Stability improvement of multimachine power system using DRL based wind-PV-controller

A significant challenge in modern electric power grids is the stability of power systems, particularly under extreme events such as demand surges and disruptions. Integrating renewable energy into the current system present a viable approach for meeting the growing demand. Furthermore, apart from ef...

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Published in	Sustainable computing informatics and systems Vol. 47; p. 101168
Main Authors	Narwal, Deshveer, Sharma, Deepesh
Format	Journal Article
Language	English
Published	Elsevier Inc 01.09.2025
Subjects	DQN DRL PV STATCOM Reactive power Stability Wind power DQN Reactive power Stability Wind power PV STATCOM DRL
Online Access	Get full text
ISSN	2210-5379
DOI	10.1016/j.suscom.2025.101168

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Abstract	A significant challenge in modern electric power grids is the stability of power systems, particularly under extreme events such as demand surges and disruptions. Integrating renewable energy into the current system present a viable approach for meeting the growing demand. Furthermore, apart from efficiently meeting the increasing need, these renewable energy systems, with their supplementary circuitry, can substantially improve the stability of the power system. This research suggests a new method that combines deep reinforcement learning (DRL) with a Fractional Order deep Q network (FO-DQN) to address stability problems in multimachine power systems. Incorporating wind and PV systems, which function as STATCOM when necessary, introduces intricacy to the system's dynamics. The proposed DRL based controller facilitates dynamic real-time control of power flow, guaranteeing voltage stability throughout the system. The controller based on DRL is able to autonomously modify the settings of the PV Static Synchronous Compensator (STATCOM) and unified inter-phase power controller (UIPC) operated wind turbine (WT) system. This adjustment helps to provide reactive power compensation and stabilize the system during extreme conditions. This results in a high level of resilience and flexibility. The efficacy of the suggested approach for enhancing stability of multimachine power systems is proven through thorough simulations and comparative analysis. The results demonstrate higher system performance, reduced voltage drop, and optimal reactive power compensation in the presence of diverse operating circumstances and disturbances (fault). •This paper deals with the challenges of reactive power fluctuations in case of unexpected demand surges and disruptions in multimachine power systems.•This study introduces an innovative method using deep reinforcement learning (DRL) combined with a Fractional Order Deep Q Network (FO-DQN).•The approach leverages wind and PV systems as STATCOMs, providing real-time voltage stability and reactive power control.•Extensive simulations confirm the method’s effectiveness, showing improved voltage stability, enhanced reactive power support, and heightened resilience.
AbstractList	A significant challenge in modern electric power grids is the stability of power systems, particularly under extreme events such as demand surges and disruptions. Integrating renewable energy into the current system present a viable approach for meeting the growing demand. Furthermore, apart from efficiently meeting the increasing need, these renewable energy systems, with their supplementary circuitry, can substantially improve the stability of the power system. This research suggests a new method that combines deep reinforcement learning (DRL) with a Fractional Order deep Q network (FO-DQN) to address stability problems in multimachine power systems. Incorporating wind and PV systems, which function as STATCOM when necessary, introduces intricacy to the system's dynamics. The proposed DRL based controller facilitates dynamic real-time control of power flow, guaranteeing voltage stability throughout the system. The controller based on DRL is able to autonomously modify the settings of the PV Static Synchronous Compensator (STATCOM) and unified inter-phase power controller (UIPC) operated wind turbine (WT) system. This adjustment helps to provide reactive power compensation and stabilize the system during extreme conditions. This results in a high level of resilience and flexibility. The efficacy of the suggested approach for enhancing stability of multimachine power systems is proven through thorough simulations and comparative analysis. The results demonstrate higher system performance, reduced voltage drop, and optimal reactive power compensation in the presence of diverse operating circumstances and disturbances (fault). •This paper deals with the challenges of reactive power fluctuations in case of unexpected demand surges and disruptions in multimachine power systems.•This study introduces an innovative method using deep reinforcement learning (DRL) combined with a Fractional Order Deep Q Network (FO-DQN).•The approach leverages wind and PV systems as STATCOMs, providing real-time voltage stability and reactive power control.•Extensive simulations confirm the method’s effectiveness, showing improved voltage stability, enhanced reactive power support, and heightened resilience.
ArticleNumber	101168
Author	Sharma, Deepesh Narwal, Deshveer
Author_xml	– sequence: 1 givenname: Deshveer surname: Narwal fullname: Narwal, Deshveer email: 20001902002deshveernarwal@dcrustm.org, deepesharma327@gmail.com – sequence: 2 givenname: Deepesh surname: Sharma fullname: Sharma, Deepesh
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Cites_doi	10.1109/ACCESS.2024.3364058 10.1049/iet-rpg.2016.0812 10.1049/iet-rpg.2016.0459 10.1016/j.jfranklin.2020.07.024 10.1109/TSTE.2020.2985999 10.1109/TSTE.2017.2691279 10.1109/TPWRS.2021.3106859 10.1109/TPWRD.2012.2208231 10.1049/iet-rpg.2018.6095 10.1007/s40313-021-00724-x 10.1109/TPWRS.2019.2954497 10.1109/ACCESS.2017.2716103 10.1109/TSTE.2018.2862405 10.1109/TPWRD.2019.2929616 10.1109/ACCESS.2020.3011456 10.1016/j.enconman.2008.10.005 10.1109/TSTE.2018.2871074 10.1007/s40313-023-00995-6 10.1109/TII.2019.2901935 10.1007/s12667-019-00350-2 10.1109/TPWRS.2020.3000652 10.1049/iet-rpg.2016.0904 10.1016/j.ijepes.2020.106440 10.3390/app10082859 10.1016/j.isatra.2021.05.014 10.1016/j.aej.2021.11.011
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Keywords	DQN Reactive power Stability Wind power PV STATCOM DRL
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StartPage	101168
SubjectTerms	DQN DRL PV STATCOM Reactive power Stability Wind power
Title	Stability improvement of multimachine power system using DRL based wind-PV-controller
URI	https://dx.doi.org/10.1016/j.suscom.2025.101168
Volume	47
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