A distribution power flow using particle swarm optimization

The proliferation of distributed generators (DGs) and the concept of microgrids have altered a distribution network from a passive network to an active one. Hence, active distribution power flow methods need to account for a DG unit, which can operate either as a PV or PQ bus. However, some of the e...

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Hauptverfasser:	Syai'in, Mat, Lian, Kuo Lung, Yang, Nien-Che, Chen, Tsai-Hsiang
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Distributed Generation Generators Load flow Particle swarm optimization Power Flow PV Buses Radial Distribution Systems Reactive power Robustness
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creator	Syai'in, Mat Lian, Kuo Lung Yang, Nien-Che Chen, Tsai-Hsiang
description	The proliferation of distributed generators (DGs) and the concept of microgrids have altered a distribution network from a passive network to an active one. Hence, active distribution power flow methods need to account for a DG unit, which can operate either as a PV or PQ bus. However, some of the existing active distribution power flow methods have difficulty to converge if the resistance-to-reactance ratio (or R/X) is high. This paper presents a new robust three-phase distribution power flow, which incorporates the particle swarm optimization method into an existing distribution power flow to overcome these problems. An IEEE benchmark system is used to test the validity and robustness of the proposed algorithm.
doi_str_mv	10.1109/PESGM.2012.6343939
format	Conference Proceeding
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subjects	Distributed Generation Generators Load flow Particle swarm optimization Power Flow PV Buses Radial Distribution Systems Reactive power Robustness
title	A distribution power flow using particle swarm optimization
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