Heat convection: [with CD-ROM]
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin ; Heidelberg
Springer
2009
|
| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XVI, 543 S. graph. Darst. 24 cm 1 CD-ROM (12 cm) |
| ISBN: | 9783642029714 9783642029707 |
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| 245 | 1 | 0 | |a Heat convection |b [with CD-ROM] |c Latif M. Jiji |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Berlin ; Heidelberg |b Springer |c 2009 | |
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Datensatz im Suchindex
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| adam_text | CONTENTS PREFACE VUE CHAPTER 1: BASIC CONCEPTS 1 1.1 CONVECTION HEAT
TRANSFER I 1.2 IMPORTANT FACTORS IN CONVECTION HEAT TRANSFER 1 1.3 FOCAL
POINT IN CONVECTION HEAT TRANSFER 2 1.4 THE CONTINUUM AND THERMODYNAMIC
EQUILIBRIUM CONCEPTS 2 1.5 FOURIER S LAW OF CONDUCTION 3 1.6 NEWTON S
LAW OF COOLING 5 1.7 THE HEAT TRANSFER COEFFICIENT H 6 1.8 RADIATION:
STEFAN-BOLTZMANN LAW 8 1.9 DIFFERENTIAL FORMULATION OF BASIC LAWS 8 1.10
MATHEMATICAL BACKGROUND 9 1.11 UNITS 12 1.12 PROBLEM SOLVING FORMAT 13
REFERENCES 17 PROBLEMS 18 CHAPTER 2: DIFFERENTIAL FORMULATION OF THE
BASIC LAWS 21 2.1 INTRODUCTION 21 2.2 FLOW GENERATION 21 2.3 LAMINAR VS.
TURBULENT FLOW 22 2.4 CONSERVATION OF MASS: THE CONTINUITY EQUATION 22
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/995947570 DIGITALISIERT
DURCH X CONTENTS 2.4.1 CARTESIAN COORDINATES 22 2.4.2. CYLINDRICAL
COORDINATES 24 2.4.3 SPHERICAL COORDINATES 25 2.5 CONSERVATION OF
MOMENTUM: THE NAVIER-STOKES EQUATIONS OF MOTION 27 2.5.1 CARTESIAN
COORDINATES 27 2.5.2 CYLINDRICAL COORDINATES 32 2.5.3 SPHERICAL
COORDINATES 33 2.6 CONSERVATION OF ENERGY: THE ENERGY EQUATION 37 2.6.1
FORMULATION: CARTESIAN COORDINATES 37 2.6.2 SIMPLIFIED FORM OF THE
ENERGY EQUATION 40 2.6.3 CYLINDRICAL COORDINATES 41 2.6.4 SPHERICAL
COORDINATES 42 2.7 SOLUTION TO THE TEMPERATURE DISTRIBUTION 45 2.8 THE
BOUSSINESQ APPROXIMATION 46 2.9 BOUNDARY CONDITIONS 48 2.10
NON-DIMENSIONAL FORM OF THE GOVERNING EQUATIONS: DYNAMIC AND THERMAL
SIMILARITY PARAMETERS 51 2.10.1 DIMENSIONLESS VARIABLES 52 2.10.2
DIMENSIONLESS FORM OF CONTINUITY 52 2.10.3 DIMENSIONLESS FORM OF THE
NAVIER-STOKES EQUATIONS OF MOTION 53 2.10.4 DIMENSIONLESS FORM OF THE
ENERGY EQUATION 53 2.10.5 SIGNIFICANCE OF THE GOVERNING PARAMETERS 54
2.10.6 HEAT TRANSFER COEFFICIENT: THE NUSSELT NUMBER 55 2.11 SCALE
ANALYSIS 59 REFERENCES 61 PROBLEMS 62 CHAPTER 3: EXACT ONE-DIMENSIONAL
SOLUTIONS 69 3.1 INTRODUCTION 69 3.2 SIMPLIFICATION OF THE GOVERNING
EQUATIONS 69 3.3 EXACT SOLUTIONS 71 3.3.1 COUETTE FLOW 71 3.3.2
POISEUILLE FLOW 77 3.3.3 ROTATING FLOW 86 REFERENCES 93 PROBLEM CONTENTS
; CHAPTER 4: BOUNDARY LAYER FLOW: APPLICATION TO EXTERNAL FLOW 99 4.1
INTRODUCTION 99 4.2 THE BOUNDARY LAYER CONCEPT: SIMPLIFICATION OF THE 99
GOVERNING EQUATIONS 4.2.1 QUALITATIVE DESCRIPTION 99 4.2.2 THE GOVERNING
EQUATIONS 101 4.2.3 MATHEMATICAL SIMPLIFICATION 101 4.2.4 SIMPLIFICATION
OF THE MOMENTUM EQUATIONS 101 4.2.5 SIMPLIFICATION OF THE ENERGY
EQUATION 109 4.3 SUMMARY OF BOUNDARY LAYER EQUATIONS FOR STEADY LAMINAR
FLOW 114 4.4 SOLUTIONS: EXTERNAL FLOW 115 4.4.1 LAMINAR BOUNDARY LAYER
FLOW OVER SEMI-INFINITE FLAT PLATE: UNIFORM SURFACE TEMPERATURE 116
4.4.2 APPLICATIONS: BLASIUS SOLUTION, POHLHAUSEN S SOLUTION, AND SCALING
131 4.4.3 LAMINAR BOUNDARY LAYER FLOW OVER SEMI-INFINITE FLAT PLATE:
VARIABLE SURFACE TEMPERATURE 140 4.4.4 LAMINAR BOUNDARY LAYER FLOW OVER
A WEDGE: UNIFORM SURFACE TEMPERATURE 143 REFERENCES 149 PROBLEMS 150
CHAPTER 5: APPROXIMATE SOLUTIONS: THE INTEGRAL METHOD 161 5.1
INTRODUCTION 161 5.2 DIFFERENTIAL VS. INTEGRAL FORMULATION 161 5.3
INTEGRAL METHOD APPROXIMATION: MATHEMATICAL SIMPLIFICATION 162 5.4
PROCEDURE 162 5.5 ACCURACY OF THE INTEGRAL METHOD 163 5.6 INTEGRAL
FORMULATION OF THE BASIC LAWS 163 5.6.1 CONSERVATION OF MASS 163 5.6.2
CONSERVATION OF MOMENTUM 165 5.6.3 CONSERVATION OF ENERGY 168 5. XII
CONTENTS 5.7.3 UNIFORM SURFACE FLUX 185 REFERENCES 193 PROBLEMS 194
CHAPTER 6: HEAT TRANSFER IN CHANNEL FLOW 203 6.1 INTRODUCTION 203 6.2
HYDRODYNAMIC AND THERMAL REGIONS: GENERAL FEATURES 204 6.2.1 FLOW FIELD
205 6.2.2 TEMPERATURE FIELD 205 6.3 HYDRODYNAMIC AND THERMAL ENTRANCE
LENGTHS 206 6.3.1 SCALE ANALYSIS 206 6.3.2 ANALYTIC AND NUMERICAL
SOLUTIONS: LAMINAR FLOW 207 6.4 CHANNELS WITH UNIFORM SURFACE HEAT FLUX
212 6.5 CHANNELS WITH UNIFORM SURFACE TEMPERATURE 218 6.6 DETERMINATION
OF HEAT TRANSFER COEFFICIENT H(X) AND NUSSELT NUMBER NU D 224 6.6.1
SCALE ANALYSIS 224. 6.6.2 BASIC CONSIDERATIONS FOR THE ANALYTICAL
DETERMINATION OF HEAT FLUX, HEAT TRANSFER COEFFICIENT AND NUSSELT NUMBER
226 6.7 HEAT TRANSFER COEFFICIENT IN THE FULLY DEVELOPED TEMPERATURE
REGION 229 6.7.1 DEFINITION OF FULLY DEVELOPED TEMPERATURE PROFILE 229
6.7.2 HEAT TRANSFER COEFFICIENT AND NUSSELT NUMBER 230 6.7.3 FULLY
DEVELOPED REGION FOR TUBES AT UNIFORM SURFACE FLUX 231 6.7.4 FULLY
DEVELOPED REGION FOR TUBES AT UNIFORM SURFACE TEMPERATURE 236 6.7.5
NUSSELT NUMBER FOR LAMINAR FULLY DEVELOPED VELOCITY AND TEMPERATURE IN
CHANNELS OF VARIOUS CROSS-SECTIONS 237 6.8 THERMAL ENTRANCE REGION:
LAMINAR FLOW THROUGH TUBES 242 6.8.1 UNIFORM SURFACE TEMPERATURE: GRAETZ
SOLUTION 242 6.8. CONTENTS XIII 7.3.1 BOUNDARY CONDITIONS 262 7.4
LAMINAR FREE CONVECTION OVER A VERTICAL PLATE: UNIFORM SURFACE
TEMPERATURE 263 7.4.1 ASSUMPTIONS 263 7.4.2 GOVERNING EQUATIONS 263
7.4.3 BOUNDARY CONDITIONS 264 7.4.4 SIMILARITY TRANSFORMATION 264 7.4.5
SOLUTION 267 7.4.6 HEAT TRANSFER COEFFICIENT AND NUSSELT NUMBER 267 7.5
LAMINAR FREE CONVECTION OVER A VERTICAL PLATE: UNIFORM SURFACE HEAT FLUX
274 7.6 INCLINED PLATES 279 7.7 INTEGRAL METHOD 279 7.7.1 INTEGRAL
FORMULATION OF CONSERVATION OF MOMENTUM 279 7.7.2 INTEGRAL FORMULATION
OF CONSERVATION OF ENERGY 282 7.7.3 INTEGRAL SOLUTION 283 7.7.4
COMPARISON WITH EXACT SOLUTION FOR NUSSELT NUMBER 288 REFERENCES 289
PROBLEMS 290 CHAPTET 8: CONVECTION IN EXTERNAL TURBULENT 293 FLOW 8.1
INTRODUCTION 293 8.1.1 EXAMPLES OF TURBULENT FLOWS 294 8.1.2 THE
REYNOLDS NUMBER AND THE ONSET OF TURBULENCE 296 8.1.3 EDDIES AND
VORTICITY 297 8.1.4 SCALES OF TURBULENCE 299 8.1.5 CHARACTERISTICS OF
TURBULENCE 302 8.1.6 ANALYTICAL APPROACH 302 8.2 CONSERVATION EQUATIONS
FOR TURBULENT FLOW 304 8.2.1 REYNOLDS DECOMPOSITION 304 8.2.2
CONSERVATION OF MASS 307 8.2.3 MOMENTUM EQUATIONS 308 8.2.4 ENERGY
EQUATION 310 8.2.5 SUMMARY OF GOVERNING EQUATIONS FOR TURBULENT FLOW 310
8.3 ANALYSIS OF EXTERNAL TURBULENT FLOW 311 8.3. XIV CONTENTS 8.4
MOMENTUM TRANSFER IN EXTERNAL TURBULENT FLOW 318 8.4.1 MODELING EDDY
DIFFUSIVITY: PRANDTL S MIXING LENGTH THEORY 318 8.4.2 UNIVERSAL
TURBULENT VELOCITY PROFILE 320 8.4.3 APPROXIMATE SOLUTION FOR MOMENTUM
TRANSFER: 328 MOMENTUM INTEGRAL METHOD 8.4.4 EFFECT OF SURFACE ROUGHNESS
ON FRICTION FACTOR 334 8.5 ENERGY TRANSFER IN EXTERNAL TURBULENT FLOW
335 8.5.1 MOMENTUM AND HEAT TRANSFER ANALOGIES 336 8.5.2 VALIDITY OF
ANALOGIES 344 8.5.3 UNIVERSAL TURBULENT TEMPERATURE PROFILE 345 8.5.4
ALGEBRAIC METHOD FOR HEAT TRANSFER COEFFICIENT 349 8.5.5 INTEGRAL METHOD
FOR HEAT TRANSFER COEFFICIENT 351 8.5.6 EFFECT OF SURFACE ROUGHNESS ON
HEAT TRANSFER 352 REFERENCES 353 PROBLEMS 356 CHAPTERE 9: CONVECTION IN
TURBULENT CHANNEL FLOW 361 9.1 INTRODUCTION 361 9.2 ENTRY LENGTH 361 9.3
GOVERNING EQUATIONS 362 9.3.1 CONSERVATION EQUATIONS 362 9.3.2 APPARENT
SHEAR STRESS AND HEAT TRANSFER 363 9.3.3 MEAN VELOCITY AND TEMPERATURE
363 9.4 UNIVERSAL VELOCITY PROFILE 364 9.4.1 RESULTS FROM FLAT PLATE
FLOW 364 9.4.2 DEVELOPMENT IN CYLINDRICAL COORDINATES 365 9.4.3 VELOCITY
PROFILE FOR THE ENTIRE PIPE 366 9.5 FRICTION FACTOR FOR PIPE FLOW 367
9.5.1 BLASIUS CORRELATION FOR SMOOTH PIPE 367 9.5.2 THE 1/7* POWER LAW
VELOCITY PROFILE 367 9.5.3 PRANDTL S LAW FOR SMOOTH PIPE 369 9.5.4
EFFECT OF SURFACE ROUGHNESS 371 9. CONTENTS XV REFERENCES 381 PROBLEMS
382 CHAPTER 10: CORRELATION EQUATIONS: FORCED AND FREE CONVECTION 387
10.1 INTRODUCTION 387 10.2 EXPERIMENTAL DETERMINATION OF HEAT TRANSFER
COEFFICIENT A 388 10.3 LIMITATIONS AND ACCURACY OF CORRELATION EQUATIONS
3 89 10.4 PROCEDURE FOR SELECTING AND APPLYING CORRELATION EQUATIONS 389
10.5 EXTERNAL FORCED CONVECTION CORRELATIONS 390 10.5.1 UNIFORM FLOW
OVER A FLAT PLATE: TRANSITION TO TURBULENT FLOW 390 10.5.2 EXTERNAL FLOW
NORMAL TO A CYLINDER 396 10.5.3 EXTERNAL FLOW OVER A SPHERE 397 10.6
INTERNAL FORCED CONVECTION CORRELATIONS 397 10.6.1 ENTRANCE REGION:
LAMINAR FLOW THROUGH TUBES AT UNIFORM SURFACE TEMPERATURE 397 10.6.2
FULLY DEVELOPED VELOCITY AND TEMPERATURE IN TUBES: TURBULENT FLOW 403
10.6.3 NON-CIRCULAR CHANNELS: TURBULENT FLOW 404 10.7 FREE CONVECTION
CORRELATIONS 405 10.7.1 EXTERNAL FREE CONVECTION CORRELATIONS 405 10.7.2
FREE CONVECTION IN ENCLOSURES 413 10.8 OTHER CORRELATIONS 422 REFERENCES
423 PROBLEMS 425 CHAPTER 11: CONVECTION IN MICROCHANNELS 437 11.1
INTRODUCTION 437 11.1.1 CONTINUUM AND THERMODYNAMIC HYPOTHESIS 437
11.1.2 SURFACE FORCES 437 1.1.3 CHAPTER SCOPE 439 11.2 BASIC
CONSIDERATIONS 439 11.2.1 MEAN FREE PATH 439 11.2.2 WHY MICROCHANNELS?
440 11.2.3 CLASSIFICATION 441 11.2.4 MACRO AND MICROCHANNELS 442 11.2.
XVI CONTENTS 11.3.3 TRANSITION TO TURBULENT FLOW 446 11.3.4 NUSSELT
NUMBER 446 11.4 GOVERNING EQUATIONS 446 11.4.1 COMPRESSIBILITY 447
11.4.2 AXIAL CONDUCTION 447 11.4.3 DISSIPATION 447 11.5 VELOCITY SLIP
AND TEMPERATURE JUMP BOUNDARY CONDITIONS 448 11.6 ANALYTIC SOLUTIONS:
SLIP FLOW 450 11.6.1 ASSUMPTIONS 450 11.6.2 COUETTE FLOW WITH VISCOUS
DISSIPATION: PARALLEL PLATES WITH SURFACE CONVECTION 450 11.6.3 FULLY
DEVELOPED POISEUILLE CHANNEL FLOW: UNIFORM SURFACE FLUX 450 11.6.4 FULLY
DEVELOPED POISEUILLE CHANNEL FLOW: UNIFORM SURFACE TEMPERATURE 450
11.6.5 FULLY DEVELOPED POISEUILLE FLOW IN MICROTUBES: UNIFORM SURFACE
FLUX 485 11.6.6 FULLY DEVELOPED POISEUILLE FLOW IN MICROTUBES: UNIFORM
SURFACE TEMPERATURE 496 REFERENCES 498 PROBLEMS 500 APPENDIX A
CONSERVATION OF ENERGY: THE ENERGY EQUATION 507 APPENDIX B POHLHAUSEN S
SOLUTION 516 APPENDIX C LAMINAR BOUNDARY LAYER FLOW OVER SEMI- INFINITE
PLATE: VARIABLE SURFACE TEMPERATURE 520 APPENDIX D THE VON KARMAN
MOMENTUM AND HEAT TRANSFER ANALOGY 523 APPENDIX E TURBULENT HEAT
TRANSFER FROM A FLAT PLATE WITH UNHEATED STARTING LENGTH 527 APEENDIC F
PROPERTIES OF DRY AIR AT ATMOSPHERIC PRESSURE 536 APPENDI
|
| any_adam_object | 1 |
| author | Jiji, Latif M. 1927- |
| author_GND | (DE-588)131647156 |
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| bvnumber | BV036479827 |
| classification_rvk | UG 2700 |
| ctrlnum | (OCoLC)574940711 (DE-599)DNB995947570 |
| dewey-full | 621.40223 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.40223 |
| dewey-search | 621.40223 |
| dewey-sort | 3621.40223 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Maschinenbau / Maschinenwesen Physik Energietechnik |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV036479827 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:40:22Z |
| institution | BVB |
| isbn | 9783642029714 9783642029707 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-020351364 |
| oclc_num | 574940711 |
| open_access_boolean | |
| owner | DE-92 DE-1046 DE-20 DE-573 |
| owner_facet | DE-92 DE-1046 DE-20 DE-573 |
| physical | XVI, 543 S. graph. Darst. 24 cm 1 CD-ROM (12 cm) |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Springer |
| record_format | marc |
| spelling | Jiji, Latif M. 1927- Verfasser (DE-588)131647156 aut Heat convection [with CD-ROM] Latif M. Jiji 2. ed. Berlin ; Heidelberg Springer 2009 XVI, 543 S. graph. Darst. 24 cm 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Literaturangaben Konvektion (DE-588)4117572-4 gnd rswk-swf Wärmeleitung (DE-588)4064192-2 gnd rswk-swf Wärmeleitung (DE-588)4064192-2 s DE-604 Konvektion (DE-588)4117572-4 s DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020351364&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Jiji, Latif M. 1927- Heat convection [with CD-ROM] Konvektion (DE-588)4117572-4 gnd Wärmeleitung (DE-588)4064192-2 gnd |
| subject_GND | (DE-588)4117572-4 (DE-588)4064192-2 |
| title | Heat convection [with CD-ROM] |
| title_auth | Heat convection [with CD-ROM] |
| title_exact_search | Heat convection [with CD-ROM] |
| title_full | Heat convection [with CD-ROM] Latif M. Jiji |
| title_fullStr | Heat convection [with CD-ROM] Latif M. Jiji |
| title_full_unstemmed | Heat convection [with CD-ROM] Latif M. Jiji |
| title_short | Heat convection |
| title_sort | heat convection with cd rom |
| title_sub | [with CD-ROM] |
| topic | Konvektion (DE-588)4117572-4 gnd Wärmeleitung (DE-588)4064192-2 gnd |
| topic_facet | Konvektion Wärmeleitung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020351364&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT jijilatifm heatconvectionwithcdrom |