Overview

Now you can learn the principles of heat transfer using the classic that sets the standard of coverage and organization for all other heat transfer texts. Following the recommendations of the ASME Committee on Heat Transfer Education, Kreith/Manglik's PRINCIPLES OF HEAT TRANSFER, 8E provides a comprehensive engineering approach that is ideal for your study of heat transfer.

Full Product Details

Author:   Raj Manglik ,  Frank Kreith
Publisher:   Cengage Learning, Inc
Imprint:   CENGAGE Learning Custom Publishing
Edition:   8th edition
ISBN:  

9781337277112

ISBN 10:   1337277118
Pages:   800
Publication Date:   31 January 2017
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Paperback
Publisher's Status:   Forthcoming
Availability:   Not yet available  
This item is yet to be released. You can pre-order this item and we will dispatch it to you upon its release.

Table of Contents

1. BASIC MODES OF HEAT TRANSFER. Concepts and Analyses to Be Learned. The Relation of Heat Transfer to Thermodynamics. Dimensions and Units. Heat Conduction. Convection. Radiation. Combined Heat Transfer Systems. Thermal Insulation. Heat Transfer and the Law of Energy Conservation. Summary. References. Problems. 2. STEADY HEAT CONDUCTION. Concepts and Analyses to Be Learned. Introduction. The Conduction Equation. Steady Heat Conduction in Simple Geometries. Extended Surfaces or Fins. Multidimensional Steady Conduction. Summary. References. Problems. 3. TRANSIENT HEAT CONDUCTION. Concepts and Analyses to Be Learned. Introduction. Systems with Negligible Internal Resistance. Systems with Spatial Temperature Distribution. Semi-Infinite Solid. Multidimensional Systems. Summary. References. Problems. 4. NUMERICAL ANALYSIS OF HEAT CONDUCTION. Concepts and Analyses to Be Learned. Introduction. One-Dimensional Steady Conduction. One-Dimensional Unsteady Conduction. Two-Dimensional Steady and Unsteady Conduction. Cylindrical Coordinates. Irregular Boundaries. Summary. References. Problems. 5. ANALYSIS OF CONVECTION HEAT TRANSFER. Concepts and Analyses to Be Learned. Introduction. Convection Heat Transfer. Boundary Layer Fundamentals. Conservation Equations of Mass, Momentum, and Energy for Laminar Flow Over a Flat Plate. Dimensionless Boundary Layer Equations and Similarity Parameters. Evaluation of Convection Heat Transfer Coefficients. Dimensional Analysis. Analytic Solution for Laminar Boundary Layer Flow over a Flat Plate. Approximate Integral Boundary Layer Analysis. Turbulent Flow over a Flat Surface. Special Boundary Conditions and High-Speed Flow. Summary. References. Problems. 6. FORCED CONVECTION OVER EXTERIOR SURFACES. Concepts and Analyses to Be Learned. Flow over Bluff Bodies. Cylinders, Spheres, and Other Bluff Shapes. Tube Bundles in Cross-Flow. Finned Tube Bundles in Cross-Flow. Packed Beds. Free Jets. Summary. References. Problems. 7. FORCED CONVECTION INSIDE TUBES AND DUCTS. Concepts and Analyses to Be Learned. Introduction. Analysis of Laminar Forced Convection in a Long Tube. Correlations for Laminar Forced Convection. Analogy Between Heat and Momentum Transfer. Correlations for Turbulent Forced Convection. Heat Transfer Enhancement and Electronic-Device Cooling. Summary. References. Problems. 8. NATURAL CONVECTION. Concepts and Analyses to Be Learned. Introduction. Similarity Parameters for Natural Convection. Empirical Correlation for Various Shapes. Finned Surfaces. Rotating Cylinders, Disks, and Spheres. Combined Forced and Natural Convection. Summary. References. Problems. 9. HEAT TRANSFER WITH PHASE CHANGE. Concepts and Analyses to Be Learned. Introduction to Boiling. Pool Boiling. Boiling in Forced Convection. Condensation. Condenser Design. Heat Pipes. Freezing and Melting. Summary. References. Problems. 10. HEAT EXCHANGERS. Concepts and Analyses to Be Learned. Introduction. Basic Types of Heat Exchangers. Overall Heat Transfer Coefficient. Log Mean Temperature Difference. Heat Exchanger Effectiveness. Heat Transfer Enhancement. Microscale Heat Exchangers. Summary. References. Problems. 11. HEAT TRANSFER BY RADIATION. Concepts and Analyses to Be Learned. Thermal Radiation. Radiation Heat Flux. Blackbody Radiation. Radiation Properties. Solar Radiation and Global Warming. The Radiation Shape Factor. Enclosures with Black Surfaces. Enclosures with Gray Surfaces Enclosures with Nongray Surfaces. Radiation Combined with Convection and Conduction. Radiation Properties of Gases and Vapors. Summary. References. Problems. Appendix 1: The International System of Units. Appendix 2: Data Tables. Appendix 3: Tridiagonal Matrix Computer Programs. Appendix 4: Commercial Computer Codes for Heat Transfer. Appendix 5: Heat Transfer Literature. Index.

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Author Information

Dr. Raj. M. Manglik is a Professor of Mechanical Engineering in the College of Engineering and Applied Science at the University of Cincinnati in Ohio. He received his Ph.D. in Mechanical Engineering from Rensselaer Polytechnic Institute. He is a Fellow of the American Society of Mechanical Engineers (ASME) and a senior member of both the American Institute of Chemical Engineers (AIChE) and the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE). He has received many honors and recognitions for seminal research, teaching and educational enterprise, and professional engineering service. His areas of interest are enhancement of heat transfer, interfacial and transport phenomena, and thermal science and energy engineering. He is the Editor-in-Chief of the Journal of Enhanced Heat Transfer. Dr. Frank Kreith is a Professor Emeritus in the Mechanical Engineering Department at the University of Colorado in Boulder. He received his Ph.D. in Applied Science from the University of Paris in 1965. He is a member of the National Academy of Engineering (NAE), a Fellow and Honorary Member of the American Society of Mechanical Engineers (ASME), and recipient of the ASME Medal. The ASME International established The Frank Kreith Energy Award in 2005 in recognition of his contributions to the field of renewable energy and heat transfer. His areas of interest include heat transfer, thermal engineering, and solar engineering. He has been a consultant in the field of heat transfer engineering in many parts of the world.

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