A review of potential materials for thermal energy storage in building applications

Renewable and Sustainable Energy Reviews

Volumn 18, Issue , 2013, Pages 327-349

  Tatsidjodoung, Parfait ^a   Le Pierrès, Nolwenn ^a   Luo, Lingai ^a  

^a UNIVERSITÉ DE SAVOIE   (France)

Author keywords

Building applications; Latent heat; Material; Sensible heat; Thermal storage; Thermochemical heat

Indexed keywords

BUILDING APPLICATIONS; ENGINEERING APPLICATIONS; HEAT STORAGE MATERIALS; IN-BUILDINGS; POTENTIAL MATERIALS; RESEARCH ACTIVITIES; SENSIBLE HEAT; THERMAL STORAGE; THERMOCHEMICAL HEAT;

LATENT HEAT; MATERIALS;

HEAT STORAGE;

EID: 84869118213     PISSN: 13640321     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.rser.2012.10.025     Document Type: Review

References (269)

1. International Energy Agency. World energy statistics; 2011. 696 p. Report no. 978-92-64-12413-4. Available from: 〈http://www.iea.org〉.
2. H.P. Garg, S.C. Mullick, and A.K. Bhargava Solar thermal energy storage 1985 Dordrecht: Reidel Publishing Company
3. Y. Kato Chemical energy conversion technologies for efficient energy use. Thermal energy storage for sustainable energy consumption 2007 Netherlands: Springer p. 377-91
4. V.P. Sethi, and S.K. Sharma Experimental and economic study of a greenhouse thermal control system using aquifer water Energy Conversion and Management 48 2007 306 319
5. A.I. Fernandez, M. Martínez, M. Segarra, I. Martorell, and L.F. Cabeza Selection of materials with potential in sensible thermal energy storage Solar Energy Materials and Solar Cells 94 2010 1723 1729
6. H.E.S. Fath Technical assessment of solar thermal energy storage technologies Renewable Energy 14 1998 35 40
7. A. Abhat Short term thermal energy storage Revue Physique Appliquée 15 1980 477 501
8. J.A. Duffie, and W.A. Beckman Solar Energy Thermal Processes 1989 John Wiley & Sons New-York
9. C. Wyman, J. Castle, and F. Kreith A review of collector and energy storage technology for intermediate temperature applications Solar Energy 24 1980 517 540
10. S.M. Hasnain Review on sustainable thermal energy storage technologies, Part I: heat storage materials and techniques Energy Conversion and Management 39 1998 1127 1138
11. P. Pinel, C.A. Cruickshank, I. Beausoleil-Morrison, and A. Wills A review of available methods for seasonal storage of solar thermal energy in residential applications Renewable and Sustainable Energy Reviews 15 2011 3341 3359
12. M.A. Badar, S.M. Zubair, and A.A. Al-Farayedhi Second-law-based thermoeconomic optimization of a sensible heat thermal energy storage system Energy 18 1993 641 649
13. Cruickshank CA. Evaluation of a stratified multi-tank thermal storage for solar heating applications. PhD thesis. Queen's University; 2009.
14. A.V. Novo, J.R. Bayon, D. Castro-Fresno, and J. Rodriguez-Hernandez Review of seasonal heat storage in large basins: water tanks and gravel-water pits Applied Energy 87 2010 390 397
15. Schmidt T, Mangold D, Müller-Steinhagen H. Seasonal thermal energy storage in Germany. In: Proceedings on the ISES solar word congress; 2003.
16. Kangas MT, Lund PD. Microcomputer design tool for aquifer thermal energy storage with extension for environmental analyses. In: Proceedings of the 5th international conference on thermal energy storage; 1991.
17. M.T. Kangas, and P.D. Lund Modeling and simulation of aquifer storage energy systems Solar Energy 53 1994 237 247
18. I. Dincer, and M.A. Rosen Thermal energy storage. Systems and applications 2002 John Wiley & Sons Chichester (England)
19. H. Kurt, F. Halici, and A.K. Binark Solar pond conception - experimental and theoretical studies Energy Conversion and Management 41 2000 939 951
20. Y.F. Wang, and A. Akbarzadeh A study on the transient behaviour of solar ponds Energy 7 1982 1005 1017
21. J. Andrews, and A. Akbarzadeh Enhancing the thermal efficiency of solar ponds by extracting heat from the gradient layer Solar Energy 78 2005 704 716
22. A. Akbarzadeh, J. Andrews, and P. Golding Solar pond technologies: a review and future directions, advances in solar energy 2005 Earthscan Oxford (England)
23. M. Hassairi, M.J. Safi, and S. Chibani Natural brine solar pond: an experimental study Solar Energy 70 2001 45 50
24. H. Kurt, M. Ozkaymak, and A.K. Binark Experimental and numerical analysis of sodium-carbonate salt gradient solar-pond performance under simulated solar-radiation Applied Energy 83 2006 324 342
25. G.R. Ramakrishna Murthy, and K.P. Pandey Scope of fertiliser solar ponds in Indian agriculture Energy 27 2002 117 126
26. V. Velmurugan, and K. Srithar Prospects and scopes of solar pond: a detailed review Renewable and Sustainable Energy Reviews 12 2008 2253 2263
27. A.J.N. Khalifa, and E.F. Abbas A comparative performance study of some thermal storage materials used for solar space heating Energy and Buildings 41 2009 407 415
28. Ståhl F. Influence of thermal mass on the heating and cooling demands of a building unit. PhD thesis. Sweden: Chalmers University of Technology; 2009.
29. H. Asan, and Y.S. Sancaktar Effects of 'wall's thermophysical properties on time lag and decrement factor Energy and Buildings 28 1998 159 166
30. H. Singh, R.P. Saini, and J.S. Saini A review on packed bed solar energy storage systems Renewable and Sustainable Energy Reviews 14 2010 1059 1069
31. M.M. Alkilani, K. Sopian, M.A. Alghoul, M. Sohif, and M.H. Ruslan Review of solar air collectors with thermal storage units Renewable and Sustainable Energy Reviews 15 2011 1476 1490
32. King R, Burns AP. Sensible heat storage in packed beds. In: Proceedings of the international conference on energy storage; 1981.
33. C. Choudhury, P.M. Chauhan, and H.P. Garg Economic design of a rock bed storage device for storing solar thermal energy Solar Energy 55 1995 29 37
34. A. Sharma, V.V. Tyagi, C.R. Chen, and D. Buddhi Review on thermal energy storage with phase change materials and applications Renewable and Sustainable Energy Reviews 13 2009 318 345
35. K.K. Pillai, and B.J. Brinkwarth The storage of low grade thermal energy using phase change materials Applied Energy 2 1976 205 216
36. Heim D, Clarke JA. Numerical modeling and thermal simulation of phase change material with ESP-R. In: Proceedings of the eighth international on IBPSA conference; 2003.
37. M. Ibanez, A. Lazaro, B. Zalba, and L.F. Cabeza An approach to the simulation of PCMs in building applications using TRNSYS Applied Thermal Engineering 25 2005 1796 1807
38. Haussmann T, Henning HM, Schossig P. Phase change materials in wall integrated systems. In: Proceedings of the 2nd workshop of IEA ECES IA annex 17; 2002.
39. D.W. Hawes, D. Feldman, and D. Banu Latent heat storage in building materials Energy and Buildings 20 1993 77 86
40. Kamimoto M, Abe Y, Sawata S, Tani T, Ozawa T Latent heat storage unit using form-stable high density polyethylene for solar thermal applications. In: Proceedings of the international symposium on thermal application of solar energy; 1985.
41. M.M. Kenisarin Short-term storage of solar energy. 1. Low temperature phase-change materials Applied Solar Energy 29 1993 48 65
42. A.M. Khudhair, and M.M. Farid A review on energy conservation in building applications with thermal storage by latent heat using phase change materials Energy Conversion and Management 45 2004 263 275
43. H. Kimura, and K. Junjiro Mixtures of calcium chloride hexahydrate with salt hydrate or anhydrous salts as latent heat storage materials Energy Conversion and Management 28 1988 197 200
44. D. Zhou, C.Y. Zhao, and Y. Tian Review on thermal energy storage with phase change materials (PCMs) in building applications Applied Energy 92 2012 593 605
45. R. Parameshwaran, S. Kalaiselvam, S. Harikrishnan, and A. Elayaperumal Sustainable thermal energy storage technologies for buildings: a review Renewable and Sustainable Energy Reviews 16 2012 2394 2433
46. A. Abhat Low temperature latent heat thermal energy storage: Heat storage materials Solar Energy 30 1983 313 332
47. M.M. Farid, A.M. Khudhair, S.A.K. Razack, and S. Al-Hallaj A review on phase change energy storage: materials and applications Energy Conversion and Management 45 2004 1597 1615
48. M.M. Kenisarin Short-term storage of solar energy. 1: Low temperature phase-change materials Applied Solar Energy 29 1993 48 65
49. G.A. Lane Solar heat storage-latent heat materials 1983 Boca Raton (Florida): CRC Press
50. B. Zalba, J.M. Marín, L.F. Cabeza, and H. Mehling Review on thermal energy storage with phase change: materials, heat transfer analysis and applications Applied Thermal Engineering 23 2003 251 283
51. Abhat A., Malatidis N.A. Heat of fusion storage materials for low temperature applications. In: Proceedings of new energy conservation technologies and their commercialization; 1981.
52. S.D. Sharma, and K. Sagara Latent heat storage materials and systems: a review International Journal Green Energy 2 2005 1 56
53. R. Marshall, and C. Dietsche Comparison of paraffin wax storage subsystem models using liquid heat transfer media Solar Energy 29 1982 503 511
54. Humphries WR, Griggs EI. A design handbook for phase change thermal control and energy storage devices. NASA Technical Paper; 1977.
55. Anant Shukla, D Buddhi, and R.L. Sawhney Thermal cycling of few selected inorganic and organic phase change materials Renewable Energy 33 2008 2606 2614
56. S.D. Sharma, D. Buddhi, and S. RL. Accelerated thermal cycle test of latent heat storage materials Solar Energy 66 1999 483 490
57. A. Sharma, S.D. Sharma, and D. Buddhi Accelerated thermal cycle test of acetamide, stearic acid and paraffin wax for solar thermal latent heat storage applications Energy Conversion and Management 43 2002 1923 1930
58. T. Wada, R. Yamamoto, and Y. Matsuo Heat storage capacity of sodium acetate trihydrate during thermal cycling Solar Energy 35 1984 373 375
59. C.K. Joshi, C.K. Hsieh, and D. Goswami Thermal storage in ammonium alum/ammonium nitrate eutectic for solar space heating applications Journal of solar energy engineering 120 1998 20 24
60. Lane GA, Glew DN, Clark EC, Rossow HE, Quigley SW, Drake SS Heat of fusion system for solar energy storage subsystems for the heating and cooling of building. In: Proceedings of the workshop on solar energy storage subsystems for the heating and coolings of buildings; 1975.
61. H.G. Lorsch, K.W. Kauffman, and J.C. Denton Thermal energy storage for heating and air conditioning; Future energy production system Heat and Mass Transfer Processes 1 1976 69 85
62. S. Jegadheeswaran, and S.D. Pohekar Performance enhancement in latent heat thermal storage system: A review Renewable and Sustainable Energy Reviews 13 2009 2225 2244
63. V.A.A. Raj, and R. Velraj Review on free cooling of buildings using phase change materials Renewable and Sustainable Energy Reviews 14 2010 2819 2829
64. R. Biswas Thermal storage using sodium sulfate decahydrate and water Solar Energy 99 1977 99 100
65. Telkes M. Thermal storage for solar heating and cooling. In: Proceedings on workshop on solar energy storage subsystems for the heating and cooling of buildings; 1975.
66. M. Telkes Thermal energy storage in salt hydrates Solar Energy Materials 2 1980 381 393
67. Lane GA, Rossow HE. Encapsulation of heat of fusion storage materials. In: Proceedings of the second south eastern conference on application of solar energy; 1976.
68. Lane GA. Macroencapsulation of PCM; 1978. 152 p. Report no.ORO/5117-8. Available from: 〈http://www.dow.com/innovation/knowledge/journal/〉.
69. M. Telkes Nucleation of super saturated inorganic salt solution Industrial and Engineering Chemistry Research 44 1952 1308 1310
70. 2O Solar Energy 24 1980 239 247
71. Costello YA, Melsheimer SS, Edie DD. Heat transfer and calorimetric studies of a direct contact-latent heat energy storage system; thermal storage and heat transfer in solar energy system. In: Proceedings of the ASME meeting; 1978.
72. Edie DD, Melsheimer SS An immiscible fluid-heat of fusion energy storage system. In: Proceedings of the conference of the American section of the international solar energy society and the solar energy society of Canada; 1976.
73. M. Farid, and K. Yacoub Performance of direct contact latent heat storage unit Solar Energy 43 1989 237 251
74. M. Farid, and A.N. Khalaf Performance of direct contact latent heat storage units with two hydrated salts Solar Energy 52 1994 179 189
75. A.E. Fouda, G.J.G. Despault, J.B. Taylor, and C.E. Capes Solar storage systems using salt hydrate latent heat and direct contact heat exchange-II. Characteristics of pilot system operating with sodium sulfate solution Solar Energy 32 1984 57 65
76. Hasnain SM. Latent heat thermal energy storage for solar heating applications. PhD thesis. University of Leeds; 1990.
77. de John AG, Hoogendoorn CJ Improved of heat transport in paraffin for latent heat storage systems. In: Proceeding of TNO symposium on thermal storage of solar energy; 1980.
78. C. Arkar, and S. Medved Influence of accuracy of thermal property data of a phase change material on the result of a numerical model of a packed bed latent heat storage with spheres Thermochimica Acta 438 2005 192 201
79. A. Benmansour, M.A. Hamdan, and A. Bengeuddach Experimental and numerical investigation of solid particles thermal energy storage unit Applied Thermal Engineering 26 2006 513 518
80. J.M. Marin, B. Zalba, L.F. Cabeza, and H. Mehling Improvement of a thermal energy storage using plates with paraffin-graphite composite International Journal of Heat and Mass Transfer 48 2005 2561 2570
81. E.-B.S. Mettawee, and G.M.R. Assassa Thermal conductivity enhancement in a latent heat storage system Solar Energy 81 2007 839 845
82. F. Agyenim, N. Hewitt, P. Eames, and M. Smyth A review of materials, heat transfer and phase change problem formulation for Latent Heat Thermal Energy Storage Systems (LHTESS) Renewable and Sustainable Energy Reviews 14 2010 615 628
83. Cabeza L, Heinz A, Streicher W. Inventory of phase change materials (PCM); 2005. 33 p. Report no. C2-Task 32. Available from: 〈http://www.iea- shc.org/task32/publications/IEA-SHC-Task-32-Report-C2-Feb-2005.pdf〉.
84. L.F. Cabeza, A. Castell, C. Barreneche, A. de Gracia, and A.I. Fernandez Materials used as PCM in thermal energy storage in buildings: a review Renewable and Sustainable Energy Reviews 15 2011 1675 1695
85. L. Fan, and J.M. Khodadadi Thermal conductivity enhancement of phase change materials for thermal energy storage: a review Renewable and Sustainable Energy Reviews 15 2011 24 46
86. Abhat A., Heine D., Heinisch M., Malatidis N.A., Neuer G. Development of a modular heat exchanger with an integrated latent heat storage; 1981. 246 p. Report no. BMFT FBT 81-050. Available from: 〈http://adsabs.harvard.edu/abs/ 1981ikes.rept....A〉.
87. Buddhi D, Sawhney RL. Solar thermal storage systems using phase change materials. In: Proceedings of thermal energy storage and energy conversion school of energy and environmental studies; 1994.
88. D. Feldman, and D.D.S.C. Banu analysis for the evaluation of an energy storing wallboard Thermochimica Acta 272 1996 243 251
89. D. Feldman, D. Banu, and D. Hawes Low chain esters of stearic acid as phase change materials for thermal energy storage in buildings Solar Energy Materials and Solar Cells 36 1995 311 322
90. D. Feldman, D. Banu, and D.W. Hawes Development and application of organic phase change mixtures in thermal storage gypsum wallboard Solar Energy Materials and Solar Cells 36 1995 147 157
91. D. Feldman, and M. Shapiro Fatty acids and their mixtures as phase-change materials for thermal energy storage Solar Energy Materials and Solar Cells 18 1989 201 216
92. A. Hasan Phase change material energy storage system employing palmitic acid Solar Energy 52 1994 143 154
93. M. Kenisarin, and K. Mahkamov Solar energy storage using phase change materials Renewable and Sustainable Energy Reviews 11 2007 1913 1965
94. Jotshi CK, Goswami DY, Tomlinson JJ. Solar thermal energy storage in phase change materials. In: Proceedings of the American solar energy society annual conference. 1992.
95. L. Shilei, Z. Neng, and F. Guohui Impact of phase change wall room on indoor thermal environment in winter Energy and Buildings 38 2006 18 24
96. A. Sari, and C. Alkan Preparation and thermal energy storage properties of poly(n-butyl methacrylate)/fatty acids composites as form-stable phase change materials Polymer Composites 33 2012 92 98
97. Y. Cai, Q. Wei, F. Huang, S. Lin, F. Chen, and W. Gao Thermal stability, latent heat and flame retardant properties of the thermal energy storage phase change materials based on paraffin/high density polyethylene composites Renewable Energy 34 2009 2117 2123
98. Y. Hong, and G. Xin-shi Preparation of polyethylene-paraffin compound as a form-stable solid-liquid phase change material Solar Energy Materials and Solar Cells 64 2000 37 44
99. H. Inaba, and P. Tu Evaluation of thermophysical characteristics on shape-stabilized paraffin as a solid-liquid phase change material Heat and Mass Transfer 32 1997 307 312
100. C. Alkan, A. Sari, and O. Uzun Poly(ethylene glycol)/acrylic polymer blends for latent heat thermal energy storage AIChE Journal 52 2006 3310 3314
101. C. Alkan, and A. Sari Fatty acid/poly(methyl methacrylate) (PMMA) blends as form-stable phase change materials for latent heat thermal energy storage Solar Energy 82 2008 118 124
102. C. Chen, L. Wang, and Y. Huang Crosslinking of the electrospun polyethylene glycol/cellulose acetate composite fibers as shape-stabilized phase change materials Materials Letters 63 2009 569 571
103. A. Sari, C. Alkan, A. Karaipekli, and A. Onal Preparation, characterization and thermal properties of styrene maleic anhydride copolymer (SMA)/fatty acid composites as form stable phase change materials Energy Conversion and Management 49 2008 373 380
104. K. Pielichowski, and K. Flejtuch Binary blends of polyethers with fatty acids: A thermal characterization of the phase transitions Journal of Applied Polymer Science 90 2003 861 870
105. C. Chen, L. Wang, and Y. Huang Ultrafine electrospun fibers based on stearyl stearate/polyethylene terephthalate composite as form stable phase change materials Chemical Engineering Journal 150 2009 269 274
106. A. Sari, C. Alkan, U. Kolemen, O. Uzun, and S. Eudragit (methyl methacrylate methacrylic acid copolymer)/fatty acid blends as form-stable phase change material for latent heat thermal energy storage Journal of Applied Polymer Science 101 2006 1402 1406
107. K. Kaygusuz, C. Alkan, A. Sari, and O. Uzun Encapsulated fatty acids in an acrylic resin as shape-stabilized phase change materials for latent heat thermal energy storage Energy Sources Part A: Recovery, Utilization, and Environmental Effects 30 2008 1050 1059
108. C. Chen, L. Wang, and Y. Huang Morphology and thermal properties of electrospun fatty acids/polyethylene terephthalate composite fibers as novel form-stable phase change materials Solar Energy Materials and Solar Cells 62 2008 3515 3517
109. K. Pielichowski Thermal energy storage systems based on poly(vinyl chloride) blends European Polymer Journal 35 1999 27 34
110. G. Alefeld, and R. Radermacher Heat conversion systems 1993 (CRC) Press Boca Raton (Florida)
111. Bales C., Gantenbein P., Jaenig D., Kerskes H., van Essen M., Weber R. Chemical and sorption storage: The overview; 2008. 23 p. Report no. B7-Task 32. Available from: 〈http://www.iea-shc.org/publications/downloads/task32-b7. pdf〉.
112. Boer R., Haije W., Veldhuis J., Smeding S. Solid sorption cooling with integrated storage: the SWEAT prototype. In: Proceedings of the 3rd international heat powered cycles conference - HPC 2004.
113. Faninger G. Thermal energy storage; 2004. Available from: 〈http://celsius.co.kr/phase-change-materials/download/energy/ Thermal-Energy-Storage.pdf〉.
114. R. Hastings, and M. Wall Sustainable solar housing IEA Energy conservation in buildings and community systems programme 2007
115. Iammak K., Wongsuwan W., Kiatsiriroj T. Investigation of modular chemical energy storage performance. In: Proceedings of the joint international conference on Sustainable Energy and Environment, SEE; 2004.
116. S. Istria, J. Castaing-Lasvignottes, and P. Neveu Energetic analysis, application field and performance of a new thermochemical sorption cycle: the multisalt system Applied Thermal Engineering 16 1996 875 889
117. D. Mugnier, and V. Goetz Energy storage comparison of sorption systems for cooling and refrigeration Solar Energy 71 2001 47 55
118. K.E. N'Tsoukpoe, H. Liu, N. Le Pierrès, and L. Luo A review on long-term sorption solar energy storage Renewable and Sustainable Energy Reviews 13 2009 2385 2396
119. P.K. Gallagher, M.E. Brown, S.Z.D. Cheng, and R.B. Kemp Handbook of thermal analysis and calorimetry 1998 Elsevier New-York
120. H.P. Garg, and J. Prakash Solar energy: fundamentals and applications 2000 McGrawHill New-Delhi
121. N.V. Kharchenko Advanced energy systems Illustrated edition, 1997 Taylor & Francis London
122. A. Hauer Sorption theory for thermal energy storage. Thermal energy storage for sustainable energy consumption 2007 Springer p. 393-408
123. Office de la Langue Française (OLF). Grand Dictionnaire Terminologique. Quebec, Canada.
124. N.C. Srivastava, and I.W. Eames A review of adsorbents and adsorbates in solid-vapor adsorption heat pump systems Applied Thermal Engineering 18 1998 707 714
125. R. Aveyard, and D.A. Haydon An introduction to the principles of surface chemistry 1973 Cambridge University Press London
126. J. Cot-Gores, A. Castell, and L.F. Cabeza Thermochemical energy storage and conversion: A-state-of-the-art review of the experimental research under practical conditions Renewable and Sustainable Energy Reviews 16 2012 5207 5224
127. American Society of Heating Refrigerating and Air-Conditioning Engineers (ASHRAE). Handbook: fundamentals. I-P edition; 2005.
128. Bales C, Gantenbein P, Hauer A, Henning H-M, Jaenig D, Kerskes H. Thermal properties of materials for thermo-chemical storage of solar heat; 2005. 20 p. Report no. B2-Task 32. Available from: 〈http://www.iea-shc.org/ publications/downloads/task32-Thermal-Properties-of-Materials.pdf〉.
129. Gantenbein P, Brunold S, Flückiger F, Frei U. Sorption materials for application in solar heat energy storage; 2001. 10 p. Report no.SPF-01. Available from: 〈http://www.solarenergy.ch/fileadmin/daten/publ/sorption01. pdf〉.
130. Visscher K. Simulation of thermo chemical seasonal storage of solar heat-material selection and optimum performance simulation. In: Proceedings of 2nd workshop Matlab/Simulink for building simulation, CSTB; 2004.
131. W. Wongsuwan, S. Kumar, P. Neveu, and F. Meunier A review of chemical heat pump technology and applications Applied Thermal Engineering 21 2001 1489 1519
132. J.H. Han, and L. Kon-Hong Effective thermal conductivity of graphite-metallic salt complex for chemicals heat pumps Journal of Thermophysics and Heat Transfer 13 1999 481 488
133. S. Mauran, P. Prades, and F. L'Haridon Heat and mass transfer in consolidated reacting beds for thermochemical systems Heat Recovery Systems and CHP 13 1993 315 319
134. 2 composite adsorbent for chemical adsorption chillers Energy Conversion and Management 47 2006 1902 1912
135. P. Muthukumar, and M. Groll Erratum to Metal hydride based heating and cooling systems: a review (vol. 35, p. 3817, 2010) International Journal of Hydrogen Energy 35 2010 8816 8829
136. F. Meunier Solid sorption heat powered cycles for cooling and heat pumping applications Applied Thermal Engineering 18 1998 715 729
137. A. Abhat, and T.Q. Huy Heat and mass-transfer considerations in a thermochemical energy-storage system based on solid-gas reactions Solar Energy 30 1983 93 98
138. J.H. Han, and K.H. Lee Gas permeability of expanded graphite-metallic salt composite Applied Thermal Engineering 21 2001 453 463
139. T. Dellero, D. Sarmeo, and P. Touzain A chemical heat pump using carbon fibers as additive. Part I: enhancement of thermal conduction Applied Thermal Engineering 19 1999 991 1000
140. F. Ziegler, and G. Grossman Heat-transfer enhancement by additives International Journal of Refrigeration 19 1996 301 309
141. L.G. Gordeeva, and Y.I. Aristov Composites 'salt inside porous matrix' for adsorption heat transformation: a current state-of-the-art and new trends International Journal of Low-Carbon Technologies 0 2012 1 15
142. J. Janchen, D. Ackermann, H. Stach, and W. Brosicke Studies of the water adsorption on Zeolites and modified mesoporous materials for seasonal storage of solar heat Solar Energy 76 2003 339 344
143. 2 impregnated attapulgite for thermochemical storage of heat Thermochimica Acta 434 2005 37 41
144. B. Dawoud, and Y. Aristov Experimental study on the kinetics of water vapor sorption on selective water sorbents, silica gel and alumina under typical operating conditions of sorption heat pumps International Journal of Heat and Mass Transfer 46 2003 273 281
145. T.C. Hui, K.C. Ng, A. Chakraborty, N.M. Oo, and M.A. Othman Adsorption characteristics of silica gel+water systems Journal of Chemical Engineering Data 47 2002 1177 1181
146. M. Ito, F. Watanabe, and M. Hasatani Improvement of both adsorption performance of silica gel and heat transfer characteristics by means of heat exchange modulation for a heat pump Heat Transfer Japanese Research 25 1996 420 433
147. C.X. Jia, Y.J. Dai, J.Y. Wu, and R.Z. Wang Use of compound desiccant to develop high performance desiccant cooling system International Journal of Refrigeration 30 2007 345 353
148. Henninger S.K., Jeremias F., Kummer H., Schossig P., Henning H.-M. Novel sorption materials for solar heating and cooling. In: Proceedings of the International Conference on Solar Heating and Cooling for Buildings and Industry. 2012.
149. M.M. Dubinin Adsorption in micropores Journal of Colloid and Interface Science 23 1967 487 499
150. S. Mintova, and T. Bein Nanosized zeolite films for vapor-sensing applications Microporous and Mesoporous Materials 50 2001 159 166
151. A.V. Rao, N.D. Hedge, and H. Hirashima Absorption and desorption of organic liquids in elastic superhydrophobic silica aerogels Journal of Colloid and Interface Science 305 2007 124 132
152. S.D. Bhagat, Y.-H. Kim, Y.-S. Ahn, and J.-G. Yeo Textural properties of ambient pressure dried water-glass based silica aerogel beads: one day synthesis Microporous and Mesoporous Materials 96 2006 237 244
153. M.R. Miner, B. Hosticka, and P.M. Norris The effects of ambient humidity on the mechanical properties and surface chemistry of hygroscopic silica aerogel Journal of Non-Crystalline Solids 350 2004 285 289
154. G. Ferey Hybrid porous solids: past, present, future Chemical Society Reviews 37 2008 191 214
155. S.K. Henninger, F.P. Schmidt, and H.M. Henning Water adsorption characteristics of novel materials for heat transformation applications Applied Thermal Engineering 30 2010 1692 1702
156. Jänchen J, Stachb H. Adsorption properties of porous materials for solar thermal energy storage and heat pump applications. In: Proceedings of the international conference on solar heating and cooling for buildings and industry; 2012.
157. O.M. Yaghi, M. O'Keeffe, N.W. Ockwig, H.K. Chae, M. Eddaoudi, and J. Kim Reticular synthesis and the design of new materials Nature 423 2003 705 714
158. 4-zeolite composite for long-term thermal energy storage Solar Energy Materials and Solar Cells 95 2011 1831 1837
159. J. Ehrenmann, S.K. Henninger, and C. Janiak Water adsorption characteristics of MIL-101 for heat-transformation applications of MOFs European Journal of Inorganic Chemistry 2011 2011 471 474
160. Y. Aristov Novel materials for adsorptive heat pumping and storage:screening and nanotailoring of sorption properties Journal of Chemical Engineering of Japan 40 2007 1139 1153
161. R. Weber, and V. Dorer Long-term heat storage with NaOH Vacuum 82 2008 708 716
162. Bales C. Laboratory prototypes of thermo-chemical and sorption storage units; 2009. 34 p. Report no. B3-Task 32. Available from: 〈http://www.iea- shc.org/publications/downloads/task32-Laboratory-Prototypes-of-Thermo-Chemical- and-Sorption-Storage-Units.pdf〉.
163. Welteroth J, Mittelbach W. High energy density sorption heat storage for solar space heating (HYDES HEAT STORAGE); 2001. Report no. JOR3-CT98-0199. available at: 〈http://www.airglass.se/joule.html〉.
164. K.E. N'Tsoukpoe, N. Le Pierrès, and L. Luo Numerical dynamic simulation and analysis of a lithium bromide/water long-term solar heat storage system Energy 37 2012 346 358
165. Liu H, Luo L, Le Pierrès N. Stockage inter-saisonnier d'énergie solaire pour l'habitat par absorption. PhD thesis. Université de Grenoble; 2010.
166. van Essen VM, Cot Gores J., Bleijendaal LPJ, Zondag HA, Schuitema R, Van Helden WGJ. Characterisation of salt hydrates for compact seasonal thermochemical storage. In: Proceedings of the ASME 3rd international conference on energy sustainability; 2009.
167. 2O: first upscaling of the reactor. In: Proceedings of the international conference for sustainable energy storage; 2011.
168. D. Stitou, N. Mazet, and M. Bonnissel Performance of a high temperature hydrate solid/gas sorption heat pump used as topping cycle for cascaded sorption chillers Energy 29 2004 267 285
169. E.A. Levitskij, Y.I. Aristov, M.M. Tokarev, and V.N. Parmon Chemical Heat Accumulators: a new approach to accumulating low potential heat Solar Energy Materials and Solar Cells 44 1996 219 235
170. M.N. Azpiazu, J.M. Morquillas, and A. Vazquez Heat recovery from a thermal energy storage based on the Ca(OH)(2)/CaO cycle Applied Thermal Engineering 23 2003 733 741
171. P. Zhang, C. Wang, and R. Wang Composite reactive block for heat transformer system and improvement of system performance International Journal of Chemical Engineering of Japan 40 2007 1275 1280
172. R.G. Oliveira, and R.Z. Wang A consolidated calcium chloride-expanded graphite compound for use in sorption refrigeration systems Carbon 45 2007 390 396
173. R.G. Oliveira, R.Z. Wang, and C. Wang Evaluation of the cooling performance of a consolidated expanded graphite-calcium chloride reactive bed for chemisorption icemaker International Journal of Refrigeration-Revue Internationale Du Froid 30 2007 103 112
174. T.X. Li, R.Z. Wang, J.K. Kiplagat, and L.W. Wang Performance study of a consolidated manganese chloride-expanded graphite compound for sorption deep-freezing processes Applied Energy 86 2009 1201 1209
175. W.G. Haije, J.B.J. Veldhuis, S.F. Smeding, and R.J.H. Grisel Solid/vapor sorption heat transformer: design and performance Applied Thermal Engineering 27 2007 1371 1376
176. 2 system Applied Thermal Engineering 22 2002 1163 1173
177. 2 ammonia reactors for heat pumps and refrigerators Adsorption-Journal of the International Adsorption Society 2 1996 311 316
178. L.W. Wang, R.Z. Wang, J.Y. Wu, and K. Wang Compound adsorbent for adsorption ice maker on fishing boats International Journal of Refrigeration-Revue Internationale Du Froid 27 2004 401 408
179. 2 confined into SBA-15 pores Microporous and Mesoporous Materials 129 2010 243 250
180. 2 confined in micropores of the silica gel:sorption properties Reaction Kinetics and Catalysis Letters 59 1996 335 342
181. 2 confined in silica gel pores: Sorption/desorption kinetics Reaction Kinetics and Catalysis Letters 62 1997 143 150
182. L.W. Wang, R.Z. Wang, and R.G. Oliveira A review on adsorption working pairs for refrigeration Renewable and Sustainable Energy Reviews 13 2009 518 534
183. 2 sorbent for low grade heat storage International Journal of Thermal Sciences 45 2006 804 813
184. S. Mauran, H. Lahmidi, and V. Goetz Solar heating and cooling by a thermochemical process. First experiments of a prototype storing 60 kWh by a solid/gas reaction Solar Energy 7 2008 623 636
185. 2O for thermochemical seasonal solar heat storage. In: Proceedings of 5th International Renewable Energy Storage Conference, IRES; 2010.
186. Zondag HA, van Essen VM, Bleijendaal LPJ, Kikkert BWJ, Bakker M. Economical feasibility of sorption heat storage. In: Proceedings of 5th International Renewable Energy Storage Conference, IRES; 2010.
187. SHC/ECES Task 42/24 Thermal Energy Storage: Material Development for System Integration. Available from: 〈http://www.iea-shc.org/task42/ highlights/Task42-Highlights-2011.pdf〉.
188. Wilson J. Thermal Diffusivity; 2007. Available from: 〈http://www. electronics-cooling.com/2007/08/thermal-diffusivity/〉.
189. Atear O.E. Storage of thermal energy. Encyclopedia of life support systems (EOLSS). 2008.
190. 2n+2 (n=5 to 10) and Toluene International Journal of Thermophysics 23 2002 337 356
191. E. Barreira, and V.P. de Freitas Evaluation of building materials using infrared thermography Construction and Building Materials 21 2007 218 224
192. Nauhaus Idea Repository. Thermal Mass. Available from: 〈https://docs.google.com/spreadsheet/ccc?key= 0ArqJFPOm7AYEcHpLNkgycGg5cUtwOTlrYmlPcF9WZFE&hl=en#gid=0〉.
193. Farid M, Kong WJ. Under-floor heating with latent heat storage. In: Proceedings of the institution of mechanical engineers; 2001.
194. H. Weinlader, A. Beck, and J.P.C.M. Fricke facade-panel for daylighting and room heating Solar Energy 78 2005 177 186
195. J. Li, P. Xue, H. He, W. Ding, and J. Han Preparation and application effects of a novel form-stable phase change material as the thermal storage layer of an electric floor heating system Energy and Buildings 41 2009 871 880
196. Qureshi WA, Nair N-KC, Farid MM. Impact of energy storage in buildings on electricity demand side management. Energy Conversion and Management 2011;52:2110-2120.
197. K. Lin, Y. Zhang, X. Xu, H. Di, R. Yang, and P. Qin Experimental study of under-floor electric heating system with shape-stabilized PCM plates Energy and Buildings 37 2005 215 220
198. K. Peippo, P. Kauranen, and P.D. Lund A multicomponent PCM wall optimized for passive solar heating Energy and Buildings 17 1991 259 270
199. Castell A., Martorell I., Medrano M., Pérez G., Cabeza L.F. Experimental study of using PCM in brick constructive solutions for passive cooling. Energy and Buildings 2010;42:534-540.
200. B. Zalba, J. Marin, L.F. Cabeza, and H. Mehling Free-cooling of buildings with phase change materials International Journal of Refrigeration 27 2004 839 849
201. K. Nagano, T. Mochida, S. Takeda, R. Domanski, and M. Rebow Thermal characteristics of manganese (II) nitrate hexahydrate as a phase change material for cooling systems Applied Thermal Engineering 23 2003 229 241
202. Karlessi T, Santamouris M, Synnefa A, Assimakopoulos D, Didaskalopoulos P, Apostolakis K. Development and testing of PCM doped cool colored coatings to mitigate urban heat island and cool buildings. Building and Environment 2011;46:570-576.
203. K. Yanbing, J. Yi, and Z. Yinping Modeling and experimental study on an innovative passive cooling system-NVP system Energy and Buildings 35 2003 417 425
204. K. Nagano, S. Takeda, T. Mochida, K. Shimakura, and T. Nakamura Study of a floor supply air conditioning system using granular phase change material to augment building mass thermal storage-Heat response in small scale experiments Energy and Buildings 38 2006 436 446
205. C. Arkar, B. Vidrih, and S. Medved Efficiency of free cooling using latent heat storage integrated into the ventilation system of a low energy building International Journal of Refrigeration 30 2007 134 143
206. E.M. Alawadhi Thermal analysis of a building brick containing phase change material Energy and Buildings 40 2008 351 357
207. A. Lazaro, P. Dolado, J.M. Marin, and B. Zalba PCM-air heat exchangers for free-cooling applications in buildings: Experimental results of two real-scale prototypes Energy Conversion and Management 50 2009 439 443
208. M. Koschenz, and B. Lehmann Development of a thermally activated ceiling panel with PCM for application in lightweight and retrofitted buildings Energy and Buildings 36 2004 567 578
209. Environmental Process Limited. Available from: 〈http://www. pcmproducts.net/〉.
210. Climator. Available from: 〈http://www.climator.com/en/climsel/ 〉.
211. Rubitherm Phase Change Material; 2010. Available from: 〈http://www.rubitherm.de/english/index.htm〉.
212. M. Esen, and T. Ayhan Development of a model compatible with solar assisted cylindrical energy storage tank and variation of stored energy with time for different phase change materials Energy Conversion and Management 37 1996 1775 1785
213. M. Esen, A. Durmus, and A. Durmus Geometric design of solar-aided latent heat store depending on various parameters and phase change materials Solar Energy 62 1998 19 28
214. J. Heckenkamp, and H. Baumann Latentwärmespeicher Sonderdruck aus Nachrichten 11 1997 1075 1081
215. Y. Marcus Heat capacities of molten salts with polyatomic anions Thermochimica Acta 495 2009 81 84
216. R. Naumann, and H.H. Emons Results of thermal analysis for investigation of salt hydrates as latent heat-storage materials Journal of Thermal Analysis 35 1989 1009 1031
217. Belton G, Ajami F. Thermochemistry of salt hydrates; 1973. 91 p. Report no. NSF/RANN/SE/GI27976/TR/73/4. Available from: 〈http://md1.csa.com/ partners/viewrecord.php?requester=gs&collection=TRD&recid= N7428664AH&q=Belton+G%2C+Ajami+F.+Thermochemistry+of+salt+hydrates. +&uid=791417037&setcookie=yes〉.
218. Telkes M. Thermal storage for solar heating and cooling. In: Proceedings of the workshop on solar energy storage subsystems for the heating and cooling of buildings; 1975.
219. G.A. Lane Low temperature heat storage with phase change materials The International Journal of Ambient Energy 1 1980 155 168
220. E. Halawa, and W. Saman Thermal performance analysis of a phase change thermal storage unit for space heating Renewable Energy 36 2011 259 264
221. R. Naumann, and H.H. Emons Results of thermal analysis for investigation of salt hydrates as latent heat-storage materials Journal of Thermal Analysis 35 1989 1009 1031
222. Y. Zhang, Y. Jiang, and Y. Jiang A simple method, the T-history method, of determining the heat of fusion, specific heat and thermal conductivity of phase-change materials Measurement Science and Technology 10 1999 201 205
223. F. Lindner Heat storage with salts and salt hydrates Ki Luft-und Kältetechnik 10 1996 462 467
224. Freitag T. A latent heat storage procedure based on super cooled salt solutions. In: Proceedings of the 4th workshop IEA annex 10; 1999.
225. kipedia. Thermal properties of gallium. Available from: 〈http://en.wikipedia.org/wiki/Gallium〉.
226. Alchemy Casting inc. Properties of fusible alloys. Ontario. Available from: 〈http://www.alchemycastings.com/pdf/Fusible%20Alloys.pdf〉.
227. N. Dadgostar, and J.M. Shaw A predictive correlation for the constant-pressure specific heat capacity of pure and ill-defined liquid hydrocarbons Fluid Phase Equilibria 313 2012 211 226
228. M.M. Farid, F.A. Hamad, and M. Abu-Arabi Phase change cool storage using dimethyl-sulfoxide Energy Conversion Management 39 1998 819 826
229. Zalba B. Thermal energy storage with phase change materials. PhD thesis. Spain: University of Zaragoza; 2002.
230. K. Sasaguchi, and R. Viskanta Phase change heat transfer during melting and resolidification of melt around cylindrical heat source(s)/sink(s) Journal of Energy Resources Technology 111 1989 43 49
231. A. Sari, and A. Karaipekli Thermal conductivity and latent heat thermal energy storage characteristics of paraffin/expanded graphite composite as phase change material Applied Thermal Engineering 27 2007 1271 1277
232. N. Durupt, A. Aoulmi, M. Bouroukba, and M. Rogalski Heat capacities of liquid polycyclic aromatic hydrocarbons Thermochimica Acta 260 1995 87 94
233. D. Feldman, M.M. Shapiro, and D. Banu Organic phase change materials for thermal energy storage Solar Energy Materials and Solar Cells 13 1986 1 10
234. M.N.R. Dimaano, and T. Watanabe The capric-lauric acid and pentadecane combination as phase change material for cooling applications Applied Thermal Engineering 22 2002 365 377
235. M.N.R. Dimaano, and T. Watanabe The capric and lauric acid mixture with chemical additives as latent heat storage materials for cooling application Energy 27 2002 869 888
236. A. Sari, and K. Kaygusuz Thermal performance of myristic acid as a phase change material for energy storage application Renewable Energy 24 2001 303 317
237. A. Sari, and K. Kaygusuz Some fatty acids used for latent heat storage: thermal stability and corrosion of metals with respect to thermal cycling Renewable Energy 28 2003 939 948
238. A. Sari, and K. Kaygusuz Thermal performance of palmitic acid as a phase change energy storage material Energy Conversion and Management 43 2002 863 876
239. A. Sari, and K. Kaygusuz Thermal energy storage system using stearic acid as a phase change material Solar Energy 71 2001 365 376
240. Bales C, Gantenbein P, Jaenig D, Kerskes H, Summer K, van Essen M, Weber R. Laboratory tests of chemical reactions and prototype sorption storage units; 2008. 55 p. Report no. B4-Task 32. Available from: 〈http://www.iea-shc.org/ publications/downloads/task32-b4.pdf〉.
241. Gartler G, Jähnig D, Purkarthofer G, Wagner W. Development of a high energy density sorption storage system. In: Proceedings of the EUROSUN; 2004.
242. Hadorn J-C, Bales C, Streicher W, Drueck H. Concepts de stockage innovants pour bâtiments solaires et basse énergie; 2007. IEA SHC e-Newsletter no. 4.
243. Hauer A. Adsorption systems for TES-Design and demonstration projects. In: Proceedings of the thermal energy storage for sustainable energy consumption conference. 2007.
244. Jaehnig D, Hausner R, Wagner W, Isaksson C. Thermo-chemical storage for solar space heating in single-family house. In: Proceedings of the ECOSTOCK; 2006.
245. Z. Knez, and Z. Novak Adsorption of water vapor on silica, alumina, and their mixed oxide aerogels Journal of Chemical Engineering Data 46 2001 858 860
246. E.-P. Ng, and S. Mintova Nanoporous materials with enhanced hydrophilicity and high water sorption capacity Microporous and Mesoporous Materials 114 2008 1 26
247. P.L. Llewellyn, F. Schuth, Y. Grillet, F. Rouquero, J. Rouquero, and K.K. Unger Water sorption on mesoporous aluminosilicate MCM-41 Langmuir 11 1995 574 577
248. Hauer A. Thermal energy storage with zeolite for heating and cooling applications. In: Proceedings of the 3rd workshop of annex 17 ECES IA/ IEA; 2002.
249. U. Lohse, E. Liiffler, K. Kosche, J. Janchen, and B. Parlitz Isomorphous substitution of silicon in the erionite-like structure AIP04-17 and acidity of SAPO-17 Zeolites 13 1993 549 556
250. 2O gel Materials Research Bulletin 26 1991 357 366
251. R. Szostak Handbook of molecular sieves 2003 Van norstrand reinhold New-York
252. J. Mrowiec-Białoń, A.B. Jarzebski, A.I. Lachowski, J.J. Malinowski, and Y.I. Aristov Effective hybride adsorbents of water vapor by the sol-gel method Chemistry of Materials 9 1997 2486 2490
253. Ristić A, Henninger S, Kaučič V. Investigation on new water sorbent for heat storage. In: Proceedings of the international conference for sustainable energy storage; 2011.
254. L.G. Gordeeva, G. Resticcia, G. Cacciola, and Y.I. Aristov Selective water sorbents for multiple applications, 5-libr confined in mesopores of silica-gel-sorption properties Reaction Kinetics and Catalysis Letters 63 1998 81 88
255. 2-LiBr nanocomposite sol-gel adsorbents of water vapor: preparation and properties Journal of Colloid and Interface Science 218 1999 500 503
256. Hongois S, Stevens P, Coince A-S, Kuznik F, Roux J-J. Thermochemical storage using composite materials. In: Proceedings of the EUROSUN-1st international conference on solar heating, cooling and buildings; 2008.
257. A. Sapienza, I.S. Glaznev, S. Santamaria, A. Freni, and Y.I. Aristov Adsorption chilling driven by low temperature heat: new adsorbent and cycle optimization Applied Thermal Engineering 32 2012 141 146
258. Weber R. Long-term heat storage with NaOH. In: Proceedings of the EUROSUN-2nd international conference on solar heating, cooling and buildings; 2010.
259. Bales C. Solar Energy Research Center (SERC). Chemical and sorption heat storage. In: Proceedings of the Danvak seminar (Solar heating systems-Combisystems-Heat storage); 2006.
260. 2O absorption seasonal storage of solar heat. In: Proceedings of the international conference for sustainable energy storage; 2011.
261. Van Essen M, Bleijendaal LPJ, Kikkert BWJ, Zondag AH, Bakker M, Bach PW. Development of a compact heat storage system based on salt hydrates. In: Proceedings of the EUROSUN 2010, 2nd international conference on solar heating, cooling and buildings; 2010.
262. van Essen M, Zondag AH, Schuitema R, van Helden WGJ, Rindt CCM. Materials for thermochemical storage: characterization of magnesium sulfate. In: Proceedings of the EUROSUN-1st international conference on solar heating, cooling and buildings; 2008.
263. Visscher K, Veldhuis JBJ. Comparison of candidate materials for seasonal storage of solar heat through dynamic simulation of building and renewable energy system. In: Proceedings of the ninth international building performance simulation association; 2005.
264. Opel O, Rammelberg HU, Gérard M, Ruck W. Thermochemical storage materials research - TGA/DSC-hydration studies. In: Proceedings of the international conference for sustainable energy storage; 2011.
265. Bertsch F, Mette B, Asenbeck S, Kerskes H, Müller-Steinhagen H. Low temperature chemical heat storage - an investigation of hydration reactions. In: Proceedings of the EFFSTOCK; 2009.
266. Kerskes H, Mette B, Asenbeck S, Drück H, Müller-Steinhagen H. Experimental and numerical investigations on thermo chemical heat storage. In: Proceedings of the EUROSUN-2nd international conference on solar heating, cooling and buildings; 2010.
267. Marias F, Tanguy G, Wyttenbach J, Rouge SPapillon P. Thermochemical Storage: first results of pilot storage system with moist air. In: Proceedings of the ISES world congress; 2011.
268. Tanguy G, Papillon P, Paulus C. Seasonal storage coupled to a solar combisystem:Dynamic simulations for process dimensioning. In: Proceedings of the EUROSUN-2nd international conference on solar heating, cooling and buildings; 2010.
269. Hennaut S., Thomas S., André P., Courbon E., Le Berigot T., Frere M. Prédimensionnement par simulations dynamiques d'un réacteur de stockage thermochimique assurant l'autonomie d'un système solaire combiné. In: Proceedings of the Congrès Français de Thermique; 2011.