Hoboken, N.J., : Wiley, 2012

1-283-57609-0

9786613888549

1-118-41128-5

1-118-32197-9

1-118-33285-7

1 online resource (746 p.)

SCI065000

ÖzışıkM. Necati

621.402/2

Heat - Conduction

Inglese

Rev. ed. of: Heat conduction / M. Necati Özisik. 2nd ed. c1993.

Includes bibliographical references and index.

Heat Conduction; Contents; Preface; Preface to Second Edition; Chapter 1 Heat Conduction Fundamentals; 1-1 The Heat Flux; 1-2 Thermal Conductivity; 1-3 Differential Equation of Heat Conduction; 1-4 Fourier's Law and the Heat Equation in Cylindrical and Spherical Coordinate Systems; 1-5 General Boundary Conditions and Initial Condition for the Heat Equation; 1-6 Nondimensional Analysis of the Heat Conduction Equation; 1-7 Heat Conduction Equation for Anisotropic Medium; 1-8 Lumped and Partially Lumped Formulation; References; Problems

Chapter 2 Orthogonal Functions, Boundary Value Problems, and the Fourier Series2-1 Orthogonal Functions; 2-2 Boundary Value Problems; 2-3 The Fourier Series; 2-4 Computation of Eigenvalues; 2-5 Fourier Integrals; References; Problems; Chapter 3 Separation of Variables in the Rectangular Coordinate System; 3-1 Basic Concepts in the Separation of Variables Method; 3-2 Generalization to Multidimensional Problems; 3-3 Solution of Multidimensional Homogenous Problems; 3-4 Multidimensional Nonhomogeneous Problems: Method of Superposition; 3-5 Product Solution; 3-6 Capstone Problem; References

ProblemsChapter 4 Separation of Variables in the Cylindrical Coordinate System; 4-1 Separation of Heat Conduction Equation in the Cylindrical Coordinate System; 4-2 Solution of Steady-State Problems; 4-3 Solution of Transient Problems; 4-4 Capstone Problem; References; Problems; Chapter 5 Separation of Variables in the Spherical Coordinate System; 5-1 Separation of Heat Conduction Equation in the Spherical Coordinate System; 5-2 Solution of Steady-State Problems; 5-3 Solution of Transient Problems; 5-4 Capstone Problem; References; Problems; Notes

Chapter 6 Solution of the Heat Equation for Semi-Infinite and Infinite Domains6-1 One-Dimensional Homogeneous Problems in a Semi-Infinite Medium for the Cartesian Coordinate System; 6-2 Multidimensional Homogeneous Problems in a Semi-Infinite Medium for the Cartesian Coordinate System; 6-3 One-Dimensional Homogeneous Problems in An Infinite Medium for the Cartesian Coordinate System; 6-4 One-Dimensional homogeneous Problems in a Semi-Infinite Medium for the Cylindrical Coordinate System; 6-5 Two-Dimensional Homogeneous Problems in a Semi-Infinite Medium for the Cylindrical Coordinate System

6-6 One-Dimensional Homogeneous Problems in a Semi-Infinite Medium for the Spherical Coordinate SystemReferences; Problems; Chapter 7 Use of Duhamel's Theorem; 7-1 Development of Duhamel's Theorem for Continuous Time-Dependent Boundary Conditions; 7-2 Treatment of Discontinuities; 7-3 General Statement of Duhamel's Theorem; 7-4 Applications of Duhamel's Theorem; 7-5 Applications of Duhamel's Theorem for Internal Energy Generation; References; Problems; Chapter 8 Use of Green's Function for Solution of Heat Conduction Problems

8-1 Green's Function Approach for Solving Nonhomogeneous Transient Heat Conduction

"This book supplies the long awaited revision of the bestseller on heat conduction, replacing some of the coverage of numerical methods with content on micro- and nano-scale heat transfer. Extensive problems, cases, and examples have been thoroughly updated, and a solutions manual is available"--