Principles of Heat Transfer 8th Edition Kreith Solutions Manual

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Product Details:

  • ISBN-10 ‏ : ‎ 1305387104
  • ISBN-13 ‏ : ‎ 978-1305387102
  • Author:  Frank Kreith, Raj. M. Manglik

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. This relevant book recognizes that in today’s world, computational analysis is more critical than rote mathematical solutions to heat transfer problems. However, the authors also incorporate an effective analytic approach that offers a clear understanding of the physics involved and equips you with the tools for analyzing more complex problems. The book emphasizes applications to current engineering challenges in renewable energy, bioengineering, microelectronics, materials processing, and space exploration to arm you with the practical knowledge you need for success.

 

Table of Content:

  1. Chapter 1: Basic Modes of Heat Transfer
  2. 1.1 The Relation of Heat Transfer to Thermodynamics
  3. 1.2 Dimensions and Units
  4. 1.3 Heat Conduction
  5. 1.4 Convection
  6. 1.5 Radiation
  7. 1.6 Combined Heat Transfer Systems
  8. 1.7 Thermal Insulation
  9. 1.8 Heat Transfer and the Law of Energy Conservation
  10. 1.9 Summary
  11. References
  12. Problems
  13. Design Problems
  14. Chapter 2: Steady Heat Conduction
  15. 2.1 Introduction
  16. 2.2 The Conduction Equation
  17. 2.3 Steady Heat Conduction in Simple Geometries
  18. 2.4 Fins and Extended Surfaces
  19. 2.5* Multidimensional Steady Conduction
  20. 2.6 Summary
  21. References
  22. Problems
  23. Design Problems
  24. Chapter 3: Transient Heat Conduction
  25. 3.1 Introduction
  26. 3.2 Systems with Negligible Internal Resistance
  27. 3.3 Systems with Spatial Temperature Distribution
  28. 3.4* Semi-Infinite Solid
  29. 3.5* Multidimensional Systems
  30. 3.6 Summary
  31. References
  32. Problems
  33. Design Problems
  34. Chapter 4: Numerical Analysis of Heat Conduction
  35. 4.1 Introduction
  36. 4.2 One-Dimensional Steady Conduction
  37. 4.3 One-Dimensional Unsteady Conduction
  38. 4.4* Two-Dimensional Steady and Unsteady Conduction
  39. 4.5* Cylindrical Coordinates
  40. 4.6* Irregular Boundaries
  41. 4.7 Summary
  42. References
  43. Problems
  44. Design Problems
  45. Chapter 5: Analysis of Convection Heat Transfer
  46. 5.1 Introduction
  47. 5.2 Convection Heat Transfer
  48. 5.3 Boundary Layer Fundamentals
  49. 5.4 Conservation Equations of Mass, Momentum, and Energy for Laminar Flow Over a Flat Plate
  50. 5.5 Dimensionless Boundary Layer Equations and Similarity Parameters
  51. 5.6 Evaluation of Convection Heat Transfer Coefficients
  52. 5.7 Dimensional Analysis
  53. 5.8* Analytic Solution for Laminar Boundary Layer Flow Over a Flat Plate
  54. 5.9* Approximate Integral Boundary Layer Analysis
  55. 5.10 Turbulent Flow Over a Flat Surface
  56. 5.11* Special Boundary Conditions and High-Speed Flow
  57. 5.12 Summary
  58. References
  59. Problems
  60. Design Problems
  61. Chapter 6: Forced Convection Over Exterior Surfaces
  62. 6.1 Flow Over Bluff Bodies
  63. 6.2 Cylinders, Spheres, and Other Bluff Shapes
  64. 6.3 Tube Bundles in Cross-Flow
  65. 6.4* Finned Tube Bundles in Cross-Flow
  66. 6.5* Packed Beds
  67. 6.6* Free Jets
  68. 6.7 Summary
  69. References
  70. Problems
  71. Design Problems
  72. Chapter 7: Forced Convection Inside Tubes and Ducts
  73. 7.1 Introduction
  74. 7.2* Analysis of Laminar Forced Convection in a Long Tube
  75. 7.3 Correlations for Laminar Forced Convection
  76. 7.4* Analogy Between Momentum and Heat Transfer in Turbulent Flow
  77. 7.5 Empirical Correlations for Turbulent Forced Convection
  78. 7.6* Heat Transfer Enhancement and Electronic-Device Cooling
  79. 7.7 Summary
  80. References
  81. Problems
  82. Design Problems
  83. Chapter 8: Natural Convection
  84. 8.1 Introduction
  85. 8.2 Similarity Parameters for Natural Convection
  86. 8.3 Empirical Correlation for Various Shapes
  87. 8.4* Finned Surfaces
  88. 8.5* Rotating Cylinders, Disks, and Spheres
  89. 8.6 Combined Forced and Natural Convection
  90. 8.7 Summary
  91. References
  92. Problems
  93. Design Problems
  94. Chapter 9: Heat Transfer with Phase Change
  95. 9.1 Introduction to Boiling
  96. 9.2 Pool Boiling
  97. 9.3 Boiling in Forced Convection
  98. 9.4 Condensation
  99. 9.5* Condenser Design
  100. 9.6* Heat Pipes
  101. 9.7* Freezing and Melting
  102. 9.8 Summary
  103. References
  104. Problems
  105. Design Problems
  106. Chapter 10: Heat Exchangers
  107. 10.1 Introduction
  108. 10.2 Basic Types of Heat Exchangers
  109. 10.3 Overall Heat Transfer Coefficient
  110. 10.4 Log Mean Temperature Difference
  111. 10.5 Heat Exchanger Effectiveness
  112. 10.6* Heat Transfer Enhancement
  113. 10.7* Microscale Heat Exchangers
  114. 10.8 Summary
  115. References
  116. Problems
  117. Design Problems
  118. Chapter 11: Heat Transfer by Radiation
  119. 11.1 Thermal Radiation
  120. 11.2 Radiation Heat Flux
  121. 11.3 Blackbody Radiation
  122. 11.4 Radiation Properties
  123. 11.5 Solar Radiation and Global Warming
  124. 11.6 The Radiation Shape Factor
  125. 11.7 Enclosures with Black Surfaces
  126. 11.8 Enclosures with Gray Surfaces
  127. 11.9 Enclosure with Nongray Surfaces
  128. 11.10 Radiation Combined with Convection and Conduction
  129. 11.11* Radiation Properties of Gases and Vapors
  130. 11.12 Summary
  131. References
  132. Problems
  133. Design Problems
  134. Appendix 1: The International System of Units
  135. Appendix 2: Data Tables
  136. Properties of Solids
  137. Thermodyanamic Properties of Liquids
  138. Heat Transfer Fluids
  139. Liquid Metals
  140. Thermodynamic Properties of Gases
  141. Miscellaneous Properties, Bessel and Error Functions, and other Equations
  142. Correlation Equations for the Physical Properties
  143. Appendix 3: Tridiagonal Matrix Computer Programs
  144. Solution of a Tridiagonal System of Equations
  145. Appendix 4: Computer Codes for Heat Transfer
  146. Appendix 5: The Heat Transfer Literature
  147. Index

 

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