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Fundamentals of Heat and Mass Transferby Frank P. Incropera
Synopses & Reviews
The standard for mastering heat and mass transfer
Respected for its readability, comprehensiveness, and relevance, Incropera and DeWitt’s text is the recognized standard for learning heat and mass transfer. This text combines detailed coverage with the resources students need to learn the concepts and apply them to solving realistic and relevant problems. Using a rigorous and systematic problem-solving methodology, the text is filled with examples and problems that reveal the richness and beauty of the discipline.
The 6th Edition introduces coauthors Ted Bergman and Adrienne Lavine, who bring their record of success in teaching and research in heat and mass transfer to the text.
Model, solve, and explore heat transfer problems:
Interactive Heat Transfer and Finite Element Heat Transfer software with User’s Guide
CD and print booklet,
This bestselling book in the field provides a complete introduction to the physical origins of heat and mass transfer. Noted for its crystal clear presentation and easy-to-follow problem solving methodology, Incropera and Dewitt's systematic approach to the first law develops reader confidence in using this essential tool for thermal analysis. Readers will learn the meaning of the terminology and physical principles of heat transfer as well as how to use requisite inputs for computing heat transfer rates and/or material temperatures.
Completely updated with a modern graphical user interface and better graphing tools, Interactive Heat Transfer (IHT) software will help you learn how to build thermal models, solve specific conditions, and explore the effects of multiple parameter variations. IHT is now capable of solving 300+ equations. The Finite Element Heat Transfer software enhances capabilities for treating steady-state and transient one- and two-dimensional conduction problems.
About the Author
Frank P. Incropera is currently Matthew H. McCloskey Dean of the College of Engineering at Univeristy of Notre Dame. Professor Incropera received his B.S.M.E. from M.I.T. and his M.S.M.E. and Ph.D. from Stanford University, all in mechanical engineering. In 1998, he became the Clifford and Evelyn Brosey Professor of Mechanical Engineering. Professor Incropera has received four major Purdue teaching awards and was the 1982 recipient of the ASEE Ralph Coats Roe Award for excellence in teaching. He was the 1983 recipient of the ASEE George Westinghouse Award for achievements in teaching and research. In 1984 he became a Fellow of the ASME, and in 1988 he received the ASME Heat Transfer Memorial Award for twenty years of research accomplishments in the fields of plasma heat transfer, radiative transfer in participating media, and double-diffusive and mixed convection. In 1988 he was also recipient of the Senior Scientists Award of the Alexander von Humboldt Foundation and recipient of the Melville Medal for the best original paper published by ASME. In 1995 he received the Worcester Reed Warner Medal of ASME for contributions to the fundamental literature of heat transfer and his textbooks on the subject.
Table of Contents
Chapter 1. Introduction.
Chapter 2. Introduction to Conduction.
Chapter 3. One-Dimensional, Steady-State Conduction.
Chapter 4. Two-dimensional, Steady-State Conduction.
Chapter 5. Transient Conduction.
Chapter 6. Introduction to Convection.
Chapter 7. External Flow.
Chapter 8. Internal Flow.
Chapter 9. Free Convection.
Chapter 10. Boiling and Condensation.
Chapter 11. Heat Exchangers.
Chapter 12. Radiation: Processes and Properties.
Chapter 13. Radiation Exchange Between Surfaces.
Chapter 14. Diffusion Mass Transfer.
Appendix A: Thermophysical Properties of Matter.
Appendix B: Mathematical Relations and Functions.
Appendix C: Thermal Conditions Associated with Uniform Energy Generation in One-Dimensional, Steady-State Systems.
Appendix D: Graphical Representation of One-Dimensional, Transient Conduction in the Plane Wall, Long Cylinder, and Sphere.
Appendix E: The Convection Transfer Equations.
Appendix F: An Integral Laminar Boundary Layer Solution for Parallel Flow Over a Flat Plate.
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