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Investigating the Converter-Driven Stability of an Offshore HVDC System

Author

Listed:
  • Matthias Quester

    (Institute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Templergraben 55, 52062 Aachen, Germany)

  • Fisnik Loku

    (Institute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Templergraben 55, 52062 Aachen, Germany)

  • Otmane El Azzati

    (Institute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Templergraben 55, 52062 Aachen, Germany)

  • Leonel Noris

    (DNV, Arnhem Utrechtseweg 310, 6812 AR Arnhem, The Netherlands)

  • Yongtao Yang

    (DNV, Arnhem Utrechtseweg 310, 6812 AR Arnhem, The Netherlands)

  • Albert Moser

    (Institute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Templergraben 55, 52062 Aachen, Germany)

Abstract

Offshore wind farms are increasingly built in the North Sea and the number of HVDC systems transmitting the wind power to shore increases as well. To connect offshore wind farms to adjacent AC transmission systems, onshore and offshore modular multilevel converters transform the transmitted power from AC to DC and vice versa. Additionally, modern wind farms mainly use wind turbines connected to the offshore point of common coupling via voltage source converters. However, converters and their control systems can cause unwanted interactions, referred to as converter-driven stability problems. The resulting instabilities can be predicted by applying an impedance-based analysis in the frequency domain. Considering that the converter models and system data are often confidential and cannot be exchanged in real systems, this paper proposes an enhanced impedance measurement method suitable for black-box applications to investigate the interactions. A frequency response analysis identifies coupling currents depending on the control system. The currents are subsequently added to the impedance models to achieve higher accuracy. The proposed method is applied to assess an offshore HVDC system’s converter-driven stability, using impedance measurements of laboratory converters and a wind turbine converter controller replica. The results show that the onshore modular multilevel converter interacts with AC grids of moderate short-circuit ratios. However, no interactions are identified between the offshore converter and the connected wind farm.

Suggested Citation

  • Matthias Quester & Fisnik Loku & Otmane El Azzati & Leonel Noris & Yongtao Yang & Albert Moser, 2021. "Investigating the Converter-Driven Stability of an Offshore HVDC System," Energies, MDPI, vol. 14(8), pages 1-27, April.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:8:p:2341-:d:539902
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    Citations

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    Cited by:

    1. Guacira Costa de Oliveira & Renato Machado Monaro & Gilney Damm & Filipe Perez & Miguel Jimenez Carrizosa, 2023. "Bilinear Quadratic Feedback Control of Modular Multilevel Converters," Energies, MDPI, vol. 16(18), pages 1-23, September.
    2. Rodolfo Araneo & Salvatore Celozzi & Stefano Lauria & Erika Stracqualursi & Gianfranco Di Lorenzo & Marco Graziani, 2022. "Recent Trends in Power Systems Modeling and Analysis," Energies, MDPI, vol. 15(23), pages 1-7, December.
    3. Fisnik Loku & Patrick Düllmann & Christina Brantl & Antonello Monti, 2021. "Equivalent Impedance Calculation Method for Control Stability Assessment in HVDC Grids," Energies, MDPI, vol. 14(21), pages 1-17, October.

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