Alexandria Engineering Journal (Jul 2024)

Research on the countermeasures of the single-phase-to-earth faults in flexibly grounded distribution networks

  • Xiaofeng Ren,
  • Yunhao Bai,
  • Yongzheng Dai,
  • Rui Liang,
  • Hailong Gao,
  • Lingdong Su,
  • Xiao Zhang,
  • Lingchang Kong,
  • Peng Zhang

Journal volume & issue
Vol. 98
pp. 68 – 79

Abstract

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In a neutral, flexible, grounded distribution network, the phenomenon that a single-phase ground fault with high impedance connected in parallel with a low resistance can result in a relatively lower zero-sequence current flowing through the faulty feeder. This zero-sequence current can make it a challenge to use zero-sequence protection schemes to accurately identify and effectively protect the faulty feeder. In terms of the aforementioned challenge, based on the zero-sequence equivalent circuit of a single-phase-to-earth fault, this paper conducts an investigation on the phase difference between the zero-sequence current and the non-fault phase line voltage at power frequency in flexible grounding distribution network with different grounded conditions, both before and after the introduction of a parallel low-resistor connection. Subsequently, a criterion for selecting the faulty feeder is developed based on the observed phase difference characteristics following the implementation of the parallel low-resistor connection. Furthermore, a disposal strategy for single-phase-to-earth faults is formulated, which takes fault resistance estimation into account. To validate the proposed method, a simulation model of a flexible grounding distribution network is implemented with PSCAD/EMTDC. The effectiveness and reliability of this method in multiple scenes, including the initial fault conditions, sampling frequency, and distributed generation (DG), are proved through simulation results.

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