كتاب Fundamentals of Heat and Mass Transfer
منتدى هندسة الإنتاج والتصميم الميكانيكى
بسم الله الرحمن الرحيم

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 كتاب Fundamentals of Heat and Mass Transfer

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تاريخ التسجيل : 01/07/2009
العمر : 31
الدولة : مصر
العمل : مدير منتدى هندسة الإنتاج والتصميم الميكانيكى
الجامعة : المنوفية

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أحضرت لكم كتاب
Fundamentals of Heat and Mass Transfer
Revised Third Edition
C.P. Kothandaraman
Professor of Mechanical Engineering (Retired),
S.G. College of Technology, Coimbatore  

كتاب Fundamentals of Heat and Mass Transfer  F_o_h_11
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CONTENTS
Preface to the Third Edition v
1 AN OVERVIEW OF HEAT TRANSFER 1–25
1.0 Introduction 1
1.1 Heat Transfer 1
1.2 Modes of Heat Transfer 2
1.3 Combined Modes of Heat Transfer 8
1.4 Dimensions and Units 10
1.5 Closure 11
Solved Problems 11
Exercise Problems 22
2 STEADY STATE CONDUCTION 26–98
2.0 Conduction 26
2.1 The General Model for Conduction Study 26
2.2 Steady Conduction in One Direction (One Dimensional) 30
2.3 Conduction in Other Shapes 41
2.4 One Dimensional Steady State Heat Conduction with Variable Heat
Conductivity or Variable Area Along the Section 42
2.5 Critical Thickness of Insulation 48
2.6 Mean Area Concept 50
2.7 Parallel Flow 51
Solved Problems 53
Objective Questions 92
Exercise Problems 93
3 CONDUCTION WITH HEAT GENERATION 99–127
3.0 Introduction 99
3.1 Steady State One Dimensional Conduction in a Slab with Uniform Heat
Generation 99
3.2 Steady State Radial Heat Conduction in Cylinder with Uniform Heat Generation 103
3.3 Radial Conduction in Sphere with Uniform Heat Generation 107
3.4 Conclusion 109
Solved Problems 110
Objective Questions 125
Exercise Problems 1254 HEAT TRANSFER WITH EXTENDED SURFACES (FINS) 128–175
4.0 Introduction 128
4.1 Fin Model 129
4.2 Temperature Calculation 130
4.3 Heat Flow Calculation 134
4.4 Fin Performance 139
4.5 Circumferential Fins and Plate Fins of Varying Sections 142
4.6 Optimisation 145
4.7 Fin with Radiation Surroundings 146
4.8 Contact Resistance 146
4.9 Numerical Method 147
Solved Problems 148
Objective Questions 170
Exercise Problems 172
5 TWO DIMENSIONAL STEADY HEAT CONDUCTION 176–201
5.0 Introduction 176
5.1 Solution to Differential Equation 176
5.2 Graphical Method 182
5.3 Numerical Method 184
5.4 Electrical Analogy 187
5.5 In the Finite Difference Formulation 187
Solved Problems 188
Exercise Problems 199
6 TRANSIENT HEAT CONDUCTION 202–284
6.0 Introduction 202
6.1 A Wall Exposed to the Sun 202
6.2 Lumped Parameter Model 203
6.3 Semi Infinite Solid 207
6.4 Periodic Heat Conduction 213
6.5 Transient Heat Conduction in Large Slab of Limited Thickness, Long Cylinders
and Spheres 215
6.6. Product Solution 227
6.7 Numerical Method 230
6.8 Graphical Method 233
Solved Problems 234
Objective Questions 278
Exercise Problems 280
x CONTENTS7 CONVECTION 285–333
7.0 Introduction 285
7.1 Mechanism of Convection 285
7.2 The Concept of Velocity Boundary Layer 287
7.3 Thermal Boundary Layer 289
7.4 Laminar and Turbulent Flow 291
7.5 Forced and Free Convection 292
7.6 Methods Used in Convection Studies 293
7.7 Energy Equation 299
7.8 Integral Method 302
7.9 Dimensional Analysis 303
7.10 Analogical Methods 306
7.11 Correlation of Experimental Results 307
Solved Problems 308
Objective Questions 331
Exercise Problems 332
8 CONVECTIVE HEAT TRANSFER—PRACTICAL CORRELATIONS
—FLOW OVER SURFACES 334–384
8.0 Introduction 334
8.1 Flow Over Flat Plates 334
8.2 Turbulent Flow 343
8.3 Flow Across Cylinders 348
8.4 Flow Across Spheres 356
8.5 Flow Over Bluff Bodies 359
8.6 Flow Across Bank of Tubes 360
Solved Problems 363
Objective Questions 380
Exercise Problems 381
9 FORCED CONVECTION 385–433
9.0 Internal Flow 385
9.1 Hydrodynamic Boundary Layer Development 386
9.2 Thermal Boundary Layer 387
9.3 Laminar Flow 388
9.4 Turbulent Flow 399
9.5 Liquid Metal Flow 402
9.6 Flow Through Non-circular Sections 404
9.7 The Variation of Temperature Along the Flow Direction 406
Solved Problems 408
Objective Questions 431
Exercise Problems 432
CONTENTS xi10 NATURAL CONVECTION 434–479
10.0 Introduction 434
10.1 Basic Nature of Flow Under Natural Convection Conditions 435
10.2 Methods of Analysis 437
10.3 Integral Method 439
10.4 Correlations from Experimental Results 442
10.5 A More Recent Set of Correlations 446
10.6 Constant Heat Flux Condition—Vertical Surfaces 447
10.7 Free Convection from Inclined Surfaces 451
10.8 Horizontal Cylinders 454
10.9 Other Geometries 455
10.10 Simplified Expressions for Air 456
10.11 Free Convection in Enclosed Spaces 458
10.12 Rotating Cylinders, Disks and Spheres 459
10.13 Combined Forced and Free Convection 460
Solved Problems 461
Objective Questions 477
Exercise Problems 477
11 PHASE CHANGE PROCESSES—BOILING, CONDENSATION
FREEZING AND MELTING 480–520
11.0 Introduction 480
11.1 Boiling or Evaporation 480
11.2 The correlations 483
11.3 Flow Boiling 485
11.4 Condensation 488
11.5 Freezing and Melting 494
Solved Problems 494
Objective Questions 516
Exercise Problems 518
12 HEAT EXCHANGERS 521–577
12.0 Introduction 521
12.1 Over All Heat Transfer Coefficient 521
12.2 Classification of Heat Exchangers 524
12.3 Mean Temperature Difference—Log Mean Temperature Difference 526
12.4 Regenerative Type 531
12.5 Determination of Area in Other Arrangements 531
12.6 Heat Exchanger Performance 535
12.7 Storage Type Heat Exchangers 547
12.8 Compact Heat Exchangers 550
xii CONTENTSSolved Problems 550
Objective Questions 572
Exercise Problems 574
13 THERMAL RADIATION 578–655
13.0 Introduction 578
13.1 Black Body 579
13.2 Intensity of Radiation 583
13.3 Real Surfaces 584
13.4 Radiation Properties of Gases—Absorbing, Transmitting and Emitting Medium 587
13.5 Heat Exchange by Radiation 595
13.6 Radiant Heat Exchange Between Black Surfaces 604
13.7 Heat Exchange by Radiation Between Gray Surfaces 606
13.8 Effect of Radiation on Measurement of Temperature by a Bare Thermometer 613
13.9 Multisurface Enclosure 614
13.10 Surfaces Separated by an Absorbing and Transmitting Medium 617
Solved Problems 618
Objective Questions 648
Exercise Problems 650
14 MASS TRANSFER 656–701
14.0 Introduction 656
14.1 Properties of Mixture 656
14.2 Diffusion Mass Transfer 657
14.3 Fick’s Law of Diffusion 657
14.4 Equimolal Counter Diffusion 659
14.5 Stationary Media with Specified Surface Concentration 660
14.6 Diffusion of One Component into a Stationary Component or
Unidirectional Diffusion 661
14.7 Unsteady Diffusion 661
14.8 Convective Mass Transfer 662
14.9 Similarity Between Heat and Mass Transfer 664
Solved Problems 664
Exercise Problems 680
Fill in the Blanks 682
State True or False 699
Short Questions 702
Appendix 707
References 712


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