Essential computational fluid dynamics / Oleg Zikanov, University of Michigan, Dearborn, MI, USA

Von:

Zikanov, Oleg [VerfasserIn]

Resource type: Ressourcentyp: Buch (Online)Buch (Online)Sprache: Englisch Verlag: Hoboken, NJ : Wiley, 2019Auflage: Second editionBeschreibung: 1 Online-RessourceISBN:

9781119474814
9781119474784

Schlagwörter:

Andere physische Formen: 9781119474623. | Erscheint auch als: Essential computational fluid dynamics. Druck-Ausgabe Second edition. Hoboken, NJ : Wiley, 2019. xxi, 356 SeitenDDC-Klassifikation:

532/.0501515

RVK: RVK: UF 4000 | UF 4600LOC-Klassifikation:

QA911

Online-Ressourcen:

Zugang im Netz des KIT

Zusammenfassung: "Essential Computational Fluid Dynamics, Second Edition is a comprehensively updated new edition which provides a clear, concise and self-contained introduction to Computational Fluid Dynamics (CFD). It covers the fundamental concepts, main computational methods, and essential features of modern CFD analysis, and considers the applications of CFD to mechanical, chemical and biomedical engineering. Essential Computational Fluid Dynamics, Second Edition includes worked examples and end-of-chapter problems and is accompanied by a website hosting lecture power-point presentations and a solution manual. It is an ideal textbook for senior undergraduate and graduate students taking their first course on CFD and is also a useful reference for engineers and scientists working with CFD applications"--Zusammenfassung: 2.7.1 Rigid Wall Boundary Conditions2.7.2 Inlet and Exit Boundary Conditions; 2.7.3 Other Boundary Conditions; 2.8 Dimensionality and Time Dependence; 2.8.1 Two- and One-Dimensional Problems; 2.8.2 Equilibrium and Marching Problems; Bibliography; Problems; Chapter 3 Partial Different Equations; 3.1 Model Equations: Formulation of a PDE Problem; 3.1.1 Model Equations; 3.1.2 Domain, Boundary and Initial Conditions, and Well-Posed PDE Problem; 3.1.3 Examples; 3.2 Mathematical Classification of PDEs of Second Order; 3.2.1 Classification; 3.2.2 Hyperbolic Equations; 3.2.3 Parabolic EquationsZusammenfassung: 3.2.4 Elliptic Equations3.2.5 Classification of Full Fluid Flow and Heat Transfer Equations; 3.3 Numerical Discretization: Different Kinds of CFD; 3.3.1 Spectral Methods; 3.3.2 Finite Element Methods; 3.3.3 Finite Difference and Finite Volume Methods; Bibliography; Problems; Chapter 4 Finite Difference Method; 4.1 Computational Grid; 4.1.1 Time Discretization; 4.1.2 Space Discretization; 4.2 Finite Difference Approximation; 4.2.1 Approximation of u∕ x; 4.2.2 Truncation Error, Consistency, and Order of Approximation; 4.2.3 Other Formulas for u∕ x: Evaluation of the Order of ApproximationZusammenfassung: 4.4.6 Consistency of Numerical Approximation4.4.7 Interpretation of Truncation Error: Numerical Dissipation and Dispersion; 4.4.8 Methods of Interpolation for Finite Difference Schemes; Bibliography; Problems; Chapter 5 Finite Volume Schemes; 5.1 Introduction and General Formulation; 5.1.1 Introduction; 5.1.2 Finite Volume Grid; 5.1.3 Consistency, Local, and Global Conservation Property; 5.2 Approximation of Integrals; 5.2.1 Volume Integrals; 5.2.2 Surface Integrals; 5.3 Methods of Interpolation; 5.3.1 Upwind Interpolation; 5.3.2 Linear Interpolation of Convective FluxesZusammenfassung: 4.2.4 Schemes of Higher Order for First Derivative4.2.5 Higher-Order Derivatives; 4.2.6 Mixed Derivatives; 4.2.7 Finite Difference Approximation on Nonuniform Grids; 4.3 Development of Finite Difference Schemes; 4.3.1 Taylor Series Expansions; 4.3.2 Polynomial Fitting; 4.3.3 Development on Nonuniform Grids; 4.4 Finite Difference Approximation of Partial Differential Equations; 4.4.1 Approach and Examples; 4.4.2 Boundary and Initial Conditions; 4.4.3 Difference Molecule and Difference Equation; 4.4.4 System of Difference Equations; 4.4.5 Implicit and Explicit MethodsZusammenfassung: Cover; Title Page; Copyright; Contents; Preface; About the Companion Website; Chapter 1 What Is CFD?; 1.1 Introduction; 1.2 Brief History of CFD; 1.3 Outline of the Book; Bibliography; Part I Fundamentals; Chapter 2 Governing Equations of Fluid Dynamics and Heat Transfer; 2.1 Preliminary Concepts; 2.2 Conservation Laws; 2.2.1 Conservation of Mass; 2.2.2 Conservation of Chemical Species; 2.2.3 Conservation of Momentum; 2.2.4 Conservation of Energy; 2.3 Equation of State; 2.4 Equations of Integral Form; 2.5 Equations in Conservation Form; 2.6 Equations in Vector Form; 2.7 Boundary ConditionsPPN: PPN: 168564032XPackage identifier: Produktsigel: BSZ-4-NLEBK-KAUB | ZDB-4-NLEBK

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