Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm

Detalhes bibliográficos
Autor(a) principal: Agrawal, Niharika
Data de Publicação: 2022
Outros Autores: Gowda, Mamatha
Tipo de documento: Artigo
Idioma: eng
Título da fonte: INFOCOMP: Jornal de Ciência da Computação
Texto Completo: https://infocomp.dcc.ufla.br/index.php/infocomp/article/view/2089
Resumo: Power system low frequency oscillation problems are created due to faults, sudden change in generation or load demand, poor interconnection of network, switching of lines, large gain and fast acting voltage regulators and several types of disturbances. These oscillations if not controlled properly will grow and cause the power system collapse. In the present work these oscillations are compared and controlled by various methods like the traditional PID, PSS and the state-of-the-art power electronics FACTS-based device, TCSC. The Philips Heffron model is used to represent the system. The parameters of PID, PSS and TCSC controllers are tuned properly by MFO, and it is passed to the Simulink. It is found that performance of FACTS based TCSC device is the best in mitigating and controlling these oscillations. The TCSC provides other benefits also like enhancing the transfer of power flow in the system, improving the transient stability of the system. The Moth Flame optimization technique (MFO)has fast convergence capacity and gives accurate results. It is a nature inspired algorithm and the controllers designed by MFO brought excellent damping improvement in the proposed work. The objective function is based on the speed deviation signal and includes simulation time integration of time multiplied by the absolute value of error. Thus, the present work involves the inclusion of various devices like PID, PSS and Power electronics based TCSC device in the system, all optimised by MFO to improve the damping characteristics of the system. The power quality, system stability, security and efficiency of the system is improved using MOTH Flame based TCSC device
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spelling Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization AlgorithmPower system low frequency oscillation problems are created due to faults, sudden change in generation or load demand, poor interconnection of network, switching of lines, large gain and fast acting voltage regulators and several types of disturbances. These oscillations if not controlled properly will grow and cause the power system collapse. In the present work these oscillations are compared and controlled by various methods like the traditional PID, PSS and the state-of-the-art power electronics FACTS-based device, TCSC. The Philips Heffron model is used to represent the system. The parameters of PID, PSS and TCSC controllers are tuned properly by MFO, and it is passed to the Simulink. It is found that performance of FACTS based TCSC device is the best in mitigating and controlling these oscillations. The TCSC provides other benefits also like enhancing the transfer of power flow in the system, improving the transient stability of the system. The Moth Flame optimization technique (MFO)has fast convergence capacity and gives accurate results. It is a nature inspired algorithm and the controllers designed by MFO brought excellent damping improvement in the proposed work. The objective function is based on the speed deviation signal and includes simulation time integration of time multiplied by the absolute value of error. Thus, the present work involves the inclusion of various devices like PID, PSS and Power electronics based TCSC device in the system, all optimised by MFO to improve the damping characteristics of the system. The power quality, system stability, security and efficiency of the system is improved using MOTH Flame based TCSC deviceEditora da UFLA2022-06-01info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://infocomp.dcc.ufla.br/index.php/infocomp/article/view/2089INFOCOMP Journal of Computer Science; Vol. 21 No. 1 (2022): June 20221982-33631807-4545reponame:INFOCOMP: Jornal de Ciência da Computaçãoinstname:Universidade Federal de Lavras (UFLA)instacron:UFLAenghttps://infocomp.dcc.ufla.br/index.php/infocomp/article/view/2089/576Copyright (c) 2022 Niharika Agrawal, Mamatha Gowdainfo:eu-repo/semantics/openAccessAgrawal, NiharikaGowda, Mamatha2022-06-01T13:53:39Zoai:infocomp.dcc.ufla.br:article/2089Revistahttps://infocomp.dcc.ufla.br/index.php/infocompPUBhttps://infocomp.dcc.ufla.br/index.php/infocomp/oaiinfocomp@dcc.ufla.br||apfreire@dcc.ufla.br1982-33631807-4545opendoar:2024-05-21T19:54:47.760247INFOCOMP: Jornal de Ciência da Computação - Universidade Federal de Lavras (UFLA)true
dc.title.none.fl_str_mv Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
title Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
spellingShingle Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
Agrawal, Niharika
title_short Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
title_full Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
title_fullStr Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
title_full_unstemmed Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
title_sort Comparison of Damping Control Performance of PID, PSS and TCSC Controllers by Moth Flame Optimization Algorithm
author Agrawal, Niharika
author_facet Agrawal, Niharika
Gowda, Mamatha
author_role author
author2 Gowda, Mamatha
author2_role author
dc.contributor.author.fl_str_mv Agrawal, Niharika
Gowda, Mamatha
description Power system low frequency oscillation problems are created due to faults, sudden change in generation or load demand, poor interconnection of network, switching of lines, large gain and fast acting voltage regulators and several types of disturbances. These oscillations if not controlled properly will grow and cause the power system collapse. In the present work these oscillations are compared and controlled by various methods like the traditional PID, PSS and the state-of-the-art power electronics FACTS-based device, TCSC. The Philips Heffron model is used to represent the system. The parameters of PID, PSS and TCSC controllers are tuned properly by MFO, and it is passed to the Simulink. It is found that performance of FACTS based TCSC device is the best in mitigating and controlling these oscillations. The TCSC provides other benefits also like enhancing the transfer of power flow in the system, improving the transient stability of the system. The Moth Flame optimization technique (MFO)has fast convergence capacity and gives accurate results. It is a nature inspired algorithm and the controllers designed by MFO brought excellent damping improvement in the proposed work. The objective function is based on the speed deviation signal and includes simulation time integration of time multiplied by the absolute value of error. Thus, the present work involves the inclusion of various devices like PID, PSS and Power electronics based TCSC device in the system, all optimised by MFO to improve the damping characteristics of the system. The power quality, system stability, security and efficiency of the system is improved using MOTH Flame based TCSC device
publishDate 2022
dc.date.none.fl_str_mv 2022-06-01
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://infocomp.dcc.ufla.br/index.php/infocomp/article/view/2089
url https://infocomp.dcc.ufla.br/index.php/infocomp/article/view/2089
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv https://infocomp.dcc.ufla.br/index.php/infocomp/article/view/2089/576
dc.rights.driver.fl_str_mv Copyright (c) 2022 Niharika Agrawal, Mamatha Gowda
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Copyright (c) 2022 Niharika Agrawal, Mamatha Gowda
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Editora da UFLA
publisher.none.fl_str_mv Editora da UFLA
dc.source.none.fl_str_mv INFOCOMP Journal of Computer Science; Vol. 21 No. 1 (2022): June 2022
1982-3363
1807-4545
reponame:INFOCOMP: Jornal de Ciência da Computação
instname:Universidade Federal de Lavras (UFLA)
instacron:UFLA
instname_str Universidade Federal de Lavras (UFLA)
instacron_str UFLA
institution UFLA
reponame_str INFOCOMP: Jornal de Ciência da Computação
collection INFOCOMP: Jornal de Ciência da Computação
repository.name.fl_str_mv INFOCOMP: Jornal de Ciência da Computação - Universidade Federal de Lavras (UFLA)
repository.mail.fl_str_mv infocomp@dcc.ufla.br||apfreire@dcc.ufla.br
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