Optimal Power Flow of DC-Grid Based on Improved PSO Algorithm

Voltage sourced converter (VSC) based direct-current (DC) grid has the ability to control power flow flexibly and securely, thus it has become one of the most valid approaches in aspect of large-scale renewable power generation, oceanic island power supply and new urban grid construction. To solve t...

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Veröffentlicht in:	Journal of electrical engineering & technology 2017, Vol.12 (4), p.1586-1592
Hauptverfasser:	Liu, Xianzheng, Wang, Xingcheng, Wen, Jialiang
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container_title	Journal of electrical engineering & technology
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creator	Liu, Xianzheng Wang, Xingcheng Wen, Jialiang
description	Voltage sourced converter (VSC) based direct-current (DC) grid has the ability to control power flow flexibly and securely, thus it has become one of the most valid approaches in aspect of large-scale renewable power generation, oceanic island power supply and new urban grid construction. To solve the optimal power flow (OPF) problem in DC grid, an adaptive particle swarm optimization (PSO) algorithm based on fuzzy control theory is proposed in this paper, and the optimal operation considering both power loss and voltage quality is realized. Firstly, the fuzzy membership curve is used to transform two objectives into one, the fitness value of latest step is introduced as input of fuzzy controller to adjust the controlling parameters of PSO dynamically. The proposed strategy was applied in solving the power flow issue in six terminals DC grid model, and corresponding results are presented to verify the effectiveness and feasibility of proposed algorithm.
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title	Optimal Power Flow of DC-Grid Based on Improved PSO Algorithm
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