Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands
Frequency and voltage stability is a challenge as power systems move towards a more renewable future. This study focuses on the power system of Suðuroy, Faroe Islands, which is in the transition towards 100% renewables. The impact of three events on the frequency and voltage responses has been simul...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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2022
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| Online Access: | https://vbn.aau.dk/da/publications/d5e70429-916b-407f-b262-94711dc9b8ea https://vbn.aau.dk/ws/files/519719625/CSE_25_frequency_and_voltage_stability_towards_100_renewables_in_suduroy_faroe_islands.pdf https://cse.cigre.org/cse-n025/frequency-and-voltage-stability-towards-100-renewables-in-suduroy-faroe-islands |
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ftalborgunivpubl:oai:pure.atira.dk:publications/d5e70429-916b-407f-b262-94711dc9b8ea |
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openpolar |
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ftalborgunivpubl:oai:pure.atira.dk:publications/d5e70429-916b-407f-b262-94711dc9b8ea 2024-10-13T14:07:05+00:00 Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands Tróndheim, Helma Maria Hofmann, L. Gartmann, P. Quitmann, E. Bak, Claus Leth Silva, Filipe Miguel Faria da Nielsen, Terji Niclasen, Bárður Arnsteinsson 2022 application/pdf https://vbn.aau.dk/da/publications/d5e70429-916b-407f-b262-94711dc9b8ea https://vbn.aau.dk/ws/files/519719625/CSE_25_frequency_and_voltage_stability_towards_100_renewables_in_suduroy_faroe_islands.pdf https://cse.cigre.org/cse-n025/frequency-and-voltage-stability-towards-100-renewables-in-suduroy-faroe-islands eng eng https://vbn.aau.dk/da/publications/d5e70429-916b-407f-b262-94711dc9b8ea info:eu-repo/semantics/openAccess Tróndheim , H M , Hofmann , L , Gartmann , P , Quitmann , E , Bak , C L , Silva , F M F D , Nielsen , T & Niclasen , B A 2022 , ' Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands ' , CIGRE Science & Engineering , no. 25 . < https://cse.cigre.org/cse-n025/frequency-and-voltage-stability-towards-100-renewables-in-suduroy-faroe-islands > article 2022 ftalborgunivpubl 2024-09-19T00:52:42Z Frequency and voltage stability is a challenge as power systems move towards a more renewable future. This study focuses on the power system of Suðuroy, Faroe Islands, which is in the transition towards 100% renewables. The impact of three events on the frequency and voltage responses has been simulated based on 2020, 2023, 2026 and 2030 and with different settings using a measurement validated model. These results show that additional ancillary services, provided by e.g., batteries and synchronous condensers, are required to keep the stability level at the same level as today. The isolated power system in Suðuroy (~10% of total annual demand) will be connected to the main grid (~90% of total annual demand) in the future (2026 according to the RoadMap), and thus the system has also been studied with this interconnection. According to the simulation results, the main grid contributes significantly to the power system stability in Suðuroy when the systems are interconnected. The impact of how the main grid has been represented is also analysed by conducting simulations using a detailed model of the main grid or approximated models. The results show that the suggested approximated models do not show a sufficiently accurate response compared to the detailed model; especially when batteries in the main grid are contributing with active power regulation. Therefore, new approximated models of power systems with high shares of inverter-based technologies should be developed with this consideration. Finally, the contribution from wind turbine inertia emulation is analysed and shows that the system frequency nadir can be improved with the emulated inertia feature switched on. Article in Journal/Newspaper Faroe Islands Suðuroy Suðuroy Aalborg University's Research Portal Faroe Islands Suðuroy ENVELOPE(-6.830,-6.830,61.518,61.518) |
| institution |
Open Polar |
| collection |
Aalborg University's Research Portal |
| op_collection_id |
ftalborgunivpubl |
| language |
English |
| description |
Frequency and voltage stability is a challenge as power systems move towards a more renewable future. This study focuses on the power system of Suðuroy, Faroe Islands, which is in the transition towards 100% renewables. The impact of three events on the frequency and voltage responses has been simulated based on 2020, 2023, 2026 and 2030 and with different settings using a measurement validated model. These results show that additional ancillary services, provided by e.g., batteries and synchronous condensers, are required to keep the stability level at the same level as today. The isolated power system in Suðuroy (~10% of total annual demand) will be connected to the main grid (~90% of total annual demand) in the future (2026 according to the RoadMap), and thus the system has also been studied with this interconnection. According to the simulation results, the main grid contributes significantly to the power system stability in Suðuroy when the systems are interconnected. The impact of how the main grid has been represented is also analysed by conducting simulations using a detailed model of the main grid or approximated models. The results show that the suggested approximated models do not show a sufficiently accurate response compared to the detailed model; especially when batteries in the main grid are contributing with active power regulation. Therefore, new approximated models of power systems with high shares of inverter-based technologies should be developed with this consideration. Finally, the contribution from wind turbine inertia emulation is analysed and shows that the system frequency nadir can be improved with the emulated inertia feature switched on. |
| format |
Article in Journal/Newspaper |
| author |
Tróndheim, Helma Maria Hofmann, L. Gartmann, P. Quitmann, E. Bak, Claus Leth Silva, Filipe Miguel Faria da Nielsen, Terji Niclasen, Bárður Arnsteinsson |
| spellingShingle |
Tróndheim, Helma Maria Hofmann, L. Gartmann, P. Quitmann, E. Bak, Claus Leth Silva, Filipe Miguel Faria da Nielsen, Terji Niclasen, Bárður Arnsteinsson Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands |
| author_facet |
Tróndheim, Helma Maria Hofmann, L. Gartmann, P. Quitmann, E. Bak, Claus Leth Silva, Filipe Miguel Faria da Nielsen, Terji Niclasen, Bárður Arnsteinsson |
| author_sort |
Tróndheim, Helma Maria |
| title |
Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands |
| title_short |
Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands |
| title_full |
Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands |
| title_fullStr |
Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands |
| title_full_unstemmed |
Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands |
| title_sort |
frequency and voltage stability towards 100% renewables in suðuroy, faroe islands |
| publishDate |
2022 |
| url |
https://vbn.aau.dk/da/publications/d5e70429-916b-407f-b262-94711dc9b8ea https://vbn.aau.dk/ws/files/519719625/CSE_25_frequency_and_voltage_stability_towards_100_renewables_in_suduroy_faroe_islands.pdf https://cse.cigre.org/cse-n025/frequency-and-voltage-stability-towards-100-renewables-in-suduroy-faroe-islands |
| long_lat |
ENVELOPE(-6.830,-6.830,61.518,61.518) |
| geographic |
Faroe Islands Suðuroy |
| geographic_facet |
Faroe Islands Suðuroy |
| genre |
Faroe Islands Suðuroy Suðuroy |
| genre_facet |
Faroe Islands Suðuroy Suðuroy |
| op_source |
Tróndheim , H M , Hofmann , L , Gartmann , P , Quitmann , E , Bak , C L , Silva , F M F D , Nielsen , T & Niclasen , B A 2022 , ' Frequency and Voltage Stability Towards 100% Renewables in Suðuroy, Faroe Islands ' , CIGRE Science & Engineering , no. 25 . < https://cse.cigre.org/cse-n025/frequency-and-voltage-stability-towards-100-renewables-in-suduroy-faroe-islands > |
| op_relation |
https://vbn.aau.dk/da/publications/d5e70429-916b-407f-b262-94711dc9b8ea |
| op_rights |
info:eu-repo/semantics/openAccess |
| _version_ |
1812813357159284736 |