Optimal planning of energy microgrid with multi-objective functions in independent mode

Ahmed Oday A.; Guerrero John William Grimaldo; Ezhilarasan G.; Ved Amit; Singh Shivender; Singh Ashish; Sapaev I. B.; Sujod Muhamad Zahim; Alkhayyat Ahmad; Allathadka H.P.

doi:10.2516/stet/2024068

Science and Technology for Energy Transition (Jan 2024)

Optimal planning of energy microgrid with multi-objective functions in independent mode

Ahmed Oday A.,
Guerrero John William Grimaldo,
Ezhilarasan G.,
Ved Amit,
Singh Shivender,
Singh Ashish,
Sapaev I. B.,
Sujod Muhamad Zahim,
Alkhayyat Ahmad,
Allathadka H.P.

Affiliations

Ahmed Oday A.: Department of Electrical Engineering, University of Technology-Iraq
Guerrero John William Grimaldo: Department of Energy, Universidad de la Costa
Ezhilarasan G.: Department of Electrical and Electronics Engineering, School of Engineering and Technology, JAIN (Deemed to be University)
Ved Amit: Marwadi University Research Center, Department of Electrical Engineering, Faculty of Engineering & Technology, Marwadi University
Singh Shivender: Department of Mechanical Engineering, Chandigarh College of Engineering, Chandigarh Group of Colleges
Singh Ashish: NIMS School of Electrical and Electronics Engineering, NIMS University Rajasthan
Sapaev I. B.: Head of the Department Physics and Chemistry, Tashkent Institute of Irrigation and Agricultural Mechanization Engineers, National Research University
Sujod Muhamad Zahim: Faculty of Electrical and Electronics Engineering Technology, Universiti Malaysia Pahang Al-Sultan Abdullah
Alkhayyat Ahmad: Department of computers Techniques engineering, College of technical engineering, The Islamic University
Allathadka H.P.: Manipur International University

DOI: https://doi.org/10.2516/stet/2024068
Journal volume & issue: Vol. 79
p. 66

Abstract

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Energy storage systems are crucial in managing the uncertainties associated with power generation from renewable sources like wind turbines (WTs) and photovoltaic (PV) systems. This article presents the most effective sizing of energy resources within a microgrid, which includes hydrogen storage, PV, battery systems, and WT in the independent mode of the main grid. The study aims to minimize installation costs, maximize the penetration of WT and PV systems in meeting demand, and reduce load shedding. To tackle the intricacies of the planning process, the research utilizes the modified sunflower optimization (MSFO) algorithm. Through comparative experiments, the study confirms the efficacy of this method, showcasing its capacity to deliver enhanced outcomes. The findings indicate that the proposed method efficiently optimizes resource allocation at an optimal pace.

Published in Science and Technology for Energy Transition

ISSN: 2804-7699 (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Technology; Science
Website: https://www.stet-review.org/

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