集成PCM作为外墙层,减少建筑墙体过热

IF 3.1 Q2 MATERIALS SCIENCE, COMPOSITES Functional Composites and Structures Pub Date : 2022-07-19 DOI:10.1088/2631-6331/ac826b
Umi Nadiah Nor Ali, N. Mohamad Nor, N. Misnon, Siti Aminah Mohd Noor, Maidiana Othman, Muhammad Akmal Akif Alias, A. Syamsir
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引用次数: 3

摘要

利用建筑物热能的创新建筑方法最近成为全球节能努力的一部分。将相变材料(PCM)纳入建筑围护结构有助于通过管理设计的PCM热特性的热惯性来减少能源消耗和调节能源需求。进行了一项研究,以评估混凝土墙体潜热与PCM相结合所提供的性能效益。本研究的重点是开发和测试热障性能,通过将PCM加入墙外饰面,即水泥灰泥和光泽漆。通过实验研究了PCM夹杂物在建筑墙体中的作用。结果表明,在建筑墙体中加入PCM可使建筑表面温度降低9°C。此外,与涂漆涂层中的PCM相比,在石膏层中应用PCM更可靠地降低了8.1°C的内壁表面温度。与其他墙板相比,涂漆墙板的降温差异更显著,分别为9.2°C和9.5°C。然而,在夜间,与抹灰墙板相比,涂漆墙板的内表面温度高于外表面温度。这可能是由于油漆的反应,这是无效的释放内部热量的建筑在晚上。通过将PCM与建筑墙体结合,每年的能源需求减少了64.3%,每年的电费节省总额为42.3%(8695.8千瓦时)。因此,我们得出结论,包裹的PCM与建筑外墙的石膏层相结合,可以降低室内建筑温度,从而有助于节约空调系统所需的能源。
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Integration of PCM as an external wall layer in reducing excessive heat of building walls
Innovative building approaches, which take advantage of heat energy in buildings, have recently appeared as part of a global effort to save energy. Incorporating phase change material (PCM) into the building envelope helps in reducing energy consumption and regulating energy demand by managing the thermal inertia of designed PCM thermal characteristics. A study was conducted to assess the performance benefits provided by the latent heat of the concrete wall combined with PCM. This study focuses on developing and testing heat barrier performance by incorporating PCM into wall external finishing, i.e. cement plaster and gloss paint. The effect of PCM inclusion in building wall were investigated by experimental work. The results indicate that incorporating PCM into the building wall reduced the surface temperature by up to 9 °C. Furthermore, the application of the PCM in the plaster layer is more reliable in reducing the internal wall surface temperature by a value of 8.1 °C when compared to the PCM in a painted coating. Painted wall panels experienced more significant temperature reduction differences than other wall panels, i.e. 9.2 °C and 9.5 °C, respectively. However, painted wall panels experienced higher internal surface temperatures than external surface temperatures compared to plastered wall panel at night. This could be due to the paint reactions, which are ineffective at releasing internal heat from the building at night. The yearly energy demand is decreased by 64.3% by incorporating PCM to the building wall, with a total annual electricity bill savings of 42.3% (8695.8 kWh yr−1). Therefore, it was concluded that wrapped PCM integrated into plaster layers on external surface building walls could decrease the indoor building temperature and thus contribute to conserving the energy required for an air conditioning system.
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来源期刊
Functional Composites and Structures
Functional Composites and Structures Materials Science-Materials Science (miscellaneous)
CiteScore
4.80
自引率
10.70%
发文量
33
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