An implemented Structure for enhancing the Electrical Output Power of a Photovoltaic Module Based on Active Nano-fluid cooling Technique
Abdelmonem, A., mahmoud, T., Abdellatif, O., Abdo, A. (2023). An implemented Structure for enhancing the Electrical Output Power of a Photovoltaic Module Based on Active Nano-fluid cooling Technique. EKB Journal Management System, 52(4), 9-15. doi: 10.21608/erjsh.2023.212442.1173
Ahmed Saeed Abdelmonem; Tamer Samir mahmoud; Osama Ezzat Abdellatif; Abdelaziz Bayoumi Abdo. "An implemented Structure for enhancing the Electrical Output Power of a Photovoltaic Module Based on Active Nano-fluid cooling Technique". EKB Journal Management System, 52, 4, 2023, 9-15. doi: 10.21608/erjsh.2023.212442.1173
Abdelmonem, A., mahmoud, T., Abdellatif, O., Abdo, A. (2023). 'An implemented Structure for enhancing the Electrical Output Power of a Photovoltaic Module Based on Active Nano-fluid cooling Technique', EKB Journal Management System, 52(4), pp. 9-15. doi: 10.21608/erjsh.2023.212442.1173
Abdelmonem, A., mahmoud, T., Abdellatif, O., Abdo, A. An implemented Structure for enhancing the Electrical Output Power of a Photovoltaic Module Based on Active Nano-fluid cooling Technique. EKB Journal Management System, 2023; 52(4): 9-15. doi: 10.21608/erjsh.2023.212442.1173

An implemented Structure for enhancing the Electrical Output Power of a Photovoltaic Module Based on Active Nano-fluid cooling Technique

Engineering Research Journal (Shoubra)
Volume 52, Issue 4, October 2023, Page 9-15  XML PDF (1.04 MB)
Document Type: Research articles
DOI: 10.21608/erjsh.2023.212442.1173
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Authors
Ahmed Saeed Abdelmonem email 1; Tamer Samir mahmoud1; Osama Ezzat Abdellatif1; Abdelaziz Bayoumi Abdo2
1Department of Mechanical Power Engineering, Faculty of Engineering at Shoubra, Benha University, Cairo, Egypt.
2Department of Mechanical Engineering, Faculty of Engineering and Technology, Badr University in Cairo (BUC), Cairo, Egypt
Abstract
Photovoltaic panels (PV) are considered one of the solutions to face climate change and pollution. A PV/Thermal system is used as a result to raise the output power of the PV modules by decreasing their temperatures. This work includes numerical and experimental outputs, a comparison between the electro-thermal behaviours of water and different percentages of AL2O3 Nano-water (0.001 & 0.01) pass through a new back pipe structure (pancake) installed under the PV module is presented. Comsol Multiphysics and MATLAB simulators are utilized to apply the model. The experimental work runs for both Nanoparticle concentrations compared with water. The pumping power consumption is approximately 1% from the average output power of the system. The thermal results for 0.01 %wt of AL2O3 Nano-water show that the PV module temperature decreased about 14.04 % and 8.8 % compared with water and 0.001 %wt Alumina, respectively. In addition, the difference in water temperature is increased by about 21.6 % and 6.7 % for two different concentrations compared with water. That leads to enhancement in the module’s daily output power up to 14.6 % by using 0.01 wt% AL2O3 Nano fluid compared with cooling water.
Keywords
Photovoltaic/Thermal (PV/T) Hybrid System; cooling systems; MATLAB; Solid works
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