Heat Transfer Principles and Applications / Charles H. Forsberg

It includes appendixes and index

Heat Transfer Principles and Applications is a welcome change from more encyclopedic volumes exploring heat transfer. This shorter text fully explains the fundamentals of heat transfer, including heat conduction, convection, radiation and heat exchangers. The fundamentals are then applied to a variety of engineering examples, including topics of special and current interest like solar collectors, cooling of electronic equipment, and energy conservation in buildings. The text covers both analytical and numerical solutions to heat transfer problems and makes considerable use of Excel and MATLAB® in the solutions. Each chapter has several example problems and a large, but not overwhelming, number of end-of-chapter problems.
Key Features

A medium-sized text providing a thorough treatment of heat transfer fundamentals
Includes both analytical and numerical solutions of heat transfer problems
Extensive use of Excel and Matlab
Includes a chapter on mass transfer
Includes a unique chapter of multimode problems to enhance the students problem-solving skills. Minimal information is given in the problem statements. Students must determine the relevant modes of heat transfer (conduction, convection, radiation) and, using the earlier chapters, must determine the appropriate solution technique. For example, they must decide whether the problem is steady-state or transient. They must determine the applicable convection coefficients and material properties. They must decide which solution approach (e. g., analytical or numerical) is appropriate

Table of Contents

Introduction to Heat Transfer
2. Heat Conduction Equation and Boundary Conditions
3. Steady-state Conduction
4. Unsteady Conduction
5. Numerical Methods (Steady and Unsteady)
6. Forced Convection
7. Natural (Free) Convection
8. Heat Exchangers
9. Radiation Heat Transfer
10. Multimode Heat Transfer
11. Mass Transfer
12. Special Topics