Thermal Science 2023 Volume 27, Issue 2 Part A, Pages: 959-965
https://doi.org/10.2298/TSCI2302959W
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Effect of composite polystyrene granular thermal insulation mortar on thermal energy storage of building energy consumption
Wei Chenghui (Chongqing Vocational College of Science and Creation, Chongqing, China), [email protected]
Chen Hao (Chongqing Vocational College of Science and Creation, Chongqing, China)
Li Haiqiang (Chongqing Rongweixu Engineering Construction Co., Ltd., Chongqing, China)
In order to save energy and reduce building energy consumption, the author
proposed a study on the impact of composite polystyrene particle thermal
insulation mortar on building energy consumption and thermal energy storage,
take the ETIRS-C residence as the research object, through simulation
calculation under different insulation mortar thickness, analyze the
relationship between insulation thickness and energy consumption and thermal
environment. According to the simulation calculation of room temperature,
horizontally, the thickness of thermal insulation mortar in air conditioning
season is not sensitive to the natural room temperature, there is a certain
sensitivity to the natural room temperature in the heating season, in the
longitudinal direction, the 30 mm thick insulation mortar is the jumping
point, and the increase of the thickness of insulation mortar has no obvious
effect on the natural room temperature. According to the simulation
calculation of room energy consumption, the thickness of thermal insulation
mortar is about 20 mm, and both heat and cold consumption have achieved good
thermal insulation and energy saving effect, further increasing the
thickness of thermal insulation mortar will have limited impact on energy
consumption, which may be uneconomical and increase the cost and
construction difficulty. Therefore, based on the aforementioned results, it
can be considered that the thickness of thermal insulation mortar should
preferably be controlled within 20-30 mm.
Keywords: composite polystyrene, thermal insulation mortar, heat energy, building energy consumption
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