Optimal Power Flow Considering Intermittent Solar and Wind Generation using Multi-Operator Differential Evolution Algorithm

Article

Sallam, Karam M., Hossain, Md Alamgir, Elsayed, Seham, Chakrabortty, Ripon K, Ryan, Michael J and Abido, Mohammad A.. 2024. "Optimal Power Flow Considering Intermittent Solar and Wind Generation using Multi-Operator Differential Evolution Algorithm." Electric Power Systems Research. 232. https://doi.org/10.1016/j.epsr.2024.110377

Article Title	Optimal Power Flow Considering Intermittent Solar and Wind Generation using Multi-Operator Differential Evolution Algorithm
ERA Journal ID	4408
Article Category	Article
Authors	Sallam, Karam M., Hossain, Md Alamgir, Elsayed, Seham, Chakrabortty, Ripon K, Ryan, Michael J and Abido, Mohammad A.
Journal Title	Electric Power Systems Research
Journal Citation	232
Article Number	110377
Number of Pages	24
Year	2024
Publisher	Elsevier
Place of Publication	Netherlands
ISSN	0378-7796
	1873-2046
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.epsr.2024.110377
Web Address (URL)	https://www.sciencedirect.com/science/article/pii/S0378779624002657
Abstract	In this paper, a multi-operator differential evolution algorithm (MODE) is proposed to solve the Optimal Power Flow problem, called MODE-OPF. The MODE-OPF utilizes the strengths of more than one differential evolution operator in a single algorithmic framework. Additionally, an adaptive method is proposed to update the number of solutions evolved by each DE operator based on both the diversity of the population and the quality of solutions. This adaptive method has the ability to maintain diversity at the early stages of the optimization process and boost convergence at the later ones. The performance of the proposed MODE-OPF is tested by solving OPF problems for both small and large IEEE bus systems (i.e., IEEE-30 and IEEE-118) while considering intermittent solar and wind power generation. To prove the suitability of this proposed algorithm, its performance has been compared against several state-of-the-art optimization algorithms, where MODE-OPF outperforms other algorithms in all experimental results thereby improving a network’s performance with lower cost. MODE-OPF decreases the total generation cost up to 24.08%, the real power loss up to 6.80% and the total generation cost with emission up to 8.56%.
Contains Sensitive Content	Does not contain sensitive content
ANZSRC Field of Research 2020	4008. Electrical engineering
Public Notes	© 2024. This manuscript version is made available under the CC-BY-NC-ND 4.0 license https://creativecommons.org/licenses/by-nc-nd/4.0/
Byline Affiliations	University of Sharjah, United Arab Emirates
	Griffith University
	University of New South Wales
	King Fahd University of Petroleum and Minerals, Saudi Arabia

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