immersed Boundary Method - Development and Applications.- Chapter 11: Study of momentum and thermal wakes due to elliptic cylinders of different axis ratios using immersed boundary methods.- Chapter 12: Immersed-boundary projection method.- Chapter 13: Development and assessment of a sharp interface immersed boundary method for compressible flows.- chapter 14: Development and Application of Immersed-boundary Methods for Compressible Flows.- Chapter 15: Sharp-interface Eulerian methods for high-speed multi-material flows.- Chapter 16: A higher-order cut-cell methodology for simulation of compressible viscous flow with extension to moving boundary problems.- Chapter 17: Sharp Interface Immersed boundary method for tackling large-scale flow-induced deformation.
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Immersed Boundary Methods;Computational Fluid Dynamics;Numerical Methods;Computational Mechanics;Fluid Mechanics and Heat Transfer;Complex Geometric representation;fluid- and aerodynamics