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Mohamed, A., Besheer, A., Zahran, A., Mohamed, W. (2021). Roof Top PV Energy System in Pharos University: An Aggregated Approach to Economical Environmental Returns. Journal of Environmental Studies and Researches, 11(4), 327-337. doi: 10.21608/jesr.2021.290065
Ahmed Mohamed; Ahmad Besheer; Ashraf Zahran; Wael Mohamed. "Roof Top PV Energy System in Pharos University: An Aggregated Approach to Economical Environmental Returns". Journal of Environmental Studies and Researches, 11, 4, 2021, 327-337. doi: 10.21608/jesr.2021.290065
Mohamed, A., Besheer, A., Zahran, A., Mohamed, W. (2021). 'Roof Top PV Energy System in Pharos University: An Aggregated Approach to Economical Environmental Returns', Journal of Environmental Studies and Researches, 11(4), pp. 327-337. doi: 10.21608/jesr.2021.290065
Mohamed, A., Besheer, A., Zahran, A., Mohamed, W. Roof Top PV Energy System in Pharos University: An Aggregated Approach to Economical Environmental Returns. Journal of Environmental Studies and Researches, 2021; 11(4): 327-337. doi: 10.21608/jesr.2021.290065

Roof Top PV Energy System in Pharos University: An Aggregated Approach to Economical Environmental Returns

Article 14, Volume 11, Issue 4, December 2021, Page 327-337  XML PDF (1021.11 K)
Document Type: Original Article
DOI: 10.21608/jesr.2021.290065
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Authors
Ahmed Mohamed1; Ahmad Besheer email 1; Ashraf Zahran1; Wael Mohamed2
1Environmental Studies & Research Institute University of Sadat City
2Pharos university in Alexandria
Abstract
 This work describes the analysis carried out for the sizing and simulation of grid-tie photovoltaic system in Pharos University. The design calculations and sizing results are performed with the aid of PV syst and other sizing software tool. The simulation is primarily performed in order to understand the behavior of grid tied photovoltaic installations at a specific location, while avoiding the over sizing or under sizing of the systems, Theoretical calculations are performed conventionally in order to make comparisons of calculated data with simulation results. We highlight the good potential of the studied area, with total energy yield 1654 kWh per year at optimal orientation, which would generate 1175 kWh/year for a 1 kW PV system, such information on potential and performance is a valuable reference for any possible sizing of photovoltaic projects at similar latitudes.
 
Keywords
PVsyst; sizing software; Photovoltaic; Pharos University; Aggregated Approach for Environment Economic Return
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