Assessment of Optimal Allocation of Renewable Photovoltaic Sources in Electrical Power System Networks
Ashry, S., Nasef, A., Amer, R., Morsy, G. (2024). Assessment of Optimal Allocation of Renewable Photovoltaic Sources in Electrical Power System Networks. EKB Journal Management System, 47(3), 325-335. doi: 10.21608/erjm.2024.236042.1291
Shimaa A. Ashry; Asmaa F. Nasef; Ragab A. Amer; Gamal A. Morsy. "Assessment of Optimal Allocation of Renewable Photovoltaic Sources in Electrical Power System Networks". EKB Journal Management System, 47, 3, 2024, 325-335. doi: 10.21608/erjm.2024.236042.1291
Ashry, S., Nasef, A., Amer, R., Morsy, G. (2024). 'Assessment of Optimal Allocation of Renewable Photovoltaic Sources in Electrical Power System Networks', EKB Journal Management System, 47(3), pp. 325-335. doi: 10.21608/erjm.2024.236042.1291
Ashry, S., Nasef, A., Amer, R., Morsy, G. Assessment of Optimal Allocation of Renewable Photovoltaic Sources in Electrical Power System Networks. EKB Journal Management System, 2024; 47(3): 325-335. doi: 10.21608/erjm.2024.236042.1291

Assessment of Optimal Allocation of Renewable Photovoltaic Sources in Electrical Power System Networks

ERJ. Engineering Research Journal
Article 1, Volume 47, Issue 3, July 2024, Page 325-335  XML PDF (847.89 K)
Document Type: Original Article
DOI: 10.21608/erjm.2024.236042.1291
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Authors
Shimaa A. Ashry1; Asmaa F. Nasef email orcid 2; Ragab A. Amerorcid 3; Gamal A. Morsy4
1Electrical, Faculty of Engineering, Menoufia University
2Electrical engineering, faculty of engineering, Minoufia university, Shibin El-kom, Minoufia
3Electrical engineering, faculty of engineering menoufia university
4Electrical Department, Faculty of Engineering, Menoufia University, Shebin Elkom, Egypt
Abstract
This paper aims to determine the optimum locations for renewable energy sources (RES), specifically photovoltaic (PV) power plants, based on two indices: line stability index and voltage stability index. The analysis comprises power flow analysis, short circuit analysis, and power quality analysis. The effectiveness of the method is demonstrated with the IEEE-9 bus network and a real system (new delta substations) consisting of 18 substations, considering various scenarios involving changes in the penetration levels (PLs) of PV power plants and the substitution of centralized units with distributed units. The optimum locations and PLs are selected that minimize the active and reactive power losses, enhance the system's voltage profile, and guarantee adherence to power quality specifications, which include keeping the voltage and current harmonic distortion within predetermined limits. This investigation employs DIgSILENT Power Factory as a software tool that enables all necessary analyses and investigations on the grid. Finally, this article offers a variety of methods for reducing harmonic distortion, which helps to keep voltage and current distortion within acceptable limits. The results are thoroughly analyzed and presented in comparative form.
Keywords
PV penetration level; Power flow analysis; Short circuit analysis; Power indices and Voltage indices; Total harmonic distortion
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