LIQUID-VAPOR PHASE-CHANGE PHENOMENA 3RD EDITION
9,890.00₹ 12,384.00₹
Hurry up! Offer ends in:
- Author: VAN P. CAREY
- ISBN: 9781498716611
- Availability: In Stock
Buy LIQUID-VAPOR PHASE-CHANGE PHENOMENA 3RD EDITION | Technical Books
ABOUT THE BOOK
Since
the second edition of Liquid-Vapor Phase-Change
Phenomena was written, research has substantially enhanced the
understanding of the effects of nano structured surfaces, effects of
micro channel and nano channel geometries, and effects of extreme wetting on
liquid-vapor phase-change processes. To cover advances in these areas, the new
third edition includes significant new coverage of micro channels and
nano structures, and numerous other updates. More worked examples and numerous
new problems have been added, and a complete solution manual and electronic
figures for classroom projection will be available for qualified adopting
professors.
PART 1: THERMODYNAMIC AND MECHANICAL ASPECTS
OF INTERFACIAL PHENOMENA AND PHASE TRANSITIONS
1 The Liquid-Vapor Interfacial Region – A Nanoscale Perspective
1.1 A Molecular Perspective on Liquid-Vapor Transitions
1.2 The Interfacial Region – Molecular Theories of Capillarity
1.3 Nanoscale Features of the Interfacial Region
1.4 Molecular Dynamic Simulation Studies of Interfacial Region Thermophysics
References
Problems
2 The Liquid-Vapor Interface – A Macroscopic Treatment
2.1 Thermodynamic Analysis of Interfacial Tension Effects
2.2 Determination of Interface Shapes at Equilibrium
2.3 Temperature and Surfactant Effects on Interfacial Tension
2.4 Surface Tension in Mixtures
2.5 Near Critical Point Behavior
2.6 Effects of Interfacial Tension Gradients
References
Problems
3 Wetting Phenomena and Contact Angles
3.1 Equilibrium Contact Angles on Smooth Surfaces
3.2 Wettability, Cohesion, and Adhesion
3.3 The Effect of Liquid Surface Tension on Contact Angle
3.4 Adsorption and Spread Thin Films
3.5 Contact-Angle Hysteresis
3.6 Other Metrics for Wettability
3.7 A Nanoscale View of Wettability
3.8 Wetting of Microstructured and Nanostructured Surfaces
References
Problems
4 Transport Effects and Dynamic Behavior of Interfaces
4.1 Transport Boundary Conditions
4.2 Kelvin-Helmholtz and Rayleigh-Taylor Instabilities
4.3 Interface Stability of Liquid Jets
4.4 Waves on Liquid Films
4.5 Interfacial Resistance in Vaporization and Condensation Processes
4.6 Maximum Flux Limitations
References
Problems
5 Phase Stability and Homogeneous Nucleation
5.1 Metastable States and Phase Stability
5.2 Thermodynamic Aspects of Homogeneous Nucleation in Superheated Liquid
5.3 The Kinetic Limit of Superheat
5.4 Comparison of Theoretical and Measured Superheat Limits
5.5 Thermodynamic Aspects of Homogeneous Nucleation in Supercooled Vapor
5.6 The Kinetic Limit of Supersaturation
5.7 Wall Interaction Effects on Homogeneous Nucleation
References
Problems
PART 2: BOILING AND CONDENSATION NEAR IMMERSED BODIES
6 Heterogeneous Nucleation and Bubble Growth in Liquids
6.1 Heterogeneous Nucleation at a Smooth Interface
6.2 Nucleation from Entrapped Gas or Vapor in Cavities
6.3 Criteria for the Onset of Nucleate Boiling
6.4 Bubble Growth in an Extensive Liquid Pool
6.5 Bubble Growth Near Heated Surfaces
6.6 Bubble Departure Diameter and the Frequency of Bubble Release
References
Problems
7 Pool Boiling
7.1 Regimes of Pool Boiling
7.2 Mechanisms and Models of Transport During Nucleate Boiling
7.3 Correlation of Nucleate Boiling Heat Transfer Data
7.4 Limitations of Nucleate Boiling Processes and the Maximum Heat Flux Transition
7.5 Minimum Heat Flux Conditions
7.6 Film Boiling
7.7 Transition Boiling
References
Problems
8 Other Aspects of Boiling and Evaporation in an Extensive Ambient
8.1 Additional Parametric Effects on Pool Boiling
8.2 The Leidenfrost Phenomenon
8.3 Fluid-Wall Interactions and Disjoining Pressure Effects
8.4 Pool Boiling Heat Transfer On Micro and Nano Structured Surfaces
8.5 Fundamentals of Pool Boiling in Binary Mixtures
References
Problems
9 External Condensation
9.1 Heterogeneous Nucleation in Vapors
9.2 Dropwise Condensation
9.3 Film Condensation on a Flat, Vertical Surface
9.4 Film Condensation on Cylinders and Axisymmetric Bodies
9.5 Effects of Vapor Motion and Interfacial Waves
9.6 Condensation in the Presence of a Noncondensable Gas
9.7 Enhancement of Condensation Heat Transfer
References
Problems
PART 3: INTERNAL FLOW CONVECTIVE BOILING AND CONDENSATION
10 Introduction to Two-Phase Flow
10.1 Two-Phase Flow Regimes
10.2 Basic Models and Governing Equations for One-Dimensional Two-Phase Flow
10.3 Determination of the Two-Phase Multiplier and Void Fraction
10.4 Analytical Models of Annular Flow
10.5 Effects of Flow Passage Size and Geometry
References
Problems
11 Internal Convective Condensation
11.1 Regimes of Convective Condensation in Conventional (Macro) Tubes
11.2 Analytical Modeling of Downflow Internal Convective Condensation
11.3 Correlation Methods for Convective Condensation Heat Transfer
11.4 Convective Condensation in Microchannels, Advanced Modeling, and Special Topics
11.5 Internal Convective Condensation of Binary Mixtures
References
Problems
12 Convective Boiling in Tubes and Channels
12.1 Regimes of Convective Boiling in Conventional (Macro) Tubes
12.2 Onset of Boiling in Internal Flows
12.3 Subcooled Flow Boiling
12.4 Saturated Flow Boiling
12.5 Critical Heat Flux Conditions for Internal Flow Boiling
12.6 Post-CHF Internal Flow Boiling
12.7 Internal Flow Boiling in Microchannels and Complex Enhanced Flow Passages
12.9 Internal Flow Boiling of Binary Mixtures
References
Problems
Appendix I Basic Elements of the Kinetic Theory of Gases
Appendix II Saturation Properties of Selected Fluids
Appendix III Analysis Details for the Molecular Theory of Capillarity