Two-Phase Heat Transfer
(Sprache: Englisch)
A guide to two-phase heat transfer theory, practice, and applications
Designed primarily as a practical resource for design and development engineers, Two-Phase Heat Transfer contains the theories and methods of two-phase heat transfer that are...
Designed primarily as a practical resource for design and development engineers, Two-Phase Heat Transfer contains the theories and methods of two-phase heat transfer that are...
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Klappentext zu „Two-Phase Heat Transfer “
A guide to two-phase heat transfer theory, practice, and applicationsDesigned primarily as a practical resource for design and development engineers, Two-Phase Heat Transfer contains the theories and methods of two-phase heat transfer that are solution oriented. Written in a clear and concise manner, the book includes information on physical phenomena, experimental data, theoretical solutions, and empirical correlations. A very wide range of real-world applications and formulas/correlations for them are presented.
The two-phase heat transfer systems covered in the book include boiling, condensation, gas-liquid mixtures, and gas-solid mixtures. The author?a noted expert in this field?also reviews the numerous applications of two-phase heat transfer such as heat exchangers in refrigeration and air conditioning, conventional and nuclear power generation, solar power plants, aeronautics, chemical processes, petroleum industry, and more. Special attention is given to heat exchangers using mini-channels which are being increasingly used in a variety of applications. This important book:
* Offers a practical guide to two-phase heat transfer
* Includes clear guidance for design professionals by identifying the best available predictive techniques
* Reviews the extensive literature on heat transfer in two-phase systems
* Presents information to aid in the design and analysis of heat exchangers.
Written for students and research, design, and development engineers, Two-Phase Heat Transfer is a comprehensive volume that covers the theory, methods, and applications of two-phase heat transfer.
Inhaltsverzeichnis zu „Two-Phase Heat Transfer “
Preface xvii1 Introduction 1
1.1 Scope and Objectives of the Book 1
1.2 Basic Definitions 1
1.3 Various Models 2
1.3.1 Homogeneous Model 2
1.3.2 Separated Flow Models 2
1.3.3 Flow Pattern-Based Models 3
1.4 Classification of Channels 3
1.4.1 Based on Physical Dimensions 3
1.4.2 Based on Condensation Studies 3
1.4.3 Based on Boiling Flow Studies 4
1.4.4 Based on Two-Component Flow 4
1.4.5 Discussion 5
1.4.6 Recommendation 5
1.5 Flow Patterns in Channels 5
1.5.1 Horizontal Channels 5
1.5.1.1 Description of Flow Patterns 5
1.5.1.2 Flow Pattern Maps 6
1.5.2 Vertical Channels 7
1.5.3 Inclined Channels 7
1.5.4 Annuli 8
1.5.5 Minichannels 8
1.5.6 Horizontal Tube Bundles with Crossflow 9
1.5.7 Vertical Tube Bundles 10
1.5.8 Effect of Low Gravity 10
1.5.9 Recommendations 12
1.6 Heat Transfer in Single-Phase Flow 12
1.6.1 Flow Inside Channels 12
1.6.2 Vertical Tube/Rod Bundles with Axial Flow 13
1.6.3 Various Geometries 14
1.6.4 Liquid Metals 14
1.7 Calculation of Pressure Drop 14
1.7.1 Single-Phase Pressure Drop in Pipes 14
1.7.2 Two-Phase Pressure Drop in Pipes 15
1.7.3 Annuli and Vertical Tube Bundles 17
1.7.4 Horizontal Tube Bundles 17
1.7.5 Recommendations 17
1.8 Calculation of Void Fraction 17
1.8.1 Flow Inside Pipes 17
1.8.2 Flow in Tube Bundles 18
1.8.3 Recommendations 18
1.9 CFD Simulation 18
1.10 General Information 19
Nomenclature 19
References 20
2 Heat Transfer During Condensation 25
2.1 Introduction 25
2.2 Condensation on Plates 25
2.2.1 Nusselt Equations 25
2.2.2 Modifications to the Nusselt Equations 26
2.2.3
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Condensation with Turbulent Film 27
2.2.4 Condensation on Underside of a Plate 27
2.2.5 Recommendations 28
2.3 Condensation Inside Plain Channels 28
2.3.1 Laminar Condensation in Vertical Tubes 28
2.3.2 The Onset of Turbulence 28
2.3.3 Prediction of Heat Transfer in Turbulent Flow 29
2.3.3.1 Analytical Models 29
2.3.3.2 CFD Models 30
2.3.3.3 Empirical Correlations 30
2.3.3.4 Correlations Applicable to Both Macro and Minichannels 34
2.3.4 Recommendation 41
2.4 Condensation Outside Tubes 41
2.4.1 Single Tube 41
2.4.1.1 Stagnant Vapor 41
2.4.1.2 Moving Vapor 42
2.4.2 Bundles of Horizontal Tubes 42
2.4.2.1 Vapor Entry from Top 42
2.4.2.2 Vapor Entry from Side 44
2.4.3 Recommendations 44
2.5 Condensation with Enhanced Tubes 44
2.5.1 Condensation on Outside Surface 44
2.5.1.1 Single Tubes 44
2.5.1.2 Tube Bundles 46
2.5.2 Condensation Inside Enhanced Tubes 47
2.5.3 Recommendations 49
2.6 Condensation of Superheated Vapors 49
2.6.1 Stagnant Vapor on External Surfaces 49
2.6.2 Forced Flow on External Surfaces 49
2.6.3 Flow inside Tubes 50
2.6.4 Plate-Type Heat Exchangers 50
2.6.5 Recommendations 51
2.7 Miscellaneous Condensation Problems 51
2.7.1 Condensation on Stationary Cone 51
2.7.2 Condensation on a Rotating Disk 51
2.7.3 Condensation on Rotating Vertical Cone 52
2.7.4 Condensation on Rotating Tubes 52
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2.2.4 Condensation on Underside of a Plate 27
2.2.5 Recommendations 28
2.3 Condensation Inside Plain Channels 28
2.3.1 Laminar Condensation in Vertical Tubes 28
2.3.2 The Onset of Turbulence 28
2.3.3 Prediction of Heat Transfer in Turbulent Flow 29
2.3.3.1 Analytical Models 29
2.3.3.2 CFD Models 30
2.3.3.3 Empirical Correlations 30
2.3.3.4 Correlations Applicable to Both Macro and Minichannels 34
2.3.4 Recommendation 41
2.4 Condensation Outside Tubes 41
2.4.1 Single Tube 41
2.4.1.1 Stagnant Vapor 41
2.4.1.2 Moving Vapor 42
2.4.2 Bundles of Horizontal Tubes 42
2.4.2.1 Vapor Entry from Top 42
2.4.2.2 Vapor Entry from Side 44
2.4.3 Recommendations 44
2.5 Condensation with Enhanced Tubes 44
2.5.1 Condensation on Outside Surface 44
2.5.1.1 Single Tubes 44
2.5.1.2 Tube Bundles 46
2.5.2 Condensation Inside Enhanced Tubes 47
2.5.3 Recommendations 49
2.6 Condensation of Superheated Vapors 49
2.6.1 Stagnant Vapor on External Surfaces 49
2.6.2 Forced Flow on External Surfaces 49
2.6.3 Flow inside Tubes 50
2.6.4 Plate-Type Heat Exchangers 50
2.6.5 Recommendations 51
2.7 Miscellaneous Condensation Problems 51
2.7.1 Condensation on Stationary Cone 51
2.7.2 Condensation on a Rotating Disk 51
2.7.3 Condensation on Rotating Vertical Cone 52
2.7.4 Condensation on Rotating Tubes 52
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... weniger
Autoren-Porträt von Mirza Mohammed Shah
Mirza Mohammed Shah, PhD, PE, has over 50 years? experience of research and engineering. His more than 100 publications include his general predictive techniques for two-phase heat transfer which are widely used in the industry. He is Fellow of ASME and ASHRAE. Presently he is Director of Engineering Research Associates, an organization dedicated to promoting and performing research for developing practically useable solutions to problems.
Bibliographische Angaben
- Autor: Mirza Mohammed Shah
- 2021, 1. Auflage, 384 Seiten, Maße: 21,7 x 28,2 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1119618614
- ISBN-13: 9781119618614
Sprache:
Englisch
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