Introduction to heat transfer:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Hoboken, N.J.
Wiley
2007
|
| Ausgabe: | 5. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXV, 901 S. Ill., graph. Darst. |
| ISBN: | 0471457272 9780471457275 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804135253385674752 |
|---|---|
| adam_text | FIFTH EDITION INTRODUCTION TO HEAT TRANSFER FRANK P. INCROPERA COLLEGE
OF ENGINEERING UNIVERSITY OFNOTRE DAME DAVID P. DEWITT SCHOOL OF
MECHANICAL ENGINEERING PURDUE UNIVERSITY THEODORE L. BERGMAN DEPARTMENT
OF MECHANICAL ENGINEERING UNIVERSITY OF CONNECTICUT ADRIENNE S. LAVINE
MECHANICAL AND AEROSPACE ENGINEERING DEPARTMENT UNIVERSITY OF
CALIFORNIA, LOS ANGELES JOHN WILEY & SONS CHAPTER 1 INTRODUCTION
CONTENTS SYMBOLS 1.1 WHAT AND HOW? 2 1.2 PHYSICAL ORIGINS AND RATE
EQUATIONS 3 1.2.1 CONDUCTION 3 1.2.2 CONVECTION 6 1.2.3 RADIATION 9
1.2.4 RELATIONSHIP TO THERMODYNAMICS 12 1.3 THE CONSERVATION OF ENERGY
REQUIREMENT 13 1.3.1 CONSERVATION OF ENERGY FOR A CONTROL VOLUME 13
1.3.2 THE SURFACE ENERGY BALANCE 25 1.3.3 APPLICATION OF THE
CONSERVATION LAWS: METHODOLOGY 28 1.4 ANALYSIS OF HEAT TRANSFER
PROBLEMS: METHODOLOGY 29 XIV CONTENTS 1.5 RELEVANCE OF HEAT TRANSFER 32
1.6 UNITS AND DIMENSIONS 35 1.7 SUMMARY 38 REFERENCES 41 PROBLEMS 41
CHARTER 2 INTRODUCTION TO CONDUCTION 57 2.1 THE CONDUCTION RATE EQUATION
58 2.2 THE THERMAL PROPERTIES OF MATTER 60 2.2.1 THERMAL CONDUCTIVITY 60
2.2.2 OTHER RELEVANT PROPERTIES 67 2.3 THE HEAT DIFFUSION EQUATION 70
2.4 BOUNDARY AND INITIAL CONDITIONS 77 2.5 SUMMARY 81 REFERENCES 82
PROBLEMS 82 CHAPTER 3 ONE-DIMENSIONAL, STEADY-STATE CONDUCTION 2UE 3.1
THE PLANE WALL 96 3.1.1 TEMPERATURE DISTRIBUTION 96 3.1.2 THERMAL
RESISTANCE 98 3.1.3 THE COMPOSITE WALL 99 3.1.4 CONTACT RESISTANCE 101
3.2 AN ALTERNATIVE CONDUCTION ANALYSIS 112 3.3 RADIAL SYSTEMS 116 3.3.1
THECYLINDER 116 3.3.2 THESPHERE 122 3.4 SUMMARY OF ONE-DIMENSIONAL
CONDUCTION RESULTS 125 3.5 CONDUCTION WITH THERMAL ENERGY GENERATION 126
3.5.1 THE PLANE WALL 127 3.5.2 RADIAL SYSTEMS 132 3.5.3 APPLICATION OF
RESISTANCE CONCEPTS 137 3.6 HEAT TRANSFER FROM EXTENDED SURFACES 137
3.6.1 A GENERAL CONDUCTION ANALYSIS 139 3.6.2 FINS OF UNIFORM
CROSS-SECTIONAL AREA 141 3.6.3 FIN PERFORMANCE 747 3.6.4 FINS OF
NONUNIFORM CROSS-SECTIONAL AREA 150 3.6.5 OVERALL SURFACE EFFICIENCY 153
3.7 THE BIOHEAT EQUATION 162 3.8 SUMMARY 166 REFERENCES 168 PROBLEMS 169
CONTENTS XV CHAPTER 4 TWO-DIMENSIONAL, STEADY-STATE CONDUCTION 201 4.1
ALTERNATIVE APPROACHES 202 4.2 THE METHOD OF SEPARATION OF VARIABLES 203
4.3 THE CONDUCTION SHAPE FACTOR AND THE DIMENSIONLESS CONDUCTION HEAT
RATE 207 4.4 FINITE-DIFFERENCE EQUATIONS 212 4.4.1 THE NODAL NETWORK 213
4.4.2 FINITE-DIFFERENCE FORM OF THE HEAT EQUATION 214 4.4.3 THE ENERGY
BALANCE METHOD 215 4.5 SOLVING THE FINITE-DIFFERENCE EQUATIONS 222 4.5.1
THE MATRIX INVERSION METHOD 222 4.5.2 GAUSS-SEIDEL ITERATION 223 4.5.3
SOME PRECAUTIONS 229 4.6 SUMMARY 234 REFERENCES ~35 PROBLEMS 235 4S.1
THE GRAPHICAL METHOD W-L 4S. 1.1 METHODOLOGY OF CONSTRUCTING A FLUX PLOT
W-L 45.1.2 DETERMINATION OF THE HEAT TRANSFER RATE W-2 45.1.3 THE
CONDUCTION SHAPE FACTOR W-3 REFERENCES -6 PROBLEMS CHAPTER *»
TRANSIENT CONDUCTION 2O5 5.1 THE LUMPED CAPACITANCE METHOD 256 5.2
VALIDITY OF THE LUMPED CAPACITANCE METHOD 259 5.3 GENERAL LUMPED
CAPACITANCE ANALYSIS 263 5.4 SPATIAL EFFECTS 270 5.5 THE PLANE WALL WITH
CONVECTION 272 5.5.1 EXACT SOLUTION 272 5.5.2 APPROXIMATE SOLUTION 273
5.5.3 TOTAL ENERGY TRANSFER 274 5.5.4 ADDITIONAL CONSIDERATIONS 275 5.6
RADIAL SYSTEMS WITH CONVECTION 276 5.6.1 EXACT SOLUTIONS 276 5.6.2
APPROXIMATE SOLUTIONS 277 5.6.3 TOTAL ENERGY TRANSFER 277 5.6.4
ADDITIONAL CONSIDERATIONS 278 5.7 THE SEMI-INFMITE SOLID 283 5.8 OBJECTS
WITH CONSTANT SURFACE TEMPERATURES OR SURFACE HEAT FLUXES 5.8.1 CONSTANT
TEMPERATURE BOUNDARY CONDITIONS 290 5.8.2 CONSTANT HEAT FLUX BOUNDARY
CONDITIONS 292 5.8.3 APPROXIMATE SOLUTIONS 293 5.9 PERIODIC HEATING 290
299 XVI CONTENTS 5.10 FINITE-DIFFERENCE METHODS 302 5.10.1
DISCRETIZATION OFTHE HEAT EQUATION: THE EXPLICIT METHOD 302 5.10.2
DISCRETIZATION OF THE HEAT EQUATION: THE IMPLICIT METHOD 310 5.11
SUMMARY 317 REFERENCES 319 PROBLEMS 319 55.1 GRAPHICAL REPRESENTATION OF
ONE-DIMENSIONAL, TRANSIENT CONDUCTION IN THE PLANE WALL, LONG CYLINDER,
AND SPHERE W-8 55.2 ANALYTICAL SOLUTION OF MULTIDIMENSIONAL EFFECTS W-13
REFERENCES W-18 PROBLEMS W-18 CHAPTER 6 INTRODUCTION TO CONVECTION 347
6.1 THE CONVECTION BOUNDARY LAYERS 348 6.1.1 THE VELOCITY BOUNDARY LAYER
348 6.1.2 THE THERMAL BOUNDARY LAYER 349 6.1.3 SIGNIFICANCE OF THE
BOUNDARY LAYERS 350 6.2 LOCAL AND AVERAGE CONVECTION COEFFICIENTS 351
6.2.1 HEAT TRANSFER 351 6.2.2 THE PROBLEM OF CONVECTION 352 6.3 LAMINAR
AND TURBULENT FLOW 353 6.3.1 LAMINAR AND TURBULENT VELOCITY BOUNDARY
LAYERS 354 6.3.2 LAMINAR AND TURBULENT THERMAL BOUNDARY LAYERS 356 6.4
THE BOUNDARY LAYER EQUATIONS 359 6.4.1 BOUNDARY LAYER EQUATIONS FOR
LAMINAR FLOW 360 6.5 BOUNDARY LAYER SIMILARITY: THE NORMALIZED BOUNDARY
LAYER EQUATIONS 362 6.5.1 BOUNDARY LAYER SIMILARITY PARAMETERS 362 6.5.2
FUNCTIONAL FORM OF THE SOLUTIONS 364 6.6 PHYSICAL SIGNIFICANCE OF THE
DIMENSIONLESS PARAMETERS 368 6.7 MOMENTUM AND HEAT TRANSFER (REYNOLDS)
ANALOGY 369 6.8 THE CONVECTION COEFFICIENT 372 6.9 SUMMARY 372
REFERENCES 373 PROBLEMS 373 * 6S.1 DERIVATION OFTHE CONVECTION TRANSFER
EQUATIONS W-21 65.1.1 CONSERVATION OF MASS W-21 65.1.2 NEWTON S SECOND
LAW OF MOTION W-22 65.1.3 CONSERVATION OF ENERGY W-26 REFERENCES W-32
PROBLEMS W-32 CHAPTER T EXTERNA! FLOW 381 7.1 THE EMPIRICAL METHOD 383
7.2 THE FIAT PLATE IN PARALLEL FLOW 384 7.2.1 LAMINAR FLOW OVER AN
ISOTHERMAL PLATE: A SIMILARITY SOLUTION 385 CONTENTS XV11 7.2.2
TURBULENT FLOW OVER AN ISOTHERMAL PLATE 389 7.2.3 MIXED BOUNDARY LAYER
CONDITIONS 390 7.2.4 UNHEATED STARTING LENGTH 391 7.2.5 FIAT PLATES WITH
CONSTANT HEAT FLUX CONDITIONS 392 7.2.6 LIINITATIONS ON USE OF
CONVECTION COEFFICIENTS 393 7.3 METHODOLOGY F OR A CONVECTION
CALCULATION 393 7.4 THE CYLINDER IN CROSS FLOW 399 7.4.1 FLOW
CONSIDERATIONS 399 7.4.2 CONVECTION HEAT TRANSFER 401 7.5 THE SPHERE 409
7.6 FLOW ACROSS BANKS OF TUBES 412 7.7 IMPINGING JETS 423 7.7.1
HYDRODYNAMIC AND GEOMETRIE CONSIDERATIONS 423 7.7.2 CONVECTION HEAT
TRANSFER 425 7.8 PACKED BEDS 428 7.9 SUMMARY 430 REFERENCES 432 PROBLEMS
433 455 8.1 HYDRODYNAMIC CONSIDERATIONS 456 8.1.1 FLOW CONDITIONS 456
8.1.2 THE MEAN VELOCITY 457 8.1.3 VELOCITY PROFILE IN THE FULLY
DEVELOPED REGION 458 8.1.4 PRESSURE GRADIENT AND FRICTION FACTOR IN
FULLY DEVELOPED FLOW 460 8.2 THERMAL CONSIDERATIONS 461 8.2.1 THE MEAN
TEMPERATURE 462 8.2.2 NEWTON S LAW OFCOOLING 463 8.2.3 FULLY DEVELOPED
CONDITIONS 463 8.3 THE ENERGY BALANCE 467 8.3.1 GENERAL CONSIDERATIONS
467 8.3.2 CONSTANT SURFACE HEAT FLUX 468 8.3.3 CONSTANT SURFACE
TEMPERATURE 471 8.4 LAMINAR FLOW IN CIRCULAR TUBES: THERMAL ANALYSIS AND
CONVECTION CORRELATIONS 475 8.4.1 THE FULLY DEVELOPED REGION 475 8.4.2
THE ENTRY REGION 482 8.5 CONVECTION CORRELATIONS: TURBULENT FLOW IN
CIRCULAR TUBES 484 8.6 CONVECTION CORRELATIONS: NONCIRCULAR TUBES AND
THE CONCENTRIC TUBE ANNULUS 488 8.7 HEAT TRANSFER ENHANCEMENT 491 8.8
MICROSCALE INTERNAL FLOW 494 8.8.1 FLOW CONDITIONS IN MICROSCALE
INTERNAL FLOW 494 8.8.2 THERMAL CONSIDERATIONS IN MICROSCALE INTERNAL
FLOW 495 8.9 SUMMARY 498 REFERENCES 500 PROBLEMS 501 XX CONTENTS 12.7
THE GRAY SURFACE 72 6 12.8 ENVIRONMENTAL RADIATION 732 12.9 SUMMARY 738
REFERENCES 42 PROBLEMS 42 CHAPTER 13 RADIATION EXCHANGE BETWEEN
SURFACES 771 13.1 THE VIEW FACTOR 772 13.1.1 THE VIEW FACTOR INTEGRAL
772 13.1.2 VIEW FACTOR RELATIONS 773 13.2 RADIATION EXCHANGE BETWEEN
OPAQUE, DIFFUSE, GRAY SURFACES IN AN ENCLOSURE 782 13.2.1 NET RADIATION
EXCHANGE AT A SURFACE 783 13.2.2 RADIATION EXCHANGE BETWEEN SURFACES 784
13.2.3 BLACKBODY RADIATION EXCHANGE 790 13.2.4 THE TWO-SURFACE ENCLOSURE
791 13.2.5 RADIATION SHIELDS 792 13.2.6 THE RERADIATING SURFACE 795 13.3
MULTIMODE HEAT TRANSFER 7 13.4 RADIATION EXCHANGE WITH PARTICIPATING
MEDIA 802 13.4.1 VOLUMETRIE ABSORPTION 803 13.4.2 GASEOUS EMISSION AND
ABSORPTION 803 13.5 SUMMARY 807 REFERENCES PROBLEMS 809 APPENDIX A
THERMOPHYSICAL PROPERTIES OF MATTER 839 APPENDIX B MATHEMATICAL
RELATIONS AND FUNCTIONS 867 APPENDIX C THERMAL CONDITIONS ASSOCIATED
WITH UNIFORM ENERGY GENERATION IN ONE-DIMENSIONAL, STEADY-STATE SYSTEMS
873 APPENDIX D THE CONVECTION TRANSFER EQUATIONS 881 D.L CONSERVATION OF
MASS 882 D.2 NEWTON S SECOND LAW OF MOTION 882 D.3 CONSERVATION OF
ENERGY 883 CONTENTS XXI APPENDIX E BOUNDARY LAYER EQUATIONS FOR
TURBULENT FLOW 885 APPENDIX F AN INTEGRAL LAMINAR BOUNDARY LAYER
SOLUTION FOR PARALLEL FLOW OVER A FIAT PLATE 889 INDEX 893
|
| adam_txt |
FIFTH EDITION INTRODUCTION TO HEAT TRANSFER FRANK P. INCROPERA COLLEGE
OF ENGINEERING UNIVERSITY OFNOTRE DAME DAVID P. DEWITT SCHOOL OF
MECHANICAL ENGINEERING PURDUE UNIVERSITY THEODORE L. BERGMAN DEPARTMENT
OF MECHANICAL ENGINEERING UNIVERSITY OF CONNECTICUT ADRIENNE S. LAVINE
MECHANICAL AND AEROSPACE ENGINEERING DEPARTMENT UNIVERSITY OF
CALIFORNIA, LOS ANGELES JOHN WILEY & SONS CHAPTER 1 INTRODUCTION
CONTENTS SYMBOLS 1.1 WHAT AND HOW? 2 1.2 PHYSICAL ORIGINS AND RATE
EQUATIONS 3 1.2.1 CONDUCTION 3 1.2.2 CONVECTION 6 1.2.3 RADIATION 9
1.2.4 RELATIONSHIP TO THERMODYNAMICS 12 1.3 THE CONSERVATION OF ENERGY
REQUIREMENT 13 1.3.1 CONSERVATION OF ENERGY FOR A CONTROL VOLUME 13
1.3.2 THE SURFACE ENERGY BALANCE 25 1.3.3 APPLICATION OF THE
CONSERVATION LAWS: METHODOLOGY 28 1.4 ANALYSIS OF HEAT TRANSFER
PROBLEMS: METHODOLOGY 29 XIV CONTENTS 1.5 RELEVANCE OF HEAT TRANSFER 32
1.6 UNITS AND DIMENSIONS 35 1.7 SUMMARY 38 REFERENCES 41 PROBLEMS 41
CHARTER 2 INTRODUCTION TO CONDUCTION 57 2.1 THE CONDUCTION RATE EQUATION
58 2.2 THE THERMAL PROPERTIES OF MATTER 60 2.2.1 THERMAL CONDUCTIVITY 60
2.2.2 OTHER RELEVANT PROPERTIES 67 2.3 THE HEAT DIFFUSION EQUATION 70
2.4 BOUNDARY AND INITIAL CONDITIONS 77 2.5 SUMMARY 81 REFERENCES 82
PROBLEMS 82 CHAPTER 3 ONE-DIMENSIONAL, STEADY-STATE CONDUCTION 2UE 3.1
THE PLANE WALL 96 3.1.1 TEMPERATURE DISTRIBUTION 96 3.1.2 THERMAL
RESISTANCE 98 3.1.3 THE COMPOSITE WALL 99 3.1.4 CONTACT RESISTANCE 101
3.2 AN ALTERNATIVE CONDUCTION ANALYSIS 112 3.3 RADIAL SYSTEMS 116 3.3.1
THECYLINDER 116 3.3.2 THESPHERE 122 3.4 SUMMARY OF ONE-DIMENSIONAL
CONDUCTION RESULTS 125 3.5 CONDUCTION WITH THERMAL ENERGY GENERATION 126
3.5.1 THE PLANE WALL 127 3.5.2 RADIAL SYSTEMS 132 3.5.3 APPLICATION OF
RESISTANCE CONCEPTS 137 3.6 HEAT TRANSFER FROM EXTENDED SURFACES 137
3.6.1 A GENERAL CONDUCTION ANALYSIS 139 3.6.2 FINS OF UNIFORM
CROSS-SECTIONAL AREA 141 3.6.3 FIN PERFORMANCE 747 3.6.4 FINS OF
NONUNIFORM CROSS-SECTIONAL AREA 150 3.6.5 OVERALL SURFACE EFFICIENCY 153
3.7 THE BIOHEAT EQUATION 162 3.8 SUMMARY 166 REFERENCES 168 PROBLEMS 169
CONTENTS XV CHAPTER 4 TWO-DIMENSIONAL, STEADY-STATE CONDUCTION 201 4.1
ALTERNATIVE APPROACHES 202 4.2 THE METHOD OF SEPARATION OF VARIABLES 203
4.3 THE CONDUCTION SHAPE FACTOR AND THE DIMENSIONLESS CONDUCTION HEAT
RATE 207 4.4 FINITE-DIFFERENCE EQUATIONS 212 4.4.1 THE NODAL NETWORK 213
4.4.2 FINITE-DIFFERENCE FORM OF THE HEAT EQUATION 214 4.4.3 THE ENERGY
BALANCE METHOD 215 4.5 SOLVING THE FINITE-DIFFERENCE EQUATIONS 222 4.5.1
THE MATRIX INVERSION METHOD 222 4.5.2 GAUSS-SEIDEL ITERATION 223 4.5.3
SOME PRECAUTIONS 229 4.6 SUMMARY 234 REFERENCES ~35 PROBLEMS 235 4S.1
THE GRAPHICAL METHOD W-L 4S. 1.1 METHODOLOGY OF CONSTRUCTING A FLUX PLOT
W-L 45.1.2 DETERMINATION OF THE HEAT TRANSFER RATE W-2 45.1.3 THE
CONDUCTION SHAPE FACTOR W-3 REFERENCES "-6 PROBLEMS """ CHAPTER *»
TRANSIENT CONDUCTION 2O5 5.1 THE LUMPED CAPACITANCE METHOD 256 5.2
VALIDITY OF THE LUMPED CAPACITANCE METHOD 259 5.3 GENERAL LUMPED
CAPACITANCE ANALYSIS 263 5.4 SPATIAL EFFECTS 270 5.5 THE PLANE WALL WITH
CONVECTION 272 5.5.1 EXACT SOLUTION 272 5.5.2 APPROXIMATE SOLUTION 273
5.5.3 TOTAL ENERGY TRANSFER 274 5.5.4 ADDITIONAL CONSIDERATIONS 275 5.6
RADIAL SYSTEMS WITH CONVECTION 276 5.6.1 EXACT SOLUTIONS 276 5.6.2
APPROXIMATE SOLUTIONS 277 5.6.3 TOTAL ENERGY TRANSFER 277 5.6.4
ADDITIONAL CONSIDERATIONS 278 5.7 THE SEMI-INFMITE SOLID 283 5.8 OBJECTS
WITH CONSTANT SURFACE TEMPERATURES OR SURFACE HEAT FLUXES 5.8.1 CONSTANT
TEMPERATURE BOUNDARY CONDITIONS 290 5.8.2 CONSTANT HEAT FLUX BOUNDARY
CONDITIONS 292 5.8.3 APPROXIMATE SOLUTIONS 293 5.9 PERIODIC HEATING 290
299 XVI CONTENTS 5.10 FINITE-DIFFERENCE METHODS 302 5.10.1
DISCRETIZATION OFTHE HEAT EQUATION: THE EXPLICIT METHOD 302 5.10.2
DISCRETIZATION OF THE HEAT EQUATION: THE IMPLICIT METHOD 310 5.11
SUMMARY 317 REFERENCES 319 PROBLEMS 319 55.1 GRAPHICAL REPRESENTATION OF
ONE-DIMENSIONAL, TRANSIENT CONDUCTION IN THE PLANE WALL, LONG CYLINDER,
AND SPHERE W-8 55.2 ANALYTICAL SOLUTION OF MULTIDIMENSIONAL EFFECTS W-13
REFERENCES W-18 PROBLEMS W-18 CHAPTER 6 INTRODUCTION TO CONVECTION 347
6.1 THE CONVECTION BOUNDARY LAYERS 348 6.1.1 THE VELOCITY BOUNDARY LAYER
348 6.1.2 THE THERMAL BOUNDARY LAYER 349 6.1.3 SIGNIFICANCE OF THE
BOUNDARY LAYERS 350 6.2 LOCAL AND AVERAGE CONVECTION COEFFICIENTS 351
6.2.1 HEAT TRANSFER 351 6.2.2 THE PROBLEM OF CONVECTION 352 6.3 LAMINAR
AND TURBULENT FLOW 353 6.3.1 LAMINAR AND TURBULENT VELOCITY BOUNDARY
LAYERS 354 6.3.2 LAMINAR AND TURBULENT THERMAL BOUNDARY LAYERS 356 6.4
THE BOUNDARY LAYER EQUATIONS 359 6.4.1 BOUNDARY LAYER EQUATIONS FOR
LAMINAR FLOW 360 6.5 BOUNDARY LAYER SIMILARITY: THE NORMALIZED BOUNDARY
LAYER EQUATIONS 362 6.5.1 BOUNDARY LAYER SIMILARITY PARAMETERS 362 6.5.2
FUNCTIONAL FORM OF THE SOLUTIONS 364 6.6 PHYSICAL SIGNIFICANCE OF THE
DIMENSIONLESS PARAMETERS 368 6.7 MOMENTUM AND HEAT TRANSFER (REYNOLDS)
ANALOGY 369 6.8 THE CONVECTION COEFFICIENT 372 6.9 SUMMARY 372
REFERENCES 373 PROBLEMS 373 * 6S.1 DERIVATION OFTHE CONVECTION TRANSFER
EQUATIONS W-21 65.1.1 CONSERVATION OF MASS W-21 65.1.2 NEWTON'S SECOND
LAW OF MOTION W-22 65.1.3 CONSERVATION OF ENERGY W-26 REFERENCES W-32
PROBLEMS W-32 CHAPTER T EXTERNA! FLOW 381 7.1 THE EMPIRICAL METHOD 383
7.2 THE FIAT PLATE IN PARALLEL FLOW 384 7.2.1 LAMINAR FLOW OVER AN
ISOTHERMAL PLATE: A SIMILARITY SOLUTION 385 CONTENTS XV11 7.2.2
TURBULENT FLOW OVER AN ISOTHERMAL PLATE 389 7.2.3 MIXED BOUNDARY LAYER
CONDITIONS 390 7.2.4 UNHEATED STARTING LENGTH 391 7.2.5 FIAT PLATES WITH
CONSTANT HEAT FLUX CONDITIONS 392 7.2.6 LIINITATIONS ON USE OF
CONVECTION COEFFICIENTS 393 7.3 METHODOLOGY F'OR A CONVECTION
CALCULATION 393 7.4 THE CYLINDER IN CROSS FLOW 399 7.4.1 FLOW
CONSIDERATIONS 399 7.4.2 CONVECTION HEAT TRANSFER 401 7.5 THE SPHERE 409
7.6 FLOW ACROSS BANKS OF TUBES 412 7.7 IMPINGING JETS 423 7.7.1
HYDRODYNAMIC AND GEOMETRIE CONSIDERATIONS 423 7.7.2 CONVECTION HEAT
TRANSFER 425 7.8 PACKED BEDS 428 7.9 SUMMARY 430 REFERENCES 432 PROBLEMS
433 455 8.1 HYDRODYNAMIC CONSIDERATIONS 456 8.1.1 FLOW CONDITIONS 456
8.1.2 THE MEAN VELOCITY 457 8.1.3 VELOCITY PROFILE IN THE FULLY
DEVELOPED REGION 458 8.1.4 PRESSURE GRADIENT AND FRICTION FACTOR IN
FULLY DEVELOPED FLOW 460 8.2 THERMAL CONSIDERATIONS 461 8.2.1 THE MEAN
TEMPERATURE 462 8.2.2 NEWTON'S LAW OFCOOLING 463 8.2.3 FULLY DEVELOPED
CONDITIONS 463 8.3 THE ENERGY BALANCE 467 8.3.1 GENERAL CONSIDERATIONS
467 8.3.2 CONSTANT SURFACE HEAT FLUX 468 8.3.3 CONSTANT SURFACE
TEMPERATURE 471 8.4 LAMINAR FLOW IN CIRCULAR TUBES: THERMAL ANALYSIS AND
CONVECTION CORRELATIONS 475 8.4.1 THE FULLY DEVELOPED REGION 475 8.4.2
THE ENTRY REGION 482 8.5 CONVECTION CORRELATIONS: TURBULENT FLOW IN
CIRCULAR TUBES 484 8.6 CONVECTION CORRELATIONS: NONCIRCULAR TUBES AND
THE CONCENTRIC TUBE ANNULUS 488 8.7 HEAT TRANSFER ENHANCEMENT 491 8.8
MICROSCALE INTERNAL FLOW 494 8.8.1 FLOW CONDITIONS IN MICROSCALE
INTERNAL FLOW 494 8.8.2 THERMAL CONSIDERATIONS IN MICROSCALE INTERNAL
FLOW 495 8.9 SUMMARY 498 REFERENCES 500 PROBLEMS 501 XX CONTENTS 12.7
THE GRAY SURFACE 72 6 12.8 ENVIRONMENTAL RADIATION 732 12.9 SUMMARY 738
REFERENCES '42 PROBLEMS '42 CHAPTER 13 RADIATION EXCHANGE BETWEEN
SURFACES 771 13.1 THE VIEW FACTOR 772 13.1.1 THE VIEW FACTOR INTEGRAL
772 13.1.2 VIEW FACTOR RELATIONS 773 13.2 RADIATION EXCHANGE BETWEEN
OPAQUE, DIFFUSE, GRAY SURFACES IN AN ENCLOSURE 782 13.2.1 NET RADIATION
EXCHANGE AT A SURFACE 783 13.2.2 RADIATION EXCHANGE BETWEEN SURFACES 784
13.2.3 BLACKBODY RADIATION EXCHANGE 790 13.2.4 THE TWO-SURFACE ENCLOSURE
791 13.2.5 RADIATION SHIELDS 792 13.2.6 THE RERADIATING SURFACE 795 13.3
MULTIMODE HEAT TRANSFER 7 " 13.4 RADIATION EXCHANGE WITH PARTICIPATING
MEDIA 802 13.4.1 VOLUMETRIE ABSORPTION 803 13.4.2 GASEOUS EMISSION AND
ABSORPTION 803 13.5 SUMMARY 807 REFERENCES "" PROBLEMS 809 APPENDIX A
THERMOPHYSICAL PROPERTIES OF MATTER 839 APPENDIX B MATHEMATICAL
RELATIONS AND FUNCTIONS 867 APPENDIX C THERMAL CONDITIONS ASSOCIATED
WITH UNIFORM ENERGY GENERATION IN ONE-DIMENSIONAL, STEADY-STATE SYSTEMS
873 APPENDIX D THE CONVECTION TRANSFER EQUATIONS 881 D.L CONSERVATION OF
MASS 882 D.2 NEWTON'S SECOND LAW OF MOTION 882 D.3 CONSERVATION OF
ENERGY 883 CONTENTS XXI APPENDIX E BOUNDARY LAYER EQUATIONS FOR
TURBULENT FLOW 885 APPENDIX F AN INTEGRAL LAMINAR BOUNDARY LAYER
SOLUTION FOR PARALLEL FLOW OVER A FIAT PLATE 889 INDEX 893 |
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| callnumber-search | QC320 |
| callnumber-sort | QC 3320 |
| callnumber-subject | QC - Physics |
| classification_rvk | UG 2500 |
| classification_tum | PHY 052f MTA 700f |
| ctrlnum | (OCoLC)254757288 (DE-599)BVBBV021515073 |
| dewey-full | 536.2 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 536 - Heat |
| dewey-raw | 536.2 |
| dewey-search | 536.2 |
| dewey-sort | 3536.2 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| discipline_str_mv | Physik |
| edition | 5. ed. |
| format | Book |
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| genre | 1\p (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV021515073 |
| illustrated | Illustrated |
| index_date | 2024-07-02T14:20:19Z |
| indexdate | 2024-07-09T20:37:34Z |
| institution | BVB |
| isbn | 0471457272 9780471457275 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014731643 |
| oclc_num | 254757288 |
| open_access_boolean | |
| owner | DE-703 DE-91G DE-BY-TUM DE-898 DE-BY-UBR |
| owner_facet | DE-703 DE-91G DE-BY-TUM DE-898 DE-BY-UBR |
| physical | XXV, 901 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Wiley |
| record_format | marc |
| spelling | Introduction to heat transfer Frank P. Incropera ... 5. ed. Hoboken, N.J. Wiley 2007 XXV, 901 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Heat Transmission Textbooks Wärmeübergang (DE-588)4188877-7 gnd rswk-swf Wärmeleitung (DE-588)4064192-2 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Wärmeübergang (DE-588)4188877-7 s DE-604 Wärmeleitung (DE-588)4064192-2 s Wärmeübertragung (DE-588)4064211-2 s Incropera, Frank P. Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014731643&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Introduction to heat transfer Heat Transmission Textbooks Wärmeübergang (DE-588)4188877-7 gnd Wärmeleitung (DE-588)4064192-2 gnd Wärmeübertragung (DE-588)4064211-2 gnd |
| subject_GND | (DE-588)4188877-7 (DE-588)4064192-2 (DE-588)4064211-2 (DE-588)4123623-3 |
| title | Introduction to heat transfer |
| title_auth | Introduction to heat transfer |
| title_exact_search | Introduction to heat transfer |
| title_exact_search_txtP | Introduction to heat transfer |
| title_full | Introduction to heat transfer Frank P. Incropera ... |
| title_fullStr | Introduction to heat transfer Frank P. Incropera ... |
| title_full_unstemmed | Introduction to heat transfer Frank P. Incropera ... |
| title_short | Introduction to heat transfer |
| title_sort | introduction to heat transfer |
| topic | Heat Transmission Textbooks Wärmeübergang (DE-588)4188877-7 gnd Wärmeleitung (DE-588)4064192-2 gnd Wärmeübertragung (DE-588)4064211-2 gnd |
| topic_facet | Heat Transmission Textbooks Wärmeübergang Wärmeleitung Wärmeübertragung Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014731643&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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