Decoupled Distributed Control of Offshore Wind Farms Connected to DR-HVDC Based on Novel Adaptive Virtual Impedance

Yuanxiang Sun, Dehao Kong, Zhenbin Zhang, Yongdu Wang, Han He, Marcelo Lobo Heldwein

Research output: Contribution to journalArticlepeer-review

Abstract

In offshore windfarms connected via diode-rectifier based high-voltage DC,conventional distributed control strategies have significant coupling among active and reactive power, leading to large oscillations in wind turbine (WT) converter power, voltage, and grid frequency during transients. In this work, we propose a decoupled distributed control strategy based on a novel adaptive virtual impedance method. In detail, we newly propose a simple estimator to enable each WT controller to locally estimate the global average reactive power, without the need for communication and line impedance knowledge. By comparing the estimated global average value with the actual reactive power, we achieve dynamically adjustable virtual impedance, thereby completely decoupling the power control. Additionally, a proportional feedforward control is integrated into the estimator, ensuring precise reactive power-sharing among WT converters. We also develop a small-signal model of the proposed method to theoretically confirm the decoupling characteristics, and to facilitate system stability analysis and key control parameters design. Experimental results validate the superior performance of power and frequency regulation during both steady and transient states, incomparison with the existing decoupling control method.

Original languageEnglish
Pages (from-to)1-14
Number of pages14
JournalIEEE Transactions on Power Electronics
DOIs
StateAccepted/In press - 2024

Keywords

  • Couplings
  • Distributed control
  • Frequency control
  • Impedance
  • Reactive power
  • Rectifiers
  • Voltage control
  • Wind farms
  • droop control
  • offshore wind turbine converter
  • virtual impedance

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