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All Journal International Journal of Advances in Applied Sciences
Zakaria, Zuhaina
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Earth & Planetary Sciences Environmental Science Materials Science & Nanotechnology Mathematics Physics

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An innovative fast iterative process algorithm computerization for intermittency LSSPV generation reconfiguration Hussain, Mashitah Mohd; Zakaria, Zuhaina; Dahlan, Nofri Yenita; Yassin, Ihsan Mohd; Hussain, Mohd Najib Mohd
International Journal of Advances in Applied Sciences Vol 13, No 3: September 2024
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijaas.v13.i3.pp628-638

Abstract

The recent implementation of solar photovoltaic (SPV) power generation in low-voltage distribution networks has increased due to its environmentally friendly technology, low cost, and high efficiency. However, SPV generation carried both the availability of uncertainty and intermittency on power energy exceeding voltage range, increased losses during reverse power flow action, and energy transmission problems. This paper presents a new capabilities methodology with accurate analysis to simulate the intermittent nature of SPV energy including normal generators associated with uncertain customer demand of high resolution with 1-minute temporal resolution using a fast iterative process algorithm (FIPA) simulated by Python programming. The primary goal is to address the unpredictable nature of SPV using computer operation technology connected to a real network with a fast iteration process. The result shows that in 0-10% of standard generators, grid energy (GE) is still required in daily supply, and the intermittent nature influences voltage violations and losses. Besides, the prediction typical SPV method (zero fluctuation) can serve as guidelines for engineers to design the photovoltaic (PV) module reducing its fluctuating nature and battery installation area. The research provides utilities with accurate information to plan for various difficulties at different levels of PV penetration while reducing time, effort, and resource utilization.
Co-Authors Dahlan, Nofri Yenita Hussain, Mashitah Mohd Hussain, Mohd Najib Mohd Yassin, Ihsan Mohd