Computational Fluid Dynamics, 2nd Edition

A Practical Approach

 
Computational Fluid Dynamics, 2nd Edition,Jiyuan Tu,Guan Heng Yeoh,Chaoqun Liu,ISBN9780080982434
 
 
 

  &      &      

Butterworth-Heinemann

9780080982434

9780080982779

456

229 X 152

As an introduction to understanding CFD and using CFD codes to solve engineering problems, this is still the first and only book designed for the CFD user rather than CFD developer.

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Key Features

New to this edition:

  • A more comprehensive coverage of CFD techniques including discretisation via finite element and spectral element as well as finite difference and finite volume methods and multigrid method.
  • Coverage of different approaches to CFD grid generation in order to closely match how CFD meshing is being used in industry.
  • Additional coverage of high-pressure fluid dynamics and meshless approach to provide a broader overview of the application areas where CFD can be used.
  • 20% new content

 

 

Description

An introduction to CFD fundamentals and using commercial CFD software to solve engineering problems, designed for the wide variety of engineering students new to CFD, and for practicing engineers learning CFD for the first time. Combining an appropriate level of mathematical background, worked examples, computer screen shots, and step by step processes, this book walks the reader through modeling and computing, as well as interpreting CFD results. The first book in the field aimed at CFD users rather than developers.

Readership

Senior level undergraduate and graduate students of mechanical, aerospace, civil, chemical, environmental and marine engineering. Beginner users of commercial CFD software tools (including CFX and FLUENT)

Jiyuan Tu

Ph.D. in Fluid Mechanics, Royal Institute of Technology, Stockholm, Sweden

Professor and Deputy Head, Research and Innovation, Department of Aerospace, Mechanical and Manufacturing Engineering, Royal Melbourne Institute of Technology (RMIT) University, Australia

Affiliations and Expertise

Royal Melbourne Institute Technology (RMIT) University, Australia

View additional works by Jiyuan Tu

Guan Heng Yeoh

Ph.D., Mechanical Engineering (Computational Fluid Dynamics), University of New South Wales, Sydney

Guan Heng Yeoh is an Associate Professor at the School of Mechanical and Manufacturing Engineering, UNSW, and a Senior Research Scientist at ANSTO. He is the founder and Editor of the Journal of Computational Multiphase Flows and the Group Leader of Computational Thermal-Hydraulics of OPAL Research Reactor, ANSTO. He has approximately 180 publications including 7 books, 10 book chapters, 83 journal articles, and 80 conference papers with an H-index 16 and over 800 citations. His research interests are computational fluid dynamics (CFD); numerical heat and mass transfer; turbulence modelling using Reynolds averaging and large eddy simulation; combustion, radiation heat transfer, soot formation and oxidation, and solid pyrolysis in fire engineering; fundamental studies in multiphase flows: free surface, gas-particle, liquid-solid (blood flow and nanoparticles), and gas-liquid (bubbly, slug/cap, churn-turbulent, and subcooled nucleate boiling flows); computational modelling of industrial systems of single-phase and multiphase flows.

Affiliations and Expertise

Australian Nuclear Science and Technology Organisation

View additional works by Guan Heng Yeoh

Chaoqun Liu

Ph.D., University of Colorado at Denver

Affiliations and Expertise

Director of the Center for Numerical Simulation and Modeling, University of Texas at Arlington

Computational Fluid Dynamics, 2nd Edition

Preface to the First Edition

Preface to the Second Edition

Acknowledgments

Chapter 1. Introduction

1.1 What is computational fluid dynamics?

1.2 Advantages of computational fluid dynamics

1.3 Application of computational fluid dynamics

1.4 The future of computational fluid dynamics

1.5 Summary

Review questions

Chapter 2. CFD Solution Procedure—A Beginning

2.1 Introduction

2.2 Problem setup—pre-process

2.3 Numerical solution—CFD solver

2.4 Result Report and Visualization—Post-process

2.5 Summary

Review questions

Chapter 3. Governing Equations for CFD—Fundamentals

3.1 Introduction

3.2 The continuity equation

3.3 The momentum equation

3.4 The energy equation

3.5 The additional equations for turbulent flow

3.6 Generic form of the governing equations for cfd

3.7 Physical boundary conditions of the governing equations

3.8 Summary

Review questions

Chapter 4. CFD Techniques—The Basics

4.1 Introduction

4.2 Discretization of governing equations

4.3 Converting governing equations to algebraic equation system

4.4 Numerical solutions to algebraic equations

4.5 Pressure–velocity coupling—“simple” scheme

4.6 Multi-grid method

4.7 Summary

Review questions

Chapter 5. CFD Solution Analysis—Essentials

5.1 Introduction

5.2 Consistency

5.3 Stability

5.4 Convergence

5.5 Accuracy

5.6 Efficiency

5.7 Case studies

5.8 Summary

Review questions

Chapter 6. Practical Guidelines for CFD Simulation and Analysis

6.1 Introduction

6.2 Guidelines on grid generation

6.3 Guidelines for boundary conditions

6.4 Guidelines for turbulence modeling

6.5 Summary

Review questions

Chapter 7. Some Applications of CFD with Examples

7.1 Introduction

7.2 To assist in the design process—as a design tool

7.3 To enhance understanding—as a research tool

7.4 Other important applications

7.5 Summary

Review questions

Chapter 8. Some Advanced Topics in CFD

8.1 Introduction

8.2 Advances in numerical methods and techniques

8.3 Advances in computational models

8.4 Other numerical approaches for CFD

8.5 Summary

Review questions

Appendix A: Full Derivation of Conservation Equations

Appendix B: Upwind Schemes

Appendix C: Explicit and Implicit Methods

Appendix D: Learning Program

Appendix E: CFD Assignments and Guideline for CFD Project

Assignment 1

Assignment 2

Assignment 3

Project Guideline

Example—CFD Project Proposal Prepared by the Student

Other Topics for CFD Projects

References

Index

 
 
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