An Introduction to Computational Fluid Dynamics
Autor H. Versteeg, W. Malalasekraen Limba Engleză Paperback – 5 feb 2007
This book presents the fundamentals of computational fluid mechanics for the novice user. It provides a thorough yet user-friendly introduction to the governing equations and boundary conditions of viscous fluid flows, turbulence and its modelling, and the finite volume method of solving flow problems on computers.
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Specificații
ISBN-13: 9780131274983
ISBN-10: 0131274988
Pagini: 503
Dimensiuni: 186 x 244 x 31 mm
Greutate: 0.99 kg
Ediția:Nouă
Editura: Prentice Hall
Locul publicării:Harlow, United Kingdom
ISBN-10: 0131274988
Pagini: 503
Dimensiuni: 186 x 244 x 31 mm
Greutate: 0.99 kg
Ediția:Nouă
Editura: Prentice Hall
Locul publicării:Harlow, United Kingdom
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Descriere
This established, leading textbook, is suitable for courses in CFD. The new edition covers new techniques and methods, as well as considerable expansion of the advanced topics and applications (from one to four chapters).
This book presents the fundamentals of computational fluid mechanics for the novice user. It provides a thorough yet user-friendly introduction to the governing equations and boundary conditions of viscous fluid flows, turbulence and its modelling, and the finite volume method of solving flow problems on computers.
This book presents the fundamentals of computational fluid mechanics for the novice user. It provides a thorough yet user-friendly introduction to the governing equations and boundary conditions of viscous fluid flows, turbulence and its modelling, and the finite volume method of solving flow problems on computers.
Cuprins
Chapter 1 Introduction
Chapter 2 Conservation laws of fluid motion and their boundary conditions
Chapter 3 Turbulence and its modelling
Chapter 4 The finite volume method for diffusion problems
Chapter 5 The finite volume method for convection-diffusion problems
Chapter 6 Solution algorithms for pressure-velocity coupling in steady flows
Chapter 7 Solution of systems of discretised equations
Chapter 8 The finite volume method for unsteady flows
Chapter 9 Implementation of boundary conditions
Chapter 10 Uncertainty in CFD modelling
Chapter 11 Methods for dealing with complex geometries
Chapter 12 CFD modelling of combustion
Chapter 13 Numerical calculation of radiative heat transfer
Appendices
References
Index
Chapter 2 Conservation laws of fluid motion and their boundary conditions
Chapter 3 Turbulence and its modelling
Chapter 4 The finite volume method for diffusion problems
Chapter 5 The finite volume method for convection-diffusion problems
Chapter 6 Solution algorithms for pressure-velocity coupling in steady flows
Chapter 7 Solution of systems of discretised equations
Chapter 8 The finite volume method for unsteady flows
Chapter 9 Implementation of boundary conditions
Chapter 10 Uncertainty in CFD modelling
Chapter 11 Methods for dealing with complex geometries
Chapter 12 CFD modelling of combustion
Chapter 13 Numerical calculation of radiative heat transfer
Appendices
References
Index
Textul de pe ultima copertă
The use of Computational Fluid Dynamics to simulate and predict fluid flows, heat transfer and associated phenomena continues to grow throughout many engineering disciplines. On the back of ever more powerful computers and graphical user interfaces CFD provides engineers with a reliable tool to assist in the design of industrial equipment often reducing or eliminating the need for performing trial-and-error experimentation.
An Introduction to Computational Fluid Dynamics is the ideal text for the newcomer to the area whether they be undergraduates, graduates, or professionals. It provides thorough yet accessible coverage of commercial finite volume based CFD codes within the context of the underlying theory, giving the reader a full appreciation of CFD and its numerous engineering applications.
Key features
An Introduction to Computational Fluid Dynamics is the ideal text for the newcomer to the area whether they be undergraduates, graduates, or professionals. It provides thorough yet accessible coverage of commercial finite volume based CFD codes within the context of the underlying theory, giving the reader a full appreciation of CFD and its numerous engineering applications.
Key features
- Offers essential support for novice users of commercial CFD codes such as ANSYS CFX, FLUENT, STAR-CD and PHOENICS.
- Covers fluids and turbulence physics together with computational modelling techniques
- Uses a step-by-step approach to introduce the methodology
- Chapter summaries and worked examples throughout to reinforce understanding of the key concepts
- A new chapter describing unstructured meshing techniques
- A new chapter on CFD uncertainty
- New coverage of the fundamentals of Large-Eddy Simulation (LES) and Direct Numerical Simulation (DNS) techniques
- Summaries of TVD techniques and multi-grid solution techniques
- Added examples of the SIMPLE algorithm for pressure-velocity coupling
- Two new chapters with advanced material covering combustion and radiative heat transfer modelling
Caracteristici
- Presents a broad introduction to fluid and turbulence physics and computational modelling techniques.
- Incorporates an advanced applications section.
- Uses easy-to-programme computer algorithms for the PC.
- Includes a substantial review of the latest turbulence modelling techniques.
- Features the predominant commercial CFD codes: PHEONICS, FLUENT, FLOW3D and STARCD.
- SI units used throughout.