Home / Journals / CMES / Online First / doi:10.32604/cmes.2026.083763
Special Issues
Table of Content

Open Access

ARTICLE

Multi-Objective and Multi-Criteria Optimization of Energy Storage Planning in Renewable Distribution Networks

Alireza Norouzpour Shahrbejari1, Nafiseh Pishbin2, Mohammad Reza Maghami3,*, Mazlan Mohamed4,*, Mohammad Golmohammad1
1 Renewable Energy Department, Niroo Research Institute (NRI), Tehran, Iran
2 Department of Electrical Engineering, Khatam University, 30 Hakim Azam Street, North Shiraz Avenue, Tehran, Iran
3 Strategic Research Institute (SRI), Asia Pacific University of Technology and Innovation (APU), Kuala Lumpur, Malaysia
4 Faculty of Artificial Intelligence and Cyber Security (FAIX), Universiti Teknikal Malaysia Melaka (UTeM), Melaka, Malaysia
* Corresponding Author: Mohammad Reza Maghami. Email: email; Mazlan Mohamed. Email: email

Computer Modeling in Engineering & Sciences https://doi.org/10.32604/cmes.2026.083763

Received 10 April 2026; Accepted 19 May 2026; Published online 25 June 2026

Abstract

This study presents a weighted-sum multi-criteria optimization framework using PSO for the optimal siting, sizing, and scenario-based operation of energy storage systems (ESSs) in renewable-integrated distribution networks. The proposed model concurrently addresses technical, economic, and reliability objectives—minimizing active power losses (PL), voltage deviation (VD), expected energy not supplied (EENS), and short-circuit level (SCL), while maximizing voltage sensitivity index (VSI) and power-loss sensitivity factor (PLSF). A Particle Swarm Optimization (PSO) algorithm with weighted-sum scalarization is employed to solve this complex, nonlinear optimization problem and effectively balance the conflicting operational goals. The framework is validated using IEEE 69-bus and IEEE 118-bus test systems under varying load conditions (20%, 50%, 100%, and 150%) with time-dependent photovoltaic (PV) and wind turbine (WT) generation profiles. Results demonstrate that the proposed approach achieves significant performance enhancements, reducing power losses by up to 54%, EENS by 88%, and operational cost by 22% while maintaining SCL values within protection limits. Furthermore, the inclusion of ESS units improves system reliability and voltage stability, ensuring smooth operation during load fluctuations and fault conditions. The findings confirm that the proposed weighted-sum multi-criteria optimization framework using PSO provides a scalable and protection-aware solution for integrating ESSs into renewable-rich distribution networks. It offers a robust planning and operational tool for next-generation smart grids, enabling a more efficient, resilient, and sustainable energy ecosystem.

Keywords

Energy storage systems; multi-objective optimization; optimal placements; distribution networks; renewable integration; grid reliability
  • 235

    View

  • 30

    Download

  • 0

    Like

Share Link