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W2308361057 endingPage "1497" @default.
W2308361057 startingPage "1470" @default.
W2308361057 abstract "The most significant threat that mankind faces in the 21th century is global warming. Buildings, which account for 40% of global energy consumption and greenhouse gas emissions, play a pivotal role in global warming. Estimates show that their destructive impact will grow by 1.8% per year through 2050, which indicates that future consumption and emissions will be worse than today. Therefore, the impact of cooling systems cannot be ignored, as they, along with ventilation and heating systems, account for 60% of the energy consumed in buildings. Passive cooling techniques are a promising alternative to conventional cooling systems. Of the various passive cooling strategies, thermal energy storage by means of latent heat is an efficient way to increase the thermal inertia of building envelopes, which would reduce temperature fluctuations, leading to the improved thermal comfort of occupants. Phase change materials (PCMs) with high density for thermal energy storage can be efficiently employed to this purpose. This paper reviews recent studies of the application of PCMs for passive cooling in buildings. From the literature, a comprehensive list of different organic, inorganic and eutectic PCMs appropriate for passive cooling in buildings are reviewed. Full-scale testing and numerical modeling were found to be the most popular investigative methods used for experimental and theoretical analysis of PCMs. The combination of these two methods can provide a detailed and valid technique for PCM investigations. Finally, incorporating PCMs into building walls with macro encapsulation was also a dominant interest in previous studies." @default.
W2308361057 created "2016-06-24" @default.
W2308361057 creator A5014917862 @default.
W2308361057 creator A5021718688 @default.
W2308361057 creator A5028734055 @default.
W2308361057 creator A5061367697 @default.
W2308361057 creator A5068312294 @default.
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W2308361057 creator A5074270176 @default.
W2308361057 creator A5082006083 @default.
W2308361057 creator A5091311765 @default.
W2308361057 date "2016-07-01" @default.
W2308361057 modified "2023-10-11" @default.
W2308361057 title "A review on phase change material (PCM) for sustainable passive cooling in building envelopes" @default.
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