Samenvatting
The present deployment of photovoltaic (PV) panels on the rooftop has been far below its potential. Stakeholders often see the PV as a strong design constraint, isolated from the built environment and not adapted to their requirements. Here, we propose a new design that combines the PV panels with a metal-organic framework based
sorptive thermal battery, which serves as a multi-functional building element and is more actively involved in the indoor environment regulation. The open-loop thermal battery can stock moisture from air with 105 times its volume so that the built environment with high humidity at night is dried to a comfortable and healthy level. The moisture is removed at daytime with unpleasant solar heat, thereby cools the PV panels simultaneously,
improving electricity generation by 5%. The benefits of this design can be translated into economic added value to facilitate investment decisions of building-integrated PV projects.
sorptive thermal battery, which serves as a multi-functional building element and is more actively involved in the indoor environment regulation. The open-loop thermal battery can stock moisture from air with 105 times its volume so that the built environment with high humidity at night is dried to a comfortable and healthy level. The moisture is removed at daytime with unpleasant solar heat, thereby cools the PV panels simultaneously,
improving electricity generation by 5%. The benefits of this design can be translated into economic added value to facilitate investment decisions of building-integrated PV projects.
| Originele taal-2 | Engels |
|---|---|
| Artikelnummer | 106224 |
| Aantal pagina's | 10 |
| Tijdschrift | Nano Energy |
| Volume | 87 |
| DOI's | |
| Status | Gepubliceerd - sep. 2021 |
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