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Review on Solar Energy Storage in Building with Phase Change Materials

arun kumar

Abstract


By improving the effectiveness of thermal storage, effectiveness of all renewable heating and cooling systems can be improved. Thermal energy storage is a green technology in which energy can be store as sensible and latent heat storage. Latent heat storage stores upto three times more energy compared to sensible heat storage. Heat is stored in phase change processes. Phase change materials reduce temperature variation in building due to high latent heat. Energy storage in building by PCMs has been the focus in this review. This paper contains a list of commercial and noncommercial PCMs useful for buildings along with their properties.

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References


S. Enibe. Performance of a natural circulation solar air heating system with phase change material energy storage, Renew Energy. 2002; 27: 69–6p.

R. Kelly. Latent heat storage in building materials, Amec Design.

M. Ravikumar, P. Srinivasan. Phase change material as a thermal energy storage material for cooling of building, J Theor Appl Inform Technol. 2005–2008.

B. Boh, B. Šumiga. Microencapsulation technology and its applications in building construction materials, Mater Geoenviron. 2008; 55: 329–44p.

J.C. Hadorn009 – Advanced storage concepts for active solar energy. Iea-shc Task. 2008; 32.

K. Szymocha. Advanced thermal solar system with heat storage for residential house space heating. 2005.

Review on thermal energy storage with phase change: materials, heat transfer analysis and applications, Appl Therm Eng. 2003; 23: 251–83p.

S.M. Vakilaltojjar, W. Saman. Analysis and modelling of a phase change storage system for air conditioning applications, Appl Therm Eng. 2001; 21: 249–63p.

S.H. Lee, S.J. Yoon, Y.G. Kim, Y.C. Choi, J.H. Kim, J.G. Lee. Development of building materials by using micro-encapsulated phase change material, Korean J Chem Eng. 2007; 24(2): 332–5p.

C. Bales, J.C. Hadorn, H. Drück, W. Streicher. Advanced storage concepts for solar houses and low energy buildings. Iea-shc Task. 32.

U. Stritih. An experimental model of thermal storage system for active heating or cooling of buildings.

D. Rozanna, A. Salmiah, T.G. Chuah, R. Medyan, S.Y. Thomas Choong. A study on thermal characteristics of phase change material (pcm) in gypsum board for building application, J Oil Palm Res. 2005; 17: 41–6p.

A. Abhat. Low temperature latent heat thermal energy storage: heat storage materials, Solar Energy. 1983; 30: 313–32p.

D.W. Hawes, D. Feldman, D. Banu. Latent heat storage in building materials, Energy Build. 1993; 20: 77–86p.

G.A. Lane. Low temperature heat storage with phase change materials, Int J Ambient Energy. 1980; 1: 155–68p.

D. Feldman, M.M. Shapiro, D. Banu. Organic phase change materials for thermal energy storage, Solar Energy Mater. 1986; 13: 1–10p.

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

B. Zalba. Almacenamiento termico de energıa mediante cambio de fase, Procedimiento experimental, Ph.D. Thesis. University of Zaragoza (Spain), 2002.


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