Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm
Abstract Large‐scale integration of renewable energy sources (RESs) such as wind power can impact on the existing power system's stability. For example, there is a possibility that the wind farm (WF) cannot be maintained stable and then it is disconnected from the grid when the instantaneous vo...
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2021
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oai:doaj.org-article:f7fc95acaf74490abf3137bfd092c5812021-11-16T15:47:58ZVoltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm1751-86951751-868710.1049/gtd2.12247https://doaj.org/article/f7fc95acaf74490abf3137bfd092c5812021-12-01T00:00:00Zhttps://doi.org/10.1049/gtd2.12247https://doaj.org/toc/1751-8687https://doaj.org/toc/1751-8695Abstract Large‐scale integration of renewable energy sources (RESs) such as wind power can impact on the existing power system's stability. For example, there is a possibility that the wind farm (WF) cannot be maintained stable and then it is disconnected from the grid when the instantaneous voltage sag caused by a grid disturbance occurs. Moreover, the increasing integration of RESs in the power system can reduce the number of conventional synchronous generators (SGs) connected to the grid, and lead to a reduction of system inertia in the grid. The system inertia reduction can cause larger and faster frequency fluctuations during the transient period. Hence, this paper proposes a new control strategy composed of the voltage control for suppressing the voltage sag and the virtual synchronous generator (VSG) control based on the proportional‐integral‐differential (PID) fuzzy logic control (FLC) for maintaining the frequency stability which is performed by high voltage direct current (HVDC) interconnection line. The aim of the new control strategy is to improve the stability of the entire power system with large‐scale integration of RESs. The effectiveness of the proposed strategy is confirmed through the simulation analyses by PSCAD/EMTDC.Ayaka NakamuraFaramarz AlsharifAtsushi UmemuraRion TakahashiJunji TamuraAtsushi SakaharaFumihito TosakaRyosuke NakamotoWileyarticleDistribution or transmission of electric powerTK3001-3521Production of electric energy or power. Powerplants. Central stationsTK1001-1841ENIET Generation, Transmission & Distribution, Vol 15, Iss 24, Pp 3375-3387 (2021) |
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DOAJ |
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Distribution or transmission of electric power TK3001-3521 Production of electric energy or power. Powerplants. Central stations TK1001-1841 |
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Distribution or transmission of electric power TK3001-3521 Production of electric energy or power. Powerplants. Central stations TK1001-1841 Ayaka Nakamura Faramarz Alsharif Atsushi Umemura Rion Takahashi Junji Tamura Atsushi Sakahara Fumihito Tosaka Ryosuke Nakamoto Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm |
| description |
Abstract Large‐scale integration of renewable energy sources (RESs) such as wind power can impact on the existing power system's stability. For example, there is a possibility that the wind farm (WF) cannot be maintained stable and then it is disconnected from the grid when the instantaneous voltage sag caused by a grid disturbance occurs. Moreover, the increasing integration of RESs in the power system can reduce the number of conventional synchronous generators (SGs) connected to the grid, and lead to a reduction of system inertia in the grid. The system inertia reduction can cause larger and faster frequency fluctuations during the transient period. Hence, this paper proposes a new control strategy composed of the voltage control for suppressing the voltage sag and the virtual synchronous generator (VSG) control based on the proportional‐integral‐differential (PID) fuzzy logic control (FLC) for maintaining the frequency stability which is performed by high voltage direct current (HVDC) interconnection line. The aim of the new control strategy is to improve the stability of the entire power system with large‐scale integration of RESs. The effectiveness of the proposed strategy is confirmed through the simulation analyses by PSCAD/EMTDC. |
| format |
article |
| author |
Ayaka Nakamura Faramarz Alsharif Atsushi Umemura Rion Takahashi Junji Tamura Atsushi Sakahara Fumihito Tosaka Ryosuke Nakamoto |
| author_facet |
Ayaka Nakamura Faramarz Alsharif Atsushi Umemura Rion Takahashi Junji Tamura Atsushi Sakahara Fumihito Tosaka Ryosuke Nakamoto |
| author_sort |
Ayaka Nakamura |
| title |
Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm |
| title_short |
Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm |
| title_full |
Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm |
| title_fullStr |
Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm |
| title_full_unstemmed |
Voltage control and virtual synchronous generator control of HVDC interconnection line for improving stability of power system including large‐scale wind farm |
| title_sort |
voltage control and virtual synchronous generator control of hvdc interconnection line for improving stability of power system including large‐scale wind farm |
| publisher |
Wiley |
| publishDate |
2021 |
| url |
https://doaj.org/article/f7fc95acaf74490abf3137bfd092c581 |
| work_keys_str_mv |
AT ayakanakamura voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT faramarzalsharif voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT atsushiumemura voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT riontakahashi voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT junjitamura voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT atsushisakahara voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT fumihitotosaka voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm AT ryosukenakamoto voltagecontrolandvirtualsynchronousgeneratorcontrolofhvdcinterconnectionlineforimprovingstabilityofpowersystemincludinglargescalewindfarm |
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