Computational Fluid Dynamics: Principles and Applications

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Elsevier, 11 maj 2001 - 460 sidor
Computational Fluid Dynamics: Principles and Applications
 

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Innehåll

Chapter 1 Introduction
1
Chapter 2 Governing Equations
5
Chapter 3 Principles of Solution of the Governing Equations
29
Chapter 4 Spatial Discretisation Structured Finite Volume Schemes
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
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Computational Fluid Dynamics: Principles and Applications
J. Blazek
Ingen förhandsgranskning - 2001

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

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Om författaren (2001)

Jiri Blazek received his MSc in Aerospace Engineering from the Institute of Technology in Aachen, Germany in 1989. He continued his research at the German Aerospace Center, DLR, and in 1995 obtained his PhD in Aerospace Engineering, focusing on CFD methods for high-speed flows, from the University of Braunschweig, Germany. Following this, Dr. Blazek worked as a research scientist at ABB Turbosystems in Baden, Switzerland, moving to ABB Corporate Research Ltd. (now ALSTOM Power Ltd.) as researcher and project leader for CFD code development in the fields of gas and steam turbines. He was appointed as senior research scientist at the Center for Simulation of Advanced Rockets, University of Illinois at Urbana-Champaign, USA and in 2005 founded his own consultancy and software development firm, CFD Consulting and Analysis, in Sankt Augustin, Germany. Dr. Blazek’s main research interests include: CFD code development - especially in the area of unstructured grids, aircraft and turbomachinery aerodynamics; shape optimization; and data visualization.

Bibliografisk information

TitelComputational Fluid Dynamics: Principles and Applications
FörfattareJiri Blazek
UtgivareElsevier, 2001
ISBN0080545548, 9780080545547
Längd460 sidor
  
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