[1] M. Fatih Demirbas, "Thermal Energy Storage and Phase change
Materials: an Overview", Energy Sources, part B, 1:85-95,
2006.
[2] S. Mondal, "Phase change materials for smart textiles – an
overview", Applied Thermal Engineering, V.28 (2008), N. 11-
12, P. 1536-1550.
[3] Zalba B., Marin J. M., Cabeza L. F., Mehling H.; Review on
thermal energy storage withphase change materials, heat
transfer analysis and applications, Applied Thermal
Engineering, 23, (2003) pp. 251 -283.
[4] Latent heat storage in building materials, D.W. Hawes, Energy
and buildings, V. 20, Issue 1,1993.
[5] بکارگیریموادتغییرفازدهندهدرساختمانجهتصرفهجوییدرانرژی
گرمایشی، م . معرفت، س.کیان، مهندسی مکانیک، شماره 68 ، سال
هجدهم، 1388
[6] S. Mondal, "Phase change materials for smart textiles – an overview", Applied Thermal Engineering, V.28 (2008),
N. 11-12, P. 1536-1550.
[7] Thermal Energy Storage for Sustainable Energy Consumption/ Fundamentals, Case Studies and Design /edited by Halime O¨ . Paksoy / Series II: Mathematics, Physics and Chemistry – Vol. 234/ PART V / phase change materials/ chapter 17
[8] Kenisarin, M., and Mahkamov, Kh., SolarEnergy Storage using Phase ChangeMaterials", Renewable and Sustainable Energy Reviews, No.11, pp.1913-1965, (2007).
[9] Review on thermal energy storage with phase changematerials
and applications, Atul Sharma ,V.V. Tyagi, C.R. Chen , D. Buddhi , Renewable and Sustainable Energy Reviews 13
(2009) 318–345
[10] M ehling, Harald, "Innovative PCMTechnology", 8th Expert Meeting and Work Shop, Kizkalesi, Turkey, (2004).
[11] Thermal Energy Storage for Sustainable Energy Consumption /Fundamentals, Case Studies and Design /edited by Halime O¨ . Paksoy / Series II: Mathematics, Physics and Chemistry – Vol. 234/ PART V / phase change materials/chapter 20
[12] Swet J. Phase change storage in passive solar architecture. In:Proceedingsof the 5th national passive solar conference.
Massachusetts: Amhearst; 1980. p. 282–6.
[13] GhoneimAA, Klein SA, Duffie JA. Analysis of collector–
storage buildingwalls using phase change materials. Solar
Energy 1991;47(1):237–42.
[14] Eiamworawutthikul C, Strohbehn J, Harman C. Investigation of phasechangethermal storage in passive solar design for light-constructionbuilding in thesoutheastern climate region. A research program to promote energy conservation and the use of renewable energy.
[15] Stritih U., Novak P., Solar heat storage wall for building ventilation. World renewable energy congress (WREC); 1996. p. 268–271.
[16] Peippo, K., Kauranen, P., and Lund, PD., "Multicomponent PCM Wall Optimized for Passive Solar Heating", Energy and Buildings, No.17, pp. 259–270, (1991).
[17] Tyagi, V., and Buddhi, D., "PCM Thermal Storage in Buildings": A State of Art, Renewable and Sustainable Energy Reviews, No.11, pp. 1146–1166 (2007).
[18] Schossig, P., Schossig P., Henning H.-M., Gschwander S., and Haussmann T., "Microencapsulated Phase-Change Materials Integrated into Construction Materials, Solar Energy Materials, No. 89, pp. 297-306, (2005).
[19] Inaba, H., and Tu, P., "Evaluation ofThermophysica CharacteristicsonShape-Stabilized Paraffin as a Solid–Liquid PhaseChangeMaterial", Heat Mass Transfer, No.32, pp. 307–312, (1997).
[20] Lin, K., Lin, K., P, Zhang, Y.P, Xu Xu, Di H.F., Yang R., Qin P., "ModelingandSimulation of Under-Floor Electric HeatingSystem with Shape-Stabilized PCM Plates,Building and Environment, No. 39, pp.1427–1434, (2004).
[21] Athienities A, Chen Y., The effect of solar radiation on dynamic thermalperformance of floor heating systems. SolarEnergy 2000; 69(3): 229–37.
[22] Lin KP, Zhang YP, Xu X, Di HF, Yang R, Qin PH. Modeling andsimulation of under-floor electric heating system with shape-stabilizedPCM plates. Build Environ 2004;39(12):1427–34.
[23] Lillich KH. Electro–Tech 1971; 49:579.
[24] Shitzer, Levy M. Trans ASME J Sol Energy Eng 1983; pp. 105:200.
[25] Farid MM, Husian Rafah M. An electrical storage heaterusing the phasechange method of heat storage. Energy
Convers Manage 1990;30(3):219–30.
[26] Farid MM, Chen XD. Domestic electrical space heating with heatstorage. Proc Inst Mech Eng 1999; 213: 83–92.