Computational Fluid Mechanics and Heat Transfer

Computational Fluid Mechanics and Heat Transfer

Tannehill, John C.; Munipalli, Ramakanth; Anderson, Dale; Shankar, Vijaya; Pletcher, Richard H.

Taylor & Francis Inc

12/2020

974

Dura

Inglês

9780815357124

15 a 20 dias

1827

Descrição não disponível.
Part I: Fundamentals. 1. Introduction. 2. Partial Differential Equations. 3. Basics of Discretization Methods. 4. Application of Numerical Methods to Selected Model Equations. Part II: Application of Numerical Methods to the Equations of Fluid Mechanics and Heat Transfer. 5. Governing Equations of Fluid Mechanics and Heat Transfer. 6. Numerical Methods for Inviscid Flow Equations. 7. Numerical Methods for Boundary-Layer-Type Equations. 8. Numerical Methods for the "Parabolized" Navier-Stokes Equations. 9. Numerical Methods for the Navier-Stokes Equations. 10. Grid Generation.
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Hyperbolic PDEs;Partial Differential Equations;Immersed Boundary Method;Computational fluid dynamics;NVIDIA CUDA;Paraboloc PDEs;Open Source Software;Hyperbolic PDEs.;Grid Generation;Computational heat transfer.;Displacement Vector;Elliptic PDEs;High Speed Digital Computer;Finite difference methods;Exascale Computing;Equilibrium problems;Linear PDE;Conservation form;Parabolic PDEs;Polynomial fitting;Finite volume methods;Cfd Solver;Runge-Kutta methods;Execution Time;Inviscid flow equations;Grid Generation Schemes;Computational heat transfer;Unstructured Grid;Continuous Galerkin methods;Flux Difference Splitting;Finite-volume computational method;Multicore Cpu;High Performance Computing;Scaling Efficiency;Euler Lagrange Equations;Compressible Flow Simulation;General Purpose Processors;GPU Kernel;Grid Point Locations