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Principles of heat transfer / Frank Kreith, Raj M. Manglik, Mark S. Bohn.

By: Contributor(s): Material type: TextTextPublisher: Stamford, CT ; Singapore : Cengage Learning, [2011]Copyright date: ©2011Edition: 7th edDescription: 1 online resourceContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 9780495667704
  • 0495667706
Subject(s): DDC classification:
  • 621.4022 KRE 2011
LOC classification:
  • QC320 .K92 2011
Online resources:
Contents:
Chapter 1. Basic Modes of Heat Transfer -- 1.1. The Relation of Heat Transfer to Thermodynamics -- 1.2. Dimensions and Units -- 1.3. Heat Conduction -- 1.4. Convection -- 1.5. Radiation -- 1.6. Combined Heat Transfer Systems -- 1.7. Thermal Insulation -- 1.8. Heat Transfer and the Law of Energy Conservation -- References -- Problems -- Design Problems -- Chapter 2. Heat Conduction -- 2.1. Introduction -- 2.2. The Conduction Equation -- 2.3. Steady Heat Conduction in Simple Geometries -- 2.4. Extended Surfaces -- 2.5. Multidimensional Steady Conduction -- 2.6. Unsteady or Transient Heat Conduction -- 2.7. Charts for Transient Heat Conduction -- 2.8. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 3. Numerical Analysis of Heat Conduction -- 3.1. Introduction -- 3.2. One-Dimensional Steady Conduction -- 3.3. One-Dimensional Unsteady Conduction -- 3.4. Two-Dimensional Steady and Unsteady Conduction -- 3.5. Cylindrical Coordinates -- 3.6. Irregular Boundaries -- 3.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 4. Analysis of Convection Heat Transfer -- 4.1. Introduction -- 4.2. Convection Heat Transfer -- 4.3. Boundary Layer Fundamentals -- 4.4. Conservation Equations of Mass, Momentum, and Energy for Laminar Flow Over a Flat Plate -- 4.5. Dimensionless Boundary Layer Equations and Similarity Parameters -- 4.6. Evaluation of Convection Heat Transfer Coefficients -- 4.7. Dimensional Analysis -- 4.8. Analytic Solution for Laminar Boundary Layer Flow Over a Flat Plate -- 4.9. Approximate Integral Boundary Layer Analysis -- 4.10. Analogy Between Momentum and Heat Transfer in Turbulent Flow Over a Flat Surface -- 4.11. Reynolds Analogy for Turbulent Flow Over Plane Surfaces -- 4.12. Mixed Boundary Layer -- 4.13. Special Boundary Conditions and High-Speed Flow -- 4.14. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 5. Natural Convection -- 5.1. Introduction -- 5.2. Similarity Parameters for Natural Convection -- 5.3. Empirical Correlation for Various Shapes -- 5.4. Rotating Cylinders, Disks, and Spheres -- 5.5. Combined Forced and Natural Convection -- 5.6. Finned Surfaces -- 5.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 6. Forced Convection Inside Tubes and Ducts -- 6.1. Introduction -- 6.2. Analysis of Laminar Forced Convection in a Long Tube -- 6.3. Correlations for Laminar Forced Convection -- 6.4. Analogy Between Heat and Momentum Transfer in Turbulent Flow -- 6.5. Empirical Correlations for Turbulent Forced Convection -- 6.6. Heat Transfer Enhancement and Electronic-Device Cooling -- 6.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 7. Forced Convection Over Exterior Surfaces -- 7.1. Flow Over Bluff Bodies -- 7.2. Cylinders, Spheres, and Other Bluff Shapes -- 7.3. Packed Beds -- 7.4. Tube Bundles in Cross-Flow -- 7.5. Finned Tube Bundles in Cross-Flow -- 7.6. Free Jets -- 7.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 8. Heat Exchangers -- 8.1. Introduction -- 8.2. Basic Types of Heat Exchangers -- 8.3. Overall Heat Transfer Coefficient -- 8.4. Log Mean Temperature Difference -- 8.5. Heat Exchanger Effectiveness -- 8.6. Heat Transfer Enhancement -- 8.7. Microscale Heat Exchangers -- 8.8. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 9. Heat Transfer by Radiation -- 9.1. Thermal Radiation -- 9.2. Blackbody Radiation -- 9.3. Radiation Properties -- 9.4. The Radiation Shape Factor -- 9.5. Enclosures with Black Surfaces -- 9.6. Enclosures with Gray Surfaces -- 9.7. Matrix Inversion -- 9.8. Radiation Properties of Gases and Vapors -- 9.9. Radiation Combined with Convection and Conduction -- 9.10. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 10. Heat Transfer with Phase Change -- 10.1. Introduction to Boiling -- 10.2. Pool Boiling -- 10.3. Boiling in Forced Convection -- 10.4. Condensation -- 10.5. Condenser Design -- 10.6. Heat Pipes -- 10.7. Freezing and Melting -- References -- Problems -- Design Problems -- Appendix 1. The International System of Units -- Appendix 2. Data Tables -- Properties of Solids -- Thermodynamic Properties of Liquids -- Heat Transfer Fluids -- Liquid Metals -- Thermodynamic Properties of Gases -- Miscellaneous Properties and Error Function -- Correlation Equations for Physical Properties -- Appendix 3. Tridiagonal Matrix Computer Programs -- Solution of a Tridiagonal System of Equations -- Appendix 4. Computer Codes for Heat Transfer -- Appendix 5. The Heat Transfer Literature.
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Holdings
Item type Current library Home library Call number Status Date due Barcode Item holds
Electronic Book Electronic Book FIRST CITY UNIVERSITY COLLEGE 621.4022 KRE 2011 (Browse shelf(Opens below)) e-book e00476
Total holds: 0

Includes bibliographical references and index.

Chapter 1. Basic Modes of Heat Transfer -- 1.1. The Relation of Heat Transfer to Thermodynamics -- 1.2. Dimensions and Units -- 1.3. Heat Conduction -- 1.4. Convection -- 1.5. Radiation -- 1.6. Combined Heat Transfer Systems -- 1.7. Thermal Insulation -- 1.8. Heat Transfer and the Law of Energy Conservation -- References -- Problems -- Design Problems -- Chapter 2. Heat Conduction -- 2.1. Introduction -- 2.2. The Conduction Equation -- 2.3. Steady Heat Conduction in Simple Geometries -- 2.4. Extended Surfaces -- 2.5. Multidimensional Steady Conduction -- 2.6. Unsteady or Transient Heat Conduction -- 2.7. Charts for Transient Heat Conduction -- 2.8. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 3. Numerical Analysis of Heat Conduction -- 3.1. Introduction -- 3.2. One-Dimensional Steady Conduction -- 3.3. One-Dimensional Unsteady Conduction -- 3.4. Two-Dimensional Steady and Unsteady Conduction -- 3.5. Cylindrical Coordinates -- 3.6. Irregular Boundaries -- 3.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 4. Analysis of Convection Heat Transfer -- 4.1. Introduction -- 4.2. Convection Heat Transfer -- 4.3. Boundary Layer Fundamentals -- 4.4. Conservation Equations of Mass, Momentum, and Energy for Laminar Flow Over a Flat Plate -- 4.5. Dimensionless Boundary Layer Equations and Similarity Parameters -- 4.6. Evaluation of Convection Heat Transfer Coefficients -- 4.7. Dimensional Analysis -- 4.8. Analytic Solution for Laminar Boundary Layer Flow Over a Flat Plate -- 4.9. Approximate Integral Boundary Layer Analysis -- 4.10. Analogy Between Momentum and Heat Transfer in Turbulent Flow Over a Flat Surface -- 4.11. Reynolds Analogy for Turbulent Flow Over Plane Surfaces -- 4.12. Mixed Boundary Layer -- 4.13. Special Boundary Conditions and High-Speed Flow -- 4.14. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 5. Natural Convection -- 5.1. Introduction -- 5.2. Similarity Parameters for Natural Convection -- 5.3. Empirical Correlation for Various Shapes -- 5.4. Rotating Cylinders, Disks, and Spheres -- 5.5. Combined Forced and Natural Convection -- 5.6. Finned Surfaces -- 5.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 6. Forced Convection Inside Tubes and Ducts -- 6.1. Introduction -- 6.2. Analysis of Laminar Forced Convection in a Long Tube -- 6.3. Correlations for Laminar Forced Convection -- 6.4. Analogy Between Heat and Momentum Transfer in Turbulent Flow -- 6.5. Empirical Correlations for Turbulent Forced Convection -- 6.6. Heat Transfer Enhancement and Electronic-Device Cooling -- 6.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 7. Forced Convection Over Exterior Surfaces -- 7.1. Flow Over Bluff Bodies -- 7.2. Cylinders, Spheres, and Other Bluff Shapes -- 7.3. Packed Beds -- 7.4. Tube Bundles in Cross-Flow -- 7.5. Finned Tube Bundles in Cross-Flow -- 7.6. Free Jets -- 7.7. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 8. Heat Exchangers -- 8.1. Introduction -- 8.2. Basic Types of Heat Exchangers -- 8.3. Overall Heat Transfer Coefficient -- 8.4. Log Mean Temperature Difference -- 8.5. Heat Exchanger Effectiveness -- 8.6. Heat Transfer Enhancement -- 8.7. Microscale Heat Exchangers -- 8.8. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 9. Heat Transfer by Radiation -- 9.1. Thermal Radiation -- 9.2. Blackbody Radiation -- 9.3. Radiation Properties -- 9.4. The Radiation Shape Factor -- 9.5. Enclosures with Black Surfaces -- 9.6. Enclosures with Gray Surfaces -- 9.7. Matrix Inversion -- 9.8. Radiation Properties of Gases and Vapors -- 9.9. Radiation Combined with Convection and Conduction -- 9.10. Closing Remarks -- References -- Problems -- Design Problems -- Chapter 10. Heat Transfer with Phase Change -- 10.1. Introduction to Boiling -- 10.2. Pool Boiling -- 10.3. Boiling in Forced Convection -- 10.4. Condensation -- 10.5. Condenser Design -- 10.6. Heat Pipes -- 10.7. Freezing and Melting -- References -- Problems -- Design Problems -- Appendix 1. The International System of Units -- Appendix 2. Data Tables -- Properties of Solids -- Thermodynamic Properties of Liquids -- Heat Transfer Fluids -- Liquid Metals -- Thermodynamic Properties of Gases -- Miscellaneous Properties and Error Function -- Correlation Equations for Physical Properties -- Appendix 3. Tridiagonal Matrix Computer Programs -- Solution of a Tridiagonal System of Equations -- Appendix 4. Computer Codes for Heat Transfer -- Appendix 5. The Heat Transfer Literature.