Experimental and economic evaluation on the performance improvement of a solar photovoltaic thermal system with skeleton-shaped fins

Experimental and economic evaluation on the performance improvement of a solar photovoltaic thermal system with skeleton-shaped fins

•Experimental study on the performance of PVT coupled with new cooling technique was provided.•A cooling system incorporated with skeleton-shaped fins is proposed.•The energy and exergy efficiency enhanced by 20.14% and 21.88%, respectively.•The LCOE lowered by 11.76% (0.17 $/kWh).•The payback perio...

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Published in:Applied thermal engineering Vol. 248; p. 123180
Main Authors: Khelifa, Abdelkrim, El Hadi Attia, Mohammed, Harby, K., Elnaby Kabeel, Abd, Abdel-Aziz, Moataz M., Abdelgaied, Mohamed
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-07-2024
Subjects:
Electrical efficiency
Energy
PVT
Skeleton fins
Solar panel
Thermal performance
Energy
Electrical efficiency
Solar panel
Skeleton fins
Thermal performance
PVT
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Abstract •Experimental study on the performance of PVT coupled with new cooling technique was provided.•A cooling system incorporated with skeleton-shaped fins is proposed.•The energy and exergy efficiency enhanced by 20.14% and 21.88%, respectively.•The LCOE lowered by 11.76% (0.17 $/kWh).•The payback period lowered by 34.7% (6.21 years). At elevated ambient temperatures, the production and efficiency of solar panels are degraded due to the overheating of the cells. Cooling photovoltaic cells at elevated ambient temperatures can prevent overheating, extend their life, and enhance overall efficiency, particularly in areas exposed to strong sunlight and elevated temperatures. In this study, an attempt was made experimentally to increase the performance of solar photovoltaic thermal systems with a novel cooling technique. The proposed system has an absorber plate coupled with novel skeleton-shaped fins used to create double-pass ambient air channels below the solar module for natural heat dissipation. Performance of the proposed photovoltaic thermal system with skeleton-shaped fins was designed, evaluated, and evaluated, under different climatic conditions of the southern Algeria city of Ghardaïa from 8:00 am to 6:00 pm. Theoretical analysis was also developed relying on the energy and exergy balance equations for the system components. An economic analysis is also performed by the life cycle cost analysis to evaluate the feasibility, annual performance, and payback period of the proposed solar system compared with that of the conventional system. Results showed that the proposed photovoltaic thermal generates an average daily production of 2.02 kWh, which is 55.1 % more than the conventional system. The energy and exergy efficiency of the proposed system are higher than the conventional system by 8.61 and 8.98 %, respectively. The levelized costs of energy associated with the proposed system (0.17 $/kWh) is lower than that of the conventional system by 11.76 %. The payback period of the proposed system (6.21 years) is lower than that of the conventional solar systems by 34.7 %. This means that the additional power generation obtained by the proposed system with skeleton-shaped fins was sufficient to offset the total life cycle costs.
AbstractList •Experimental study on the performance of PVT coupled with new cooling technique was provided.•A cooling system incorporated with skeleton-shaped fins is proposed.•The energy and exergy efficiency enhanced by 20.14% and 21.88%, respectively.•The LCOE lowered by 11.76% (0.17 $/kWh).•The payback period lowered by 34.7% (6.21 years). At elevated ambient temperatures, the production and efficiency of solar panels are degraded due to the overheating of the cells. Cooling photovoltaic cells at elevated ambient temperatures can prevent overheating, extend their life, and enhance overall efficiency, particularly in areas exposed to strong sunlight and elevated temperatures. In this study, an attempt was made experimentally to increase the performance of solar photovoltaic thermal systems with a novel cooling technique. The proposed system has an absorber plate coupled with novel skeleton-shaped fins used to create double-pass ambient air channels below the solar module for natural heat dissipation. Performance of the proposed photovoltaic thermal system with skeleton-shaped fins was designed, evaluated, and evaluated, under different climatic conditions of the southern Algeria city of Ghardaïa from 8:00 am to 6:00 pm. Theoretical analysis was also developed relying on the energy and exergy balance equations for the system components. An economic analysis is also performed by the life cycle cost analysis to evaluate the feasibility, annual performance, and payback period of the proposed solar system compared with that of the conventional system. Results showed that the proposed photovoltaic thermal generates an average daily production of 2.02 kWh, which is 55.1 % more than the conventional system. The energy and exergy efficiency of the proposed system are higher than the conventional system by 8.61 and 8.98 %, respectively. The levelized costs of energy associated with the proposed system (0.17 $/kWh) is lower than that of the conventional system by 11.76 %. The payback period of the proposed system (6.21 years) is lower than that of the conventional solar systems by 34.7 %. This means that the additional power generation obtained by the proposed system with skeleton-shaped fins was sufficient to offset the total life cycle costs.
ArticleNumber 123180
Author El Hadi Attia, Mohammed
Khelifa, Abdelkrim
Harby, K.
Abdel-Aziz, Moataz M.
Elnaby Kabeel, Abd
Abdelgaied, Mohamed
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  organization: Unité de Recherche Appliquée en Energies Renouvelables, URAER, Centre de Développement des Energies Renouvelables, CDER, 47133, Ghardaïa, Algeria
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  surname: Harby
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  organization: Department of Mechanical Engineering, College of Engineering, Taibah University, Al-Madinah Al-Munawarah, Saudi Arabia
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  givenname: Mohamed
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  organization: Mechanical Power Engineering Department, Faculty of Engineering, Tanta University, Tanta, Egypt
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PVT
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Snippet •Experimental study on the performance of PVT coupled with new cooling technique was provided.•A cooling system incorporated with skeleton-shaped fins is...
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SubjectTerms Electrical efficiency
Energy
PVT
Skeleton fins
Solar panel
Thermal performance
Title Experimental and economic evaluation on the performance improvement of a solar photovoltaic thermal system with skeleton-shaped fins
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