Heat Transfer by J P Holman

Heat Transfer by J P Holman  10th edition 

About Book:

Author(s): Jack P. Holman

Publisher: The McGraw-Hill Companies, Inc., Year: 2010

Pages: 758

ISBN: 0073529362,9780073529363

Content:

CHAPTER 1
Introduction 1
1-1 Conduction Through Copper Plate 16
1-2 Convection Calculation 17
1-3 Multimode Heat Transfer 17
1-4 Heat Source and Convection 17
1-5 Radiation Heat Transfer 18
1-6 Total Heat Loss by Convection and Radiation 18
CHAPTER 2
Steady-State Conduction—One Dimension 27
2-1 Multilayer Conduction 31
2-2 Multilayer Cylindrical System 32
2-3 Heat Transfer Through a CompositeWall 36
2-4 Cooling Cost Savings with Extra Insulation 38
2-5 Overall Heat-Transfer Coefficient for a Tube 39
2-6 Critical Insulation Thickness 40
2-7 Heat Source with Convection 44
2-8 Influence of Thermal Conductivity on Fin Temperature Profiles 53
2-9 Straight Aluminum Fin 55
2-10 Circumferential Aluminum Fin 55
2-11 Rod with Heat Sources 56
2-12 Influence of Contact Conductance on Heat Transfer 60
CHAPTER 3
Steady-State Conduction—Multiple Dimensions 77
3-1 Buried Pipe 87
3-2 Cubical Furnace 87
3-3 Buried Disk 87
3-4 Buried Parallel Disks 88
3-5 Nine-Node Problem 93
3-6 Gauss-Seidel Calculation 103
3-7 Numerical Formulation with Heat Generation 104
3-8 Heat Generation with Nonuniform Nodal Elements 106
3-9 Composite Material with Nonuniform Nodal Elements 108
3-10 Radiation Boundary Condition 111
3-11 Use of Variable Mesh Size 113
3-12 Three-Dimensional Numerical Formulation 115
CHAPTER 4
Unsteady-State Conduction 139
4-1 Steel Ball Cooling in Air 143
4-2 Semi-Infinite Solid with Sudden Change in Surface Conditions 146
4-3 Pulsed Energy at Surface of Semi-Infinite Solid 146
4-4 Heat Removal from Semi-Infinite Solid 147
4-5 Sudden Exposure of Semi-Infinite Slab to Convection 159
4-6 Aluminum Plate Suddenly Exposed to Convection 160
4-7 Long Cylinder Suddenly Exposed to Convection 161
4-8 Semi-Infinite Cylinder Suddenly Exposed to Convection 165
4-9 Finite-Length Cylinder Suddenly Exposed to Convection 166
4-10 Heat Loss for Finite-Length Cylinder 167
4-11 Sudden Cooling of a Rod 178
4-12 Implicit Formulation 179
4-13 Cooling of a Ceramic 181
4-14 Cooling of a Steel Rod, Nonuniform h 182
4-15 Radiation Heating and Cooling 186
4-16 Transient Conduction with Heat Generation 188
4-17 Numerical Solution for Variable Conductivity 190

CHAPTER 5
Principles of Convection 215
5-1 Water Flow in a Diffuser 220
5-2 Isentropic Expansion of Air 221
5-3 Mass Flow and Boundary-Layer Thickness 227
5-4 Isothermal Flat Plate Heated Over Entire Length 237
5-5 Flat Plate with Constant Heat Flux 238
5-6 Plate with Unheated Starting Length 239
5-7 Oil Flow Over Heated Flat Plate 240
5-8 Drag Force on a Flat Plate 242
5-9 Turbulent Heat Transfer from Isothermal Flat Plate 249
5-10 Turbulent-Boundary-Layer Thickness 251
5-11 High-Speed Heat Transfer for a Flat Plate 261
CHAPTER 6
Empirical and Practical Relations for Forced-Convection Heat Transfer 277
6-1 Turbulent Heat Transfer in a Tube 287
6-2 Heating ofWater in Laminar Tube Flow 288
6-3 Heating of Air in Laminar Tube Flow
for Constant Heat Flux 289
6-4 Heating of Air with Isothermal TubeWall 290
6-5 Heat Transfer in a Rough Tube 291
6-6 Turbulent Heat Transfer in a Short Tube 292
6-7 Airflow Across Isothermal Cylinder 300
6-8 Heat Transfer from Electrically HeatedWire 301
6-9 Heat Transfer from Sphere 302
6-10 Heating of Air with In-Line Tube Bank 306
6-11 Alternate Calculation Method 308
6-12 Heating of Liquid Bismuth in Tube 311
CHAPTER 7 Natural Convection Systems 327
7-1 Constant Heat Flux from Vertical Plate 338
7-2 Heat Transfer from Isothermal Vertical Plate 339
7-3 Heat Transfer from Horizontal Tube inWater 340
7-4 Heat Transfer from FineWire in Air 341
7-5 Heated Horizontal Pipe in Air 341
7-6 Cube Cooling in Air 343
7-7 Calculation with Simplified Relations 346
7-8 Heat Transfer Across Vertical Air Gap 351
7-9 Heat Transfer Across Horizontal Air Gap 352
7-10 Heat Transfer AcrossWater Layer 353
7-11 Reduction of Convection in Air Gap 353
7-12 Heat Transfer Across Evacuated Space 357
7-13 Combined Free and Forced Convection with Air 360
CHAPTER 8 Radiation Heat Transfer 379
8-1 Transmission and Absorption in a Glass Plate 388
8-2 Heat Transfer Between Black Surfaces 397
8-3 Shape-Factor Algebra for Open Ends of Cylinders 401
8-4 Shape-Factor Algebra for Truncated Cone 402
8-5 Shape-Factor Algebra for Cylindrical Reflector 403
8-6 Hot Plates Enclosed by a Room 408
8-7 Surface in Radiant Balance 410
8-8 Open Hemisphere in Large Room 413
8-9 Effective Emissivity of Finned Surface 415
8-10 Heat-Transfer Reduction with Parallel-Plate Shield 418
8-11 Open Cylindrical Shield in Large Room 418
8-12 Network for Gas Radiation Between Parallel Plates 425
8-13 Cavity with Transparent Cover 434
8-14 Transmitting and Reflecting System for Furnace Opening 435
8-15 Numerical Solution for Enclosure 441
8-16 Numerical Solutions for Parallel Plates 441
8-17 Radiation from a Hole with Variable Radiosity 443
8-18 Heater with Constant Heat Flux and Surrounding Shields 446
8-19 Numerical Solution for Combined Convection and Radiation (Nonlinear System) 449
8-20 Solar–Environment Equilibirium Temperatures 453
8-21 Influence of Convection on Solar Equilibrium Temperatures 454
8-22 A Flat-Plate Solar Collector 455
8-23 Temperature Measurement Error Caused by Radiation 460
CHAPTER 9 Condensation and Boiling Heat Transfer 487
9-1 Condensation on Vertical Plate 494
9-2 Condensation on Tube Bank 495
9-3 Boiling on Brass Plate 503
9-4 Flow Boiling 508
9-5 Water Boiling in a Pan 508
9-6 Heat-Flux Comparisons 511
CHAPTER 10 Heat Exchangers 521
10-1 Overall Heat-Transfer Coefficient for Pipe in Air 523
10-2 Overall Heat-Transfer Coefficient for Pipe Exposed to Steam 525
10-3 Influence of Fouling Factor 527
10-4 Calculation of Heat-Exchanger Size from Known Temperatures 536
10-5 Shell-and-Tube Heat Exchanger 537
10-6 Design of Shell-and-Tube Heat Exchanger 537
10-7 Cross-Flow Exchanger with One Fluid Mixed 539
10-8 Effects of Off-Design Flow Rates for Exchanger in Example 10-7 539
10-9 Off-Design Calculation Using  -NTU Method 547
10-10 Off-Design Calculation of Exchanger in Example 10-4 547
10-11 Cross-Flow Exchanger with Both Fluids Unmixed 548
10-12 Comparison of Single- or Two-Exchanger Options 550
10-13 Shell-and-Tube Exchanger as Air Heater 552
10-14 Ammonia Condenser 553
10-15 Cross-Flow Exchanger as Energy Conversion Device 553
10-16 Heat-Transfer Coefficient in Compact Exchanger 558
10-17 Transient Response of Thermal-Energy Storage System 560
10-18 Variable-Properties Analysis of a Duct Heater 563
10-19 Performance of a Steam Condenser 565
CHAPTER 11 Mass Transfer 587
11-1 Diffusion Coefficient for CO2 589
11-2 Diffusion ofWater in a Tube 593
11-3 Wet-Bulb Temperature 596
11-4 Relative Humidity of Airstream 597
11-5 Water Evaporation Rate 599
CHAPTER 12 Summary and Design Information 605
12-1 Cooling of an Aluminum Cube 628
12-2 Cooling of a Finned Block 630
12-3 Temperature for Property Evaluation for Convection with Ideal Gases 632
12-4 Design Analysis of an Insulating Window 634
12-5 Double-Pipe Heat Exchanger 635
12-6 Refrigerator Storage in Desert Climate 638
12-7 Cold Draft in aWarm Room 639
12-8 Design of an Evacuated Insulation 640
12-9 Radiant Heater 642
12-10 Coolant for Radiant Heater 644

12-11 Radiant Electric Stove for Boiling Water 644

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