Performance Analysis on Power Flow of a Threefeeder/ Multi-bus Distribution System using GUPQC

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Preeti Parihar*, Mohit Tyagi: Performance Analysis on Power Flow of a Threefeeder/ Multi-bus Distribution System using GUPQC. In: Performance Analysis on Power Flow of a Threefeeder/ Multi-bus Distribution System using GUPQC, vol. 1, iss. 1, pp. 25-37, 2022.

Abstract

In this paper, the power flow analysis through the GUPQC connected to the multi-bus/3-feeder distribution systems was distributed. a replacement controller theme for the series compensator of GUPQC supported the d-q theory to complete the supply facet voltage harmonics, voltage sag/swell and interruption was conferred. the applying of the planned controller to complete voltage imperfections of the network and for the development of the ability quality of the client masses was valid by the simulation results. Depth simulation studies were distributed by exploitation MATLAB/SIMULINK computer code to determine the power of the GUPQC to enhance power quality of the distribution systems underneath distorted offer voltage conditions.

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BibTeX (Download)

@article{IJEMT_116,
title = {Performance Analysis on Power Flow of a Threefeeder/ Multi-bus Distribution System using GUPQC},
author = {Preeti Parihar*, Mohit Tyagi},
url = {https://ijemt.com/wp-content/uploads/2022/04/IJEMT_116-1-1.pdf},
year  = {2022},
date = {2022-03-17},
urldate = {2022-03-17},
journal = {Performance Analysis on Power Flow of a Threefeeder/ Multi-bus Distribution System using GUPQC},
volume = {1},
issue = {1},
pages = {25-37},
abstract = {In this paper, the power flow analysis through the GUPQC connected to the multi-bus/3-feeder distribution systems was distributed. a replacement controller theme for the series compensator of GUPQC supported the d-q theory to complete the supply facet voltage harmonics, voltage sag/swell and interruption was conferred. the applying of the planned controller to complete voltage imperfections of the network and for the development of the ability quality of the client masses was valid by the simulation results. Depth simulation studies were distributed by exploitation MATLAB/SIMULINK computer code to determine the power of the GUPQC to enhance power quality of the distribution systems underneath distorted offer voltage conditions.},
keywords = {Volume1 Issue1 March 2022},
pubstate = {published},
tppubtype = {article}
}

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