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Fundamental principles of heat transfer /
Fundamental Principles of Heat Transfer introduces the fundamental concepts of heat transfer: conduction, convection, and radiation. It presents theoretical developments and example and design problems and illustrates the practical applications of fundamental principles. The chapters in this book co...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Pergamon Press,
©1977.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Fundamental Principles of Heat Transfer; Copyright Page; Table of Contents; Preface; Nomenclature; The Author; Design Problem I; Chapter 1. Introduction; 1.1 The Continuum Postulate; 1.2 The Laws of Continuum Physics; 1.3 Mechanisms of Energy Transport; 1.4 Units; 1.5 Design Objectives; PROBLEMS; REFERENCES; Design Problem II; Chapter 2. Steady, One-Dimensional Heat Conduction; 2.1 The Fundamental Energy Postulate; 2.2 Steady Heat Conduction; 2.3 Steady, One-Dimensional Heat Conduction in Rectangular Coordinates.
- 2.4 Steady, One-Dimensional Heat Conduction in Cylindrical Coordinates2.5 Steady, One-Dimensional Heat Conduction in Spherical Coordinates; 2.6 Extended Surfaces The Rectangular Fin; 2.7 The Annular Fin; 2.8 Fin Effectiveness; 2.9 Order-of-Magnitude Analysis; 2.10 An Application of Order-of-Magnitude Analysis; PROBLEMS; REFERENCES; Design Problem lII Chapter 3. Two -Dimensional, Steady Heat Conduction; 3.1 Rectangular Coordinates; 3.2 Cylindrical Coordinates; 3.3 Numerical Solution of Two-Dimensional Heat Conduction Problemsin Rectangular Coordinates.
- 3.4 Numerical Solution of Two-Dimensional Heat Conduction Problemsin Cylindrical Coordinates3.5 Graphical Solution for Steady, Two-Dimensional Heat Conduction; PROBLEMS; REFERENCES; Design Problem IV; Chapter 4. Transient Heat Conduction; 4.1 The Governing Equation for Transient Heat Conduction; 4.2 Transient Heat Conduction for Bodies with Negligible Internal Resistance; 4.3 Transient Heat Conduction in a Semi-Infinite Slab; 4.4 Periodic Processes-The Semi-Infinite Slab; 4.5 Transient Heat Conduction in Rectangular Coordinates; 4.6 Transient Heat Conduction in Cylindrical Coordinates.
- 4.7 Numerical Solution of Transient, One-Dimensional Heat Conduction Problems in Rectangular Coordinates4.8 Flux Boundary Conditions for Finite-Difference Equations; 4.9 Numerical Solution of Transient, One-Dimensional Heat Conduction Problems in Cylindrical Coordinates; PROBLEMS REFERENCES; Design Problem V; Chapter 5. The Basic Equations of Momentum and Energy Transfer; 5.1 Kinematics; 5.2 The Laws of Mechanics; 5.3 The Energy Principle; 5.4 The Thermal Energy Equation; 5.5 The Thermal Energy Equation for General Flow Processes; 5.6 Dimensional Analysis for Forced-Convection Heat Transfer.
- 5.7 The Momentum and Energy Equations for Laminar Boundary Layer Flow5.8 Exact Solution of the Laminar Boundary Layer Equations; 5.9 Approximate Solution of the Laminar Boundary Layer Equations; 5.10 Dimensional Analysis for Free Convection; 5.11 Boundary Layer Analysis of Free Convection; PROBLEMS; REFERENCES; Design Problem VI; Chapter 6. Turbulent Flow; 6.1 Time Averages; 6.2 Time-Averaged Form of the Transport Equations; 6.3 Turbulent Momentum and Energy Transport; 6.4 Turbulent Transport Coefficients; 6.5 Hydrodynamic Mixing Length Theory; PROBLEMS; REFERENCES; Design Problem VII.