Robust distance protection for cross-country faults in power grids with high penetration of inverter- based resources

Jose de Jesus Chavez*, Marjan Popov, David López, Vladimir Terzija, Sadegh Azizi

*Corresponding author for this work

Research output: Contribution to journalArticleScientificpeer-review

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Abstract

Cross-country faults can adversely affect the operation of protection devices. Relays whose pickup is based on overcurrent or impedance elements are more likely to fail during cross-country faults. The failure can be expressed as an unnecessary trip of all phases during a single-phase fault or even blocked relay functions. Relays may also fail to operate due to low fault currents, which is the case when power grids make use of many inverter-based resources (IBR) or when two simultaneous faults occur in the same phase and in different locations. This paper proposes a Recursive Discrete Stockwell Transform (RDST) method for addressing the mentioned challenges. The energy content computed by the RDST is used for fault detection and faulty phase selection. A robust distance relay model is proposed to ensure correct relay performance and is combined with a directional and an impedance trajectory module. The proposed method performance is thoroughly evaluated by applying real-time simulations for 6480 different cross-country faults, including three repetitions, four different generators (Synchronous generators, Wind turbine type-III, Wind turbine type-IV), two rating powers, three different fault distances, five different types of faults, and six grid codes. Ninety cases are also tested with real devices in hardware in the loop. Simulation results confirm the method's ability to detect different fault types, even during low fault currents, and to ensure high accuracy in phase selection.
Original languageEnglish
Article number 100708
Number of pages13
Journale-Prime - Advances in Electrical Engineering, Electronics and Energy
Volume9
DOIs
Publication statusPublished - 2024

Keywords

  • Distance protection
  • Fault detector
  • Faulty phase selector
  • Stockwell transform
  • Real-time digital simulations

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