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Computational Fluid Dynamics by T.J. Chung

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Book Title : Computational Fluid Dynamics
Author(s)  : T.J. Chung
Publisher   : Cambridge University Press
Edition      : First
Pages        : 1022
PDF Size    : 28 Mb

Book Description:

Computational fluid dynamics (CFD) techniques are utilized to think about and settle liquid stream and warmth exchange issues. Computational Fluid Dynamics by T.J. Chung book ranges from rudimentary ideas for the fledgling to best in class CFD for the specialist. It talks about and represents the essential standards of limited distinction, limited component and limited volume techniques, with well ordered hand counts. Parts go ahead to look at organized and unstructured lattices, versatile strategies, registering systems, and parallel preparing. At long last, the creator portrays an assortment of reasonable applications to issues in turbulence, responding streams and burning, acoustics, joined mode radiative warmth exchange, multiphase streams, electromagnetic fields, and relativistic astrophysical streams. Understudies and professionals especially in mechanical, aviation, substance and structural designing branch will be useful for them to learn and apply numerical systems to the arrangement of liquid progression issues. See more and download Computational Fluid Dynamics books.

Table of Contents:
Preface page
PART ONE: PRELIMINARIES
1. Introduction
2. Governing Equations
PART TWO: FINITE DIFFERENCE METHODS
3. Derivation of Finite Difference Equations
4. Solution Methods of Finite Difference Equations
5. Incompressible Viscous Flows via Finite Difference Methods
6. Compressible Flows via Finite Difference Methods
7. Finite Volume Methods via Finite Difference Methods
PART THREE: FINITE ELEMENT METHODS
8. Introduction to Finite Element Methods
9. Finite Element Interpolation Functions
10. Linear Problems
11. Nonlinear Problems/Convection-Dominated Flows
12. Incompressible Viscous Flows via Finite Element Methods
13. Compressible Flows via Finite Element Methods
14. Miscellaneous Weighted Residual Methods
15. Finite Volume Methods via Finite Element Methods
16. Relationships between Finite Differences and Finite Elements and Other Methods
PART FOUR: AUTOMATIC GRID GENERATION, ADAPTIVE METHODS AND COMPUTING TECHNIQUES
17. Structured Grid Generation
18. Unstructured Grid Generation
19. Adaptive Methods
20. Computing Techniques
PART FIVE: APPLICATIONS
21. Applications to Turbulence
22. Applications to Chemically Reactive Flows and Combustion
23. Applications to Acoustics
24. Applications to Combined Mode Radiative Heat Transfer
25. Applications to Multiphase Flows
26. Applications to Electromagnetic Flows
27. Applications to Relativistic Astrophysical Flows
APPENDIXES
Appendix A: Three-Dimensional Flux Jacobians
Appendix B: Gaussian Quadrature
Appendix C: Two Phase Flow – Source Term Jacobians for Surface Tension
Appendix D: Relativistic Astrophysical Flow Metrics, Christoffel Symbols and FDV Flux and Source Term Jacobians
Index