Description
Handbook of Heat Transfer (3rd Ed.)
Authors: ROHSENOW Warren M., HARTNETT James P., CHO Young I.
Language: EnglishSubject for Handbook of Heat Transfer:
Publication date: 08-1998
1600 p. · 19x24 cm · Hardback
Out of Print
1600 p. · 19x24 cm · Hardback
Out of Print
Description
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Basic concepts of heat transfer. Thermophysical properties. Conduction. Natural convection. Forced convection. Radiation. Microscale heat transfer. Heat triangle in porous media. Non-Newtonian fluids. Techniques to augment heat transfer. Heat pipes. Heat transfer in fluidized and packed bed. Condensation. Boiling. Two-phase flow. Heat exchangers. Heat transfer in material processing. Measurement of temperature and heat transfer.
Contributors Preface Chapter 1-Basic Concepts of Heat Transfer Heat
Transfer Mechanisms Conduction Radiation Convection Combined Heat Transfer
Mechanisms Conservation Equations The Equation of Continuity The Equation
of Motion (Momentum Equation) The Energy Equation The Conservation
Equations for Species Use of Conservation Equations to Set Up Problems
Dimensionless Groups and Similarity in Heat Transfer Units and Conversion
Factors Nomenclature References Chapter 2-Thermophysical Properties
Conversion Factors Thermophysical Properties of Gases Thermophysical
Properties of Liquids Thermophysical Properties of Solids Thermophysical
Properties of Saturated Refrigerants Acknowledgements Nomenclature
References Selected Additional Sources of Thermophysical Properties
Chapter 3-Conduction and Thermal Contact Resistance (Conductances)
Introduction Basic Equations, Definitions, and Relationships Shape Factors
Shape Factors for Ellipsoids: Integral Form for Numerical Calculations
Shape Factors for Three-Dimensional Bodies in Unbounded Domains
Three-Dimensional Bodies with Layers: Langmuir Method Shape Factors for
Two-Dimensional Systems Transient Conduction Introduction Internal
Transient Conduction Lumped Capacitance Model Heisler and Grober Charts
Single-Term Approximations Multidimensional Systems Transient
One-Dimensional Conduction in Half-Spaces External Transient Conduction
from Long Cylinders Transient External Conduction from Spheres
Instantaneous Thermal Resistance Transient External Conduction from
Isothermal Convex Bodies Spreading (Constriction) Resistance Introduction
Definitions of Spreading Resistance Spreading Resistance of Isoflux
Arbitrary Areas on Half-Space Circular Annular Contact Areas on Half-Space
Doubly Connected Isoflux Contact Areas on Half-Space Effect of Contact
Conductance on Spreading Resistance Spreading Resistance in Flux Tubes and
Channels Effect of Flux Distribution on Circular Contact Area on
Half-Space Simple Correlation Equations of Spreading Resistance for
Circular Contact Area Accurate Correlation Equations for Various
Combinations of Contact Area, Flux Tubes, and Boundary Condition General
Spreading Resistance Expression for Circular Annular Area on Circular Flux
Tube Spreading Resistance within Two-Dimensional Channels Effect of Single
and Multiple Layers (Coatings) on Spreading Resistance Circular Contact
Area on Single Layer (Coating) on Half-Space Circular Contact Area on
Multiple Layers on Circular Flux Tube Transient Spreading Resistance
Transient Spreading Resistance of Isoflux Hyperellipse Contact Area on
Half-Space Transient Spreading Resistance of Isoflux regular Polygonal
Contact Area on Half-Space Transient Spreading Resistance Within
Semi-Infinite Flux Tubes and Channels Contact, Gap, and Joint Resistances
and Contact Conductances Point and Line Contact Models Thermal Contact,
Gap, and Joint Conductance Models Gap Conductance Model and Integral
Acknowledgments Nomenclature References Chapter 4-Natural Convection
Introduction Basics Equations of Motion and Their Simplification Problem
Classification Heat Transfer Correlation Method External Natural
Convection Flat Plates Cylinders Open Cavity Problems Cooling Channels
Extended Surfaces Natural Convection within Enclosures Introduction
Geometry and List of Parameters for Cavities Without Interior Solids The
Conduction Layer Model Horizontal Rectangular Parallelepiped and Circular
Cylinder Cavities Heat Transfer in Vertical Rectangular Parallelepiped
Cavites: zero-ninety degrees Heat Transfer in Inclined Rectangular
Cavities Heat Transfer in Enclosures with Interior Solids at Prescribed
Temperature .
This definitive, one-volume handbook has been completely revised and updated to cover all recent advances in heat transfer, providing information and data to solve a wide range of heat transfer problems.
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