1278 Pages
by
CRC Press
1281 Pages
by
Routledge
Also available as eBook on:
This complete reference book covers topics in heat and mass transfer, containing extensive information in the form of interesting and realistic examples, problems, charts, tables, illustrations, and more. Heat and Mass Transfer emphasizes practical processes and provides the resources necessary for performing accurate and efficient calculations.
This excellent reference comes with a complete set of fully integrated software available for download at crcpress.com, consisting of 21 computer programs that facilitate calculations, using procedures developed in the text. Easy-to-follow instructions for software implementation make this a valuable tool for effective problem-solving.
Elementary Heat Transfer
Introduction
Heat Transfer and Its Relation to Thermodynamics
Modes of Heat Transfer
Combined Modes of Heat Transfer
Transient Thermal Response
Heat Exchangers
Dimensions and Units
Closure/References/Exercises
Steady One-Dimensional Heat Conduction
Introduction
Fourier's Law of Heat Conduction
Conduction across Cylindrical and Spherical Shells
Fins
Closure/References/Exercises
Multidimensional and Unsteady Conduction
Introduction
The Heat Conduction Equation
Multidimensional Steady Conduction
Unsteady Conduction
Moving-Boundary Problems
Numerical Solution Methods
Closure/References/Exercises
Convection Fundamentals and Correlations
Introduction
Fundamentals
Forced Convection
Natural Convection
Tube Banks and Packed Beds
Rotating Surfaces
Rough Surfaces
The Computer Program
Closure/References/Exercises
Convection Analysis
Introduction
High-Speed Flows
Laminar Boundary Layers
Turbulent Flows
Similarity and Modeling
The General Conservation Equations
Scale Analysis
Closure/References/Exercises
Thermal Radiation
Introduction
The Physics of Radiation
Radiation Exchange Between Surfaces
Solar Radiation
Directional Characteristics of Surface Radiation
Spectral Characteristics of Surface Radiation
Radiation Transfer through Gases
Closure/References/Exercises
Condensation, Evaporation, and Boiling
Introduction
Film Condensation
Film Evaporation
Pool Boiling
Forced-Convection Boiling and Condensation
Phase Change at Low Pressures
Heatpipes
Closure/References/Exercises
Heat Exchangers
Introduction
Types of Heat Exchangers
Energy Balances and the Overall Heat Transfer Coefficient
Single-Stream Steady-Flow Heat Exchangers
Two-Stream Steady-Flow Heat Exchangers
Regenerators
Elements of Heat Exchanger Design
Closure/References/Exercises
Elementary Mass Transfer
Introduction
Concentrations and Fick's Law of Diffusion
Mass Diffusion
Mass Convection
Simultaneous Heat and Mass Transfer
Mass Transfer in Porous Catalysts
Transport Properties
Closure/References/Exercises
High Mass Transfer Rate Theory
Introduction
Velocities, Fluxes, and the Species Conservation Equation
High Mass Transfer Rate Convection
Laminar Boundary Layers
A General Problem-Solving Procedure for Convective Heat and Mass Transfer
Closure/References/Exercises
Mass Exchangers
Introduction
System Balances
Single-Stream Mass Exchangers
Two-Stream Mass Exchangers
Simultaneous Heat and Mass Exchangers
Appendix A. Property Data
Appendix B. Units, Conversion Factors, and Mathematics
Appendix C. Charts
Bibliography. Nomenclature. Index.
Introduction
Heat Transfer and Its Relation to Thermodynamics
Modes of Heat Transfer
Combined Modes of Heat Transfer
Transient Thermal Response
Heat Exchangers
Dimensions and Units
Closure/References/Exercises
Steady One-Dimensional Heat Conduction
Introduction
Fourier's Law of Heat Conduction
Conduction across Cylindrical and Spherical Shells
Fins
Closure/References/Exercises
Multidimensional and Unsteady Conduction
Introduction
The Heat Conduction Equation
Multidimensional Steady Conduction
Unsteady Conduction
Moving-Boundary Problems
Numerical Solution Methods
Closure/References/Exercises
Convection Fundamentals and Correlations
Introduction
Fundamentals
Forced Convection
Natural Convection
Tube Banks and Packed Beds
Rotating Surfaces
Rough Surfaces
The Computer Program
Closure/References/Exercises
Convection Analysis
Introduction
High-Speed Flows
Laminar Boundary Layers
Turbulent Flows
Similarity and Modeling
The General Conservation Equations
Scale Analysis
Closure/References/Exercises
Thermal Radiation
Introduction
The Physics of Radiation
Radiation Exchange Between Surfaces
Solar Radiation
Directional Characteristics of Surface Radiation
Spectral Characteristics of Surface Radiation
Radiation Transfer through Gases
Closure/References/Exercises
Condensation, Evaporation, and Boiling
Introduction
Film Condensation
Film Evaporation
Pool Boiling
Forced-Convection Boiling and Condensation
Phase Change at Low Pressures
Heatpipes
Closure/References/Exercises
Heat Exchangers
Introduction
Types of Heat Exchangers
Energy Balances and the Overall Heat Transfer Coefficient
Single-Stream Steady-Flow Heat Exchangers
Two-Stream Steady-Flow Heat Exchangers
Regenerators
Elements of Heat Exchanger Design
Closure/References/Exercises
Elementary Mass Transfer
Introduction
Concentrations and Fick's Law of Diffusion
Mass Diffusion
Mass Convection
Simultaneous Heat and Mass Transfer
Mass Transfer in Porous Catalysts
Transport Properties
Closure/References/Exercises
High Mass Transfer Rate Theory
Introduction
Velocities, Fluxes, and the Species Conservation Equation
High Mass Transfer Rate Convection
Laminar Boundary Layers
A General Problem-Solving Procedure for Convective Heat and Mass Transfer
Closure/References/Exercises
Mass Exchangers
Introduction
System Balances
Single-Stream Mass Exchangers
Two-Stream Mass Exchangers
Simultaneous Heat and Mass Exchangers
Appendix A. Property Data
Appendix B. Units, Conversion Factors, and Mathematics
Appendix C. Charts
Bibliography. Nomenclature. Index.
Biography
Anthony Mills