Ali, Isam TahaYahya, KhalidAldababsa, MahmoudAmer, AymanHafez, MohamedSarreb, Rebha Daw2024-09-112024-09-112023979-835037336-3https://doi.org/10.1109/EICEEAI60672.2023.10590581https://hdl.handle.net/11363/86052nd International Engineering Conference on Electrical, Energy, and Artificial Intelligence, EICEEAI 2023 -- 27 December 2023 through 28 December 2023 -- Zarqa -- 201143This paper presents a method for optimizing photovoltaic (PV) system placement in distribution systems using the Newton-Raphson (NR) method with MATLAB code and E-Tap program load flow analysis. The proposed approach utilizes MATLAB code to calculate the optimal location and size of PV systems for maximum Voltage Level and minimum power losses. E-Tap program load flow analysis is used to simulate the distribution system and to validate the results obtained from the MATLAB code. The study provides a detailed explanation of the methodology used for the optimization and validation process. The Newton-Raphson method begins with an initial estimate of the root, denoted x0?xr, and uses the tangent of f(x) at x0 to improve on the estimate of the root. The expected outcomes include reduced power losses and improved Voltage Levels. The paper concludes with simulation results and a discussion of the potential benefits of the proposed approach. Also, we are working on analyses of the Kirkuk Power System (IEEE-5 Bus Bar). Find the Optimum Location and Size for the PV system in Kirkuk Power System (IEEE-5 BB). We use a PV system to improve the Voltage Level and reduce Losses in the Kirkuk Power System (IEEE-5 BB). Compare the power system before and after connecting the PV system using E-TAP and MATLAB software. © 2023 IEEE.eninfo:eu-repo/semantics/closedAccessDistribution System; MATLAB-ETAP; NR method; Optimum Location; PVConference Object10.1109/EICEEAI60672.2023.105905812-s2.0-85199981832N/A