Introduction to Computational Fluid Dynamics : Development, Application and Analysis
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| Autore: |
Sharma Atul
|
| Titolo: |
Introduction to Computational Fluid Dynamics : Development, Application and Analysis
|
| Pubblicazione: | Cham : , : Springer International Publishing AG, , 2021 |
| ©2022 | |
| Descrizione fisica: | 1 online resource (355 pages) |
| Disciplina: | 620.10640285 |
| Soggetto genere / forma: | Electronic books. |
| Nota di contenuto: | Intro -- Foreword -- Preface -- Contents -- About the Author -- Part I Introduction and Essentials -- 1 Introduction -- 1.1 CFD: What Is It? -- 1.1.1 CFD as a Scientific and Engineering Analysis Tool -- 1.1.2 Analogy with a Video Camera -- 1.2 CFD: Why to Study? -- 1.3 Novelty, Scope, and Purpose of This Book -- References -- 2 Introduction to CFD: Development, Application, and Analysis -- 2.1 CFD Development -- 2.1.1 Grid Generation: Pre-Processor -- 2.1.2 Discretization Method: Algebraic Formulation -- 2.1.3 Solution Methodology: Solver -- 2.1.4 Computation of Engineering Parameters: Post-Processor -- 2.1.5 Testing -- 2.2 CFD Application -- 2.3 CFD Analysis -- 2.4 Closure -- References -- 3 Essentials of Fluid Dynamics and Heat Transfer for CFD -- 3.1 Physical Laws -- 3.1.1 Fundamental/Conservation Laws -- 3.1.2 Subsidiary Laws -- 3.2 Momentum and Energy Transport Mechanisms -- 3.3 Physical Law-Based Differential Formulation -- 3.3.1 Continuity Equation -- 3.3.2 Transport Equations -- 3.4 Generalized Volumetric and Flux Terms, and Their Differential Formulation -- 3.4.1 Volumetric Term -- 3.4.2 Flux-Term -- 3.4.3 Discussion -- 3.5 Mathematical Formulation -- 3.5.1 Dimensional Study -- 3.5.2 Non-Dimensional Study -- 3.6 Closure -- References -- 4 Essentials of Numerical-Methods for CFD -- 4.1 Finite Difference Method: A Differential to Algebraic Formulation for Governing PDE and BCs -- 4.1.1 Grid Generation -- 4.1.2 Finite Difference Method -- 4.1.3 Applications to CFD -- 4.2 Iterative Solution of System of LAEs for a Flow Property -- 4.2.1 Iterative Methods -- 4.2.2 Applications to CFD -- 4.3 Numerical Differentiation for Local Engineering parameters -- 4.3.1 Differentiation Formulas -- 4.3.2 Applications to CFD -- 4.4 Numerical Integration for the Total Value of Engineering Parameters -- 4.4.1 Integration Rules -- 4.4.2 Applications to CFD. |
| 4.5 Closure -- References -- Part II CFD for a Cartesian-Geometry -- 5 Computational Heat Conduction -- 5.1 Physical Law-based Finite Volume Method -- 5.1.1 Energy Conservation Law for a Control Volume -- 5.1.2 Algebraic Formulation -- 5.1.3 Approximations -- 5.1.4 Approximated Algebraic Formulation -- 5.1.5 Discussion -- 5.2 Finite Difference Method for Boundary Conditions -- 5.3 Flux-based Solution Methodology on a Uniform Grid: Explicit Method -- 5.3.1 One-Dimensional Conduction -- 5.3.2 Two-Dimensional Conduction -- 5.4 Coefficients of LAE-based Solution Methodology on a Non-uniform Grid:Explicit and Implicit Method -- 5.4.1 One-Dimensional Conduction -- 5.4.2 Two-Dimensional Conduction -- References -- 6 Computational Heat Advection -- 6.1 Physical Law-based Finite Volume Method -- 6.1.1 Energy Conservation Law for a Control Volume -- 6.1.2 Algebraic Formulation -- 6.1.3 Approximations -- 6.1.4 Approximated Algebraic Formulation -- 6.1.5 Discussion -- 6.2 Flux-based Solution Methodology on a Uniform Grid: Explicit Method -- 6.2.1 Explicit Method -- 6.2.2 Implementation Details -- 6.2.3 Solution Algorithm -- 6.3 Coefficients of LAEs-Based Solution Methodology on a Non-Uniform Grid: Explicit and Implicit Method -- 6.3.1 Advection Scheme on a Non-Uniform Grid -- 6.3.2 Explicit and Implicit Method -- 6.3.3 Implementation Details -- 6.3.4 Solution Algorithm -- References -- 7 Computational Heat Convection -- 7.1 Physical Law-based Finite Volume Method -- 7.1.1 Energy Conservation Law for a Control Volume -- 7.1.2 Algebraic Formulation -- 7.1.3 Approximated Algebraic Formulation -- 7.2 Flux-based Solution Methodology on a Uniform Grid: Explicit Method -- 7.2.1 Explicit Method -- 7.2.2 Implementation Details -- 7.2.3 Solution Algorithm -- 7.3 Coefficients of LAEs-based Solution Methodology on a Non-Uniform Grid: Explicit and Implicit Method. | |
| References -- 8 Computational Fluid Dynamics: Physical Law-Based Finite Volume Method -- 8.1 Generalized Variables for the Combined Heat and Fluid Flow -- 8.2 Conservation Laws for a Control Volume -- 8.3 Algebraic Formulation -- 8.4 Approximations -- 8.5 Approximated Algebraic Formulation -- 8.5.1 Mass Conservation -- 8.5.2 Momentum/Energy Conservation -- 8.6 Closure -- 9 Computational Fluid Dynamics on a Staggered Grid -- 9.1 Challenges in the CFD Development -- 9.1.1 Non-Linearity -- 9.1.2 Equation for Pressure -- 9.1.3 Pressure-Velocity Decoupling -- 9.2 A Staggered Grid: One of the First Strategies ... -- 9.3 Physical Law-Based FVM for a Staggered Grid -- 9.4 Flux-based Solution Methodology on a Uniform Grid: Semi-Explicit Method -- 9.4.1 Philosophy of Pressure-Correction Method -- 9.4.2 Semi-Explicit Method -- 9.4.3 Implementation Details -- 9.4.4 Solution Algorithm -- 9.5 Initial and Boundary Conditions -- 9.5.1 Initial Condition -- 9.5.2 Boundary Condition -- References -- 10 Computational Fluid Dynamics on a Co-Located Grid -- 10.1 Momentum Interpolation Method: Strategy to Avoid the Pressure-Velocity Decoupling on a Co-Located Grid -- 10.2 Coefficients of LAEs-based Solution Methodology on a Non-Uniform Grid: Semi-Explicit and Semi-Implicit Method -- 10.2.1 Predictor Step -- 10.2.2 Corrector Step -- 10.2.3 Solution Algorithm -- References -- Part III CFD for a Complex-Geometry -- 11 Computational Heat Conduction on a Curvilinear Grid -- 11.1 Curvilinear Grid Generation -- 11.1.1 Algebraic Grid Generation -- 11.1.2 Elliptic Grid Generation -- 11.2 Physical Law-based Finite Volume Method -- 11.2.1 Unsteady and Source Term -- 11.2.2 Diffusion Term -- 11.2.3 All Terms -- 11.3 Computation of Geometrical Properties -- 11.4 Flux-based Solution Methodology -- 11.4.1 Explicit Method -- 11.4.2 Implementation Details -- References. | |
| 12 Computational Fluid Dynamics on a Curvilinear Grid -- 12.1 Physical Law-based Finite Volume Method -- 12.1.1 Mass Conservation -- 12.1.2 Momentum Conservation -- 12.2 Solution Methodology: Semi-Explicit Method -- 12.2.1 Predictor Step -- 12.2.2 Corrector Step -- References -- Index. | |
| Altri titoli varianti: | Introduction to Computational Fluid Dynamics |
| Titolo autorizzato: | Introduction to Computational Fluid Dynamics |
| ISBN: | 3-030-72884-6 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910497099203321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |