Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System
This article addresses the optimality and stability issues of a Tidal power based hybrid power system (HPS). The Tidal system gets destabilized by the uncertain variation of tidal waves and wind input. Stability of the system is restored through the introduction of Unified Power Flow Controller (UPF...
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Language: | English |
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IEEE
2024-01-01
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Series: | IEEE Access |
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Online Access: | https://ieeexplore.ieee.org/document/10458109/ |
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author | Abhay Sanatan Satapathy Asit Mohanty Prakash K. Ray Javed Khan Bhutto Ahmad Jaber Mohammad Alfiafi Omar Khulaif Alharbi |
author_facet | Abhay Sanatan Satapathy Asit Mohanty Prakash K. Ray Javed Khan Bhutto Ahmad Jaber Mohammad Alfiafi Omar Khulaif Alharbi |
author_sort | Abhay Sanatan Satapathy |
collection | DOAJ |
description | This article addresses the optimality and stability issues of a Tidal power based hybrid power system (HPS). The Tidal system gets destabilized by the uncertain variation of tidal waves and wind input. Stability of the system is restored through the introduction of Unified Power Flow Controller (UPFC) controller. The controller is optimized through the process of configuration of Hyper Spherical Search (HSS) based algorithm. The evaluation of the effectiveness of the suggested controllers is conducted through comparison analyses in order to regulate the voltage profile of the interconnected power network under various loading scenarios. The efficacy of the suggested controllers is assessed by stability analysis utilizing Eigen and Nyquist plots. Further, it is quite evident that optimal tuning is possible in case of the controller where the parameters can create significant impact on the system performance. Consequently, a novel heuristic optimization technique, such as HSS Algorithm are suggested to find the best output of the proposed controller. Finally, by using real-data, the performance as well as robustness of the suggested controller have examined by utilizing a real-time digital simulation platform, specifically the OPAL-RT 5142. |
first_indexed | 2024-04-24T18:54:37Z |
format | Article |
id | doaj.art-f9db1e465e01472a8a1f59f56e4f2b3e |
institution | Directory Open Access Journal |
issn | 2169-3536 |
language | English |
last_indexed | 2024-04-24T18:54:37Z |
publishDate | 2024-01-01 |
publisher | IEEE |
record_format | Article |
series | IEEE Access |
spelling | doaj.art-f9db1e465e01472a8a1f59f56e4f2b3e2024-03-26T17:47:22ZengIEEEIEEE Access2169-35362024-01-0112344523446610.1109/ACCESS.2024.337257010458109Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion SystemAbhay Sanatan Satapathy0Asit Mohanty1https://orcid.org/0000-0001-6124-1957Prakash K. Ray2https://orcid.org/0000-0003-4632-6201Javed Khan Bhutto3https://orcid.org/0000-0003-3261-9978Ahmad Jaber Mohammad Alfiafi4Omar Khulaif Alharbi5Faculty of Management Studies, Sri Sri University, Cuttack, IndiaDepartment of Electrical Engineering, MIET, Bhubaneswar, IndiaSchool of Electrical Engineering, OUTR, Bhubaneswar, IndiaDepartment of Electrical Engineering, King Khalid University, Abha, Saudi ArabiaDepartment of Electrical Engineering, King Khalid University, Abha, Saudi ArabiaDepartment of Electrical Engineering, King Khalid University, Abha, Saudi ArabiaThis article addresses the optimality and stability issues of a Tidal power based hybrid power system (HPS). The Tidal system gets destabilized by the uncertain variation of tidal waves and wind input. Stability of the system is restored through the introduction of Unified Power Flow Controller (UPFC) controller. The controller is optimized through the process of configuration of Hyper Spherical Search (HSS) based algorithm. The evaluation of the effectiveness of the suggested controllers is conducted through comparison analyses in order to regulate the voltage profile of the interconnected power network under various loading scenarios. The efficacy of the suggested controllers is assessed by stability analysis utilizing Eigen and Nyquist plots. Further, it is quite evident that optimal tuning is possible in case of the controller where the parameters can create significant impact on the system performance. Consequently, a novel heuristic optimization technique, such as HSS Algorithm are suggested to find the best output of the proposed controller. Finally, by using real-data, the performance as well as robustness of the suggested controller have examined by utilizing a real-time digital simulation platform, specifically the OPAL-RT 5142.https://ieeexplore.ieee.org/document/10458109/Direct drive permanent magnet synchronous generatorHSS algorithmstabilityreactive power compensationunified power flow controller |
spellingShingle | Abhay Sanatan Satapathy Asit Mohanty Prakash K. Ray Javed Khan Bhutto Ahmad Jaber Mohammad Alfiafi Omar Khulaif Alharbi Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System IEEE Access Direct drive permanent magnet synchronous generator HSS algorithm stability reactive power compensation unified power flow controller |
title | Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System |
title_full | Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System |
title_fullStr | Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System |
title_full_unstemmed | Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System |
title_short | Hyper Spherical Search (HSS) Algorithm Based Optimization and Real-Time Stability Study of Tidal Energy Conversion System |
title_sort | hyper spherical search hss algorithm based optimization and real time stability study of tidal energy conversion system |
topic | Direct drive permanent magnet synchronous generator HSS algorithm stability reactive power compensation unified power flow controller |
url | https://ieeexplore.ieee.org/document/10458109/ |
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