Handbook of Heat Transfer (3rd edition) - McGraw Hill
Editors: Warren M. Rohsenow, James P. Hartnett, Young I. Cho
ISBN: 0070535558 (available from http://www.mcgraw-hill.com/ or http://www.amazon.com )
Price: $140.00 - 1344 pages (1998)
on-line ordering:http://www.bookstore.mcgraw-hill.com/ purchase from McGraw Hill
A single reference source covering all aspects of heat transfer problem-solving in engineering. Written by the most eminent engineering authorities in the field, this authoritative and comprehensive Handbook has now been completely revised and updated to include all the latest advances in heat transfer principals with special coverage of microscale heat transfer...heat transfer in materials processing...new heat transfer augmentation techniques...thermophysical properties of new refrigerants...innovative heat exchanger methods. The staff of expert contributors covers the essential heat transfer issues involved in every industrial and environmental process, as well as in energy production and transport. Designed to be the one and only source book the engineer needs, the Handbook presents key, fundamental subjects in condensed, readable form for on-the-job use. New findings in conduction, convection, radiation, and multi-phase heat transfer are also presented. The authors have kept the discussions of theory to a minimum, focusing more on a practical, hands-on-approach, to meet the day-to-day needs of engineers, designers, and technicians.
Table of Contents
Chapter 1 Basic Concepts of Heat Transfer. J.P.Hartnett, W.M.Rohsenow, E.N. Ganic, Y.I.Cho
Chapter 2 Thermophysical Properties. Thomas F. Irvine, Jr.(State University of New York)
Chapter 3 Conduction and Thermal Contact Resistance (Conductances). M. Michael Yovanovich (University of Waterloo)
Chapter 4 Natural Convection. George D. Raithby and K.G.T. Hollands (University of Waterloo)
Chapter 5 Forced Convection, Internal Flow in Ducts. Forced Convection. M.A. Ebadian and Z.F. Dong (Florida International Univ.)
Chapter 6 External Flows. Morris W. Rubesin (Stnaford Univ.), M. Inouye, Pradip G. Parikh (Boeing Aircraft)
Chapter 7 Radiation. Jack Howell (The University of Texas at Austin) and M. Pinar Menguc (University of Kentucky)
Chapter 8 Microscale Transpsort Phenomena. Arun Majumdar (University of California)
Chapter 9 Heat Transfer in Porous Media. Massoud Kaviany (University of Michigan)
Chapter 10 Nonnewtonian Fluids. J.P. Hartnett and Y.I. Cho
Chapter 11 Techniques to Enhance Heat Transfer. Arthur E. Bergles (Rensselaer Polytechnic Institute)
Chapter 12 Heat Pipes. G.P. Bud Peterson (Texas A&M University)
Chapter 13 Heat Transfer in packed and Fluidized Beds. L.S. Fan and Shriniwas Chauk (The Ohio State University)
Chapter 14 Condensation. Paul J. Marto (Naval Postgraduate School)
Chapter 15 Boiling G.F. Hewitt (Imperial College of Science, Technology and Medicine, UK)
Chapter 16 Measurement of Temperature and Heat Transfer. Richard J. Goldstein, Ping-Hei Chen, Hwai Derg Chiang (University of Minnesota)
Chapter 17 Heat Exchangers. Ramesh K. Shah (Delphi Harrison Thermal Systems) and Dusan P. Sekulic (University of Kentucky)
Chapter 18 Heat Transfer in Materials Processing. Raymond Viskanta (Purdue University) and Theodore L. Bergman (University of Connecticut)