Handbook of heat transfer:
Gespeichert in:
| Vorheriger Titel: | Handbook of heat transfer fundamentals |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
McGraw-Hill
1998
|
| Ausgabe: | 3. ed. |
| Schriftenreihe: | MacGraw-Hill handbooks
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Getr. Zählung Ill., graph. Darst. |
| ISBN: | 0070535558 |
Internformat
MARC
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| 008 | 981006s1998 xx ad|| |||| 00||| eng d | ||
| 020 | |a 0070535558 |9 0-07-053555-8 | ||
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| 050 | 0 | |a QC320.4 | |
| 082 | 0 | |a 621.402/2 |2 21 | |
| 084 | |a UG 2500 |0 (DE-625)145618: |2 rvk | ||
| 084 | |a MTA 720b |2 stub | ||
| 245 | 1 | 0 | |a Handbook of heat transfer |c Warren M. Rohsenow, ed. ... |
| 250 | |a 3. ed. | ||
| 264 | 1 | |a New York [u.a.] |b McGraw-Hill |c 1998 | |
| 300 | |a Getr. Zählung |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a MacGraw-Hill handbooks | |
| 650 | 4 | |a Chaleur - Transmission - Guides, manuels, etc | |
| 650 | 7 | |a Transferencia de calor e massa |2 larpcal | |
| 650 | 4 | |a Transfert de masse - Guides, manuels, etc | |
| 650 | 7 | |a Warmtetransport |2 gtt | |
| 650 | 4 | |a Heat |x Transmission |v Handbooks, manuals, etc | |
| 650 | 4 | |a Mass transfer |v Handbooks, manuals, etc | |
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| 689 | 0 | 0 | |a Wärmeübertragung |0 (DE-588)4064211-2 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Rohsenow, Warren M. |e Sonstige |4 oth | |
| 780 | 0 | 0 | |i 2. Auflage |t Handbook of heat transfer fundamentals |
| 787 | 0 | 8 | |i 2. Aufl. u.d.T. |t Handbook of heat transfer fundamentals |
| 856 | 4 | 2 | |m HBZ Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008254901&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-008254901 | |
Datensatz im Suchindex
| _version_ | 1817704546008301568 |
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| adam_text |
CONTENTS
Contributors xvii
Preface xix
Chapter 1. Basic Concepts of Heat Transfer 1.1
Heat Transfer Mechanisms / /./
Conduction / 1.1
Radiation / 1.3
Convection / 1.4
Combined Heat Transfer Mechanisms / 1.10
Conservation Equations / 1.11
The Equation of Continuity / 1.13
The Equation of Motion (Momentum Equation) / 1.14
The Energy Equation / 1.18
The Conservation Equations for Species / 1.21
Use of Conservation Equations to Set Up Problems / 1.22
Dimensionless Groups and Similarity in Heat Transfer / 1.23
Units and Conversion Factors / 1.29
Nomenclature / 1.31
References / 1.36
Chapter 2. Thermophysical Properties 2.1
Conversion Factors / 2.1
Thermophysical Properties of Gases / 2.3
Thermophysical Properties of Liquids / 2.26
Thermophysical Properties of Solids / 2.46
Thermophysical Properties of Saturated Refrigerants / 2.69
Acknowledgment / 2.73
Nomenclature / 2.73
References / 2.73
Selected Additional Sources of Thermophysical Properties / 2.74
Chapter 3. Conduction and Thermal Contact Resistances (Conductances) 3.1
Introduction / 3.1
Basic Equations, Definitions, and Relationships / 3.2
Shape Factors / 3.3
Shape Factors for Ellipsoids: Integral Form for Numerical Calculations / 3.11
Shape Factors for Three Dimensional Bodies in Unbounded Domains / 3.15
Three Dimensional Bodies with Layers: Langmuir Method / 3.19
Shape Factors for Two Dimensional Systems / 3.20
Transient Conduction / 3.23
Introduction / 3.23
Internal Transient Conduction / 3.23
Lumped Capacitance Model / 3.24
v
vi CONTENTS
Heisler and Grober Charts—Single Term Approximations / 3.24
Multidimensional Systems / 3.25
Transient One Dimensional Conduction in Half Spaces / 3.26
External Transient Conduction from Long Cylinders / 3.28
Transient External Conduction from Spheres / 3.29
Instantaneous Thermal Resistance / 3.30
Transient External Conduction from Isothermal Convex Bodies / 3.37
Spreading (Constriction) Resistance / 3.34
Introduction / 3.34
Definitions of Spreading Resistance / 3.34
Spreading Resistance of Isoflux Arbitrary Areas on Half Space / 3.35
Circular Annular Contact Areas on Half Space / 3.36
Doubly Connected Isoflux Contact Areas on Half Space / 3.37
Effect of Contact Conductance on Spreading Resistance / 3.38
Spreading Resistance in Flux Tubes and Channels / 3.39
Effect of Flux Distribution on Circular Contact Area on Half Space / 3.39
Simple Correlation Equations of Spreading Resistance for Circular Contact Area / 3.40
Accurate Correlation Equations for Various Combinations of Contact Area, Flux Tubes,
and Boundary Condition / 3.40
General Spreading Resistance Expression for Circular Annular Area on Circular Flux Tube / 3.41
Spreading Resistance Within Two Dimensional Channels / 3.41
Effect of Single and Multiple Layers (Coatings) on Spreading Resistance / 3.43
Circular Contact Area on Single Layer (Coating) on Half Space / 3.46
Circular Contact Area on Multiple Layers on Circular Flux Tube / 3.47
Transient Spreading Resistance / 3.48
Transient Spreading Resistance of Isoflux Hyperellipse Contact Area on Half Space / 3.49
Transient Spreading Resistance of Isoflux Regular Polygonal Contact Area on Half Space / 3.50
Transient Spreading Resistance Within Semi Infinite Flux Tubes and Channels / 3.50
Contact, Gap, and Joint Resistances and Contact Conductances / 3.57
Point and Line Contact Models / 3.51
Thermal Contact, Gap, and Joint Conductance Models / 3.55
Gap Conductance Model and Integral / 3.59
Acknowledgments / 3.60
Nomenclature / 3.60
References / 3.67
Chapter 4. Natural Convection 4.1
Introduction / 4.1
Basics / 4.1
Equations of Motion and Their Simplification / 4.1
Problem Classification / 4.5
Heat Transfer Correlation Method / 4.6
External Natural Convection / 4.12
Flat Plates / 4.20
Cylinders / 4.26
Open Cavity Problems / 4.32
Cooling Channels / 4.32
Extended Surfaces / 4.36
Natural Convection Within Enclosures / 4.40
Introduction / 4.40
Geometry and List of Parameters for Cavities Without Interior Solids / 4.40
The Conduction Layer Model / 4.43
Horizontal Rectangular Parallelepiped and Circular Cylinder Cavities / 4.44
Heat Transfer in Vertical Rectangular Parallelepiped Cavities: 9 = 90° / 4.50
Heat Transfer in Inclined Rectangular Cavities / 4.55
Heat Tranfer in Enclosures with Interior Solids at Prescribed Temperature / 4.58
Partitioned Enclosures / 4.60
CONTENTS vii
Transient Natural Convection / 4.63
External Transient Convection / 4.63
Internal Transient Convection / 4.66
Natural Convection with Internal Generation / 4.68
Internal Problems / 4.68
Convection in Porous Media / 4.69
Properties and Dimensionless Groups / 4.69
External Heat Transfer Correlations / 4.71
Internal Heat Transfer Correlations / 4.72
Mixed Convection / 4.73
External Flows / 4.73
Internal Flows / 4.78
Acknowledgments / 4.80
Nomenclature / 4.80
References / 4.87
Chapter 5. Forced Convection, Internal Flow in Ducts 5.1
Introduction / 5.1
Scope of the Chapter / 5.7
Characteristics of Laminar Flow in Ducts / 5.7
Characteristics of Turbulent Flow in Ducts / 5.2
Hydraulic Diameter / 5.3
Fluid Flow Parameters / 5.3
Heat Transfer Parameters / 5.4
Thermal Boundary Conditions / 5.5
Circular Ducts / 5.5
Laminar Flow / 5.6
Turbulent Flow / 5.75
Transition Flow / 5.30
Concentric Annular Ducts / 5.32
Four Fundamental Thermal Boundary Conditions / 5.32
Laminar Flow / 5.33
Turbulent Flow / 5.50
Parallel Plate Ducts / 5.59
Laminar Flow / 5.59
Turbulent Flow / 5.65
Rectangular Ducts / 5.67
Laminar Flow / 5.67
Turbulent Flow / 5.72
Triangular Ducts / 5.73
Laminar Flow / 5.73
Turbulent Flow / 5.78
Elliptical Ducts / 5.82
Laminar Flow / 5.82
Turbulent Flow / 5.84
Curved Ducts and Helicoidal Pipes / 5.84
Fully Developed Laminar Flow / 5.85
Developing Laminar Flow / 5.90
Turbulent Flow in Coils with Circular Cross Sections / 5.90
Fully Developed Laminar Flow in Curved, Square, and Rectangular Ducts / 5.91
Fully Developed Turbulent Flow in Curved Rectangular and Square Ducts / 5.92
Laminar Flow in Coiled Annular Ducts / 5.92
Laminar Flow in Curved Ducts with Elliptic Cross Sections / 5.92
Longitudinal Flow Between Cylinders / 5.93
Laminar Flow / 5.93
Fully Developed Turbulent Flow / 5.97
Viii CONTENTS
Internally Finned Tubes / 5.99
Circular Ducts with Thin Longitudinal Fins / 5.100
Square Ducts with Thin Longitudinal Fins / 5.101
Rectangular Ducts with Longitudinal Fins from Opposite Walls / 5.101
Circular Ducts with Longitudinal Triangular Fins / 5.101
Circular Ducts with Twisted Tape / 5.102
Semicircular Ducts with Internal Fins / 5.104
Elliptical Ducts with Internal Longitudinal Fins / 5.104
Other Singly Connected Ducts / 5.705
Sine Ducts / 5.105
Trapezoidal Ducts / 5.106
Rhombic Ducts / 5.107
Quadrilateral Ducts / 5.107
Regular Polygonal Ducts / 5.107
Circular Sector Ducts / 5.108
Circular Segment Ducts / 5.108
Annular Sector Ducts / 5.110
Stadium Shaped Ducts / 5.111
Moon Shaped Ducts / 5.113
Corrugated Ducts / 5.113
Parallel Plate Ducts with Spanwise Periodic Corrugations at One Wall / 5.115
Cusped Ducts / 5.116
Cardioid Ducts / 5.117
Unusual Singly Connected Ducts / 5.117
Other Doubly Connected Ducts / 5.777
Confocal Elliptical Ducts / 5.777
Regular Polygonal Ducts with Centered Circular Cores / 5.778
Circular Ducts with Centered Regular Polygonal Cores / 5.77S
Isosceles Triangular Ducts with Inscribed Circular Cores / 5.720
Elliptical Ducts with Centered Circular Cores / 5.720
Concluding Remarks / 5.720
Nomenclature / 5.720
References / 5.725
Chapter 6. Forced Convection, External Flows 6.1
Introduction / 6.1
Definition of Terms / 6.2
Two Dimensional Laminar Boundary Layer / 6.2
Uniform Free Stream Conditions / 6.2
Surface with Streamwise Pressure Gradient / 6.28
Two Dimensional Turbulent Boundary Layer / 6.46
Turbulence Transport Mechanisms and Modeling / 6.46
Uniform Free Stream Conditions / 6.54
Transitional Boundary Layers / 6.72
Transitional Boundary Layers for Uniform Free Stream Velocity / 6.72
Complex Configurations / 6.74
Nomenclature / 6.75
References / 6.80
Chapter 7. Radiation 7.1
Introduction / 7.7
Radiation Intensity and Flux / 7.2
Blackbody Radiation / 7.3
Nonblack Surfaces and Materials / 7.6
CONTENTS ix
Radiative Exchange: Enclosures Containing a Nonparticipating Medium / 7.12
Black Surfaces / 7.12
Exchange Among Gray Diffuse Surfaces / 7.16
Radiative Exchange with a Participating Medium / 7.19
Fundamentals and Definitions / 7.19
Solution Techniques for the RTE / 7.24
Solutions to Benchmark Problems / 7.43
Radiative Properties for Participating Media / 7.44
Radiative Properties of Gases / 7.44
Radiative Properties of Particulates / 7.55
Radiative Properties of Porous Materials / 7.66
Radiative Properties of Semitransparent Materials / 7.69
Combined Modes with Radiation / 7.70
The General Energy Equation / 7.70
Interaction with Conduction and Convection / 7.71
Interaction with Combustion and Turbulence / 7.71
Closing Remarks / 7.72
Appendix A: Radiative Property Tables / 7.73
Appendix B: Radiation Configuration Factors / 7.76
Nomenclature / 7.84
References / 7.86
Chapter 8. Microscale Transport Phenomena ( 8.1
Introduction / 8.1
Time and Length Scales / 8.2
Kinetic Theory / 8.3
Formulation / 8.3
Thermal Conductivity of Crystalline and Amorphous Solids / 8.5
Boltzmann Transport Theory / 8.9
General Formulation / 8.9
Fourier and Ohm's Laws / 8.11
Hyperbolic Heat Equation / 8.12
Mass, Momentum, and Energy Conservation—Hydrodynamic Equations / 8.12
Equation of Radiative Transfer for Photons and Phonons / 8.15
Nonequilibrium Energy Transfer / 8.16
Joule Heating in High Field Electronic Devices / 8.17
Radiative Heating by Ultrashort Laser Pulses / 8.21
Summary / 8.23
Nomenclature / 8.24
References / 8.25
Chapter 9. Heat Transfer in Porous Media 9.1
Introduction / 9.1
Single Phase Flow / 9.4
Conduction Heat Transfer / 9.4
Convection Heat Transfer / 9.7
Radiation Heat Transfer / 9.13
Two Medium Treatment / 9.32
Two Phase Flow / 9.35
Momentum Equations for Liquid Gas Flow / 9.36
Local Volume Averaging of Energy Equation / 9.38
Effective Thermal Conductivity / 9.41
Thermal Dispersion / 9.42
Phase Change / 9.44
Condensation at Vertical Impermeable Bounding Surfaces / 9.44
Evaporation at Vertical Impermeable Bounding Surfaces / 9.51
X CONTENTS
Evaporation at Horizontal Impermeable Bounding Surfaces / 9.52
Evaporation at Thin Porous Layer Coated Surfaces / 9.58
Melting and Solidification / 9.60
Nomenclature / 9.68
Glossary / 9.72
References / 9.76
Chapter 10. Nonnewtonian Fluids 10.1
Introduction / 10.1
Overview / 10.1
Classification of Nonnewtonian Fluids / 10.1
Material Functions of Nonnewtonian Fluids / 10.2
Rheological Property Measurements / 10.3
Thermophysical Properties of Nonnewtonian Fluids / 10.7
Governing Equations of Nonnewtonian Fluids / 10.8
Use of Reynolds and Prandtl Numbers / 10.9
Use of the Weissenberg Number / 10.11
Laminar Nonnewtonian Flow in a Circular Tube / 10.11
Velocity Distribution and Friction Factor / 10.11
Fully Developed Heat Transfer / 10.13
Laminar Heat Transfer in the Thermal Entrance Region / 10.13
Laminar Nonnewtonian Flow in a Rectangular Duct / 10.14
Velocity Distribution and Friction Factor / 10.14
Fully Developed Heat Transfer—Purely Viscous Fluids / 10.17
Heat Transfer in the Thermal Entrance Region—Purely Viscous Fluids / 10.21
Laminar Heat Transfer to Viscoelastic Fluids in Rectangular Ducts / 10.23
Turbulent Flow of Purely Viscous Fluids in Circular Tubes / 10.29
Fully Established Friction Factor / 10.29
Heat Transfer / 10.30
Turbulent Flow of Viscoelastic Fluids in Circular Tubes / 10.31
Friction Factor and Velocity Distribution / 10.31
Heat Transfer / 10.35
Degradation / 10.38
Solvent Effects / 10.40
Failure of the Reynolds Colburn Analogy / 10.41
Turbulent Flow of Purely Viscous Fluids in Rectangular Ducts / 10.42
Friction Factor / 10.42
Heat Transfer / 10.43
Turbulent Flow of Viscoelastic Fluids in Rectangular Ducts / 10.43
Friction Factor / 10.43
Heat Transfer / 10.44
Anomalous Behavior of Aqueous Polyacrylic Acid Solutions / 10.45
Flow over Surfaces; Free Convection; Boiling / 10.45
Flow over Surfaces / 10.45
Free Convection / 10.45
Boiling / 10.46
Suspensions and Surfactants / 10.46
Flow of Food Products / 10.46
Electrorheological Flows / 10.46
Nomenclature / 10.46
References / 10.49
Chapter 11. Techniques to Enhance Heat Transfer 11.1
Introduction / 11.1
General Background / 11.1
Classification of Heat Transfer Enhancement Techniques / 11.1
Performance Evaluation Criteria / 11.3
CONTENTS xi
Treated and Structured Surfaces / 11.6
Boiling / 11.6
Condensing / 11.9
Rough Surfaces / 11.9
Single Phase Flow / 11.9
Boiling / 11.15
Condensing / 11.15
Extended Surfaces / 11.16
Single Phase Flow / 11.16
Boiling / 11.21
Condensing / 11.24
Displaced Enhancement Devices / 11.29
Single Phase Flow / 11.29
Flow Boiling / 11.32
Condensing / 11.33
Swirl Flow Devices / 11.34
Single Phase Flow / 11.34
Boiling / 11.38
Condensing / 11.40
Surface Tension Devices / 11.41
Additives for Liquids / 11.41
Solid Particles in Single Phase Flow / 11.41
Gas Bubbles in Single Phase Flow / 11.41
Liquid Additives for Boiling / 11.42
Additives for Gases / 11.44
Solid Particles in Single Phase Flow / 11.44
Liquid Drops in Single Phase Flow / 11.45
Mechanical Aids / 11.45
Stirring / 11.45
Surface Scraping / 11.46
Rotating Surfaces / 11.46
Surface Vibration / 11.46
Single Phase Flow / 11.46
Boiling / 11.49
Condensing / 11.49
Fluid Vibration / 11.49
Single Phase Flow / 11.49
Boiling / 11.51
Condensing / 11.52
Electric and Magnetic Fields / 11.52
Injection / 11.54
Suction / 11.55
Compound Enhancement / 11.55
Prospects for the Future / 11.56
Nomenclature / 11.57
References / 11.60
Chapter 12. Heat Pipes 12.1
Introduction / 12.1
Fundamental Operating Principles / 12.2
Capillary Limitation / 12.3
Other Limitations / 12.8
Design and Manufacturing Considerations / 12.10
Working Fluid / 12.11
Wicking Structures / 12.11
Materials Compatibility / 12.12
Heat Pipe Sizes and Shapes / 12.12
Reliability and Life Tests / 12.13
xii CONTENTS
Heat Pipe Thermal Resistance / 12.14
Types of Heat Pipes / 12.15
Variable Conductance Heat Pipes / 12.15
Micro Heat Pipes / 12.16
Nomenclature / 12.17
References / 12.18
Chapter 13. Heat Transfer in Packed and Fluidized Beds 13.1
Introduction / 13.1
Hydrodynamics / 13.3
Packed Beds / 13.3
Fluidized Beds / 13.4
Heat Transfer in Packed Beds / 13.8
Particle to Fluid Heat Transfer / 13.9
Effective Thermal Conductivity / 13.9
Wall to Bed Heat Transfer / 13.13
Relative Heat Transfer / 13.14
Heat Transfer in Fluidized Beds / 13.14
Gas Solid Fluidized Beds / 13.14
Liquid Solid Fluidized Beds / 13.34
Concluding Remarks / 13.37
Nomenclature / 13.38
References / 13.41
Chapter 14. Condensation 14.1
Introduction / 14.1
Modes of Condensation / 14.1
Condensation Curve / 14.2
Thermal Resistances / 14.2
Film Condensation on a Vertical Plate / 14.4
Approximate Analysis / 14.4
Boundary Layer Analysis / 14.10
Film Condensation on Horizontal Smooth Tubes / 14.15
Single Tube / 14.15
Tube Bundles / 14.17
Film Condensation on Horizontal Finned Tubes / 14.22
Single Tube / 14.22
Other Body Shapes / 14.25
Inclined Circular Tubes / 14.25
Inclined Upward Facing Plates / 14.25
Horizontal Upward Facing Plates and Disks / 14.26
Bottom of a Container / 14.27
Horizontal and Inclined Downward Facing Plates and Disks / 14.27
General Axisymmetric Bodies / 14.28
Horizontal and Inclined Elliptical Cylinders / 14.29
Vertically Oriented Helical Coils / 14.29
Condensation with Rotation / 14.30
Zero Gravity / 14.31
In Tube Condensation / 14.31
Flow Regimes / 14.31
Vertical Tubes / 14.33
Horizontal Tubes / 14.34
Pressure Losses / 14.38
Condenser Modeling / 14.40
Noncircular Passages / 14.41
CONTENTS Xiii
Direct Contact Condensation / 14.41
Condensation on Drops (Spray Condensers) / 14.41
Condensation on Jets and Sheets / 14.42
Condensation on Films / 14.43
Condensation on Vapor Bubbles / 14.44
Condensation of Mixtures / 14.45
Equilibrium Methods / 14.46
Nonequilibrium Methods / 14.48
Nomenclature / 14.49
References / 14.54
Chapter 15. Boiling 15.1
Introduction / 15.1
General Considerations / 15.1
Manifestations of Boiling Heat Transfer / 15.2
Stucture of This Chapter / 15.2
Phase Equilibrium / 15.3
Single Component Systems / 15.3
Multicomponent Systems / 15.5
Nucleation and Bubble Growth / 15.6
Equilibrium of a Bubble / 15.6
Homogeneous Nucleation / 15.7
Heterogeneous Nucleation / 15.9
Bubble Growth / 15.18
Bubble Release Diameter and Frequency / 15.26
Pool Boiling / 15.30
Pool Boiling Heat Transfer Before the Critical Heat Flux Limit / 15.31
The Critical Heat Flux Limit in Pool Boiling / 15.56
Heat Transfer Beyond the Critical Heat Flux Limit in Pool Boiling / 15.66
Cross Flow Boiling / 15.75
Heat Transfer Below the Critical Heat Flux Limit in Cross Flow Boiling / 15.77
Critical Heat Flux in Cross Flow Boiling / 15.81
Heat Transfer Beyond the Critical Heat Flux Limit in Cross Flow Boiling / 15.83
Forced Convective Boiling in Channels / 15.84
Heat Transfer Below the Critical Heat Flux Limit in Forced Convective Boiling in Channels / 15.89
Critical Heat Flux in Forced Convective Boiling in Channels / 15.112
Heat Transfer Beyond the Critical Heat Flux Limit in Forced Convective
Boiling in Channels / 15.132
Thin Film Heat Transfer / 15.137
Evaporating Liquid Films: Laminar Flow / 15.138
Evaporating Liquid Films: Turbulent Flow / 75.140
Evaporating Liquid Films: Multicomponent Mixtures / 15.140
Evaporating Liquid Films with Nucleate Boiling / 75.747
Heat Transfer to a Nonevaporating (Subcooled) Falling Liquid Film / 15.141
Film Breakdown / 15.142
Rewetting of Hot Surfaces / 15.143
Nomenclature / 15.145
References / 75.752
Chapter 16. Measurement of Temperature and Heat Transfer 16.1
Introduction / 76.7
Temperature Measurement / 76.2
Basic Concepts and Definitions / 76.2
Standards and Temperature Scales / 16.3
Sensors / 76.5
Local Temperature Measurement / 76.57
Calibration of Thermometers and Assurance of Measurements / 16.54
XIV CONTENTS
Heat Flux Measurement / 16.58
Basic Principles / 16.58
Methods / 16.59
Thermal Resistance Gauges / 16.60
Measurement by Analogy / 16.64
Introduction / 16.64
Sublimation Technique / 16.65
Electrochemical Technique / 16.66
Acknowledgments / 16.68
Nomenclature / 16.68
List of Abbreviations / 16.71
References / 16.71
Chapter 17. Heat Exchangers 17.1
Introduction / 17.1
Classification of Heat Exchangers / 17.2
Shell and Tube Exchangers / 77.2
Newer Designs of Shell and Tube Exchangers / 17.14
Compact Heat Exchangers / 17.15
Exchanger Heat Transfer and Pressure Drop Analysis / 17.25
Heat Transfer Analysis / 77.27
The e NTU, P NTU, and MTD Methods / 77.50
Fin Efficiency and Extended Surface Efficiency / 17.34
Extensions of the Basic Recuperator Thermal Design Theory / 17.47
e NTU,, and A n Methods for Regenerators / 77.55
Single Phase Pressure Drop Analysis / 77.62
Single Phase Surface Basic Heat Transfer and Flow Friction Characteristics / 77.66
Experimental Methods / 77.69
Analytical Solutions / 77.76
Experimental Correlations / 17.84
Influence of Temperature Dependent Fluid Properties / 17.88
Influence of Superimposed Free Convection / 17.89
Two Phase Heat Transfer and Pressure Drop Correlations / 77.S9
Flow Patterns / 77. S9
Two Phase Pressure Drop Correlations / 77.95
Heat Transfer Correlations for Condensation / 77.97
Heat Transfer Correlations for Boiling / 17.103
Thermal Design for Single Phase Heat Exchangers / 17.105
Exchanger Design Methodology / 17.105
Extended Surface Heat Exchangers / 17.105
Shell and Tube Heat Exchangers / 17.111
Thermal Design for Two Phase Heat Exchangers / 17.120
Condensers / 17.120
Vaporizers / 17.125
Flow Induced Vibration / 17.127
Tube Vibration / 77.727
Acoustic Vibrations / 17.128
Design Guidelines for Vibration Mitigation / 17.136
Flow Maldistribution / 17.136
Geometry Induced Flow Maldistribution / 17.136
Flow Maldistribution Induced by Operating Conditions / 17.141
Mitigation of Flow Maldistribution / 17.145
Fouling and Corrosion / 17.146
Fouling / 77.747
Corrosion / 17.152
Concluding Remarks / 77.75J
Nomenclature / 17.154
References / 77.762
CONTENTS XV
Chapter 18. Heat Transfer in Materials Processing 18.1
Introduction / 18.1
Heat Transfer Fundamentals Relevant to Materials Processing / 18.2
Conduction Heat Transfer / 18.2
Conduction Heat Transfer in Beam Irradiated Materials / 18.2
Conduction Heat Transfer with Thermomechanical Effects / 18.9
Single Phase Convective Heat Transfer / 18.12
Two Phase Convective Heat Transfer / 18.26
Radiation Heat Transfer / 18.35
System Level Thermal Phenomena / 18.43
Heating of a Load Inside Industrial Furnaces / 18.43
Quenching / 18.51
Processing of Several Advanced Materials / 18.57
Concluding Remarks / 18.61
Nomenclature / 18.61
References / 18.65
Index follows Chapter 18 |
| any_adam_object | 1 |
| building | Verbundindex |
| bvnumber | BV012181620 |
| callnumber-first | Q - Science |
| callnumber-label | QC320 |
| callnumber-raw | QC320.4 |
| callnumber-search | QC320.4 |
| callnumber-sort | QC 3320.4 |
| callnumber-subject | QC - Physics |
| classification_rvk | UG 2500 |
| classification_tum | MTA 720b |
| ctrlnum | (OCoLC)632976211 (DE-599)BVBBV012181620 |
| 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 |
| edition | 3. ed. |
| format | Book |
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| id | DE-604.BV012181620 |
| illustrated | Illustrated |
| indexdate | 2024-12-06T15:15:39Z |
| institution | BVB |
| isbn | 0070535558 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008254901 |
| oclc_num | 632976211 |
| open_access_boolean | |
| owner | DE-703 DE-92 DE-91G DE-BY-TUM DE-20 DE-634 DE-83 DE-706 |
| owner_facet | DE-703 DE-92 DE-91G DE-BY-TUM DE-20 DE-634 DE-83 DE-706 |
| physical | Getr. Zählung Ill., graph. Darst. |
| publishDate | 1998 |
| publishDateSearch | 1998 |
| publishDateSort | 1998 |
| publisher | McGraw-Hill |
| record_format | marc |
| series2 | MacGraw-Hill handbooks |
| spelling | Handbook of heat transfer Warren M. Rohsenow, ed. ... 3. ed. New York [u.a.] McGraw-Hill 1998 Getr. Zählung Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier MacGraw-Hill handbooks Chaleur - Transmission - Guides, manuels, etc Transferencia de calor e massa larpcal Transfert de masse - Guides, manuels, etc Warmtetransport gtt Heat Transmission Handbooks, manuals, etc Mass transfer Handbooks, manuals, etc Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 s DE-604 Rohsenow, Warren M. Sonstige oth 2. Auflage Handbook of heat transfer fundamentals 2. Aufl. u.d.T. Handbook of heat transfer fundamentals HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008254901&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of heat transfer Chaleur - Transmission - Guides, manuels, etc Transferencia de calor e massa larpcal Transfert de masse - Guides, manuels, etc Warmtetransport gtt Heat Transmission Handbooks, manuals, etc Mass transfer Handbooks, manuals, etc Wärmeübertragung (DE-588)4064211-2 gnd |
| subject_GND | (DE-588)4064211-2 |
| title | Handbook of heat transfer |
| title_auth | Handbook of heat transfer |
| title_exact_search | Handbook of heat transfer |
| title_full | Handbook of heat transfer Warren M. Rohsenow, ed. ... |
| title_fullStr | Handbook of heat transfer Warren M. Rohsenow, ed. ... |
| title_full_unstemmed | Handbook of heat transfer Warren M. Rohsenow, ed. ... |
| title_old | Handbook of heat transfer fundamentals |
| title_short | Handbook of heat transfer |
| title_sort | handbook of heat transfer |
| topic | Chaleur - Transmission - Guides, manuels, etc Transferencia de calor e massa larpcal Transfert de masse - Guides, manuels, etc Warmtetransport gtt Heat Transmission Handbooks, manuals, etc Mass transfer Handbooks, manuals, etc Wärmeübertragung (DE-588)4064211-2 gnd |
| topic_facet | Chaleur - Transmission - Guides, manuels, etc Transferencia de calor e massa Transfert de masse - Guides, manuels, etc Warmtetransport Heat Transmission Handbooks, manuals, etc Mass transfer Handbooks, manuals, etc Wärmeübertragung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008254901&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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