An Integrated Approach to Assess the Impact of PCM [Phase Change Material] to Reduce the Energy Consumption in Buildings-a Review
-
2018-11-27 https://doi.org/10.14419/ijet.v7i4.24.21865 -
Abstract
The achievable joining of Phase Change Material [PCM] in building materials has pulled in a lot of examination intrigue overall due to the need on a dangerous atmospheric deviation and further more the capacity of PCMs to reduce vitality utilization in structures owing to their warm vitality stockpiling capacities. As a substance with high warmth of combination, PCM is equipped for putting away and discharging enormous measures of vitality inside the assortment of inert warmt in liquefying and hardening forms at the specific change temperature. For as long as 25 years,critical examination has been attempted on potential utilization of PCMs in concrete. Latent Heat Storage [LHS] aimed a PCM is unbelievably alluring because of its high vitality stockpiling thickness and its isothermal conduct all through the stage change process. Expanding the warm stockpiling ability of a building will upgrade the human solace by diminishing the recurrence of inside air temperature swings all together that the inside air temperature is nearer to the pre defined temperature for a broadened measure of time.
-
References
[1] D.Zhore, C.Y.Zhao, Y.Tian. “Review on thermal energy storage with plane change material PCM’s†.Applied Engineering 92(2012) 593-605
[2] N.Soares J.J Costa,A.R Gas par,P.Santos.Review of passive PCM latent heat thermal engineering storage systems towards buildings energy efficiency.
[3] Ting KC,Giannaka Kas PN,Gilberth SG.Durability of latent heat storage tube sheets solar energy 1987 ;39(2);79-85.
[4] Fermandal PG,salt hydrate used for latent heat storage:Corvosion metals & reliability of thermal performance:Solar energy 1988;41(2);193-7
[5] Sharma.SD,Buddhi.D, D.Sawhney R L. Accelerated thermal cycle test of latent heat storage materials. Solar energy 1999:66(6),483-90.
[6] Sharma A, Sharma SD,Buddhi D. Accelerated thermal cycle test of acetamide,sterauc aid & paraffin wax for solar thermal latent heat storage applications. Energy conserve management 2002:43(14):1923-30
[7] Kimura H, Junjiro K-Mixture of calcium chloride hexahydeate with salt hydrate or anhydrous salts as latent heat storage materials. Energy conservation management 1988;28(3);197-200.
[8] Tgagi.VV ,Buddi.D. Thermal cycling testing of calcium chloride hexa hydrate as a possible PCM for latent heat storage. Solar energy mater solar cell 2008:92:891-9.
[9] E Osterman, VV Tyagi , Butala V,Rahim NA,Stritich U. Review on PCM based cooling technologies for buildings. Energy & Buildings 2012; 49:37-49.
[10] Tyagi VV,Buddhi D-PCM thermal storage in buildings-a state of ART. Renewable and Sustainable Energy Reviews 2007;11;1146-66.
[11] Autoxy Aroul Raj V, Velraj R-Review on free cooling of buildings using PCM. Renewable & Sustainable Energy Reviews 2010; 14:2819-29.
[12] Haoshan Ge, Haiyan Li,ShengfuMei,Jing Liu,Low melting point liquid metal as a new clau of PCM; An emerging frontier in energy area-Renewable & Sustainable energy Reviews.21(2013)331-346.
[13] A.Pasupatty, L.Athanawins,R.Velraj,R.V.Seeniraj, Experimental Investigation and numerical simulation Analysis on the thermal performance of a building roof incorporation (PCM) for thermal management. Applied Thermal Engineering 28(2008)556-565.
-
Downloads
-
How to Cite
Reddy, M. K. K., Rao, D. B. N., & Reddy, D. M. S. (2018). An Integrated Approach to Assess the Impact of PCM [Phase Change Material] to Reduce the Energy Consumption in Buildings-a Review. International Journal of Engineering & Technology, 7(4.24), 100-102. https://doi.org/10.14419/ijet.v7i4.24.21865Received date: 2018-11-27
Accepted date: 2018-11-27
Published date: 2018-11-27