-
ANSYS ICEM CFD 网格划分技术实例详解
《ANSYS ICEM CFD网格划分技术实例详解》共分为11章,第1章介绍网格生成基本知识,第2章简单介绍ANSYSICEMCFD,第3章和第4章介绍非结构网格生成方法,第5章和第6章介绍结构网格生成方法,第7章介绍结构网格Block的创建方法,第8章介绍节点设置原则,第9章介绍几何、块和网格的基本操作,第10章介绍如何有效提高网格质量,第11章是ICEM常见问题的汇总及解决方法。《ANSYS ICEM CFD网格划分技术实例详解》在写作过程中注重层次递进,既介绍了网格生成基本原理,又详尽介绍了ICEM生成网格操作。通过大量丰富、贴近工程的应用案例讲解ANSYsICEMCFD的应用,对解决实际工程和科研问题会有很大帮助。 -
计算流体力学
《计算流体力学:从实践中学习》共8部分,内容包括:CFD求解入门、CFD基本控制方程、CFD求解技术基础、CFD计算结果分析基础、CFD模拟与分析实用技巧等。《计算流体力学:从实践中学习》由东北大学出版社出版。 -
Computational Methods for Fluid Dynamics
In its third revised and extended edition the book offers an overview of the techniques used to solve problems in fluid mechanics on computers. The authors describe in detail the most often used techniques. Included are advanced techniques in computational fluid dynamics, such as direct and large-eddy simulation of turbulence. Moreover, a new section deals with grid quality and an extended description of discretization methods has also been included. Common roots and basic principles for many apparently different methods are explained. The book also contains a great deal of practical advice for code developers and users. -
Computational Methods for Fluid Dynamics
In its third revised and extended edition the book offers an overview of the techniques used to solve problems in fluid mechanics on computers. The authors describe in detail the most often used techniques. Included are advanced techniques in computational fluid dynamics, such as direct and large-eddy simulation of turbulence. Moreover, a new section deals with grid quality and an extended description of discretization methods has also been included. Common roots and basic principles for many apparently different methods are explained. The book also contains a great deal of practical advice for code developers and users. -
Riemann Solvers and Numerical Methods for Fluid Dynamics
-
计算流体力学基础及其应用
《计算流体力学基础及其应用》是计算流体力学(CFD)方面的入门书。本书首先介绍了计算流体力学的基础知识,然后通过四个精心挑选的例子介绍了计算流体力学中的重要方法和处理技巧。这些例子都有理论上的解析解,读者可以将cFD计算的结果与解析解进行对比,从而更深入地了解cFD的基本概念、思路、方法、用途和优缺点。在此基础上,本书的最后一部分介绍了计算流体力学中的几个前沿问题。