出版說明 序 Guide to Worked Examplesxi Prefacexv About the Authorxviii List of Symbolsxix CHAPTER 1 Introduction 1.1 Conduction Heat Transfer 1.2 Thermal Conductivity 1.3 Convection Heat Transfer 1.4 Radiation Heat Transfer 1.5 Summary Review Questions Problems References CHAPTER 2 Steady.State Conduction—One Dimension 2.1 Introduction 2.2 The Plane Wall 2.3 Insulation and R Values 2.4 Radial Systems 2.5 The Overall Heat.Transfer Coefficient 2.6 Critical Thickness of Insulation 2.7 Heat.Source Systems 2.8 Cylinder with Heat Sources 2.9 Conduction.Convection Systems 2.10 Fins 2.11 Thermal Contact Resistance Review Questions List of Worked Examples Problems References CHAPTER 3 Steady.State Conduction—Multiple Dimensions 3.1 Introduction 3.2 Mathematical Analysis of Two.Dimensional Heat Conduction 3.3 The Conduction Shape Factor 3.4 Numerical Method of Analysis 3.5 Gauss.Seidel Iteration 3.6 Accuracy Considerations 3.7 Summary Review Questions List of Worked Examples Problems References CHAPTER 4 Unsteady.State Conduction 4.1 Introduction 4.2 Lumped.Heat.Capacity System 4.3 Transient Heat Flow in a Semi.Infinite Solid 4.4 Convection Boundary Conditions 4.5 Multidimensional Systems 4.6 Summary
Review Questions List of Worked Examples Problems References CHAPTER 5 Principles of Convection 5.1 Introduction 5.2 Viscous Flow 5.3 Inviscid Flow 5.4 Laminar Boundary Layer on a Flat Plate 5.5 Energy Equation of the Boundary Layer 5.6 The Thermal Boundary Layer 5.7 The Relation Between Fluid Friction and Heat Transfer 5.8 Turbulent.Boundary.Layer Heat Transfer 5.9 Turbulent.Boundary.Layer Thickness 5.10 Heat Transfer in Laminar Tube Flow 5.11 Turbulent Flow in a Tube 5.12 Summary Review Questions List of Worked Examples Problems References CHAPTER 6 Empirical and Practical Relations for Forced.Convection Heat Transfer 6.1 Introduction 6.2 Empirical Relations for Pipe and Tube Flow 6.3 Flow Across Cylinders and Spheres 6.4 Flow Across Tube Banks 6.5 Summary Review Questions List of Worked Examples Problems References CHAPTER 7 Natural Convection Systems 7.1 Introduction 7.2 Free.Convection Heat Transfer on a Vertical Flat Plate 7.3 Empirical Relations for Free Convection 7.4 Free Convection from Vertical Planes and Cylinders 7.5 Free Convection from Horizontal Cylinders 7.6 Free Convection from Horizontal Plates 7.7 Free Convection from Inclined Surfaces 7.8 Nonnewtonian Fluids 7.9 Simplified Equations for Air 7.10 Free Convection from Spheres 7.11 Free Convection in Enclosed Spaces 7.12 Summary 7.13 Summary Procedure for all Convection Problems Review Questions List of Worked Examples Problems References CHAPTER 8 Radiation Heat Transfer
8.1 Introduction 8.2 Physical Mechanism 8.3 Radiation Properties 8.4 Radiation Shape Factor 8.5 Relations Between Shape Factors 8.6 Heat Exchange Between Nonblackbodies 8.7 Infinite Parallel Surfaces 8.8 Radiation Shields 8.9 Gas Radiation 8.10 Radiation Network for an Absorbing and Transmitting Medium 8.11 Radiation Exchange with Specular Surfaces 8.12 Formulation for Numerical Solution 8.13 Solar Radiation 8.14 Radiation Properties of the Environment 8.15 Effect of Radiation on Temperature Measurement 8.16 The Radiation Heat.Transfer Coefficient 8.17 Summary Review Questions List of Worked Examples Problems References CHAPTER 9 Condensation and Boiling Heat Transfer 9.1 Introduction 9.2 Condensation Heat.Transfer Phenomena 9.3 The Condensation Number 9.4 Film Condensation Inside Horizontal Tubes 9.5 Boiling Heat Transfer 9.6 Simplified Relations for Boiling Heat Transfer with Water 9.7 The Heat Pipe Review Questions List of Worked Examples Problems References CHAPTER 10 Heat Exchangers 10.1 Introduction 10.2 The Overall Heat.Transfer Coefficient 10.3 Fouling Factors 10.4 Types of Heat Exchangers 10.5 The Log Mean Temperature Difference 10.6 Effectiveness.NTU Method 10.7 Compact Heat Exchangers 10.8 Heat.Exchanger Design Considerations Review Questions List of Worked Examples Problems References APPENDIX A Tables A.1 The Error Function A.2 Property Values for Metals A.3 Properties of Nonmetals
A.4 Properties of Saturated Liquids A.5 Properties of Air at Atmospheric Pressure A.6 Properties of Gases at Atmospheric Pressure A.7 Physical Properties of Some Common Low.Melting.Point Metals A.8 Diffusion Coefficients of Gases and Vapors in Air at 25℃ and 1 atm A.9 Properties of Water (Saturated Liquid) A.10 Normal Total Emissivity of Various Surfaces A.11 Steel.Pipe Dimensions A.12 Conversion Factors522ixGUIDE TO WORKED EXAMPLES
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