Advanced heat transfer:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton, Fla.
CRC Press, Taylor & Francis Group
[2018]
|
| Ausgabe: | Second edition |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | xxi, 514 Seiten Illustrationen |
| ISBN: | 9781138579323 |
Internformat
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| 245 | 1 | 0 | |a Advanced heat transfer |c Greg F. Naterer |
| 250 | |a Second edition | ||
| 264 | 1 | |a Boca Raton, Fla. |b CRC Press, Taylor & Francis Group |c [2018] | |
| 300 | |a xxi, 514 Seiten |b Illustrationen | ||
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Datensatz im Suchindex
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| adam_text | Contents
Preface....................................................................... xiii
Author........................................................................xv
List of Symbols...............................................................xvii
1. Introduction................................................................ 1
1.1 Fundamental Concepts and Definitions...................................2
1.2 Conservation of Energy.................................................4
1.3 Thermophysical Properties..............................................5
1.3.1 Thermodynamic Properties........................................5
1.3.2 Kinematic Properties............................................7
1.3.3 Transport Properties............................................8
1.4 Heat Conduction.......................................................10
1.5 Convection............................................................12
1.6 Thermal Radiation.....................................................14
1.7 Phase Change Heat Transfer............................................16
1.8 Mass Transfer ...................................................... 17
Problems.................................................................. 19
References..................................................................21
2. Heat Conduction.............................................................23
2.1 Introduction..........................................................23
2.2 One-Dimensional Heat Conduction.......................................24
2.2.1 Heat Conduction Equation.......................................24
2.2.2 Thermal Resistance........................................... 27
2.2.3 Fins and Extended Surfaces.....................................33
2.3 Multidimensional Conduction...........................................37
2.3.1 Cartesian Coordinates..........................................37
2.3.2 Orthogonal Curvilinear Coordinates.............................39
2.4 Method of Separation of Variables.....................................43
2.5 Conformal Mapping.....................................................47
2.6 Transient Heat Conduction.............................................54
2.6.1 Lumped Capacitance Method......................................54
2.6.2 Semi-Infinite Solid............................................56
2.6.3 Unidirectional Conduction......................................58
Problems....................................................................60
References..................................................................66
3. Convection..................................................................67
3.1 Introduction..........................................................67
3.2 Governing Equations...................................................68
3.2.1 Conservation of Mass (Continuity Equation).....................69
vii
Vlll
Contents
3.2.2 Conservation of Momentum (Navier-Stokes Equations)
3.2.3 Total Energy (First Law of Thermodynamics).........
3.2.4 Mechanical Energy Equation.........................
3.2.5 Internal Energy Equation...........................
3.2.6 Transformation to Dimensionless Variables..........
3.2.7 Buckingham Pi Theorem..............................
3.3 Convection Boundary Layers................................
3.3.1 Boundary Layer Equations...........................
3.3.2 Heat and Momentum Analogies........................
3.3.3 Evaporative Cooling................................
3.4 External Forced Convection................................
3.4.1 Scale Analysis.....................................
3.4.2 Integral Analysis..................................
3.4.3 External Flow over a Flat Plate....................
3.5 Cylinder in Cross Flow....................................
3.6 Other External Flow Configurations........................
3.6.1 Sphere.............................................
3.6.2 Tube Bundles.......................................
3.7 internal Flow.............................................
3.7.1 Poiseuille Flow in Circular Tubes..................
3.7.2 Noncircular Ducts..................................
3.8 Free Convection...........................................
3.8.1 Boundary Layer Flow on a Vertical Flat Plate.......
3.8.2 Body Gravity Function Method.......................
3.8.3 Spherical Geometries...............................
3.8.4 Tilted Rectangular Enclosures......................
3.9 Introduction to Turbulence................................
3.9.1 Turbulence Spectrum................................
3.9.2 Reynolds Averaged Navier-Stokes Equations..........
3.9.3 Eddy Viscosity.....................................
3.9.4 Mixing Length......................................
3.9.5 Near-Wall Flow.....................................
3.9.6 One and Two Equation Closure Models................
3.10 Entropy and the Second Law................................
3.10.1 Formulation of Entropy Production..................
3.10.2 Apparent Entropy Production Difference.............
3.10.3 Dimensionless Entropy Production Number............
Problems........................................................
References......................................................
.70
.73
. 75
.76
. 78
. 82
. 83
. 83
. 87
. 89
. 90
.90
. 91
. 93
. 99
101
101
102
103
103
1 11
113
113
118
122
124
124
125
127
129
129
130
131
132
132
136
139
141
148
4. Thermal Radiation............................................................151
4.1 Introduction............................................................151
4.2 Electromagnetic Spectrum................................................152
4.3 Radiation Intensity.....................................................153
4.4 Blackbody Radiation.....................................................156
4.5 Radiative Surface Properties............................................159
4.6 Radiation Exchange between Surfaces.....................................163
4.7 Thermal Radiation in Enclosures.........................................166
Contents ix
4.7.1 Radiation Exchange at a Surface............................... 167
4.7.2 Radiation Exchange between Surfaces........................... 168
4.7.3 Two-Surface Enclosures........................................ 170
4.8 Solar Radiation.......................................................172
4.8.1 Components of Solar Radiation................................. 172
4.8.2 Solar Angles.................................................. 176
4.8.3 Incident Solar Radiation...................................... 179
4.9 Solar Collectors......................................................182
4.9.1 Collector Efficiency and Heat Losses.......................... 182
4.9.2 Temperature Distribution...................................... 185
4.9.3 Heat Removal Factor........................................... 187
Problems....................................................................190
References..................................................................193
5. Gas-Liquid Two-Phase Flows................................................195
5.1 Introduction........................................................195
5.2 Pool Boiling........................................................196
5.2.1 Physical Processes.................................... 196
5.2.2 Nucleate Pool Boiling....................................... 198
5.2.3 Film Pool Boiling........................................... 200
5.3 Boiling on Inclined Surfaces........................................201
5.4 Forced Convection Boiling in. External Flow.........................203
5.4.1 Over a Flat Plate........................................... 203
5.4.2 Outside a Horizontal Tube................................... 203
5.4.3 Other Surface Configurations................................ 204
5.5 Two-Phase Flow in Vertical Tubes....................................205
5.5.1 Vertical Flow Regimes....................................... 205
5.5.2 Dynamics and Heat Transfer of Bubble Flow,.................. 206
5.5.3 Annular Flow Momentum and Heat Transfer................... 209
5.6 Internal Horizontal Two-Phase Flows.................................213
5.6.1 Flow Regimes in Horizontal Tubes............................ 213
5.6.2 Dispersed Bubble Flow................................... 215
5.6.3 One-Dimensional Model of Stratified Flow.................... 217
5.6.4 Plug and Annular Flow Correlations.......................... 220
5.6.5 Multi-Regime Nusselt Number Correlations.................... 221
5.7 Laminar Film Condensation...........................................222
5.7.1 Axisymmetric Bodies......................................... 223
5.7.2 Other Configurations........................................ 226
5.8 Turbulent Film Condensation.........................................227
5.8.1 Over a Vertical Plate....................................... 227
5.8.2 Outside a Sphere............................................ 228
5.9 Forced Convection Condensation......................................231
5.9.1 Internal Flow in Tubes...................................... 231
5.9.2 Outside a Single Horizontal Tube............................ 234
5.9.3 Finned Tubes............................................... 236
5.10 Thermosyphons and Heat Pipes........................................236
5.10.1 Transport Processes......................................... 236
X
Contents
5.10.2 Operational Limitations....................................... 241
5.10.3 Meat Pipe Fins................................................ 242
Problems.....................................................................245
References...................................................................252
6. Multiphase Flows with Droplets and Particles................................255
6.1 Introduction...........................................................255
6.2 Dispersed Phase Equations..............................................257
6.2.1 Particle Equation of Motion................................... 257
6.2.2 Gas-Particle Interactions..................................... 258
6.3 Carrier Phase Equations................................................260
6.3.1 Volume Averaging Method....................................... 260
6.3.2 Conservation of Mass.......................................... 261
6.3.3 Momentum Equations............................................ 262
6.4 Packed Bed Flow in Tubes...............................................264
6.4.1 Pressure Drop and Friction Factor............................. 264
6.4.2 I leat Transfer Coefficient................................... 266
6.5 External Flow with Droplets............................................267
6.6 Impinging Droplets on a Freezing Surface...............................269
6.7 From Droplet Evaporation to Particle Formation.........................272
6.7.1 Physical Processes............................................ 272
6.7.2 Solvent Evaporation and Droplet Shrinkage..................... 273
6.8 Forced Convection Melting of Particles.................................276
6.9 Radiation in Participating Media.......................................278
6.10 Liquid-Particle and Slurry Flows.......................................283
6.10.1 Flow Regimes.................................................. 283
6.10.2 Vertical Flows in Pipes....................................... 284
6.11 Nanofluids.............................................................286
6.11.1 Transport Phenomena .......................................... 286
6.11.2 Governing Transport Equations................................. 287
6.11.3 Thermal Conductivity ......................................... 288
6.11.4 Heat Transfer Coefficient and Nusselt
Number........................................................ 289
Problems.....................................................................290
References...................................................................295
7. Solidification and Melting...................................................299
7.1 Introduction...........................................................299
7.2 Thermodynamics of Phase Change.........................................301
7.2.1 Gibbs Free Energy............................................. 301
7.2.2 Nucléation Process............................................ 301
7.2.3 Interface Structure........................................... 303
7.2.4 Thermomechanical Properties................................... 305
7.3 Governing Equations....................................................306
7.3.1 General Scalar Transport Equation............................. 306
7.3.2 Mass and Momentum Equations................................... 307
Contents xi
7.3.3 Energy Equation................................................ 309
7.3.4 Second Law of Thermodynamics................................... 310
7.4 One-Dimensional Problems...............................................312
7.4.1 Stefan Problem................................................. 312
7.4.2 Integral Solution.............................................. 315
7.4.3 Directional Solidification at a Uniform Interface
Velocity...................................................... 317
7.4.4 Solute Concentration Balance................................... 318
7.4.5 Multicomponent Mixtures........................................ 321
7.5 Phase Change with Convection......................................... 323
7.5.1 Perturbation Solution.......................................... 323
7.5.2 Quasi-Stationary Solution...................................... 326
7.5.3 Frozen Temperature Approximate Solution........................ 328
7.6 Cylindrical Geometry...................................................330
7.6.1 Solidification in a Semi-Infinite Domain....................... 330
7.6.2 Heat Balance Integral Solution................................. 332
7.6.3 Melting with a Line Heat Source................................ 334
7.6.4 Superheating in the Liquid Phase............................... 335
7.7 Spherical Geometry.....................................................336
Problems....................................................................339
References..................................................................344
8. Chemically Reacting Flows................................................ 347
8.1 Introduction.........................................................347
8.2 Mixture Properties...................................................348
8.3 Reaction Rates.......................................................349
8.4 Material Balance for Chemical Reactors...............................352
8.4.1 General Mole Balance Equation................................ 352
8.4.2 Batch Reactor................................................ 353
8.4.3 Continuous Stirred Tank Reactor.............................. 353
8.4.4 Plug Flow Reactor............................................ 354
8.4.5 Packed Bed Reactor........................................... 354
8.5 Energy Balance of Reacting Flows.....................................355
8.6 Combustion Reaction..................................................358
8.7 Gas-Solid Reacting Mixtures..........................................360
8.7.1 Shrinking Core Model......................................... 360
8.7.2 Progressive Conversion Model............................... 363
8.7.3 Energy Balance and Heat Transfer............................. 366
8.8 Gas-Liquid Reactions.................................................368
8.9 Gas-Gas Reactions....................................................371
8.10 Fluidized Beds.......................................................373
8.10.1 Hydrodynamics.............................................. 373
8.10.2 Heat and Mass Transfer....................................... 377
8.10.3 Reaction Rate Equations for Solid Conversion................. 378
8.10.4 Noncatalytic Gas-Solid Reaction Model........................ 381
Problems.................................................................. 385
References................................................................ 388
xjj Contents
9. Heat Exchangers...........................................................391
9.1 Introduction........................................................391
9.2 Tubular Heat Exchangers.............................................393
9.3 Cross-Flow and Shell-and-Tube Heat Exchangers.......................396
9.4 Effectiveness—NTU Method............................................399
9.5 Thermal Response to Transient Temperature Changes...................405
9.6 Condensers and Boilers..............................................409
Problems..................................................................412
References................................................................415
10. Computational Heat Transfer...............................................417
10.1 Finite Difference Method............................................417
10.1.1 Steady-State Solution...................................... 417
10.1.2 Transient Solutions........................................ 420
10.2 Weighted Residual Method............................................422
10.3 Finite Element Method...............................................423
10.3.1 One-Dimensional Formulation................................ 423
10.3.2 Triangular Elements........................................ 427
10.3.3 Quadrilateral Elements..................................... 432
10.3.4 Two-Dimensional Formulation of Heat Conduction............. 434
10.3.5 Time-Dependent Problems.................................... 440
10.3.6 Computational Fluid Dynamics............................... 443
10.4 Finite Volume Method................................................446
10.4.1 Discretization of the General Scalar Conservation Equation. 446
10.4.2 Transient, Convection, Diffusion and Source Terms.......... 447
10.4.3 SIMPLE and SIMPLEC Methods................................. 450
10.4.4 Turbulent Flow Modeling.................................... 452
10.5 Control Volume-Based Finite Element Method..........................454
10.5.1 General Scalar Conservation Equation....................... 454
10.5.2 Transient, Convection, Diffusion and Source Terms.......... 455
10.5.3 Assembly of Subcontrol Volume Equations.................... 457
10.6 Volume of Fluid Method for Free Surface Flows.......................459
10.7 Other Methods.......................................................461
Problems.................................................................463
References...............................................................470
Appendices....................................................................471
Index.........................................................................497
SECOND EDITION
ADVANCED
HEAT TRANSFER
Advanced Heat Transfer, Second Edition provides a com-
prehensive presentation of intermediate and advanced heat
transfer through a unified treatment of both single and multi-
phase systems. It gives a modern perspective of new emerging
fields and applications of heat transfer, such as solar energy,
nano-fluids, chemically reacting flows, and cooling of micro-
electronics. Conductive, convective, and radiative modes of
heat transfer are presented, as well as phase change heat
transfer in boiling, condensation, melting, and solidification
problems. Using the latest solution methods, the text is ideal
for a range of engineering majors taking a second-level or
graduate-level heat transfer course/module. It enables them to
succeed in later course work in energy systems, combustion,
and chemical reaction engineering.
FEATURES
• Includes thorough coverage of both single and
multiphase systems of heat transfer
• Treats conduction, convection, radiation, and phase
change heat transfer
• Revised Second Edition expands coverage of two-phase
and chemically reacting flows
• Covers multiphase flows with droplets, particles,
solid-liquid, and liquid-gas phase change
• Presents advanced solution methods for both single
and multiphase flow problems
• Represents a single source of technical content for
intermediate/advanced heat transfer
eresources are available for this title at
https://www.crcpress.com/9781 1 38579323
ENGINEERING/MECHANICAL
CRC Press
Taylor Francis Croup
an informa business
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ISBN: IVa-l-lBÖ-STTaS-a
TDOOO
|
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| id | DE-604.BV045067335 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T08:07:42Z |
| institution | BVB |
| isbn | 9781138579323 |
| language | English |
| lccn | 017058762 |
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| oclc_num | 1043350810 |
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| owner_facet | DE-703 DE-29T DE-706 |
| physical | xxi, 514 Seiten Illustrationen |
| publishDate | 2018 |
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| publisher | CRC Press, Taylor & Francis Group |
| record_format | marc |
| spelling | Naterer, Greg F. Verfasser aut Advanced heat transfer Greg F. Naterer Second edition Boca Raton, Fla. CRC Press, Taylor & Francis Group [2018] xxi, 514 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Heat Transmission Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 s DE-604 Erscheint auch als Online-Ausgabe, E-book 978-1-351-26224-8 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030458803&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030458803&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Naterer, Greg F. Advanced heat transfer Heat Transmission Wärmeübertragung (DE-588)4064211-2 gnd |
| subject_GND | (DE-588)4064211-2 |
| title | Advanced heat transfer |
| title_auth | Advanced heat transfer |
| title_exact_search | Advanced heat transfer |
| title_full | Advanced heat transfer Greg F. Naterer |
| title_fullStr | Advanced heat transfer Greg F. Naterer |
| title_full_unstemmed | Advanced heat transfer Greg F. Naterer |
| title_short | Advanced heat transfer |
| title_sort | advanced heat transfer |
| topic | Heat Transmission Wärmeübertragung (DE-588)4064211-2 gnd |
| topic_facet | Heat Transmission Wärmeübertragung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030458803&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030458803&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT naterergregf advancedheattransfer |