Efnisyfirlit

• Cover
• Title Page
• Copyright
• Preface
• Notes
• About the Author
• Acknowledgments
• List of Symbols
• About the Companion Website
• 1 Introduction
• 1.1 Fundamental Concepts
• 1.2 The Objective of Heat Transfer
• 1.3 Conduction
• 1.4 Convection
• 1.5 Radiation
• 1.6 Evolutionary Design
• References
• Problems
• Notes
• 2 Unidirectional Steady Conduction
• 2.1 Thin Walls
• 2.2 Cylindrical Shells
• 2.3 Spherical Shells
• 2.4 Critical Insulation Radius
• 2.5 Variable Thermal Conductivity
• 2.6 Internal Heat Generation
• 2.7 Evolutionary Design: Extended Surfaces (Fins)
• References
• Problems
• Notes
• 3 Multidirectional Steady Conduction
• 3.1 Analytical Solutions
• 3.2 Integral Method
• 3.3 Scale Analysis
• 3.4 Evolutionary Design
• References
• Problems
• Notes
• 4 Time-Dependent Conduction
• 4.1 Immersion Cooling or Heating
• 4.2 Lumped Capacitance Model (The “Late” Regime)
• 4.3 Semi-infinite Solid Model (The “Early” Regime)
• 4.4 Unidirectional Conduction
• 4.5 Multidirectional Conduction
• 4.6 Concentrated Sources and Sinks
• 4.7 Melting and Solidification
• 4.8 Evolutionary Design
• References
• Problems
• Notes
• 5 External Forced Convection
• 5.1 Classification of Convection Configurations
• 5.2 Basic Principles of Convection
• 5.3 Laminar Boundary Layer
• 5.4 Turbulent Boundary Layer
• 5.5 Other External Flows
• 5.6 Evolutionary Design
• References
• Problems
• Notes
• 6 Internal Forced Convection
• 6.1 Laminar Flow Through a Duct
• 6.2 Heat Transfer in Laminar Flow
• 6.3 Turbulent Flow
• 6.4 Total Heat Transfer Rate
• 6.5 Evolutionary Design
• References
• Problems
• Note
• 7 Natural Convection
• 7.1 What Drives Natural Convection?
• 7.2 Boundary Layer Flow on Vertical Wall
• 7.3 Other External Flows
• 7.4 Internal Flows
• 7.5 Evolutionary Design
• References
• Problems
• Notes
• 8 Convection with Change of Phase
• 8.1 Condensation
• 8.2 Boiling
• 8.3 Evolutionary Design
• References
• Problems
• Notes
• 9 Heat Exchangers
• 9.1 Classification of Heat Exchangers
• 9.2 Overall Heat Transfer Coefficient
• 9.3 Log-Mean Temperature Difference Method
• 9.4 Effectiveness–NTU Method
• 9.5 Pressure Drop
• 9.6 Evolutionary Design
• References
• Problems
• 10 Radiation
• 10.1 Introduction
• 10.2 Blackbody Radiation
• 10.3 Heat Transfer Between Black Surfaces
• 10.4 Diffuse-Gray Surfaces
• 10.5 Participating Media
• 10.6 Evolutionary Design
• References
• Problems
• Notes
• Appendix A: Constants and Conversion Factors
• Appendix B: Properties of Solids
• References
• Appendix C: Properties of Liquids
• References
• Appendix D: Properties of Gases
• References
• Appendix E: Mathematical Formulas
• Error Function
• Leibniz’s Formula for Differentiating an Integral
• Hyperbolic Functions
• Reference
• Appendix F: Turbulence Transition
• References
• Appendix G: Extremum Subject to Constraint
• Author Index
• Subject Index
• End User License Agreement