Heat Pipes and Solid Sorption Transformations

Heat Pipes and Solid Sorption Transformations

by L.L Vasiliev, Sadik Kakaç
Released May 2013
Publisher(s): CRC Press
ISBN: 9781466564152

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Book description

Developing clean energy and utilizing waste energy has become increasingly vital. Research targeting the advancement of thermally powered adsorption cooling technologies has progressed in the past few decades, and the awareness of fuel cells and thermally activated (heat pipe heat exchangers) adsorption systems using natural refrigerants and/or alternatives to hydrofluorocarbon-based refrigerants is becoming ever more important. Heat Pipes and Solid Sorption Transformations: Fundamentals and Practical Applications concentrates on state-of-the-art adsorption research and technologies for relevant applications based on the use of efficient heat transfer devices—heat pipe and two-phase thermosyphons—with the objectives of energy efficiency and sustainability. This book also discusses heat pipe thermal control as it relates to spacecraft applications.

The first few chapters of Heat Pipes and Solid Sorption Transformations: Fundamentals and Practical Applications focus on heating and cooling, the principles of adsorption, adsorption dynamics, and the availability of three-phase boundaries. Other chapters cover successful heat pipe applications and heat-pipe-based thermal control of fuel cells, solid sorption transformers, and electronic components and air-condition devices. The final chapters summarize the achievements in the field of heat and mass transfer study in heat pipes with variable properties such as gas loaded heat pipes. Several configurations of thermosyphons are showcased, with suggested applications. A number of examples of equipment using the thermosyphon technology are presented and, in the final chapter, the concept of flow boiling and flow condensation heat transfer in micochannels is analyzed in detail.

Table of contents

  1. Front Cover (1/2)
  2. Front Cover (2/2)
  3. Contents
  4. Preface
  5. Editors (1/2)
  6. Editors (2/2)
  7. Contributors
  8. Chapter 1 - A Review of Modelling Approaches to Heat and Mass Transfers in Porous Wicks (1/6)
  9. Chapter 1 - A Review of Modelling Approaches to Heat and Mass Transfers in Porous Wicks (2/6)
  10. Chapter 1 - A Review of Modelling Approaches to Heat and Mass Transfers in Porous Wicks (3/6)
  11. Chapter 1 - A Review of Modelling Approaches to Heat and Mass Transfers in Porous Wicks (4/6)
  12. Chapter 1 - A Review of Modelling Approaches to Heat and Mass Transfers in Porous Wicks (5/6)
  13. Chapter 1 - A Review of Modelling Approaches to Heat and Mass Transfers in Porous Wicks (6/6)
  14. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (1/7)
  15. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (2/7)
  16. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (3/7)
  17. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (4/7)
  18. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (5/7)
  19. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (6/7)
  20. Chapter 2 - Thermally Powered Adsorption Cooling: Recent Trends and Applications (7/7)
  21. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (1/10)
  22. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (2/10)
  23. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (3/10)
  24. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (4/10)
  25. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (5/10)
  26. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (6/10)
  27. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (7/10)
  28. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (8/10)
  29. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (9/10)
  30. Chapter 3 - Optimisation of Adsorption Dynamics in Adsorptive Heat Transformers: Experiment and Modelling (10/10)
  31. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (1/8)
  32. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (2/8)
  33. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (3/8)
  34. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (4/8)
  35. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (5/8)
  36. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (6/8)
  37. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (7/8)
  38. Chapter 4 - Mechanisms of Intensive Heat Transfer for Different Modes of Boiling (8/8)
  39. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (1/14)
  40. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (2/14)
  41. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (3/14)
  42. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (4/14)
  43. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (5/14)
  44. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (6/14)
  45. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (7/14)
  46. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (8/14)
  47. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (9/14)
  48. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (10/14)
  49. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (11/14)
  50. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (12/14)
  51. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (13/14)
  52. Chapter 5 - A Review of Practical Applications of Heat Pipes and Innovative Application of Opportunities for Global Warming (14/14)
  53. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (1/10)
  54. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (2/10)
  55. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (3/10)
  56. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (4/10)
  57. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (5/10)
  58. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (6/10)
  59. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (7/10)
  60. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (8/10)
  61. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (9/10)
  62. Chapter 6 - Heat Pipes and Thermosyphons for Thermal Management of Solid Sorption Machines and Fuel Cells (10/10)
  63. Chapter 7 - Modelling of Heat and Mass Transfer in Sorption and Chemisorption Heat Converters and Their Optimisation (1/5)
  64. Chapter 7 - Modelling of Heat and Mass Transfer in Sorption and Chemisorption Heat Converters and Their Optimisation (2/5)
  65. Chapter 7 - Modelling of Heat and Mass Transfer in Sorption and Chemisorption Heat Converters and Their Optimisation (3/5)
  66. Chapter 7 - Modelling of Heat and Mass Transfer in Sorption and Chemisorption Heat Converters and Their Optimisation (4/5)
  67. Chapter 7 - Modelling of Heat and Mass Transfer in Sorption and Chemisorption Heat Converters and Their Optimisation (5/5)
  68. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (1/8)
  69. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (2/8)
  70. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (3/8)
  71. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (4/8)
  72. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (5/8)
  73. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (6/8)
  74. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (7/8)
  75. Chapter 8 - Sorption Systems with Heat Pipe Thermal Management for Hydrogenous Gas Storage and Transportation (8/8)
  76. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (1/8)
  77. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (2/8)
  78. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (3/8)
  79. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (4/8)
  80. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (5/8)
  81. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (6/8)
  82. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (7/8)
  83. Chapter 9 - Fundamental Questions of Closed Two-Phase Thermosyphons (8/8)
  84. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (1/11)
  85. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (2/11)
  86. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (3/11)
  87. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (4/11)
  88. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (5/11)
  89. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (6/11)
  90. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (7/11)
  91. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (8/11)
  92. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (9/11)
  93. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (10/11)
  94. Chapter 10 - Thermal Control Systems with Variable Conductance Heat Pipes for Space Application: Theory and Practice (11/11)
  95. Chapter 11 - Thermosyphon Technology for Industrial Applications (1/11)
  96. Chapter 11 - Thermosyphon Technology for Industrial Applications (2/11)
  97. Chapter 11 - Thermosyphon Technology for Industrial Applications (3/11)
  98. Chapter 11 - Thermosyphon Technology for Industrial Applications (4/11)
  99. Chapter 11 - Thermosyphon Technology for Industrial Applications (5/11)
  100. Chapter 11 - Thermosyphon Technology for Industrial Applications (6/11)
  101. Chapter 11 - Thermosyphon Technology for Industrial Applications (7/11)
  102. Chapter 11 - Thermosyphon Technology for Industrial Applications (8/11)
  103. Chapter 11 - Thermosyphon Technology for Industrial Applications (9/11)
  104. Chapter 11 - Thermosyphon Technology for Industrial Applications (10/11)
  105. Chapter 11 - Thermosyphon Technology for Industrial Applications (11/11)
  106. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (1/7)
  107. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (2/7)
  108. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (3/7)
  109. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (4/7)
  110. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (5/7)
  111. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (6/7)
  112. Chapter 12 - Fluid Flow and Heat Transfer with Phase Change in Minichannels and Microchannels (7/7)
  113. Back Cover

Product information

  • Title: Heat Pipes and Solid Sorption Transformations
  • Author(s): L.L Vasiliev, Sadik Kakaç
  • Release date: May 2013
  • Publisher(s): CRC Press
  • ISBN: 9781466564152