期刊
CASE STUDIES IN THERMAL ENGINEERING
卷 26, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.csite.2021.101164
关键词
Different regions; Prefabricated building; Phase change material; Adaptability; Building energy saving
资金
- National Science Foundation of China [52078110]
- Scientific Project of Ministry of Housing and Urban Rural Development of China [2020-K-184, 2020-K-162]
- Team Training Project of Northeast Petroleum University [KYCXTD201901]
The use of phase change materials (PCM) in prefabricated buildings can significantly improve the thermal performance and energy consumption of the buildings. Internal placement of PCM is more energy-saving than external placement, and placing PCM on the east or west side of the building is more beneficial for energy saving and indoor temperature improvement. In conclusion, PCM can effectively enhance the thermal and energy performance of prefabricated buildings in different regions.
In recent years, prefabricated building is widely used in residential building and construction site. However, due to the high heat transfer performance of prefabricated building envelopment, the indoor thermal environment of prefabricated building is poor. The application of phase change material (PCM) of prefabricated building envelopment is an effective mean to improve the indoor thermal condition in building. In this paper, the thermal performance and energy consumption of prefabricated building with PCM were investigated by using EnergyPlus software in five different climatic regions. Results showed that PCM placed inside the building wall or roof is more energy-saving than outside; PCM placed on the east or west side building wall is better for energy saving and indoor air temperature improvement; cetane has the best energy-saving effect among the five kinds of PCM; thickness of PCM with optimal energy saving is 10 mm, 10 mm, 20 mm, 30 mm and 30 mm in the areas of severe cold, cold, mild, hot summer and cold winter, hot summer and warm winter, respectively. Conclusively, PCM can significantly improve the thermal and energy performance of prefabricated building in different regions, which promote the development of such buildings.
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