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统一坐标系下的计算流体力学方法(英文版)

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  • 大小:9.06 MB
  • 语言:中文版
  • 格式: PDF文档
  • 阅读软件: Adobe Reader
资源简介
统一坐标系下的计算流体力学方法(英文版)
出版时间:2011年版
内容简介
  本书是运用大规模数值计算来解决流体的运动问题。众所周知,在流体计算中,一个给定流场的数值解是该流场的流动状态在为其设定的坐标中的体现。计算流体力学通常使用的两个坐标系,即欧拉坐标系和拉格朗日坐标系,既有优点又有不足。欧拉方法相对简单,但是其不足在于:(a)对接触间断的分辨率不足;(b)在流体计算之前先要生成贴体坐标。相反地,拉格朗日方法很好地分辨出接触间断(包括物质介面和自由面),但它的缺点在于:(a)气体动力方程不能写成守恒型偏微分方程的形式,使得数值计算复杂和缺乏唯一性;(b)由于网格扭曲导致计算中断。因此,计算流体力学的基本问题除了深刻理解物理流动之外,同时也要寻找\最优的\坐标系。统一坐标系方法是《统一坐标系下的计算流体力学方法》第一作者许为厚教授在前人坐标变换的基础上的进一步发展,并在与其同事多年的合作中建立起来的。在计算流体力学的研究中寻找\最优的\坐标系肯定还会继续下去,目前为止,统一坐标系可较好地结合前两种坐标系的优点,避免它们的不足。例如,统一坐标系可以通过计算自动生成网格,而且网格速度也可以考虑加入避免网格大变形的\扩散\速度。《统一坐标系下的计算流体力学方法》首先回顾了一维和多维计算流体力学中的欧拉、拉格朗日以及ALE(Arbitrary-Lagrangian-Eulerian)方法的优缺点以及各种移动网格方法,然后系统介绍了统一坐标法,用一些具体的算例阐明它和现有方法之间的关系。
目录
Chapter 1 Introduction
1.1 CFD as Numerical Solution to Nonlinear Hyperbolic PDEs
1.2 Role of Coordinates in CFD
1.3 Outline of the Book
References
Chapter 2 Derivation of Conservation Law Equations
2.1 Fluid as a Continuum
2.2 Derivation of Conservation Law Equations in FixedCoordinates
2.3 Conservation Law Equations in Moving Coordinates
2.4 Integral Equations versus Partial Differential Equations
2.5 The Entropy Condition for Inviscid Flow Computation
References
Chapter 3 Review of Eulerian Computation for 1-D InviscidFlow
3.1 Flow Discontinuities and Rankine-Hugoniot Conditions
3.2 Classification of Flow Discontinuities
3.3 Riemann Problem and its Solution
3.4 Preliminary Considerations of Numerical Computation
3.5 Godunov Scheme
3.6 High Resolution Schemes and Limiters
3.7 Defects of Eulerian Computation
References
Chapter 4 I-D Flow Computation Using the Unified Coordinates
4.1 Gas Dynamics Equations Based on the Unified Coordinates
4.2 Shock-Adaptive Godunov Scheme
4.3 The Use of Entropy Conservation Law for Smooth FlowComputation
4.4 The Unified Computer Code
4.5 Cure of Defects of Eulerian and Lagrangian Computation by theUC Method
4.6 Conclusions
References
Chapter 5 Comments on Current Methods for Multi-Dimensional FlowComputation
5.1 Eulerian Computation
5.2 Lagrangian Computation
5.3 The ALE Computation
5.4 Moving Mesh Methods
5.5 Optimal Coordinates
References
Chapter 6 The Unified Coordinates Formulation of CFD
6.1 Hui Transformation
6.2 Geometric Conservation Laws
6.3 Derivation of Governing Equations in Conservation Form
References
Chapter 7 Properties of the Unified Coordinates
7.1 Relation to Eulerian Computation
7.2 Relation to Classical Lagrangian Coordinates
7.3 Relation to Arbitrary-Lagrangian-Eulerian Computation
7.4 Contact Resolution
7.5 Mesh Orthogonality
7.6 Unified Coordinates for Steady Flow
7.7 Effects of Mesh Movement on the Flow
7.8 Relation to Other Moving Mesh Methods
7.9 Relation to Mesh Generation and the Level-Set FunctionMethod
References
Chapter 8 Lagrangian Gas Dynamics
8.1 Lagrangian Gas Dynamics Equations
8.2 Weak Hyperbolicity
8.3 Non-Equivalency of Lagrangian and Eularian Formulation
References
Chapter 9 Steady 2-D and 3-D Supersonic Flow
9.1 The Unified Coordinates for Steady Flow
9.2 Euler Equations in the Unified Coordinates
9.3 The Space-Marching Computation
9.4 Examples
……
Chapter 10 Unsteady 2-D and 3-D Flow Computation
Chapter 11 Viscous Flow Computation Using Navier-StokesEquations
Chapter 12 Applications of the Unified Coordinates to KineticTheory
Chapter 13 Summary
Appendix A Riemann Problem for 1-D Flow in the UnifiedCoordinate
Appendix B Computer Code for 1-D Flow in the Unified Coordinate
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