Heat and mass transfer: a practical approach
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boston [u.a.]
McGraw-Hill
2007
|
| Ausgabe: | 3. ed. |
| Schriftenreihe: | McGraw-Hill series in mechanical engineering
|
| Schlagworte: | |
| Online-Zugang: | Table of contents only Publisher description Inhaltsverzeichnis |
| Beschreibung: | CD-ROM-Beil. u.d.T.: Klein, Sanford: Engineering equation solver |
| Beschreibung: | XXIV, 901 S. zahlr. Ill. und graph. Darst. 1 CD-ROM (12 cm) |
| ISBN: | 0073129305 007325035X 9780073129303 |
Internformat
MARC
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| 100 | 1 | |a Çengel, Yunus A. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Heat and mass transfer |b a practical approach |c Yunus A. Çengel |
| 250 | |a 3. ed. | ||
| 264 | 1 | |a Boston [u.a.] |b McGraw-Hill |c 2007 | |
| 300 | |a XXIV, 901 S. |b zahlr. Ill. und graph. Darst. |e 1 CD-ROM (12 cm) | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a McGraw-Hill series in mechanical engineering | |
| 500 | |a CD-ROM-Beil. u.d.T.: Klein, Sanford: Engineering equation solver | ||
| 650 | 4 | |a Chaleur - Transmission | |
| 650 | 4 | |a Transfert de masse | |
| 650 | 4 | |a Heat |x Transmission | |
| 650 | 4 | |a Mass transfer | |
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| 650 | 0 | 7 | |a Wärmeübertragung |0 (DE-588)4064211-2 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Wärmeübertragung |0 (DE-588)4064211-2 |D s |
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| 856 | 4 | |u http://www.loc.gov/catdir/enhancements/fy0665/2005031039-d.html |3 Publisher description | |
| 856 | 4 | 2 | |m HEBIS Datenaustausch Darmstadt |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015476886&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-015476886 | ||
Datensatz im Suchindex
| _version_ | 1804136268523634688 |
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| adam_text | THIRD EDITION HEAT AND MASS TRANSFER I A PRACTICAL APPROACH YUNUS A.
CENGEL UNIVERSITY OF NEVADA, RENO [BOSTON BURR RIDGE, IL DUBUQUE, IA
MADISON, WL NEW YORK SAN FRANCISCO ST. LOUIS I BANGKOK BOGOTA CARACAS
KUALA LUMPUR LISBON LONDON MADRID MEXICO CITY MILAN MONTREAL NEW DELHI
SANTIAGO SEOUL SINGAPORE SYDNEY TAIPEI TORONTO CONTENTS PREFACE XV
REFERENCES AND SUGGESTED READING 47 PROBLEMS 47 :HAPTER ONE NTRODUCTION
AND BASIC CONCEPTS 1 I-1 THERMODYNAMICS AND HEAT TRANSFER 2 APPLICATION
AREAS OF HEAT TRANSFER 3 HISTORICAL BACKGROUND 3 I-2 ENGINEERING HEAT
TRANSFER 4 MODELING IN ENGINEERING 5 I-3 HEAT AND OTHER FORMS OF ENERGY
6 SPECIFIC HEATS OF GASES, LIQUIDS, AND SOLIDS 7 ENERGY TRANSFER 9 I-4
THE FIRST LAW OF THERMODYNAMICS 11 ENERGY BALANCE FOR CLOSED SYSTEMS
{FIXED MASS) 12 ENERGY BALANCE FOR STEADY-FLOW SYSTEMS 12 SURFACE ENERGY
BALANCE 13 1-5 1-6 1-7 1-8 1-9 HEAT TRANSFER MECHANISMS CONDUCTION 17
THERMAL CONDUCTIVITY 19 THERMAL DIFFUSIVITY 23 CONVECTION 25 RADIATION
27 SIMULTANEOUS HEAT TRANSFER MECHANISMS 30 17 1-10 PROBLEM-SOLVING
TECHNIQUE 35 ENGINEERING SOFTWARE PACKAGES 37 ENGINEERING EQUATION
SOLVER (EES) 38 HEAT TRANSFER TOOLS (HTT) 39 A REMARK ON SIGNIFICANT
DIGITS 39 TOPIC OF SPECIAL INTEREST: THERMAL COMFORT 40 SUMMARY 46
CHAPTER TWO HEAT CONDUCTION EQUATION 61 2-1 INTRODUCTION 62 STEADY
VERSUS TRANSIENT HEAT TRANSFER 63 MULTIDIMENSIONAL HEAT TRANSFER 64 HEAT
GENERATION 66 2-2 ONE-DIMENSIONAL HEAT CONDUCTION EQUATION 68 HEAT
CONDUCTION EQUATION IN A LARGE PLANE WALL 68 HEAT CONDUCTION EQUATION IN
A LONG CYLINDER 69 HEAT CONDUCTION EQUATION IN A SPHERE 71 COMBINED
ONE-DIMENSIONAL HEAT CONDUCTION EQUATION 72 2-3 GENERAL HEAT CONDUCTION
EQUATION 74 RECTANGULAR COORDINATES 74 CYLINDRICAL COORDINATES 75
SPHERICAL COORDINATES 76 2-4 BOUNDARY AND INITIAL CONDITIONS 77 1
SPECIFIED TEMPERATURE BOUNDARY CONDITION 78 2 SPECIFIED HEAT FLUX
BOUNDARY CONDITION 79 3 CONVECTION BOUNDARY CONDITION 81 4 RADIATION
BOUNDARY CONDITION 82 5 INTERFACE BOUNDARY CONDITIONS 83 6 GENERALIZED
BOUNDARY CONDITIONS 84 2-5 SOLUTION OF STEADY ONE-DIMENSIONAL HEAT
CONDUCTION PROBLEMS 86 2-6 HEAT GENERATION IN A SOLID 97 2-7 VARIABLE
THERMAL CONDUCTIVITY, K(T) TOPIC OF SPECIAL INTEREST: A BRIEF REVIEW OF
DIFFERENTIAL EQUATIONS 107 SUMMARY 111 REFERENCES AND SUGGESTED READINGS
112 PROBLEMS 113 104 CHAPTER THREE STEADY HEAT CONDUCTION 131 133 135
3-1 STEADY HEAT CONDUCTION IN PLANE WALLS 132 THERMAL RESISTANCE CONCEPT
THERMAL RESISTANCE NETWORK MULTILAYER PLANE WALLS 137 3-2 THERMAL
CONTACT RESISTANCE 142 3-3 GENERALIZED THERMAL RESISTANCE NETWORKS 147
3-4 HEAT CONDUCTION IN CYLINDERS AND SPHERES 150 MULTILAYERED CYLINDERS
AND SPHERES 152 3-5 CRITICAL RADIUS OF INSULATION 156 3-6 HEAT TRANSFER
FROM FINNED SURFACES 159 FIN EQUATION 160 FIN EFFICIENCY 164 FIN
EFFECTIVENESS 166 PROPER LENGTH OF A FIN 169 3-7 HEAT TRANSFER IN COMMON
CONFIGURATIONS 174 TOPIC OF SPECIAL INTEREST- HEAT TRANSFER THROUGH
WALLS AND ROOFS 179 SUMMARY 189 REFERENCES AND SUGGESTED READINGS 191
PROBLEMS 191 CHAPTER FOUR TRANSIENT HEAT CONDUCTION 217 C H A P T E R F
I V E NUMERICAL METHODS IN HEAT CONDUCTION 285 5-1 WHY NUMERICAL
METHODS? 286 1 LIMITATIONS 287 2 BETTER MODELING 287 3 FLEXIBILITY 288 4
COMPLICATIONS 288 5 HUMAN NATURE 288 5-2 FINITE DIFFERENCE FORMULATION
OF DIFFERENTIAL EQUATIONS 289 5-3 ONE-DIMENSIONAL STEADY HEAT CONDUCTION
292 BOUNDARY CONDITIONS 294 5-4 TWO-DIMENSIONAL STEADY HEAT CONDUCTION
302 BOUNDARY NODES 303 IRREGULAR BOUNDARIES 307 5-5 TRANSIENT HEAT
CONDUCTION 311 TRANSIENT HEAT CONDUCTION IN A PLANE WALL 313
TWO-DIMENSIONAL TRANSIENT HEAT CONDUCTION 324 TOPIC OF SPECIAL INTEREST:
CONTROLLING THE NUMERICAL ERROR 329 SUMMARY 333 REFERENCES AND SUGGESTED
READINGS 334 PROBLEMS 334 4-1 LUMPED SYSTEM ANALYSIS 218 CRITERIA FOR
LUMPED SYSTEM ANALYSIS 219 SOME REMARKS ON HEAT TRANSFER IN LUMPED
SYSTEMS 221 4-2 TRANSIENT HEAT CONDUCTION IN LARGE PLANE WALLS, LONG
CYLINDERS, AND SPHERES WITH SPATIAL EFFECTS 224 NONDIMENSIONALIZED
ONE-DIMENSIONAL TRANSIENT CONDUCTION PROBLEM 225 4-3 TRANSIENT HEAT
CONDUCTION IN SEMI-INFINITE SOLIDS 240 CONTACT OF TWO SEMI-INFINITE
SOLIDS 245 4-4 TRANSIENT HEAT CONDUCTION IN MULTIDIMENSIONAL SYSTEMS 248
TOPIC OF SPECIAL INTEREST: REFRIGERATION AND FREEZING OF FOODS 256
SUMMARY 267 REFERENCES AND SUGGESTED READINGS 269 PROBLEMS 269 CHAPTER
SIX FUNDAMENTALS OF CONVECTION 355 6-1 PHYSICAL MECHANISM OF CONVECTION
356 NUSSELT NUMBER 358 6-2 CLASSIFICATION OF FLUID FLOWS 359 VISCOUS
VERSUS INVISCID REGIONS OF FLOW 359 INTERNAL VERSUS EXTERNAL FLOW 359
COMPRESSIBLE VERSUS INCOMPRESSIBLE FLOW 360 LAMINAR VERSUS TURBULENT
FLOW 360 NATURAL (OR UNFORCED) VERSUS FORCED FLOW 360 STEADY VERSUS
UNSTEADY FLOW 361 ONE-, TWO-, AND THREE-DIMENSIONAL FLOWS 361 6-3
VELOCITY BOUNDARY LAYER 362 SURFACE SHEAR STRESS 363 6-4 THERMAL
BOUNDARY LAYER 364 PRANDTL NUMBER 365 6-5 LAMINAR AND TURBULENT FLOWS
365 REYNOLDS NUMBER 366 CONTENTS 6 HEAT AND MOMENTUM TRANSFER IN
TURBULENT FLOW 367 *7 DERIVATION OF DIFFERENTIAL CONVECTION EQUATIONS
369 THE CONTINUITY EQUATION 369 THE MOMENTUM EQUATIONS 370 CONSERVATION
OF ENERGY EQUATION 372 *8 SOLUTIONS OF CONVECTION EQUATIONS FOR A FLAT
PLATE 376 THE ENERGY EQUATION 378 -9 NONDIMENSIONALIZED CONVECTION
EQUATIONS AND SIMILARITY 380 -10 FUNCTIONAL FORMS OF FRICTION AND
CONVECTION COEFFICIENTS 381 -11 ANALOGIES BETWEEN MOMENTUM AND HEAT
TRANSFER 382 TOPIC OF SPECIAL INTEREST- * MICROSCALE HEAT TRANSFER 385
SUMMARY 388 REFERENCES AND SUGGESTED READING 389 PROBLEMS 390 C H A P T
E R S E V E N XTERNAL FORCED CONVECTION 395 -1 DRAG AND HEAT TRANSFER IN
EXTERNAL FLOW 396 V FRICTION AND PRESSURE DRAG 396 HEAT TRANSFER 398 -2
PARALLEL FLOW OVER FLAT PLATES 399 FRICTION COEFFICIENT 400 HEAT
TRANSFER COEFFICIENT 401 FLAT PLATE WITH UNHEATED STARTING LENGTH 403
UNIFORM HEAT FLUX 403 F -3 FLOW ACROSS CYLINDERS AND SPHERES 408 EFFECT
OF SURFACE ROUGHNESS 410 HEAT TRANSFER COEFFICIENT 412 M FLOW ACROSS
TUBE BANKS PRESSURE DROP 420 417 TOPIC OF SPECIAL INTEREST: REDUCING
HEAT TRANSFER THROUGH SURFACES: THERMAL INSULATION 423 SUMMARY 434
REFERENCES AND SUGGESTED READING 435 PROBLEMS 436 C H A P T E R E I G H
T INTERNAL FORCED CONVECTION 451 8-1 8-2 8-3 8-4 8-5 459 460 8-6
INTRODUCTION 452 AVERAGE VELOCITY AND TEMPERATURE 453 LAMINAR AND
TURBULENT FLOW IN TUBES 454 THE ENTRANCE REGION 455 ENTRY LENGTHS 457
GENERAL THERMAL ANALYSIS 458 CONSTANT SURFACE HEAT FLUX {Q S = CONSTANT)
CONSTANT SURFACE TEMPERATURE {T S = CONSTANT) LAMINAR FLOW IN TUBES 463
PRESSURE DROP 465 TEMPERATURE PROFILE AND THE NUSSELT NUMBER 467
CONSTANT SURFACE HEAT FLUX 467 CONSTANT SURFACE TEMPERATURE 468 LAMINAR
FLOW IN NONCIRCULAR TUBES 469 DEVELOPING LAMINAR FLOW IN THE ENTRANCE
REGION 470 TURBULENT FLOW IN TUBES 473 ROUGH SURFACES 475 DEVELOPING
TURBULENT FLOW IN THE ENTRANCE REGION 476 TURBULENT FLOW IN NONCIRCULAR
TUBES 476 FLOW THROUGH TUBE ANNULUS 477 HEAT TRANSFER ENHANCEMENT 477
TOPIC OF SPECIAL INTEREST: TRANSITIONAL FLOW IN TUBES 482 SUMMARY 490
REFERENCES AND SUGGESTED READING 491 PROBLEMS 492 C H A P T E R N I N E
NATURAL CONVECTION 503 9-1 PHYSICAL MECHANISM OF NATURAL CONVECTION 504
9-2 EQUATION OF MOTION AND THE GRASHOF NUMBER 507 THE GRASHOF NUMBER 509
9-3 NATURAL CONVECTION OVER SURFACES 510 VERTICAL PLATES {T S =
CONSTANT) 512 VERTICAL PLATES (4 = CONSTANT) 512 VERTICAL CYLINDERS 512
INCLINED PLATES 512 HORIZONTAL PLATES 513 HORIZONTAL CYLINDERS AND
SPHERES 513 9-4 NATURAL CONVECTION FROM FINNED SURFACES ANDPCBS 517
NATURAL CONVECTION COOLING OF FINNED SURFACES (7, = CONSTANT) 517 XII
CONTENTS NATURAL CONVECTION COOLING OF VERTICAL PCBS (Q S = CONSTANT)
518 MASS FLOW RATE THROUGH THE SPACE BETWEEN PLATES 519 9-5 NATURAL
CONVECTION INSIDE ENCLOSURES 521 EFFECTIVE THERMAL CONDUCTIVITY 522
HORIZONTAL RECTANGULAR ENCLOSURES 523 INCLINED RECTANGULAR ENCLOSURES
523 VERTICAL RECTANGULAR ENCLOSURES 524 CONCENTRIC CYLINDERS 524
CONCENTRIC SPHERES 525 COMBINED NATURAL CONVECTION AND RADIATION 525 9-6
COMBINED NATURAL AND FORCED CONVECTION 530 TOPIC OF SPECIAL INTEREST:
HEAT TRANSFER THROUGH WINDOWS 533 SUMMARY 543 REFERENCES AND SUGGESTED
READINGS 544 PROBLEMS 546 11 -4 THE LOG MEAN TEMPERATURE DIFFERENCE
METHOD 622 COUNTER-FLOW HEAT EXCHANGERS 624 MULTIPASS AND CROSS-FLOW
HEAT EXCHANGERS: USE OF A CORRECTION FACTOR 625 11-5 THE
EFFECTIVENESS-NTU METHOD 631 11 -6 SELECTION OF HEAT EXCHANGERS 642 HEAT
TRANSFER RATE 642 COST 642 PUMPING POWER 643 SIZE AND WEIGHT 643 TYPE
643 MATERIALS 643 OTHER CONSIDERATIONS 644 SUMMARY 5645 REFERENCES AND
SUGGESTED READING PROBLEMS 647 646 CHAPTER TEN BOILING AND CONDENSATION
561 10-1 BOILING HEAT TRANSFER 562 10-2 POOL BOILING 564 BOILING REGIMES
AND THE BOILING CURVE 564 HEAT TRANSFER CORRELATIONS IN POOL BOILING 568
ENHANCEMENT OF HEAT TRANSFER IN POOL BOILING 572 10-3 FLOW BOILING 576
10-4 CONDENSATION HEAT TRANSFER 578 10-5 FILM CONDENSATION 578 FLOW
REGIMES 580 HEAT TRANSFER CORRELATIONS FOR FILM CONDENSATION 581 10-6
FILM CONDENSATION INSIDE HORIZONTAL TUBES 591 10-7 DROPWISE CONDENSATION
591 TOPIC OF SPECIAL INTEREST- HEAT PIPES 592 SUMMARY 597 REFERENCES AND
SUGGESTED READING 599 PROBLEMS 599 CHAPTER ELEVEN HEAT EXCHANGERS 609
11-1 TYPES OF HEAT EXCHANGERA 610 11-2 THE OVERALL HEAT TRANSFER
COEFFICIENT FOULING FACTOR 615 11-3 ANALYSIS OF HEAT EXCHANGERS 620 612
CHAPTER TWELVE FUNDAMENTALS OF THERMAL RADIATION 1 2-1 INTRODUCTION 664
12-2 THERMAL RADIATION 665 12-3 BLACKBODY RADIATION 667 1 2-4 RADIATION
INTENSITY 673 SOLID ANGLE 674 INTENSITY OF EMITTED RADIATION 675
INCIDENT RADIATION 676 RADIOSITY 677 SPECTRAL QUANTITIES 677 1 2-5
RADIATIVE PROPERTIES 679 EMISSIVITY 680 ABSORPTIVITY, REFLECTIVITY, AND
TRANSMISSIVITY KIRCHHOFFS LAW 686 THE GREENHOUSE EFFECT 687 66: 684 12-6
ATMOSPHERIC AND SOLAR RADIATION 688 TOPIC OF SPECIAL INTEREST: SOLAR
HEAT GAIN THROUGH WINDOWS 692 SUMMARY 699 REFERENCES AND SUGGESTED
READINGS 701 PROBLEMS 701 CHAPTER THIRTEEN RADIATION HEAT TRANSFER 709
13-1 THE VIEW FACTOR 710 1 3-2 VIEW FACTOR RELATIONS 713 XIII CONTENTS I
1 THE RECIPROCITY RELATION 714 | 2 THE SUMMATION RULE 717 3 THE
SUPERPOSITION RULE 719 4 THE SYMMETRY RULE 720 VIEW FACTORS BETWEEN
INFINITELY LONG SURFACES: THE CROSSED-STRINGS METHOD 722 1-3 RADIATION
HEAT TRANSFER: BLACK SURFACES 724 J-4 RADIATION HEAT TRANSFER: DIFFUSE,
GRAY SURFACES 727 RADIOSITY 727 NET RADIATION HEAT TRANSFER TO OR FROM
A SURFACE 727 NET RADIATION HEAT TRANSFER BETWEEN ANY TWO SURFACES 729
METHODS OF SOLVING RADIATION PROBLEMS 730 RADIATION HEAT TRANSFER IN
TWO-SURFACE ENCLOSURES 731 RADIATION HEAT TRANSFER IN THREE-SURFACE
ENCLOSURES 733 RADIATION SHIELDS AND THE RADIATION EFFECT 739 RADIATION
EFFECT ON TEMPERATURE MEASUREMENTS 741 |-6 RADIATION EXCHANGE WITH
EMITTING AND ABSORBING GASES 743 RADIATION PROPERTIES OF A PARTICIPATING
MEDIUM 744 EMISSIVITY AND ABSORPTIVITY OF GASES AND GAS MIXTURES 746
TOPIC OF SPECIAL INTEREST- HEAT TRANSFER FROM THE HUMAN BODY 753 SUMMARY
757 REFERENCES AND SUGGESTED READING 759 PROBLEMS 759 N HAPTER FOURTEEN
ISS TRANSFER 773 [4-1 INTRODUCTION 774 (4-2 ANALOGY BETWEEN HEAT AND
MASS TRANSFER 775 TEMPERATURE 776 $ CONDUCTION 776 |? HEAT GENERATION
776 FE CONVECTION 777 MASS DIFFUSION 777 1 MASS BASIS 778 2 MOLE BASIS
778 SPECIAL CASE: IDEAL GAS MIXTURES 779 FICK S LAW OF DIFFUSION:
STATIONARY MEDIUM CONSISTING OF TWO SPECIES 779 4-4 BOUNDARY CONDITIONS
783 4-5 STEADY MASS DIFFUSION THROUGH A WALL 788 4-6 WATER VAPOR
MIGRATION IN BUILDINGS 792 14*7 TRANSIENT MASS DIFFUSION 796 14-8
DIFFUSION IN A MOVING MEDIUM 799 SPECIAL CASE: GAS MIXTURES AT CONSTANT
PRESSURE AND TEMPERATURE 803 DIFFUSION OF VAPOR THROUGH A STATIONARY
GAS: STEFAN FLOW 804 EQUIMOLAR COUNTERDIFFUSION 806 14-9 MASS CONVECTION
810 ANALOGY BETWEEN FRICTION, HEAT TRANSFER, AND MASS TRANSFER
COEFFICIENTS 814 LIMITATION ON THE HEAT-MASS CONVECTION ANALOGY 816 MASS
CONVECTION RELATIONS 816 14-10 SIMULTANEOUS HEAT AND MASS TRANSFER 819
SUMMARY 825~ REFERENCES AND SUGGESTED READING 827 PROBLEMS 828 APPENDIX
1 PROPERTY TABLES AND CHARTS (SI UNITS) 841 TABLE A-1 MOLAR MASS, GAS
CONSTANT, AND IDEAL-GAS SPECIFIC HEATS OF SOME SUBSTANCES 842 TABLE A-2
BOILING AND FREEZING POINT PROPERTIES 843 TABLE A-3 PROPERTIES OF SOLID
METALS 844-846 TABLE A-4 PROPERTIES OF SOLID NONMETALS 847 TABLE A-5
PROPERTIES OF BUILDING MATERIALS 848-849 TABLE A-6 PROPERTIES OF
INSULATING MATERIALS 850 TABLE A-7 PROPERTIES OF COMMON FOODS 851-852
TABLE A-8 PROPERTIES OF MISCELLANEOUS MATERIALS 853 TABLE A-9 PROPERTIES
OF SATURATED WATER 854 TABLE A-10 PROPERTIES OF SATURATED REFRIGERANT-
134A 855 TABLE A-11 PROPERTIES OF SATURATED AMMONIA 856 TABLE A-12
PROPERTIES OF SATURATED PROPANE 857 TABLE A-13 PROPERTIES OF LIQUIDS 858
TABLE A-14 PROPERTIES OF LIQUID METALS 859 XIV CONTENTS TABLE A-15
PROPERTIES OF AIR AT 1 ATM PRESSURE 860 TABLE A-16 PROPERTIES OF GASES
AT 1 ATM PRESSURE 861-862 TABLE A-17 PROPERTIES OF THE ATMOSPHERE AT
HIGH ALTITUDE 863 TABLE A-18 EMISSIVITIES OF SURFACE 864-865 TABLE A-19
SOLAR RADIATIVE PROPERTIES OF MATERIALS 866 FIGURE A-20 THE MOODY CHART
FOR THE FRICTION FACTOR FOR FULLY DEVELOPED FLOW IN CIRCULAR PIPES 867
APPENDIX 2 PROPERTY TABLES AND CHARTS (ENGLISH UNITS) 869 TABLE A-1 E
MOLAR MASS, GAS CONSTANT, AND IDEAL-GAS SPECIFIC HEATS OF SOME
SUBSTANCES 870 TABLE A-2E BOILING AND FREEZING POINT PROPERTIES 871
TABLE A-3E PROPERTIES OF SOLID METALS 872-873 TABLE A-4E PROPERTIES OF
SOLID NONMENTALS 874 TABLE A-5E PROPERTIES OF BUILDING MATERIALS 875-876
TABLE A-6E PROPERTIES OF INSULATING MATERIALS 877 TABLE A-7E PROPERTIES
OF COMMON FOODS 878-879 TABLE A-8E PROPERTIES OF MISCELLANEOUS MATERIALS
880 TABLE A-9E PROPERTIES OF SATURATED WATER TABLE A-10E PROPERTIES OF
SATURATED REFRIGERANT-134A 882 TABLE A-11E PROPERTIES OF SATURATED
AMMONIA 883 TABLE A-12E PROPERTIES OF SATURATED PROPANE TABLE A-13E
PROPERTIES OF LIQUIDS 885 TABLE A-14E PROPERTIES OF LIQUID METALS TABLE
A-15E PROPERTIES OF AIR AT 1 ATM PRESSURE 887 TABLE A-16E PROPERTIES OF
GASES AT 1 ATM PRESSURE 888-889 TABLE A-17E PROPERTIES OF THE ATMOSPHERE
AT HIGH ALTITUDE 890 INDEX 891 881 884
|
| adam_txt |
THIRD EDITION HEAT AND MASS TRANSFER I A PRACTICAL APPROACH YUNUS A.
CENGEL UNIVERSITY OF NEVADA, RENO [BOSTON BURR RIDGE, IL DUBUQUE, IA
MADISON, WL NEW YORK SAN FRANCISCO ST. LOUIS I BANGKOK BOGOTA CARACAS
KUALA LUMPUR LISBON LONDON MADRID MEXICO CITY MILAN MONTREAL NEW DELHI
SANTIAGO SEOUL SINGAPORE SYDNEY TAIPEI TORONTO CONTENTS PREFACE XV
REFERENCES AND SUGGESTED READING 47 PROBLEMS 47 :HAPTER ONE NTRODUCTION
AND BASIC CONCEPTS 1 I-1 THERMODYNAMICS AND HEAT TRANSFER 2 APPLICATION
AREAS OF HEAT TRANSFER 3 HISTORICAL BACKGROUND 3 I-2 ENGINEERING HEAT
TRANSFER 4 MODELING IN ENGINEERING 5 I-3 HEAT AND OTHER FORMS OF ENERGY
6 SPECIFIC HEATS OF GASES, LIQUIDS, AND SOLIDS 7 ENERGY TRANSFER 9 I-4
THE FIRST LAW OF THERMODYNAMICS 11 ENERGY BALANCE FOR CLOSED SYSTEMS
{FIXED MASS) 12 ENERGY BALANCE FOR STEADY-FLOW SYSTEMS 12 SURFACE ENERGY
BALANCE 13 1-5 1-6 1-7 1-8 1-9 HEAT TRANSFER MECHANISMS CONDUCTION 17
THERMAL CONDUCTIVITY 19 THERMAL DIFFUSIVITY 23 CONVECTION 25 RADIATION
27 SIMULTANEOUS HEAT TRANSFER MECHANISMS 30 17 1-10 PROBLEM-SOLVING
TECHNIQUE 35 ENGINEERING SOFTWARE PACKAGES 37 ENGINEERING EQUATION
SOLVER (EES) 38 HEAT TRANSFER TOOLS (HTT) 39 A REMARK ON SIGNIFICANT
DIGITS 39 TOPIC OF SPECIAL INTEREST: THERMAL COMFORT 40 SUMMARY 46
CHAPTER TWO HEAT CONDUCTION EQUATION 61 2-1 INTRODUCTION 62 STEADY
VERSUS TRANSIENT HEAT TRANSFER 63 MULTIDIMENSIONAL HEAT TRANSFER 64 HEAT
GENERATION 66 2-2 ONE-DIMENSIONAL HEAT CONDUCTION EQUATION 68 HEAT
CONDUCTION EQUATION IN A LARGE PLANE WALL 68 HEAT CONDUCTION EQUATION IN
A LONG CYLINDER 69 HEAT CONDUCTION EQUATION IN A SPHERE 71 COMBINED
ONE-DIMENSIONAL HEAT CONDUCTION EQUATION 72 2-3 GENERAL HEAT CONDUCTION
EQUATION 74 RECTANGULAR COORDINATES 74 CYLINDRICAL COORDINATES 75
SPHERICAL COORDINATES 76 2-4 BOUNDARY AND INITIAL CONDITIONS 77 1
SPECIFIED TEMPERATURE BOUNDARY CONDITION 78 2 SPECIFIED HEAT FLUX
BOUNDARY CONDITION 79 3 CONVECTION BOUNDARY CONDITION 81 4 RADIATION
BOUNDARY CONDITION 82 5 INTERFACE BOUNDARY CONDITIONS 83 6 GENERALIZED
BOUNDARY CONDITIONS 84 2-5 SOLUTION OF STEADY ONE-DIMENSIONAL HEAT
CONDUCTION PROBLEMS 86 2-6 HEAT GENERATION IN A SOLID 97 2-7 VARIABLE
THERMAL CONDUCTIVITY, K(T) TOPIC OF SPECIAL INTEREST: A BRIEF REVIEW OF
DIFFERENTIAL EQUATIONS 107 SUMMARY 111 REFERENCES AND SUGGESTED READINGS
112 PROBLEMS 113 104 CHAPTER THREE STEADY HEAT CONDUCTION 131 133 135
3-1 STEADY HEAT CONDUCTION IN PLANE WALLS 132 THERMAL RESISTANCE CONCEPT
THERMAL RESISTANCE NETWORK MULTILAYER PLANE WALLS 137 3-2 THERMAL
CONTACT RESISTANCE 142 3-3 GENERALIZED THERMAL RESISTANCE NETWORKS 147
3-4 HEAT CONDUCTION IN CYLINDERS AND SPHERES 150 MULTILAYERED CYLINDERS
AND SPHERES 152 3-5 CRITICAL RADIUS OF INSULATION 156 3-6 HEAT TRANSFER
FROM FINNED SURFACES 159 FIN EQUATION 160 FIN EFFICIENCY 164 FIN
EFFECTIVENESS 166 PROPER LENGTH OF A FIN 169 3-7 HEAT TRANSFER IN COMMON
CONFIGURATIONS 174 TOPIC OF SPECIAL INTEREST- HEAT TRANSFER THROUGH
WALLS AND ROOFS 179 SUMMARY 189 REFERENCES AND SUGGESTED READINGS 191
PROBLEMS 191 CHAPTER FOUR TRANSIENT HEAT CONDUCTION 217 C H A P T E R F
I V E NUMERICAL METHODS IN HEAT CONDUCTION 285 5-1 WHY NUMERICAL
METHODS? 286 1 LIMITATIONS 287 2 BETTER MODELING 287 3 FLEXIBILITY 288 4
COMPLICATIONS 288 5 HUMAN NATURE 288 5-2 FINITE DIFFERENCE FORMULATION
OF DIFFERENTIAL EQUATIONS 289 5-3 ONE-DIMENSIONAL STEADY HEAT CONDUCTION
292 BOUNDARY CONDITIONS 294 5-4 TWO-DIMENSIONAL STEADY HEAT CONDUCTION
302 BOUNDARY NODES 303 IRREGULAR BOUNDARIES 307 5-5 TRANSIENT HEAT
CONDUCTION 311 TRANSIENT HEAT CONDUCTION IN A PLANE WALL 313
TWO-DIMENSIONAL TRANSIENT HEAT CONDUCTION 324 TOPIC OF SPECIAL INTEREST:
CONTROLLING THE NUMERICAL ERROR 329 SUMMARY 333 REFERENCES AND SUGGESTED
READINGS 334 PROBLEMS 334 4-1 LUMPED SYSTEM ANALYSIS 218 CRITERIA FOR
LUMPED SYSTEM ANALYSIS 219 SOME REMARKS ON HEAT TRANSFER IN LUMPED
SYSTEMS 221 4-2 TRANSIENT HEAT CONDUCTION IN LARGE PLANE WALLS, LONG
CYLINDERS, AND SPHERES WITH SPATIAL EFFECTS 224 NONDIMENSIONALIZED
ONE-DIMENSIONAL TRANSIENT CONDUCTION PROBLEM 225 4-3 TRANSIENT HEAT
CONDUCTION IN SEMI-INFINITE SOLIDS 240 CONTACT OF TWO SEMI-INFINITE
SOLIDS 245 4-4 TRANSIENT HEAT CONDUCTION IN MULTIDIMENSIONAL SYSTEMS 248
TOPIC OF SPECIAL INTEREST: REFRIGERATION AND FREEZING OF FOODS 256
SUMMARY 267 REFERENCES AND SUGGESTED READINGS 269 PROBLEMS 269 CHAPTER
SIX FUNDAMENTALS OF CONVECTION 355 6-1 PHYSICAL MECHANISM OF CONVECTION
356 NUSSELT NUMBER 358 6-2 CLASSIFICATION OF FLUID FLOWS 359 VISCOUS
VERSUS INVISCID REGIONS OF FLOW 359 INTERNAL VERSUS EXTERNAL FLOW 359
COMPRESSIBLE VERSUS INCOMPRESSIBLE FLOW 360 LAMINAR VERSUS TURBULENT
FLOW 360 NATURAL (OR UNFORCED) VERSUS FORCED FLOW 360 STEADY VERSUS
UNSTEADY FLOW 361 ONE-, TWO-, AND THREE-DIMENSIONAL FLOWS 361 6-3
VELOCITY BOUNDARY LAYER 362 SURFACE SHEAR STRESS 363 6-4 THERMAL
BOUNDARY LAYER 364 PRANDTL NUMBER 365 6-5 LAMINAR AND TURBULENT FLOWS
365 REYNOLDS NUMBER 366 CONTENTS 6 HEAT AND MOMENTUM TRANSFER IN
TURBULENT FLOW 367 *7 DERIVATION OF DIFFERENTIAL CONVECTION EQUATIONS
369 THE CONTINUITY EQUATION 369 THE MOMENTUM EQUATIONS 370 CONSERVATION
OF ENERGY EQUATION 372 *8 SOLUTIONS OF CONVECTION EQUATIONS FOR A FLAT
PLATE 376 THE ENERGY EQUATION 378 -9 NONDIMENSIONALIZED CONVECTION
EQUATIONS AND SIMILARITY 380 -10 FUNCTIONAL FORMS OF FRICTION AND
CONVECTION COEFFICIENTS 381 -11 ANALOGIES BETWEEN MOMENTUM AND HEAT
TRANSFER 382 TOPIC OF SPECIAL INTEREST- * MICROSCALE HEAT TRANSFER 385
SUMMARY 388 REFERENCES AND SUGGESTED READING 389 PROBLEMS 390 C H A P T
E R S E V E N XTERNAL FORCED CONVECTION 395 -1 DRAG AND HEAT TRANSFER IN
EXTERNAL FLOW 396 V FRICTION AND PRESSURE DRAG 396 HEAT TRANSFER 398 -2
PARALLEL FLOW OVER FLAT PLATES 399 FRICTION COEFFICIENT 400 HEAT
TRANSFER COEFFICIENT 401 FLAT PLATE WITH UNHEATED STARTING LENGTH 403
UNIFORM HEAT FLUX 403 F -3 FLOW ACROSS CYLINDERS AND SPHERES 408 EFFECT
OF SURFACE ROUGHNESS 410 HEAT TRANSFER COEFFICIENT 412 M FLOW ACROSS
TUBE BANKS PRESSURE DROP 420 417 TOPIC OF SPECIAL INTEREST: REDUCING
HEAT TRANSFER THROUGH SURFACES: THERMAL INSULATION 423 SUMMARY 434
REFERENCES AND SUGGESTED READING 435 PROBLEMS 436 C H A P T E R E I G H
T INTERNAL FORCED CONVECTION 451 8-1 8-2 8-3 8-4 8-5 459 460 8-6
INTRODUCTION 452 AVERAGE VELOCITY AND TEMPERATURE 453 LAMINAR AND
TURBULENT FLOW IN TUBES 454 THE ENTRANCE REGION 455 ENTRY LENGTHS 457
GENERAL THERMAL ANALYSIS 458 CONSTANT SURFACE HEAT FLUX {Q S = CONSTANT)
CONSTANT SURFACE TEMPERATURE {T S = CONSTANT) LAMINAR FLOW IN TUBES 463
PRESSURE DROP 465 TEMPERATURE PROFILE AND THE NUSSELT NUMBER 467
CONSTANT SURFACE HEAT FLUX 467 CONSTANT SURFACE TEMPERATURE 468 LAMINAR
FLOW IN NONCIRCULAR TUBES 469 DEVELOPING LAMINAR FLOW IN THE ENTRANCE
REGION 470 TURBULENT FLOW IN TUBES 473 ROUGH SURFACES 475 DEVELOPING
TURBULENT FLOW IN THE ENTRANCE REGION 476 TURBULENT FLOW IN NONCIRCULAR
TUBES 476 FLOW THROUGH TUBE ANNULUS 477 HEAT TRANSFER ENHANCEMENT 477
TOPIC OF SPECIAL INTEREST: TRANSITIONAL FLOW IN TUBES 482 SUMMARY 490
REFERENCES AND SUGGESTED READING 491 PROBLEMS 492 C H A P T E R N I N E
NATURAL CONVECTION 503 9-1 PHYSICAL MECHANISM OF NATURAL CONVECTION 504
9-2 EQUATION OF MOTION AND THE GRASHOF NUMBER 507 THE GRASHOF NUMBER 509
9-3 NATURAL CONVECTION OVER SURFACES 510 VERTICAL PLATES {T S =
CONSTANT) 512 VERTICAL PLATES (4 = CONSTANT) 512 VERTICAL CYLINDERS 512
INCLINED PLATES 512 HORIZONTAL PLATES 513 HORIZONTAL CYLINDERS AND
SPHERES 513 9-4 NATURAL CONVECTION FROM FINNED SURFACES ANDPCBS 517
NATURAL CONVECTION COOLING OF FINNED SURFACES (7, = CONSTANT) 517 XII
CONTENTS NATURAL CONVECTION COOLING OF VERTICAL PCBS (Q S = CONSTANT)
518 MASS FLOW RATE THROUGH THE SPACE BETWEEN PLATES 519 9-5 NATURAL
CONVECTION INSIDE ENCLOSURES 521 EFFECTIVE THERMAL CONDUCTIVITY 522
HORIZONTAL RECTANGULAR ENCLOSURES 523 INCLINED RECTANGULAR ENCLOSURES
523 VERTICAL RECTANGULAR ENCLOSURES 524 CONCENTRIC CYLINDERS 524
CONCENTRIC SPHERES 525 COMBINED NATURAL CONVECTION AND RADIATION 525 9-6
COMBINED NATURAL AND FORCED CONVECTION 530 TOPIC OF SPECIAL INTEREST:
HEAT TRANSFER THROUGH WINDOWS 533 SUMMARY 543 REFERENCES AND SUGGESTED
READINGS 544 PROBLEMS 546 11 -4 THE LOG MEAN TEMPERATURE DIFFERENCE
METHOD 622 COUNTER-FLOW HEAT EXCHANGERS 624 MULTIPASS AND CROSS-FLOW
HEAT EXCHANGERS: USE OF A CORRECTION FACTOR 625 11-5 THE
EFFECTIVENESS-NTU METHOD 631 11 -6 SELECTION OF HEAT EXCHANGERS 642 HEAT
TRANSFER RATE 642 COST 642 PUMPING POWER 643 SIZE AND WEIGHT 643 TYPE
643 MATERIALS 643 OTHER CONSIDERATIONS 644 SUMMARY 5645 REFERENCES AND
SUGGESTED READING PROBLEMS 647 646 CHAPTER TEN BOILING AND CONDENSATION
561 10-1 BOILING HEAT TRANSFER 562 10-2 POOL BOILING 564 BOILING REGIMES
AND THE BOILING CURVE 564 HEAT TRANSFER CORRELATIONS IN POOL BOILING 568
ENHANCEMENT OF HEAT TRANSFER IN POOL BOILING 572 10-3 FLOW BOILING 576
10-4 CONDENSATION HEAT TRANSFER 578 10-5 FILM CONDENSATION 578 FLOW
REGIMES 580 HEAT TRANSFER CORRELATIONS FOR FILM CONDENSATION 581 10-6
FILM CONDENSATION INSIDE HORIZONTAL TUBES 591 10-7 DROPWISE CONDENSATION
591 TOPIC OF SPECIAL INTEREST- HEAT PIPES 592 SUMMARY 597 REFERENCES AND
SUGGESTED READING 599 PROBLEMS 599 CHAPTER ELEVEN HEAT EXCHANGERS 609
11-1 TYPES OF HEAT EXCHANGERA 610 11-2 THE OVERALL HEAT TRANSFER
COEFFICIENT FOULING FACTOR 615 11-3 ANALYSIS OF HEAT EXCHANGERS 620 612
CHAPTER TWELVE FUNDAMENTALS OF THERMAL RADIATION 1 2-1 INTRODUCTION 664
12-2 THERMAL RADIATION 665 12-3 BLACKBODY RADIATION 667 1 2-4 RADIATION
INTENSITY 673 SOLID ANGLE 674 INTENSITY OF EMITTED RADIATION 675
INCIDENT RADIATION 676 RADIOSITY 677 SPECTRAL QUANTITIES 677 1 2-5
RADIATIVE PROPERTIES 679 EMISSIVITY 680 ABSORPTIVITY, REFLECTIVITY, AND
TRANSMISSIVITY KIRCHHOFFS LAW 686 THE GREENHOUSE EFFECT 687 66: 684 12-6
ATMOSPHERIC AND SOLAR RADIATION 688 TOPIC OF SPECIAL INTEREST: SOLAR
HEAT GAIN THROUGH WINDOWS 692 SUMMARY 699 REFERENCES AND SUGGESTED
READINGS 701 PROBLEMS 701 CHAPTER THIRTEEN RADIATION HEAT TRANSFER 709
13-1 THE VIEW FACTOR 710 1 3-2 VIEW FACTOR RELATIONS 713 XIII CONTENTS I
1 THE RECIPROCITY RELATION 714 | 2 THE SUMMATION RULE 717 3 THE
SUPERPOSITION RULE 719 4 THE SYMMETRY RULE 720 VIEW FACTORS BETWEEN
INFINITELY LONG SURFACES: THE CROSSED-STRINGS METHOD 722 1-3 RADIATION
HEAT TRANSFER: BLACK SURFACES 724 J-4 RADIATION HEAT TRANSFER: DIFFUSE,
GRAY SURFACES 727 RADIOSITY 727 \ NET RADIATION HEAT TRANSFER TO OR FROM
A SURFACE 727 NET RADIATION HEAT TRANSFER BETWEEN ANY TWO SURFACES 729
METHODS OF SOLVING RADIATION PROBLEMS 730 RADIATION HEAT TRANSFER IN
TWO-SURFACE ENCLOSURES 731 RADIATION HEAT TRANSFER IN THREE-SURFACE
ENCLOSURES 733 RADIATION SHIELDS AND THE RADIATION EFFECT 739 RADIATION
EFFECT ON TEMPERATURE MEASUREMENTS 741 |-6 RADIATION EXCHANGE WITH
EMITTING AND ABSORBING GASES 743 RADIATION PROPERTIES OF A PARTICIPATING
MEDIUM 744 EMISSIVITY AND ABSORPTIVITY OF GASES AND GAS MIXTURES 746
TOPIC OF SPECIAL INTEREST- HEAT TRANSFER FROM THE HUMAN BODY 753 SUMMARY
757 REFERENCES AND SUGGESTED READING 759 PROBLEMS 759 N HAPTER FOURTEEN
ISS TRANSFER 773 [4-1 INTRODUCTION 774 (4-2 ANALOGY BETWEEN HEAT AND
MASS TRANSFER 775 TEMPERATURE 776 $ CONDUCTION 776 |? HEAT GENERATION
776 FE CONVECTION 777 MASS DIFFUSION 777 1 MASS BASIS 778 2 MOLE BASIS
778 SPECIAL CASE: IDEAL GAS MIXTURES 779 FICK'S LAW OF DIFFUSION:
STATIONARY MEDIUM CONSISTING OF TWO SPECIES 779 4-4 BOUNDARY CONDITIONS
783 4-5 STEADY MASS DIFFUSION THROUGH A WALL 788 4-6 WATER VAPOR
MIGRATION IN BUILDINGS 792 14*7 TRANSIENT MASS DIFFUSION 796 14-8
DIFFUSION IN A MOVING MEDIUM 799 SPECIAL CASE: GAS MIXTURES AT CONSTANT
PRESSURE AND TEMPERATURE 803 DIFFUSION OF VAPOR THROUGH A STATIONARY
GAS: STEFAN FLOW 804 EQUIMOLAR COUNTERDIFFUSION 806 14-9 MASS CONVECTION
810 ANALOGY BETWEEN FRICTION, HEAT TRANSFER, AND MASS TRANSFER
COEFFICIENTS 814 LIMITATION ON THE HEAT-MASS CONVECTION ANALOGY 816 MASS
CONVECTION RELATIONS 816 14-10 SIMULTANEOUS HEAT AND MASS TRANSFER 819
SUMMARY 825~ REFERENCES AND SUGGESTED READING 827 PROBLEMS 828 APPENDIX
1 PROPERTY TABLES AND CHARTS (SI UNITS) 841 TABLE A-1 MOLAR MASS, GAS
CONSTANT, AND IDEAL-GAS SPECIFIC HEATS OF SOME SUBSTANCES 842 TABLE A-2
BOILING AND FREEZING POINT PROPERTIES 843 TABLE A-3 PROPERTIES OF SOLID
METALS 844-846 TABLE A-4 PROPERTIES OF SOLID NONMETALS 847 TABLE A-5
PROPERTIES OF BUILDING MATERIALS 848-849 TABLE A-6 PROPERTIES OF
INSULATING MATERIALS 850 TABLE A-7 PROPERTIES OF COMMON FOODS 851-852
TABLE A-8 PROPERTIES OF MISCELLANEOUS MATERIALS 853 TABLE A-9 PROPERTIES
OF SATURATED WATER 854 TABLE A-10 PROPERTIES OF SATURATED REFRIGERANT-
134A 855 TABLE A-11 PROPERTIES OF SATURATED AMMONIA 856 TABLE A-12
PROPERTIES OF SATURATED PROPANE 857 TABLE A-13 PROPERTIES OF LIQUIDS 858
TABLE A-14 PROPERTIES OF LIQUID METALS 859 XIV CONTENTS TABLE A-15
PROPERTIES OF AIR AT 1 ATM PRESSURE 860 TABLE A-16 PROPERTIES OF GASES
AT 1 ATM PRESSURE 861-862 TABLE A-17 PROPERTIES OF THE ATMOSPHERE AT
HIGH ALTITUDE 863 TABLE A-18 EMISSIVITIES OF SURFACE 864-865 TABLE A-19
SOLAR RADIATIVE PROPERTIES OF MATERIALS 866 FIGURE A-20 THE MOODY CHART
FOR THE FRICTION FACTOR FOR FULLY DEVELOPED FLOW IN CIRCULAR PIPES 867
APPENDIX 2 PROPERTY TABLES AND CHARTS (ENGLISH UNITS) 869 TABLE A-1 E
MOLAR MASS, GAS CONSTANT, AND IDEAL-GAS SPECIFIC HEATS OF SOME
SUBSTANCES 870 TABLE A-2E BOILING AND FREEZING POINT PROPERTIES 871
TABLE A-3E PROPERTIES OF SOLID METALS 872-873 TABLE A-4E PROPERTIES OF
SOLID NONMENTALS 874 TABLE A-5E PROPERTIES OF BUILDING MATERIALS 875-876
TABLE A-6E PROPERTIES OF INSULATING MATERIALS 877 TABLE A-7E PROPERTIES
OF COMMON FOODS 878-879 TABLE A-8E PROPERTIES OF MISCELLANEOUS MATERIALS
880 TABLE A-9E PROPERTIES OF SATURATED WATER TABLE A-10E PROPERTIES OF
SATURATED REFRIGERANT-134A 882 TABLE A-11E PROPERTIES OF SATURATED
AMMONIA 883 TABLE A-12E PROPERTIES OF SATURATED PROPANE TABLE A-13E
PROPERTIES OF LIQUIDS 885 TABLE A-14E PROPERTIES OF LIQUID METALS TABLE
A-15E PROPERTIES OF AIR AT 1 ATM PRESSURE 887 TABLE A-16E PROPERTIES OF
GASES AT 1 ATM PRESSURE 888-889 TABLE A-17E PROPERTIES OF THE ATMOSPHERE
AT HIGH ALTITUDE 890 INDEX 891 881 884 |
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| author | Çengel, Yunus A. Klein, Sanford A. 1950- |
| author_GND | (DE-588)1023566028 |
| author_facet | Çengel, Yunus A. Klein, Sanford A. 1950- |
| author_role | aut aut |
| author_sort | Çengel, Yunus A. |
| author_variant | y a ç ya yaç s a k sa sak |
| building | Verbundindex |
| bvnumber | BV022266313 |
| callnumber-first | T - Technology |
| callnumber-label | TJ260 |
| callnumber-raw | TJ260 |
| callnumber-search | TJ260 |
| callnumber-sort | TJ 3260 |
| callnumber-subject | TJ - Mechanical Engineering and Machinery |
| classification_rvk | UG 2300 UG 2500 |
| ctrlnum | (OCoLC)62281392 (DE-599)BVBBV022266313 |
| dewey-full | 621.402/2 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.402/2 |
| dewey-search | 621.402/2 |
| dewey-sort | 3621.402 12 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Energietechnik |
| discipline_str_mv | Physik Energietechnik |
| edition | 3. ed. |
| format | Book |
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| id | DE-604.BV022266313 |
| illustrated | Illustrated |
| index_date | 2024-07-02T16:44:31Z |
| indexdate | 2024-07-09T20:53:42Z |
| institution | BVB |
| isbn | 0073129305 007325035X 9780073129303 |
| language | English |
| lccn | 2005031039 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015476886 |
| oclc_num | 62281392 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | XXIV, 901 S. zahlr. Ill. und graph. Darst. 1 CD-ROM (12 cm) |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | McGraw-Hill |
| record_format | marc |
| series2 | McGraw-Hill series in mechanical engineering |
| spelling | Çengel, Yunus A. Verfasser aut Heat and mass transfer a practical approach Yunus A. Çengel 3. ed. Boston [u.a.] McGraw-Hill 2007 XXIV, 901 S. zahlr. Ill. und graph. Darst. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier McGraw-Hill series in mechanical engineering CD-ROM-Beil. u.d.T.: Klein, Sanford: Engineering equation solver Chaleur - Transmission Transfert de masse Heat Transmission Mass transfer Stoffübertragung (DE-588)4057696-6 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 s DE-604 Stoffübertragung (DE-588)4057696-6 s Klein, Sanford A. 1950- (DE-588)1023566028 aut Engineering equation solver http://www.loc.gov/catdir/enhancements/fy0665/2005031039-t.html Table of contents only http://www.loc.gov/catdir/enhancements/fy0665/2005031039-d.html Publisher description HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015476886&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Çengel, Yunus A. Klein, Sanford A. 1950- Heat and mass transfer a practical approach Chaleur - Transmission Transfert de masse Heat Transmission Mass transfer Stoffübertragung (DE-588)4057696-6 gnd Wärmeübertragung (DE-588)4064211-2 gnd |
| subject_GND | (DE-588)4057696-6 (DE-588)4064211-2 |
| title | Heat and mass transfer a practical approach |
| title_alt | Engineering equation solver |
| title_auth | Heat and mass transfer a practical approach |
| title_exact_search | Heat and mass transfer a practical approach |
| title_exact_search_txtP | Heat and mass transfer a practical approach |
| title_full | Heat and mass transfer a practical approach Yunus A. Çengel |
| title_fullStr | Heat and mass transfer a practical approach Yunus A. Çengel |
| title_full_unstemmed | Heat and mass transfer a practical approach Yunus A. Çengel |
| title_short | Heat and mass transfer |
| title_sort | heat and mass transfer a practical approach |
| title_sub | a practical approach |
| topic | Chaleur - Transmission Transfert de masse Heat Transmission Mass transfer Stoffübertragung (DE-588)4057696-6 gnd Wärmeübertragung (DE-588)4064211-2 gnd |
| topic_facet | Chaleur - Transmission Transfert de masse Heat Transmission Mass transfer Stoffübertragung Wärmeübertragung |
| url | http://www.loc.gov/catdir/enhancements/fy0665/2005031039-t.html http://www.loc.gov/catdir/enhancements/fy0665/2005031039-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015476886&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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