Computational Fluid Dynamics: Principles and ApplicationsElsevier, 11 maj 2001 - 460 sidor Computational Fluid Dynamics: Principles and Applications |
Innehåll
| 1 | |
| 5 | |
| 29 | |
| 75 | |
Unstructured Finite Volume Schemes | 129 |
Chapter 6 Temporal Discretisation | 181 |
Chapter 7 Turbulence Modelling | 225 |
Chapter 8 Boundary Conditions | 267 |
Chapter 9 Acceleration Techniques | 299 |
Chapter 10 Consistency Accuracy and Stability | 331 |
Chapter 11 Principles of Grid Generation | 353 |
Chapter 12 Description of the Source Codes | 393 |
A Appendix | 401 |
Index | 435 |
Andra upplagor - Visa alla
Vanliga ord och fraser
accuracy AIAA Journal AIAA Paper Algorithm applied approach approximation artificial dissipation average boundary conditions boundary layers cell-centred scheme cell-vertex scheme coarse grid coefficients Compressible Flows Computational Physics conservative variables control volume convergence coordinate Delaunay triangulation denotes discretisation scheme domain dummy cells edge eigenvalues employed Euler Equations evaluated explicit face vector farfield finite volume finite volume method flow variables formulation Fourier symbol GMRES governing equations gradients grid cells grid points implementation implicit operator implicit scheme interpolation inviscid Jameson Large Eddy Simulation linear Mach number matrix Mavriplis median-dual scheme methodology Multigrid Method multistage scheme Navier-Stokes Equations nodes obtained Preconditioning problem residual smoothing Reynolds-averaged Navier-Stokes equations second-order Simulation solution Solver source term spatial discretisation splitting schemes structured Subsection surface tensor tetrahedral time-stepping scheme tion turbulence model Turbulent Flows TVD scheme unit normal vector unstructured grids Unstructured Meshes upwind scheme values viscous fluxes wall
Populära avsnitt
Sida 62 - Flux Vector Splitting of the Inviscid Gasdynamic Equations with Application to Finite Difference Methods", Journal of Computational Physics , vol.
Sida 124 - Pike, J.: Efficient Construction and Utilisation of Approximate Riemann Solutions. Computing Methods in Applied Sciences and Engineering, R.
Sida 28 - Walters, PT, Experimental Validation of Condensing Flow Theory for a Stationary Cascade of Steam Turbine Blades.
Sida 59 - Boundary Conditions for Euler Equations at Internal Block Faces of Multiblock Domains Using Local Grid Refinement, AIAA Paper 90-1590, 1990.
Sida 262 - Mittal, R. and Moin, P. (1997) Suitability of Upwind-Biased Finite Difference Schemes for Large-Eddy Simulation of Turbulent Flows.
Sida 216 - Design of optimally smoothing multi-stage schemes for the Euler equations...
Sida 27 - Mundt, Ch.; Keraus, R.; Fischer, J.: New, Accurate, Vectorized Approximations of State Surfaces for the Thermodynamic and Transport Properties of Equilibrium Air.
Sida 123 - A Flux Splitting Scheme with HighResolution and Robustness for Discontinuities,
Sida 61 - C./ Hussaini MY/ Quarteroni A./ Zang TA, Spectral methods in fluid dynamics, Springer Verlag, New York, 557pp, 1987 Clebsch A., Analysis and critique of 'aquifers, ground-water bodies and hydrophers
Sida 67 - A 3-D Finite Element Multigrid Solver for the Euler Equations,