Book Description
The second edition of this classic book delivers the most up to date and comprehensive text available on computational fluid dynamics for engineers and mathematicians. Already renowned for its range and authority, this new edition has been significantly developed in terms of both contents and scope. A complete, self contained text, it will form the basis of study for many leading CFD courses at senior undergraduate and graduate level: a truly formidable resource covering the fundamentals of CFD.

* New approach takes readers seamlessly from first principles to more advanced and applied topics
* Presents the essential components of a simulation system at a level suitable for those coming into contact with CFD for the first time, and is ideal for those who need a comprehensive refresher on the fundamentals of CFD
* Enhanced pedagogy features chapter objectives, hands-on practice examples and end of chapter exercises
* Extended coverage of finite difference, finite
volume and finite element methods
* New chapters include an introduction to grid
properties and the use of grids in practice
* Includes material on 2-D inviscid, potential
and Euler flows, 2-D viscous flows, Navier-
Stokes flows to enable the reader to develop basic CFD simulations
* Accompanied by downloadable computer code for the numerical solution of 1-D convection and convection * diffusion problems, plus test cases. Visit http: //books.elsevier.com for details.
* Includes Best-Practice guidelines for applying existing commercial or shareware CFD tools
* Solutions Manual for registered lecturers is available from https: //textbooks.elsevier.com
[目录]

                    Introduction : an initial guide to CFD and to this volume

Pt. I              The mathematical models for fluid flow simulations at various levels of approximation

1                  The basic equation of fluid dynamics

2                  The dynamical levels of approximation

3                  The mathematical nature of the flow equations and their boundary conditions

Pt. II             Basic discretization techniques

4                  The finite difference method for structured grids

5                  Finite volume method and conservative discretization with an introduction to finite element method

6                  Structured and unstructured grid properties

Pt. III            The analysis of numerical schemes

7                  Consistency, stability and error analysis of numerical schemes

8                  General properties and high-resolution numerical schemes

Pt. IV           The resolution of numerical schemes

9                  Time integration methods for space-discretized equations

10                Iterative methods for the resolution of algebraic systems

Pt. V            Applications to inviscid and viscous flows

11                Numerical simulation of inviscid flows

12                Numerical solutions of viscous laminar flow