《传热学(英文版·原书第10版)》
出版说明iv
序v
Guide to Worked Examplesxi
Prefacexv
About the Authorxviii
List of Symbolsxix
CHAPTER 1 Introduction1
1.1Conduction Heat Transfer1
1.2Thermal Conductivity5
1.3Convection Heat Transfer10
1.4Radiation Heat Transfer12
1.5Summary13
Review Questions15
Problems15
References19
CHAPTER 2 Steady.State Conduction—One Dimension 21
2.1Introduction21
2.2The Plane Wall21
2.3Insulation and R Values22
2.4Radial Systems23
2.5The Overall Heat.Transfer Coefficient27
2.6Critical Thickness of Insulation33
2.7Heat.Source Systems35
2.8Cylinder with Heat Sources37
2.9Conduction.Convection Systems39
2.10Fins42
2.11Thermal Contact Resistance51
Review Questions54
List of Worked Examples54
Problems55
References69
CHAPTER 3 Steady.State Conduction—Multiple Dimensions 71
3.1Introduction71
3.2Mathematical Analysis of Two.Dimensional Heat Conduction71
3.3The Conduction Shape Factor76
3.4Numerical Method of Analysis81
3.5Gauss.Seidel Iteration91
3.6Accuracy Considerations93
3.7Summary97
Review Questions98
List of Worked Examples98
Problems98
References114
CHAPTER 4 Unsteady.State Conduction117
4.1Introduction117
4.2Lumped.Heat.Capacity System119
4.3Transient Heat Flow in a Semi.Infinite Solid121
4.4Convection Boundary Conditions125
4.5Multidimensional Systems140
4.6Summary147
Review Questions148
List of Worked Examples148
Problems149
References169
CHAPTER 5 Principles of Convection171
5.1Introduction171
5.2Viscous Flow171
5.3Inviscid Flow174
5.4Laminar Boundary Layer on a Flat Plate178
5.5Energy Equation of the Boundary Layer184
5.6The Thermal Boundary Layer187
5.7The Relation Between Fluid Friction and Heat Transfer197
5.8Turbulent.Boundary.Layer Heat Transfer199
5.9Turbulent.Boundary.Layer Thickness206
5.10Heat Transfer in Laminar Tube Flow209
5.11Turbulent Flow in a Tube213
5.12Summary215
Review Questions215
List of Worked Examples217
Problems217
References225
CHAPTER 6 Empirical and Practical Relations for Forced.Convection Heat Transfer 227
6.1Introduction227
6.2Empirical Relations for Pipe and Tube Flow229
6.3Flow Across Cylinders and Spheres243
6.4Flow Across Tube Banks253
6.5Summary258
Review Questions260
List of Worked Examples260
Problems261
References270
CHAPTER 7 Natural Convection Systems 273
7.1Introduction273
7.2Free.Convection Heat Transfer on a Vertical Flat Plate273
7.3Empirical Relations for Free Convection278
7.4Free Convection from Vertical Planes and Cylinders280
7.5Free Convection from Horizontal Cylinders286
7.6Free Convection from Horizontal Plates288
7.7Free Convection from Inclined Surfaces290
7.8Nonnewtonian Fluids291
7.9Simplified Equations for Air291
7.10Free Convection from Spheres292
7.11Free Convection in Enclosed Spaces293
7.12Summary299
7.13Summary Procedure for all
Convection Problems299
Review Questions300
List of Worked Examples302
Problems302
References312
CHAPTER 8 Radiation Heat Transfer 317
8.1Introduction317
8.2Physical Mechanism317
8.3Radiation Properties319
8.4Radiation Shape Factor326
8.5Relations Between Shape Factors336
8.6Heat Exchange Between Nonblackbodies342
8.7Infinite Parallel Surfaces349
8.8Radiation Shields354
8.9Gas Radiation358
8.10Radiation Network for an Absorbing and Transmitting Medium359
8.11Radiation Exchange with Specular Surfaces364
8.12Formulation for Numerical Solution368
8.13Solar Radiation383
8.14Radiation Properties of the Environment388
8.15Effect of Radiation on Temperature Measurement391
8.16The Radiation Heat.Transfer Coefficient392
8.17Summary393
Review Questions394
List of Worked Examples394
Problems395
References417
CHAPTER 9 Condensation and Boiling Heat Transfer 419
9.1Introduction419
9.2Condensation Heat.Transfer Phenomena419
9.3The Condensation Number424
9.4Film Condensation Inside Horizontal Tubes425
9.5Boiling Heat Transfer428
9.6Simplified Relations for Boiling Heat Transfer with Water439
9.7The Heat Pipe441
Review Questions443
List of Worked Examples443
Problems443
References448
CHAPTER 10 Heat Exchangers 451
10.1Introduction451
10.2The Overall Heat.Transfer Coefficient451
10.3Fouling Factors457
10.4Types of Heat Exchangers458
10.5The Log Mean Temperature Difference461
10.6Effectiveness.NTU Method470
10.7Compact Heat Exchangers481
10.8Heat.Exchanger Design Considerations485
Review Questions485
List of Worked Examples485
Problems486
References502
APPENDIX A
Tables 505
A.1The Error Function505
A.2Property Values for Metals506
A.3Properties of Nonmetals509
A.4Properties of Saturated Liquids512
A.5Properties of Air at Atmospheric Pressure514
A.6Properties of Gases at Atmospheric
Pressure515
A.7Physical Properties of Some Common Low.Melting.Point Metals517
A.8Diffusion Coefficients of Gases and Vapors
in Air at 25℃ and 1 atm517
A.9Properties of Water (Saturated Liquid)518
A.10Normal Total Emissivity of Various Surfaces519
A.11Steel.Pipe Dimensions521
A.12Conversion Factors522
