PERFORMANCE EVALUATION OF REFLECTORS AND COOLING SYSTEM ON PHOTOVOLTAIC SYSTEM IN KANO NORTHWEST NIGERIA

Author:

Tukur I. A.,Abdullahi A.,Alhassan Y.,Abdullahi B.,Aliyu A. A.,Tsoho A. U.,Sani U. A.

Abstract

In the effort to improve the efficiency of a photovoltaic system, previous studies have demonstrated the potential of solar reflectors and cooling systems to enhance the performance of Photovoltaic (PV) systems. However, Result varies from Location to Location and a limited research exists on their combined effect. This study investigates the impact of reflectors and cooling on PV system performance in Kano State, Nigeria. Three Experimental setup were tested; (a solar panel without any modifications (PWM), a solar panel with reflectors sides (PWR), and a solar panel with reflectors and a cooling system (PWRC)). These Experiment were set at the optimum tilt angle of 12o in Kano State, Nigeria. The results show that panel with reflectors and panel with reflectors and cooling system both increased the amount of solar radiation (SR) received by an average of 71.06% compared to the control panel system. The surface temperature (ST) of the PWR and PWRC increased by an average of 46.25% and 28.08%, respectively, compared to the PWM. The PWR and PWRC systems increased the amount of short-circuit current (ISC) produced in the panels with an average of 50.02% and 50.03%. The open-circuit voltage (VOC) drop of the panel in the PWR and PWRC systems decreased by an average of 9.91% and 4.39%, respectively, compare to the PWM system. The power output (PO) of the PWR and PWRC systems also increased by an average of 34.89% and 42.29%, respectively, compare to the PWM system.

Publisher

Federal University Dutsin-Ma

Subject

General Medicine

Reference9 articles.

1. Abdullahi, D., Suresh, S., Renukappa, S., & Oloke, D. (2017). Solar energy development and implementation in Nigeria: Drivers and barriers. ISES Solar World Congress 2017 - IEA SHC International Conference on Solar Heating and Cooling for Buildings and Industry 2017, Proceedings, 923–931. https://doi.org/10.18086/swc.2017.16.01

2. Abizar, H., & Nurtanto, M. (2021). Reflector and passive cooler for optimization of solar panel output. April. https://doi.org/10.1088/1755-1315/739/1/012085

3. Bamisile, O., Dagbasi, M., Babatunde, A., & Ayodele, O. (2017). A review of renewable energy potential in Nigeria; Solar power development over the years. Engineering and Applied Science Research, 44(4), 242–248. https://doi.org/10.14456/easr.2017.37

4. Elbakheit, A. R., Waheeb, S., & Mahmoud, A. (2022). A Ducted Photovoltaic Façade Unit with Forced Convection Cooling. Sustainability (Switzerland), 14(19). https://doi.org/10.3390/su141912875

5. Huq*, A. Md. A., Hossain, M. I., & Rahman, M. M. (2000). EFFECT OF FLAT REFLECTORS ON THE PERFORMANCE OF PHOTOVOLTAIC MODULES. American Institute of Aeronautics & Astronautics or Published with Permission of Author(s) and/or Author(s)’ Sponsoring Organization., 1–8.

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