Development and evaluation of a ceiling ventilation system enhanced by solar photovoltaic thermal collectors and phase change materials
•A novel ceiling ventilation system enhanced by PVT and PCMs was proposed.•PCM was used to increase the local thermal mass and to serve as a storage unit.•The proposed system can enhance indoor thermal comfort in winter and summer. This paper presents the development and performance evaluation of a...
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Veröffentlicht in: | Energy conversion and management 2014-12, Vol.88, p.218-230 |
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Sprache: | eng |
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Zusammenfassung: | •A novel ceiling ventilation system enhanced by PVT and PCMs was proposed.•PCM was used to increase the local thermal mass and to serve as a storage unit.•The proposed system can enhance indoor thermal comfort in winter and summer.
This paper presents the development and performance evaluation of a novel ceiling ventilation system integrated with solar photovoltaic thermal (PVT) collectors and phase change materials (PCMs). The PVT collectors are used to generate electricity and provide low grade heating and cooling energy for buildings by using winter daytime solar radiation and summer night-time sky radiative cooling, respectively. The PCM is integrated into the building ceiling as a part of the ceiling insulation and at the same time, as a centralized thermal energy storage to temporally store low grade energy collected from the PVT collectors. The performance of the proposed system was numerically evaluated based on a Solar Decathlon house using TRNSYS. The results showed that, in winter conditions, the proposed PVT–PCM integrated ventilation system can significantly improve the indoor thermal comfort of passive buildings without using air-conditioning systems with a maximum air temperature rise of 23.1°C from the PVT collectors. Compared with the system using PCM but without using PVT collectors, the coefficient of thermal comfort enhancement in the kitchen, dining room and living room of the case building studied using the proposed system improved from almost zero to 0.9823 while the coefficient of thermal comfort enhancement in the study room improved from 0.0060 to 0.9921. In summer conditions, the proposed system can also enhance indoor thermal comfort through night-time sky radiative cooling. |
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ISSN: | 0196-8904 1879-2227 |
DOI: | 10.1016/j.enconman.2014.08.019 |