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Distributed Power Quality Conditioning System for Three-Phase Four-Wire Low Voltage Networks

This paper presents distributed power quality conditioning system to compensate current and voltage distortions in three-phase four-wire networks caused by unbalanced non-linear single-phase loads. The proposed conditioning system consists of several hybrid filter units installed in various nodes fo...

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Published in:	Energies (Basel) 2020-09, Vol.13 (18), p.4915
Main Authors:	Dovgun, Valery, Temerbaev, Sergei, Chernyshov, Maxim, Novikov, Viktor, Boyarskaya, Natalia, Gracheva, Elena
Format:	Article
Language:	English
Subjects:	Compensation Conditioning Conductors Control systems Design Filter design (mathematics) harmonics hybrid power filter Low voltage Neutral conductors neutral current attenuation Neutral currents Optimization Power power quality Spectral analysis Unbalance Voltage Voltage distortion Wire
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cited_by	cdi_FETCH-LOGICAL-c361t-39cbcee44db4b271d1e415e1bd9f532193fe88ed5803f57b886a641d781fe4533
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creator	Dovgun, Valery Temerbaev, Sergei Chernyshov, Maxim Novikov, Viktor Boyarskaya, Natalia Gracheva, Elena
description	This paper presents distributed power quality conditioning system to compensate current and voltage distortions in three-phase four-wire networks caused by unbalanced non-linear single-phase loads. The proposed conditioning system consists of several hybrid filter units installed in various nodes for compensation of excessive neutral currents and voltage distortions in a selected area of the distribution network. The system is open and it can be easily modified by installation of new filter units. A novel hybrid filter design procedure based on filter frequency characteristics optimization in the parameters of passive and active parts is presented. A digital system of control signal computation for active filters based on the use of modern methods of spectral analysis is considered. The proposed digital control system enables selective compensation of fundamental and harmonic components. The mathematical model of the proposed power quality conditioning system is developed in the MatLab software. The simulated results show that the presented conditioning system reduces the level of neutral conductor currents and the voltage unbalance as well ensures harmonic compensation in three-phase four-wire networks.
doi_str_mv	10.3390/en13184915
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issn	1996-1073 1996-1073
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recordid	cdi_doaj_primary_oai_doaj_org_article_6f684d038abb4cf39b5deb54cec0a767
source	Publicly Available Content Database
subjects	Compensation Conditioning Conductors Control systems Design Filter design (mathematics) harmonics hybrid power filter Low voltage Neutral conductors neutral current attenuation Neutral currents Optimization Power power quality Spectral analysis Unbalance Voltage Voltage distortion Wire
title	Distributed Power Quality Conditioning System for Three-Phase Four-Wire Low Voltage Networks
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