From basics to advanced extensions of computational aerodynamics, this book is a comprehensive guide. Including relevant mathematical and numerical methods, outlining stability theory and shock capturing schemes, as well as exploring viscous flow simulations and time integration. An excellent resource for professionals, researchers, and graduates.
From basics to advanced extensions of computational aerodynamics, this book is a comprehensive guide. Including relevant mathematical and numerical methods, outlining stability theory and shock capturing schemes, as well as exploring viscous flow simulations and time integration. An excellent resource for professionals, researchers, and graduates.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Anthony Jameson is widely known as a founder of computational fluid dynamics. Professor Jameson is currently the Jack E. & Frances Brown Chair in Engineering I, and Professor of Aerospace Engineering and Ocean Engineering at Texas A&M University.
Inhaltsangabe
Preface Acknowledgements 1. Introduction and background 2. Mathematical models of fluid flow 3. Numerical methods for the solution of partial differential equations 4. Fundamental Stability Theory 5. Shock capturing schemes I 6. Shock capturing schemes II 7. Discretization schemes for flows in complex domains 8. The calculation of viscous flow 9. Overview of time integration methods 10. Steady state problems 11. Time accurate methods for unsteady flow 12. Energy stability for nonlinear problems 13. High-order methods for structured meshes 14. High-order methods for unstructured meshes 15. Aerodynamic shape optimization Appendix A Appendix B Appendix C Appendix D Appendix E Appendix F References Index.
Preface Acknowledgements 1. Introduction and background 2. Mathematical models of fluid flow 3. Numerical methods for the solution of partial differential equations 4. Fundamental Stability Theory 5. Shock capturing schemes I 6. Shock capturing schemes II 7. Discretization schemes for flows in complex domains 8. The calculation of viscous flow 9. Overview of time integration methods 10. Steady state problems 11. Time accurate methods for unsteady flow 12. Energy stability for nonlinear problems 13. High-order methods for structured meshes 14. High-order methods for unstructured meshes 15. Aerodynamic shape optimization Appendix A Appendix B Appendix C Appendix D Appendix E Appendix F References Index.
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