Description |
1 online resource : illustrations |
Series |
McGraw-Hill's AccessEngineering |
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McGraw-Hill's AccessEngineering.
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Contents |
Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- 1 Conservation Laws in Thermal-Fluid Sciences -- 1.1 Conservation Laws in Integral Form -- 1.2 Conservation Laws in Differential Form -- 1.3 Special Cases -- 1.4 General Form of the Conservation Laws -- 1.5 Cartesian, Cylindrical, and Spherical Coordinates -- 2 Introduction to Computational Fluid Dynamics Using the Finite Volume Method -- 2.1 What Is Computational Fluid Dynamics? -- 2.2 The Building Blocks of a CFD Solution Method -- 2.3 Numerical Representation of the Domain -- 2.4 The Finite Volume Method -- 2.5 Solving of the Linear System of Equations -- 2.6 Integration in Time for Unsteady Flow -- 2.7 The Navier-Stokes Equations -- 2.8 Boundary Conditions -- 2.9 Solution Verification -- 3 Two-Dimensional Steady State Laminar Incompressible Fluid Flow -- 3.1 Introduction -- 3.2 Problem Statement -- 3.3 Governing Equations and Boundary Conditions -- 3.4 Modeling Using Fluent -- 3.5 Verification -- 4 Three-Dimensional Steady State Turbulent Incompressible Fluid Flow -- 4.1 Introduction to Turbulence -- 4.2 Turbulence Modeling -- 4.3 Problem Statement -- 4.4 Governing Equations and Boundary Conditions -- 4.5 Modeling Using Fluent -- 4.6 Verification -- 5 Convection Heat Transfer for Two-Dimensional Steady State Incompressible Flow -- 5.1 Introduction to Heat Transfer -- 5.2 Problem Statement -- 5.3 Governing Equations and Boundary Conditions -- 5.4 Modeling Using Fluent -- 5.5 Verification -- 6 Three-Dimensional Fluid Flow and Heat Transfer Modeling in a Heat Exchanger -- 6.1 Introduction to Heat Exchangers -- 6.2 Problem Statement -- 6.3 Modeling Using Fluent -- 6.4 Verification -- 7 Three-Dimensional Fluid Flow and Heat Transfer Modeling in a Heat Sink -- 7.1 Introduction to Heat Sinks -- 7.2 Problem Statement -- 7.3 Modeling using Fluent -- 7.4 Verification -- References -- A Upwind Schemes to Evaluate the Advection Term -- B Time Integration Schemes -- C Instructions to Download ANSYS -- D SpaceClaim Tutorials -- Index |
Summary |
This book is not a traditional computational fluid dynamics (CFD) textbook. While current CFD books explain and derive the numerical methods used to solve fluid dynamics problems, programming these methods on computers is a tedious process for undergraduate engineering students who are primarily interested in using com-putational modeling software to solve engineering problems without "re-inventing the wheel |
Notes |
Available through Access Engineering |
Bibliography |
Includes bibliographical references and index |
Notes |
Description based on resource viewed on May 09, 2023 |
Subject |
Computational fluid dynamics.
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Computational fluid dynamics
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Form |
Electronic book
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Author |
Lakkis, Issam, author
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McGraw-Hill Higher Education (Firm)
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ISBN |
9781264274956 |
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1264274955 |
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