616 / 2019-03-18 23:06:43
Impact of Pole-to-ground Faults on Transformer DC Magnetic Bias and Differential Current Protection in Hybrid AC/DC Power Grids
DC bias; grounding mode; magnetizing inrush current; pole-to-ground fault
Final Paper
Zhihui Dai / North China Electric Power University
Hong Cao / China Electric Power Research Institute
Yongxing He / North China Electric Power University
Ningning Liu / North China Electric Power University
Cheng Zhang / North China Electric Power University
Huaibo Su / North China Electric Power University
Liangdong Qin / Hebei Electric Power Co., Ltd.
Pole-to-ground faults in hybrid AC/DC power grids may result in DC-bias voltage at the AC side of the converter. If the transformer is Dyn11 connected with small grounding resistance, the DC current caused by the pole-to-ground fault will pass the transformer and lead to DC bias, which would further produce the magnetizing inrush current and the malfunction of differential current protection of transformers. In this paper, considering different transformer connection groups with different grounding resistance, the impact of pole-to-ground faults on the DC bias of transformers is analyzed. Influencing factors are concluded as well. Secondly, a hybrid AC/DC system is modeled to verify theoretical analysis. Finally, counter-measures to DC magnetic bias, and the identification method of pole-to-ground fault and single-phase grounded fault are given.
Important Date
  • Conference Date

    Oct 21

    2019

    to

    Oct 24

    2019

  • Oct 13 2019

    Abstract Notification of Acceptance

  • Oct 13 2019

    Draft paper submission deadline

  • Oct 14 2019

    Draft Paper Acceptance Notification

  • Oct 24 2019

    Registration deadline

  • Oct 29 2019

    Final Paper Deadline

Organized By
Xi'an Jiaotong University
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