Title of article
Voltage Stability Improvement in Optimal Placement of Voltage Regulators and Capacitor Banks Based on FSM and MMOPSO Approach
Author/Authors
Shafiee, M. Department of Electrical and Computer Engineering - University of Canterbury - Christchurch - New Zealand , Amirahmadi, M. Department of Electrical and Electronic Engineering - Semnan Branch - Islamic Azad University - Semnan - Iran , Farzinfar, M. School of Engineering - Electrical Engineering Department - Damghan University - Damghan - Iran , Lapthorn, A. Department of Electrical and Computer Engineering - University of Canterbury - Christchurch - New Zealand
Pages
10
From page
881
To page
890
Abstract
Installation of Shunt Capacitor Banks (SCBs) and Voltage Regulators (VRs) within distribution system is one of the most effective solutions in reactive power control for improving the voltage profile and reducing power losses along the feeder. However, the presence of the VRs can deteriorate the Voltage Stability Margin (VSM) in distribution feeders. To address this issue, this paper proposes a multi-objective programming model for the simultaneous optimal allocation of VRs and SCBs in the distribution network to improve the voltage profile and to minimize power losses and installation costs. In the proposed model, a Voltage Stability Index (VSI) is considered to prevent voltage instability during SCBs/VRs allocation. A new Modified Multi-Objective Particle Swarm Optimization (MMOPSO) algorithm which includes a dynamic inertia weight and mutation operator is proposed to obtain the optimal solutions as a Pareto set. Thereinafter, a Fuzzy Satisfaction Method (FSM) determines the optimal solution. A practical long radial distribution feeder has been employed to demonstrate the efficiency and efficacy of the proposed model along with a comparison between the proposed MMOPSO and the original MOPSO.
Keywords
Keywords
Allocation , Capacitor Bank , Multi-objective Particle Swarm Optimization , Voltage Regulator , Voltage Stability Enhancement
Journal title
International Journal of Engineering
Serial Year
2021
Record number
2631743
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