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＜電子ブック＞
Computational Methods for Fluid Dynamics / by Joel H. Ferziger, Milovan Peric

版	3rd ed. 2002.
出版者	(Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer)
出版年	2002
本文言語	英語
大きさ	XIV, 426 p. 50 illus : online resource
著者標目	*Ferziger, Joel H author Peric, Milovan author SpringerLink (Online service)
件　名	LCSH:Mathematics LCSH:Physics LCSH:Mechanical engineering LCSH:Fluid mechanics LCSH:Computational intelligence LCSH:Mathematical physics FREE:Applications of Mathematics FREE:Classical and Continuum Physics FREE:Mechanical Engineering FREE:Engineering Fluid Dynamics FREE:Computational Intelligence FREE:Theoretical, Mathematical and Computational Physics
一般注記	1. Basic Concepts of Fluid Flow -- 1.1 Introduction -- 1.2 Conservation Principles -- 1.3 Mass Conservation -- 1.4 Momentum Conservation -- 1.5 Conservation of Scalar Quantities -- 1.6 Dimensionless Form of Equations -- 1.7 Simplified Mathematical Models -- 1.8 Mathematical Classification of Flows -- 1.9 Plan of This Book -- 2. Introduction to Numerical Methods -- 2.1 Approaches to Fluid Dynamical Problems -- 2.2 What is CFD? -- 2.3 Possibilities and Limitations of Numerical Methods -- 2.4 Components of a Numerical Solution Method -- 2.5 Properties of Numerical Solution Methods -- 2.6 Discretization Approaches -- 3. Finite Difference Methods -- 3.1 Introduction -- 3.2 Basic Concept -- 3.3 Approximation of the First Derivative -- 3.4 Approximation of the Second Derivative -- 3.5 Approximation of Mixed Derivatives -- 3.6 Approximation of Other Terms -- 3.7 Implementation of Boundary Conditions -- 3.8 The Algebraic Equation System -- 3.9 Discretization Errors -- 3.10 An Introduction to Spectral Methods -- 3.11 Example -- 4. Finite Volume Methods -- 4.1 Introduction -- 4.2 Approximation of Surface Integrals -- 4.3 Approximation of Volume Integrals -- 4.4 Interpolation and Differentiation Practices -- 4.5 Implementation of Boundary Conditions -- 4.6 The Algebraic Equation System -- 4.7 Examples -- 5. Solution of Linear Equation Systems -- 5.1 Introduction -- 5.2 Direct Methods -- 5.3 Iterative Methods -- 5.4 Coupled Equations and Their Solution -- 5.5 Non-Linear Equations and their Solution -- 5.6 Deferred-Correction Approaches -- 5.7 Convergence Criteria and Iteration Errors -- 5.8 Examples -- 6. Methods for Unsteady Problems -- 6.1 Introduction -- 6.2 Methods for Initial Value Problems in ODEs -- 6.3 Application to the Generic Transport Equation -- 6.4 Examples -- 7. Solution of the Navier-Stokes Equations -- 7.1 Special Features of the Navier-Stokes Equations -- 7.2 Choice of Variable Arrangement on the Grid -- 7.3 Calculation of the Pressure -- 7.4 Other Methods -- 7.5 Solution Methods for the Navier-Stokes Equations -- 7.6 Note on Pressure and Incompressibility -- 7.7 Boundary Conditions for the Navier-Stokes Equations -- 7.8 Examples -- 8. Complex Geometries -- 8.1 The Choice of Grid -- 8.2 Grid Generation -- 8.3 The Choice of Velocity Components -- 8.4 The Choice of Variable Arrangement -- 8.5 Finite Difference Methods -- 8.6 Finite Volume Methods -- 8.7 Control-Volume-Based Finite Element Methods -- 8.8 Pressure-Correction Equation -- 8.9 Axi-Symmetric Problems -- 8.10 Implementation of Boundary Conditions -- 8.11 Examples -- 9. Turbulent Flows -- 9.1 Introduction -- 9.2 Direct Numerical Simulation (DNS) -- 9.3 Large Eddy Simulation (LES) -- 9.4 RANS Models -- 9.5 Reynolds Stress Models -- 9.6 Very Large Eddy Simulation -- 10. Compressible Flow -- 10.1 Introduction -- 10.2 Pressure-Correction Methods for Arbitrary Mach Number -- 10.3 Methods Designed for Compressible Flow -- 11. Efficiency and Accuracy Improvement -- 11.1 Error Analysis and Estimation -- 12. Special Topics -- 12.1 Introduction -- 12.2 Heat and Mass Transfer -- 12.3 Flows With Variable Fluid Properties -- 12.4 Moving Grids -- 12.5 Free-Surface Flows -- 12.6 Meteorological and Oceanographic Applications -- 12.7 Multiphase flows -- 12.8 Combustion -- A. Appendices -- A.l List of Computer Codes and How to Access Them -- A.2 List of Frequently Used Abbreviations -- References In its 3rd revised and extended edition the book offers an overview of the techniques used to solve problems in fluid mechanics on computers and describes in detail those most often used in practice. Included are advanced methods in computational fluid dynamics, like direct and large-eddy simulation of turbulence, multigrid methods, parallel computing, moving grids, structured, block-structured and unstructured boundary-fitted grids, free surface flows. The 3rd edition contains a new section dealing with grid quality and an extended description of discretization methods. The book shows common roots and basic principles for many different methods. The book also contains a great deal of practical advice for code developers and users, it is designed to be equally useful to beginners and experts. The issues of numerical accuracy, estimation and reduction of numerical errors are dealt with in detail, with many examples. A full-feature user-friendly demo-version of a commercial CFD softwarehas been added, which can be used to compute all flow examples from the book. All computer codes can be accessed from the publishers server on the internet HTTP:URL=https://doi.org/10.1007/978-3-642-56026-2

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