Fluid Mechanics Fundamentals and Applications 3rd Edition Chapter 10 Soultions

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   Front Matter

   Copyright

   Acknowledgments

   List of Symbols

   Abbreviations

2. Select Chapter 1 - Introduction

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   Chapter 1 - Introduction

3. Select Chapter 2 - Governing Equations

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   Chapter 2 - Governing Equations

4. Select Chapter 3 - Principles of Solution of the Governing Equations

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   Chapter 3 - Principles of Solution of the Governing Equations

5. Select Chapter 4 - Structured Finite-Volume Schemes

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   Chapter 4 - Structured Finite-Volume Schemes

6. Select Chapter 5 - Unstructured Finite-Volume Schemes

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   Chapter 5 - Unstructured Finite-Volume Schemes

7. Select Chapter 6 - Temporal Discretization

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   Chapter 6 - Temporal Discretization

8. Select Chapter 7 - Turbulence Modeling

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   Chapter 7 - Turbulence Modeling

9. Select Chapter 8 - Boundary Conditions

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   Chapter 8 - Boundary Conditions

10. Select Chapter 9 - Acceleration Techniques

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    Chapter 9 - Acceleration Techniques

11. Select Chapter 10 - Consistency, Accuracy, and Stability

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    Chapter 10 - Consistency, Accuracy, and Stability

12. Select Chapter 11 - Principles of Grid Generation

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    Chapter 11 - Principles of Grid Generation

13. Select Chapter 12 - Software Applications

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    Chapter 12 - Software Applications

14. Select Appendix

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    Appendix

15. Select Index

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    Index

About the book

Description

Computational Fluid Dynamics: Principles and Applications, Third Edition presents students, engineers, and scientists with all they need to gain a solid understanding of the numerical methods and principles underlying modern computation techniques in fluid dynamics. By providing complete coverage of the essential knowledge required in order to write codes or understand commercial codes, the book gives the reader an overview of fundamentals and solution strategies in the early chapters before moving on to cover the details of different solution techniques.

This updated edition includes new worked programming examples, expanded coverage and recent literature regarding incompressible flows, the Discontinuous Galerkin Method, the Lattice Boltzmann Method, higher-order spatial schemes, implicit Runge-Kutta methods and parallelization.

An accompanying companion website contains the sources of 1-D and 2-D Euler and Navier-Stokes flow solvers (structured and unstructured) and grid generators, along with tools for Von Neumann stability analysis of 1-D model equations and examples of various parallelization techniques.

Computational Fluid Dynamics: Principles and Applications, Third Edition presents students, engineers, and scientists with all they need to gain a solid understanding of the numerical methods and principles underlying modern computation techniques in fluid dynamics. By providing complete coverage of the essential knowledge required in order to write codes or understand commercial codes, the book gives the reader an overview of fundamentals and solution strategies in the early chapters before moving on to cover the details of different solution techniques.

This updated edition includes new worked programming examples, expanded coverage and recent literature regarding incompressible flows, the Discontinuous Galerkin Method, the Lattice Boltzmann Method, higher-order spatial schemes, implicit Runge-Kutta methods and parallelization.

An accompanying companion website contains the sources of 1-D and 2-D Euler and Navier-Stokes flow solvers (structured and unstructured) and grid generators, along with tools for Von Neumann stability analysis of 1-D model equations and examples of various parallelization techniques.

Key Features

• Will provide you with the knowledge required to develop and understand modern flow simulation codes
• Features new worked programming examples and expanded coverage of incompressible flows, implicit Runge-Kutta methods and code parallelization, among other topics
• Includes accompanying companion website that contains the sources of 1-D and 2-D flow solvers as well as grid generators and examples of parallelization techniques

• Will provide you with the knowledge required to develop and understand modern flow simulation codes
• Features new worked programming examples and expanded coverage of incompressible flows, implicit Runge-Kutta methods and code parallelization, among other topics
• Includes accompanying companion website that contains the sources of 1-D and 2-D flow solvers as well as grid generators and examples of parallelization techniques

Details

Copyright

Copyright © 2015 Elsevier Ltd. All rights reserved.

Imprint

Butterworth-Heinemann

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Authors

Jiri Blazek

CFD Consulting & Analysis, Sankt Augustin, Germany

Fluid Mechanics Fundamentals and Applications 3rd Edition Chapter 10 Soultions

Source: https://www.sciencedirect.com/book/9780080999951/computational-fluid-dynamics-principles-and-applications

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