RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid
International Journal of Emerging Electric Power System
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| Hoofdauteurs: | , , , |
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| Formaat: | Tijdschrift |
| Taal: | Engels |
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IEEE
2020
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| Online toegang: | https://ir.oauife.edu.ng/handle/123456789/5163 |
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| _version_ | 1810764580125671425 |
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| author | Ajewole, T.O Oyekanmi, W.A Babalola, A.A. Omoigui, M.O |
| author_facet | Ajewole, T.O Oyekanmi, W.A Babalola, A.A. Omoigui, M.O |
| author_sort | Ajewole, T.O |
| collection | DSpace |
| description | International Journal of Emerging Electric Power System |
| format | Journal |
| id | oai:ir.oauife.edu.ng:123456789-5163 |
| institution | My University |
| language | English |
| publishDate | 2020 |
| publisher | IEEE |
| record_format | dspace |
| spelling | oai:ir.oauife.edu.ng:123456789-51632023-05-13T11:12:49Z RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid Ajewole, T.O Oyekanmi, W.A Babalola, A.A. Omoigui, M.O model hybrid-source lab-microgrid emulator grid-former feeder International Journal of Emerging Electric Power System Three energy sources: a pico-hydropower emulator, a diesel engine emulator and a wind turbine emulator; are inter-connected at a point of common coupling, with the hybridized source supplying an aggregate of electrical load. A control scheme is developed that employs the synchronous machine-based pico-hydropower emulator as grid-forming source, while the other two sources feed the grid-former. Since models demonstrated with simulated weather data and load demand profiles may not accurately represent the operational behaviours of the actual system in the real-world scenario, a real-life wind speed profile is implemented on the wind turbine emulator to investigate the behaviours of the lab-microgrid under a near-real-world operating scenario. Balance reactive power flow is established among the three source emulators as a result of which the frequencies of the emulators are synchronized. A proper fault ride-through characteristic is also exhibited by the system. These show that the near-real-world behaviours of the lab-microgrid closely match the operational performance of the actual microgrid in the real-world scenario. The application could, therefore, be adopted as an affordable laboratory tool in research activities and as an instructional kit in teaching on the autonomous microgrid. 2020-02-07T14:28:49Z 2020-02-07T14:28:49Z 2017-01 Journal https://ir.oauife.edu.ng/handle/123456789/5163 en application/pdf IEEE |
| spellingShingle | model hybrid-source lab-microgrid emulator grid-former feeder Ajewole, T.O Oyekanmi, W.A Babalola, A.A. Omoigui, M.O RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid |
| title | RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid |
| title_full | RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid |
| title_fullStr | RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid |
| title_full_unstemmed | RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid |
| title_short | RYDS Modeling of a Hybrid-Source Autonomous Electric Microgrid |
| title_sort | ryds modeling of a hybrid source autonomous electric microgrid |
| topic | model hybrid-source lab-microgrid emulator grid-former feeder |
| url | https://ir.oauife.edu.ng/handle/123456789/5163 |
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