Affiliation:
1. ENDEF Solar Solutions, 50820 Zaragoza, Spain
Abstract
Over the last decade, the market has experienced a growing interest in hybrid photovoltaic-thermal (PVT) technologies, although more long-term studies are needed before air-based PVT panels are fully implemented. In this paper, we present the experimental framework developed around an air-based PVT collector, consisting of a high-quality photovoltaic laminate and a newly designed thermal absorber. The experimental performance of the collector was measured both in lab testing and in a pilot plant during one of the field operations. Results show an almost constant electrical performance of 15–19%, and a thermal performance that changes a lot, ranged between 15–52% for the individual panel and 11–35% for the system of 2.5 panels in series (to maximize output temperature). Field operation presents average thermal and electrical efficiencies ranged between 16–20% with an electrical–thermal generation ratio close to 1:1.
Funder
EuroStars-2 joint programme
European Union Horizon 2020 research and innovation programme
Subject
Process Chemistry and Technology,Chemical Engineering (miscellaneous),Bioengineering
Reference49 articles.
1. IEA-SHC (2022, February 14). Task 35—PV/Thermal Solar Systems. Available online: https://task35.iea-shc.org/.
2. IEA-SHC (2022, February 14). Task 60—PVT Systems: Application of PVT Collectors. Available online: https://task60.iea-shc.org/.
3. Review on Photovoltaic/Thermal Hybrid Solar Collectors: Classifications, Applications and New Systems;Herez;Sol. Energy,2020
4. Review on Recent Approaches for Hybrid PV/T Solar Technology;Besheer;Int. J. Energy Res.,2016
5. Experimental Investigation and Modeling of a Direct-Coupled PV/T Air Collector;Shahsavar;Sol. Energy,2010