PCM thermal storage in buildings: A state of art

Sodha, 1986

Sharma SD. Thermal energy storage systems using phase change material for temperature applications. Ph.D. thesis, 1999.

Mehling H, Hiebier S, Cabeza LF. News on the application of PCMs for heating and cooling of buildings. Advanced thermal energy storage through phase change materials and chemical reactions feasibility studies and demonstration project, third workshop, IEA, ECES IA Annex 17, 1–2 October, Tokyo, Japan, 2002.

Telkes M. Thermal storage for solar heating and cooling. In: Proceedings of the workshop on solar energy storage sub systems for heating and cooling of buildings, Charlottesville, University of Virginia, 1975.

Askew GL. Solar heating utilization a paraffin's phase change material. In: Proceedings of the second national passive solar conference, Philadelphia, PA, 1978.

Farouk B, Guceri SI. Tromb–Michal wall using a phase change material. In: Proceedings of the second Miami international conference on alternative energy, Miami, 1979.

Bourdeau, 1980, Study of two passive solar systems containing phase change materials for thermal storage, 297

Swet CJ. Phase change storage in passive solar architecture. In: Proceedings of the fifth national passive solar conference, Amherst, MA, 1980. p. 282–6.

Ghoneim, 1991, Analysis of collector—storage building walls using phase change materials, Sol Energy, 47, 237, 10.1016/0038-092X(91)90084-A

Chandra, 1985, Thermal performance of a non-A/C building with PCCM thermal storage wall, Energy Convers Manage, 25, 15, 10.1016/0196-8904(85)90064-0

Knowler, 1983, Proportioning composites for efficient-TSWs, Sol Energy, 31, 319, 10.1016/0038-092X(83)90020-8

Buddhi, 1999, Measurements of transmittance of solar radiation through stearic acid: latent heat storage material, Energy Convers Manage, 40, 1979, 10.1016/S0196-8904(99)00077-1

Stritih U, Novak P. Solar heat storage wall for building ventilation, In: World renewable energy congress (WREC), 1996. p. 268–71.

Kedl RJ, Stovall TK. Activities in support of the wax-impregnated wallboard concept. US Department of energy: thermal energy storage researches activity review, New Orleans, LA, USA, 1989.

Salyer IO, Sircar AK. Phase change material for heating and cooling of residential buildings and other applications. In: Proceedings of the 25th intersociety energy conservation engineering conference, 1990. p. 236–43.

Shapiro MM, Feldman D, Hawes D, Banu D. PCM thermal storage in wallboard. In: Proceedings of the 12th passive solar conference, Portland, 1987. p. 48–58.

Shapiro M. Development of the enthalpy storage materials, mixture of methyl stearate and methyl palmitate. Subcontract Report to Florida Solar Energy Center, 1989.

Feldman, 1989, Energy storage composite with an organic phase change material, Sol Energy Mater, 18, 333, 10.1016/0165-1633(89)90058-0

Feldman, 1989, Fatty acids and their mixtures as phase change materials for thermal energy storage, Sol Energy Mater, 18, 201, 10.1016/0165-1633(89)90054-3

Feldman, 1991, Obtaining an energy storing building material by direct incorporation of an organic phase change material in gypsum wallboard, Sol Energy Mater, 22, 231, 10.1016/0165-1633(91)90021-C

Hawes, 1993, Latent heat storage in building materials, Energy Build, 20, 77, 10.1016/0378-7788(93)90040-2

Neeper, 1986, Solar buildings research: what are the best directions?, Passive Sol J, 3, 213

Neeper, 1989, Potential benefits of distributed PCM thermal storage, 283

Neeper, 2000, Thermal dynamics of wallboard with latent heat storage, Sol Energy, 68, 393, 10.1016/S0038-092X(00)00012-8

Paris, 1993, Thermal storage by latent heat: a viable option for energy conservation in buildings, Energy Sources, 15, 85, 10.1080/00908319308909014

Rudd, 1993, Phase change material wallboard for distributed storage in buildings, ASHRAE Trans, 99, 339

Babich, 1994, DSC studies of new energy storage materials. Part 3. Thermal and flammability studies, Thermochim Acta, 243, 193, 10.1016/0040-6031(94)85054-2

Banu, 1998, Energy-storing wallboard: flammability tests, J Mater Civ Eng, 10, 98, 10.1061/(ASCE)0899-1561(1998)10:2(98)

Stovall, 1995, What are the potential benefits of including latent heat storage in common wall board, Trans ASME, 117, 318

Drake JB. A study of the optimal transition temperature of PCM wallboard for solar energy storage. Oak Ridge National Laboratory report ORNL/TM-10210 available from National Technical Information Service, Springfield, VA, USA, 1987.

Peippo, 1991, A multi-component PCM wall optimized for passive solar heating, Energy Build, 17, 259, 10.1016/0378-7788(91)90009-R

Stetiu C, Feustel HE. Phase change wallboard as an alternative to compressor cooling in californian residences. In: Proceedings of 96 ACEE summer study for energy efficient building, California, USA, 1996.

Athienitis, 1997, Investigation of the thermal performance of a passive solar test-room with wall latent heat storage, Build Environ, 32, 405, 10.1016/S0360-1323(97)00009-7

Kissock JK, Hamming JM, Whitney TI, Drake ML. Testing and simulation of phase change wallboard for thermal storage in buildings. In: Proceedings of the international solar energy conference, New York, USA, 1998. p. 45–52.

Kalousck M, Hirs J. Simulation of the summer indoor thermal comfort by using wallboard with phase change material, Eurosun, Bologna, 2002.

Buddhi D. Mishra HS, Sharma A. Thermal performance studies of a test cell having a PCM window in south direction. Annex 17, Indore, India, 2003.

Collier RK, Grimmer DP. The experimental evaluation of phase change material building walls using small passive text boxes. In: Proceedings of the third national passive solar conference, San Joseph, CA, January, 1979.

Hawes, 1990, Latent heat storage in concrete II, Sol Energy Mater, 61, 61, 10.1016/0165-1633(90)90043-Z

Hawes, 1992, Absorption of phase change material in concrete, Sol Energy Mater, 27, 91, 10.1016/0927-0248(92)90112-3

Lee, 2000, Control aspects of latent heat storage and recovery in concrete, Sol Energy Mater, 62, 217, 10.1016/S0927-0248(99)00128-2

Hadjieva, 2000, Composite salt-hydrate concrete system for building energy storage, Renewable Energy, 19, 111, 10.1016/S0960-1481(99)00024-5

Farid, 2002, Under floor heating with latent heat storage, Proc Inst Mech Eng, 215, 601, 10.1243/0957650011538839

Morrision, 1978, Effect of phase change energy storage on the performance of air-based and liquid-based solar heating system, Sol Energy, 20, 57, 10.1016/0038-092X(78)90141-X

Jurinak, 1979, On the performance of air-based solar heating systems utilizing phase change energy storage, Sol Energy, 24, 503

Ghonein, 1989, The effect of phase change material properties on the performance of solar air based heating systems, Sol Energy, 42, 441, 10.1016/0038-092X(89)90044-3

Athienities, 2000, The effect of solar radiation on dynamic thermal performance of floor heating systems, Sol Energy, 69, 229, 10.1016/S0038-092X(00)00052-9

Benard, 1981, Experimental results of a latent heat solar roof used for breeding chickens, Sol Energy, 26, 347, 10.1016/0038-092X(81)90181-X

Gutherz, 1991, A passive solar heating system for the perimeter zone of office buildings, Energy Sources, 13, 39, 10.1080/00908319108908967

Turnpenny, 2000, Noval ventilation cooling system for reducing air conditioning in buildings, Part I: Testing and theoretical modeling, Appl Therm Eng, 20, 1019, 10.1016/S1359-4311(99)00068-X

Farid, 1999, Domestic electrical space heating with heat storage, Proc Inst Mech Eng, 213, 83, 10.1243/0957650991537455

Nagano K, Mochida T, Iwata K, Hiroyoshi H, Domanski R, Rebow M. Development of new PCM for TES of the cooling system. In: Benner M, Hahne EWP, editors. Terrastock, eighth international conference on thermal energy storage, vol. 2, Stuttgart, 2000. p. 345–50.

Lin, 2005, Experimental study of under floor electric heating system with shape-stabilized PCM plates, Energy Build, 37, 215, 10.1016/j.enbuild.2004.06.017

Frank B. Phase change material for space heating and cooling, University of South Australia, Sustainable Energy Center, Presentation, 2002.

Kodo T, Ibamoto T. Research on using the PCM for ceiling board. IEA ECESIA, third workshop, 1–2 October, Tokyo, Japan, 2002 (Annex 17).

Kaygusuz, 1999, Experimental and theoretical investigation of combined solar heat pump system for residential heating, Energy Convers Manage, 40, 1377, 10.1016/S0196-8904(99)00026-6

Vakilatojjar SM, Saman W. Domestic heating and cooling with thermal storage. In: Proceedings of the Terrastock, Stuttgart, Germany, 2000. p. 382–6.

Bruno F, Saman W. Testing of a PCM energy storage system for space heating. In: Proceedings of the world renewable energy congress WII, Cologne, Germany, 2002.

Vakilatojjar, 2001, Analysis and modeling of a phase change storage system for air conditioning applications, Appl Therm Eng, 249, 10.1016/S1359-4311(00)00037-5

Omer, 2001, Experimental investigation of a thermoelectric refrigeration system employing a phase change material integrated with thermal diode (thermosyphons), Appl Therm Eng, 21, 1265, 10.1016/S1359-4311(01)00010-2

Riffat, 2001, A novel thermoelectric refrigeration system employing heat pipes and a phase change material: an experimental investigation, Renewable Energy, 23, 313, 10.1016/S0960-1481(00)00170-1

John, 2000, A novel ventilation system for reducing air conditioning in buildings: testing and theoretical modeling, Appl Therm Eng, 20, 1019, 10.1016/S1359-4311(99)00068-X

Zalba, 2004, Free cooling of buildings with phase change materials, Int J Refrig, 27, 839, 10.1016/j.ijrefrig.2004.03.015

Maccracken CD. PCM bulk storage. In: Proceedings of the international conference on energy storage, Brighton, UK, 1981. p. 159–65.

Kenneth IP. Solar thermal storage using phase change material for space heating of residential buildings, University of Brighton, School of the Environment, Research Article on Net 2002.

Kulkarni SS, Buddhi D, Sawhney RL. Study of sub-ambient phase change material and it's role in TES based space cooling application by using existing conventional chillers. In: Proceedings of the international conference and fourth experts meet on TEST, March 21–24, Indore, India, 2003. p. 169–74.

Feldman, 1986, Organic phase change materials for thermal energy storage, Sol Energy Mater, 13, 1, 10.1016/0165-1633(86)90023-7

Dincer, 2002

Lane, 1980, Low temperature heat storage with phase change materials, Int J Ambient Energy, 1, 155, 10.1080/01430750.1980.9675731

Abhat, 1983, Low temperature latent heat thermal energy storage: heat storage materials, Sol Energy, 30, 313, 10.1016/0038-092X(83)90186-X

Heckenkamp J, Baumann H. Latentwarmespeicher Sonderdruck aus Nachrichten 1997;11:1075–81.

Naumann, 1989, Results of thermal analysis for investigation of salt hydrates as latent heat-storage materials, J Therm Anal, 35, 1009, 10.1007/BF02057256

Wada, 1984, Equilibria in the aqueous ternary system containing Na+, CH CO2– and P2O74− between 38 and 85°C, Bull Chem Soc Jpn, 57, 1671, 10.1246/bcsj.57.1671

Li, 1991, Investigation of a eutectic mixture of sodium acetate trihydrate and urea as latent heat storage, Sol Energy, 47, 443, 10.1016/0038-092X(91)90112-A

Kakiuchi H. Mitsubishi Chemical Corporation, Private Communication, 2002.