Format:
xxv, 722 S.
,
Ill., graf. Darst.
ISBN:
9781107012400
,
1107012406
Content:
Cover; Title; Copyright; Dedication; Contents; Preface; Acknowledgments; Guide to Instructors and Students; 1 Introduction and Preliminaries; 1.1 Applications and History; 1.1.1 Heat Transfer; 1.1.2 Applications; 1.1.3 History, Frontiers, and Integration*; 1.2 Units and Normalization (Scaling); 1.2.1 Units; 1.2.2 Normalization (Scaling); 1.3 Thermal Systems; 1.3.1 Thermodynamic Properties; 1.3.2 Thermal Nonequilibrium; 1.3.3 Control Volume and Control Surface; 1.4 Principal Energy Carriers and Heat Flux Vector; 1.4.1 Macroscopic Heat Transfer Mechanisms
Content:
2.2 Uniform Temperature in One or More Directions: Energy Equation for Volumes with One or More Finite Lengths2.2.1 Integral-Volume Energy Equation; 2.2.2 Combined Integral- and Differential-Length Energy Equation; 2.2.3 Discrete Temperature Nonuniformity: Finite-Small-Volume Energy Equation*; 2.2.4 Summary of Selection of Energy Equation Based on Uniformity or Nonuniformity of Temperature; 2.3 Thermal Energy Conversion Mechanisms; 2.3.1 Chemical- or Physical-Bond Energy Conversion; 2.3.2 Electromagnetic Energy Conversion; 2.3.3 Mechanical Energy Conversion
Content:
2.3.4 Summary of Thermal Energy Conversion Mechanisms2.4 Bounding-Surface and Far-Field Thermal Conditions; 2.4.1 Continuity of Temperature across Bounding Surface*; 2.4.2 Bounding-Surface Energy Equation; 2.4.3 Prescribed Bounding-Surface Thermal Conditions*; 2.4.4 Far-Field Thermal Conditions*; 2.5 Heat Transfer Analysis*; 2.5.1 Integration of Differential-Volume Energy Equation*; 2.5.2 Single- and Multidimensional Heat Flow*; 2.5.3 Time Dependence and Steady State*; 2.5.4 Thermal Circuit Models*; 2.5.5 Summary of Methodology for Heat Transfer Analysis*
Content:
2.5.6 Solution Format for End-of-Chapter Problems*
Content:
This is a modern, example-driven introductory textbook on heat transfer, with modern applications written by a renowned scholar
Note:
Includes bibliographical references and index
,
Machine generated contents note: 1. Introduction and preliminaries; 2. Energy equation; 3. Conduction; 4. Radiation; 5. Convection: unbounded fluid streams; 6. Convection: semi-bounded fluid streams; 7. Convection: bounded fluid streams; 8. Heat transfer in thermal systems.
,
1.4.2 Atomic-Level Heat Carriers (Heat Transfer Physics)1.4.3 Net Heat Transfer Rate Q|A; 1.4.4 Magnitude and Representation of q; 1.5 Heat Transfer Materials and Heat Flux Tracking; 1.5.1 Three Phases of Matter: Intermolecular and Intramolecular Forces*; 1.5.2 Microscale Energies of Matter: Discrete and Continuous Energies*; 1.5.3 Multiphase Heat Transfer Medium: Composites; 1.5.4 Fluid Motion; 1.5.5 Intramedium and Intermedium Heat Transfer; 1.5.6 Heat Flux Vector Tracking in Various Phases; 1.6 Conservation of Energy; 1.7 Conservation of Mass, Species, and Momentum* 1.7.1 Conservation of Mass*1.7.2 Conservation of Species*; 1.7.3 Conservation of Momentum*; 1.7.4 Other Conserved Quantities*; 1.8 Scope; 1.9 Summary; 1.10 References*; 1.11 Problems; 1.11.1 Heat Flux Vector Tracking; 1.11.2 Integral-Volume Energy Equation; 2 Energy Equation; 2.1 Nonuniform Temperature Distribution Differential: (Infinitesimal)-Volume Energy Equation; 2.1.1 Physical Interpretation of Divergence of q; 2.1.2 Relation between Volumetric Differentiation and Surface Integration
Additional Edition:
ISBN 9781139138079
Additional Edition:
Erscheint auch als Online-Ausgabe Kaviany, Massoud Essentials of Heat Transfer New York : Cambridge University Press, 2011 ISBN 9781139138079
Language:
English
Subjects:
Physics
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