| Description |
1 online resource (543 pages) |
| Contents |
880-01 Cover; Half Title; Title Page; Copyright Page; Dedication; Table of Contents; Preface to the Fifth Edition; Nomenclature; Greek Letters; Coordinates; Unit vectors; Subscripts; Notation; Chapter 1: Foundations of Heat Transfer; 1.1 Introductory Remarks; 1.2 Modes of Heat Transfer; 1.3 Continuum Concept; 1.4 Some Definitions and Concepts of Thermodynamics; 1.5 Law of Conservation of Mass; 1.6 First Law of Thermodynamics; 1.7 Second Law of Thermodynamics; 1.8 Temperature Distribution; 1.9 Fourier's Law of Heat Conduction; 1.10 Thermal Conductivity; 1.11 Newton's Cooling Law |
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880-01/Grek 4.7 Complete Fourier Series4.8 Fourier-Bessel Series; References; Problems; Chapter 5: Steady-State Two- and Three-Dimensional Heat Conduction: Solutions with Separation of Variables; 5.1 Introduction; 5.2 Two-Dimensional Steady-State Problems in the Rectangular Coordinate System; 5.2.1 Nonhomogeneity in Boundary Conditions; 5.2.2 Nonhomogeneity in Differential Equations; 5.3 Two-Dimensional Steady-State Problems in the Cylindrical Coordinate System; 5.3.1 Two-Dimensional Steady-State Problems in (r, ϕ) Variables; 5.3.2 Steady-State Two-Dimensional Problems in (r, z) Variables |
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1.12 Stefan-Boltzmann Law of RadiationReferences; Problems; Chapter 2: General Heat Conduction Equation; 2.1 Introduction; 2.2 General Heat Conduction Equation; 2.3 Initial and Boundary Conditions; 2.3.1 Initial Condition; 2.3.2 Boundary Conditions; 2.4 Temperature-Dependent Thermal Conductivity and Kirchhoff Transformation; 2.5 Hyperbolic Heat Conduction; References; Problems; Chapter 3: One-Dimensional Steady-State Heat Conduction; 3.1 Introduction; 3.2 One-Dimensional Steady-State Heat Conduction Without Heat Sources; 3.2.1 Plane Wall |
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3.2.2 Conduction through a Plane Wall from One Fluid to Another3.2.3 Hollow Cylinder; 3.2.4 Spherical Shells; 3.2.5 Thermal Resistance Concept; 3.2.6 Composite Plane Walls; 3.2.7 Cylindrical Composite Walls; 3.2.8 Overall Heat Transfer Coefficient; 3.2.9 Thermal Contact and Fouling Resistances; 3.2.10 Biot Number; 3.2.11 Critical Thickness of Cylindrical Insulation; 3.3 One-Dimensional Steady-State Heat Conduction with Heat Sources; 3.3.1 Plane Wall; 3.3.2 Solid Cylinder; 3.3.3 Effect of Cladding; 3.4 Temperature-Dependent Thermal Conductivity; 3.5 Space-Dependent Internal Energy Generation |
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3.6 Extended Surfaces: Fins and Spines3.6.1 Extended Surfaces with Constant Cross Sections; 3.6.2 Rectangular Fin of Least Material; 3.6.3 Performance Factors; 3.6.4 Heat Transfer from a Finned Wall; 3.6.5 Limit of Usefulness of Fins; 3.6.6 Extended Surfaces with Variable Cross Sections; References; Problems; Chapter 4: The Sturm-Liouville Theory and Fourier Expansions; 4.1 Introduction; 4.2 Characteristic-Value Problems; 4.3 Orthogonal Functions; 4.4 Sturm-Liouville Problem; 4.5 Generalized Fourier Series; 4.6 Ordinary Fourier Series; 4.6.1 Fourier Sine Series; 4.6.2 Fourier Cosine Series |
| Notes |
5.4 Two-Dimensional Steady-State Problems in the Spherical Coordinate System |
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Print version record |
| Form |
Electronic book
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| Author |
Yener, Yaman
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Cotta, Carolina Palma Naveira
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| ISBN |
9781351714198 |
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1351714198 |
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