Book: Heat Transfer (in SI Units) (SIE)
This hallmark text on Heat Transfer presents an elementary and classical treatment of principles of heat transfer With emphasis on physical understanding while relying on meaningful experimental data.
Key Features:
Analytical and Numerical treatment of Conduction-to gain insight into important tools of numerical analysis used in practice. (Chapter 2-4) Integral analysis of both free and forced convection boundary layers is used to present a physical picture of convection process. (Chapters 5-7) Heat Exchangers: Log mean temperature difference and effectiveness approaches are discussed. (Chapter 10) Important analogies between heat, mass and momentum transfer are discussed through a brief introduction to diffusion and mass transfer in chapter 11. Design is highlighted with over 100 open ended, design oriented homework problems. Emphasis on resistance capacity formulation in computer numerical methods. Large number of numerical examples on heat sources, radiation boundary conditions, non uniform mesh size and 3D nodal systems.
Table of Content:
Chapter 1. Introduction
Chapter 2. Steady-State Conduction-One Dimension
Chapter 3. Steady-State Conduction-Multiple Dimension
Chapter 4. Unsteady-State Conduction
Chapter 5. Principles of Convection
Chapter 6. Empirical and Practical Relation for Forced-Convection Heat Transfer
Chapter 7. Natural Convection Systems
Chapter 8. Radiation Heat Transfer
Chapter 9. Condensation and Boiling Heat Transfer
Chapter 10. Heat Exchange
Chapter 11. Mass Transfer
A. Tables
B. Exact Solutions of Laminar-Boundary-Layer Equations
C. Analytical Relations for the Heisler Charts
D. Use of Microsoft Excel for Solution of Heat- Transfer Problems
This hallmark text on Heat Transfer presents an elementary and classical treatment of principles of heat transfer With emphasis on physical understanding while relying on meaningful experimental data.
Key Features:
Analytical and Numerical treatment of Conduction-to gain insight into important tools of numerical analysis used in practice. (Chapter 2-4) Integral analysis of both free and forced convection boundary layers is used to present a physical picture of convection process. (Chapters 5-7) Heat Exchangers: Log mean temperature difference and effectiveness approaches are discussed. (Chapter 10) Important analogies between heat, mass and momentum transfer are discussed through a brief introduction to diffusion and mass transfer in chapter 11. Design is highlighted with over 100 open ended, design oriented homework problems. Emphasis on resistance capacity formulation in computer numerical methods. Large number of numerical examples on heat sources, radiation boundary conditions, non uniform mesh size and 3D nodal systems.
Table of Content:
Chapter 1. Introduction
Chapter 2. Steady-State Conduction-One Dimension
Chapter 3. Steady-State Conduction-Multiple Dimension
Chapter 4. Unsteady-State Conduction
Chapter 5. Principles of Convection
Chapter 6. Empirical and Practical Relation for Forced-Convection Heat Transfer
Chapter 7. Natural Convection Systems
Chapter 8. Radiation Heat Transfer
Chapter 9. Condensation and Boiling Heat Transfer
Chapter 10. Heat Exchange
Chapter 11. Mass Transfer
A. Tables
B. Exact Solutions of Laminar-Boundary-Layer Equations
C. Analytical Relations for the Heisler Charts
D. Use of Microsoft Excel for Solution of Heat- Transfer Problems
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