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Optimization of annealing cycles for electric output in outdoor conditions for amorphous silicon photovoltaic–thermal systems

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  • Rozario, Joseph
  • Pearce, Joshua M.

Abstract

Previous studies with fixed operating temperatures have shown that hydrogenated amorphous silicon (a-Si:H) was a promising absorber layer for solar photovoltaic–thermal (PVT) systems because of (a) a low temperature coefficient and (b) the opportunity to reverse light induced degradation with thermal annealing. This study further refined the simulation of the optimal dispatch strategy for a-Si:H based PVT by studying annealing cycles and analysis of the degradation at other operating temperatures controlled by the varying ambient temperatures. Four representative case studies were evaluated for the combinations of high and low solar flux and high and low average ambient temperature. Electrically-optimized dispatch strategies are found for a range of PVT thermal insulating effectivenesses. The results showed significantly more electricity generation in all the case study representative regions except for areas dominated by low temperatures and low solar fluxes. These results indicate that a-Si:H PV performance can be improved in most populated regions in the world by integrating it into a PVT device and using spike annealing to reverse light-induced degradation effects. The model presented in this paper uses publicly-available data to implement suitable dispatch strategies and execute virtual performance analysis of PVT for any geographic location in the world.

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  • Rozario, Joseph & Pearce, Joshua M., 2015. "Optimization of annealing cycles for electric output in outdoor conditions for amorphous silicon photovoltaic–thermal systems," Applied Energy, Elsevier, vol. 148(C), pages 134-141.
    • Handle: RePEc:eee:appene:v:148:y:2015:i:c:p:134-141
    DOI: 10.1016/j.apenergy.2015.03.073
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    1. Ren, Xiao & Li, Jing & Jiao, Dongsheng & Gao, Datong & Pei, Gang, 2020. "Temperature-dependent performance of amorphous silicon photovoltaic/thermal systems in the long term operation," Applied Energy, Elsevier, vol. 275(C).
    2. Ren, Xiao & Li, Jing & Hu, Mingke & Pei, Gang & Jiao, Dongsheng & Zhao, Xudong & Ji, Jie, 2019. "Feasibility of an innovative amorphous silicon photovoltaic/thermal system for medium temperature applications," Applied Energy, Elsevier, vol. 252(C), pages 1-1.
    3. Ge, Ya & Xiao, Qiyin & Wang, Wenhao & Lin, Yousheng & Huang, Si-Min, 2022. "Design of high-performance photovoltaic-thermoelectric hybrid systems using multi-objective genetic algorithm," Renewable Energy, Elsevier, vol. 200(C), pages 136-145.
    4. Tomar, Vivek & Norton, Brian & Tiwari, G.N., 2019. "A novel approach towards investigating the performance of different PVT configurations integrated on test cells: An experimental study," Renewable Energy, Elsevier, vol. 137(C), pages 93-108.
    5. Gholampour, Maysam & Ameri, Mehran, 2016. "Energy and exergy analyses of Photovoltaic/Thermal flat transpired collectors: Experimental and theoretical study," Applied Energy, Elsevier, vol. 164(C), pages 837-856.
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    7. del Amo, Alejandro & Martínez-Gracia, Amaya & Bayod-Rújula, Angel A. & Antoñanzas, Javier, 2017. "An innovative urban energy system constituted by a photovoltaic/thermal hybrid solar installation: Design, simulation and monitoring," Applied Energy, Elsevier, vol. 186(P2), pages 140-151.

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