Performance Investigation of a Photovoltaic Module Integrated with Different Optical Filters | ||||
Engineering Research Journal | ||||
Article 10, Volume 175, Issue 0, September 2022, Page 137-155 PDF (436.59 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/erj.2022.258573 | ||||
View on SCiNiTO | ||||
Authors | ||||
A. Mostafa1; S. E. Madbouly* 2; M. Abd El-Hamid3; E. Elgendy4 | ||||
1Mechanical Power Engineering Department, Faculty of Engineering at ElMattaria, Helwan University, Cairo, Egypt. 2 Energy and Renewable Energy Engineering Program, Faculty of Engineering and Technology, Egyptian Chinese University | ||||
2partment, College of Engineering and TechnologyCairo Campus, Arab Academy for Science, Technology and Maritime Transport | ||||
3Mechanical Power Engineering Department, Faculty of Engineering at ElMattaria, Helwan University, Cairo, Egypt. | ||||
4Mechanical Engineering Department, College of Engineering and TechnologyCairo Campus, Arab Academy for Science, Technology and Maritime Transport | ||||
Abstract | ||||
Currently, 10 to 25% of the solar energy that reaches the PV unit surface is transformed into electricity, with the rest being dissipated as heat. The efficiency of converting the incident solar radiation into electrical power is greatly influenced by the heat accumulation on the photovoltaic modules. Coupling the PV module with optical filters are considered to be one of the most promising techniques to dramatically raise the electrical efficiency. In the present investigation, two optical filters employing different static working fluids coupled with a PV module are designed and compared with the stand-alone PV module experimentally. The results find that the efficiency of the optical filter using water reaches to about 60.02%, which is higher than the optical filter employing glycerin by implementing the Monte Carlo approach. When the optical filters are combined with the PV unit, the electrical power output is increased by around 60 and 64%, respectively, when compared to the PV module without the optical filter | ||||
Keywords | ||||
Photovoltaic module; optical filter; water optical fluid; glycerin optical fluid; Monte Carlo method | ||||
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