Experimental investigation of water-based photovoltaic/thermal-thermoelectric hybrid system: Energy, exergy, economic and environmental assessment

Experimental investigation of water-based photovoltaic/thermal-thermoelectric hybrid system: Energy, exergy, economic and environmental assessment

The worldwide search for sustainable energy solutions has heightened the concentration on solar energy sources as an essential part of addressing climate change and maintaining long-term energy security. Combining the photovoltaic/thermal systems with thermoelectric generators (PV/T-TEG) stands out...

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Bibliographic Details
Main Authors: Khenfer, Riad, Lekbir, Abdelhak, Rouabah, Zahir, Meddad, Mounir, Benhadouga, Seddik, Zaoui, Fares, Mekhilef, Saad
Format: Article
Published: Elsevier 2024
Subjects:
TK Electrical engineering. Electronics Nuclear engineering
Online Access:http://eprints.um.edu.my/45590/
https://doi.org/10.1016/j.jpowsour.2024.234151
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Institution: Universiti Malaya
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Summary:The worldwide search for sustainable energy solutions has heightened the concentration on solar energy sources as an essential part of addressing climate change and maintaining long-term energy security. Combining the photovoltaic/thermal systems with thermoelectric generators (PV/T-TEG) stands out as a potential innovation that uses the functionality advantages of multiple energy conversion techniques. In this paper, a novel waterbased photovoltaic/thermal-thermoelectric hybrid system (WPV/T-TEG) is proposed and designed to boost the solar energy conversion rate. Thus, the proposed hybrid system is tested under Algerian weather conditions. Through an experimental analysis, the performances of the proposed system have been compared to the standard PV module (SPV). It was found that the proposed WPV/T-TEG hybrid system produces about 29.04 W of electrical energy and about 187.75Wh/day of average overall exergy per day, whereas this is higher by 13.67% , 21.09%, 24.04%, and 95.07% compared to hybrid photovoltaic/thermoelectric (HPV/TEG), hybrid photovoltaic module alone (HPV), SPV, and thermoelectric module alone (TEG), respectively. During the production phase, the proposed WPV/T-TEG hybrid system was found to avoid about 38719 kg CO2 eq m(-2)yr(-1) of emission. Overall, the proposed WPV/T-TEG hybrid system has the potential for future advancement in the solar harvesting approach.

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