Biller M, Jäger J (2022)
Publication Type: Journal article
Publication year: 2022
DOI: 10.1109/TPWRD.2022.3144004
This paper proposes an approach to mitigate adverse effects of the fault management of closed-ring grids with high shares of distributed generation (DG). The approach refers to conventional distance protection relays in particular. The rising share of DG, especially in distribution systems, can lead to overloadings and intolerable voltages. Closed-ring structures increase the grid capacity for DG due to more balanced load and voltages profiles. However, malfunctions of protection relays may occur because fault locating and selective fault clearing can be disturbed. This paper presents a distance protection algorithm for feeder relays that complies with the requirements of closed-ring grids with inter-infeeds. The proposed current comparison method (CCM) bases on the comparison of negative-sequence currents. It needs no voltage measurement and remains unaffected from inter-infeeds and fault resistances. Additionally, for relays located at the ring coupler, where the ring can be opened, a coupling relay method (CRM) is proposed. It locates unsymmetrical faults in closed-ring grids with inter-infeeds and enables fast and selective opening of the ring. This helps maintaining reliable power supply for customers in closed rings. Finally, the paper presents a grading strategy reducing the average fault clearing time. Lab tests prove the capability of both proposed algorithms.
APA:
Biller, M., & Jäger, J. (2022). Protection Algorithms for Closed-Ring Grids with Distributed Generation. IEEE Transactions on Power Delivery. https://dx.doi.org/10.1109/TPWRD.2022.3144004
MLA:
Biller, Martin, and Johann Jäger. "Protection Algorithms for Closed-Ring Grids with Distributed Generation." IEEE Transactions on Power Delivery (2022).
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