Overcurrent protection against multi-phase faults in MV networks based on negative and zero sequence criteria

•Novel solution for two phase faults protection in the power distribution system.•Protection reach enhancement for two phase and double phase-to-earth faults.•Negative sequence current used as criterion in instantaneous overcurrent protection.•Zero sequence current additionally used for double phase...

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Published in:International journal of electrical power & energy systems 2022-01, Vol.134, p.107449, Article 107449
Main Authors: Andruszkiewicz, Jerzy, Lorenc, Józef, Staszak, Bogdan, Weychan, Agnieszka, Zięba, Beata
Format: Article
Language:English
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Distribution network
Fault current
Negative sequence current
Overcurrent protection
Symmetrical components
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container_title International journal of electrical power & energy systems
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creator Andruszkiewicz, Jerzy
Lorenc, Józef
Staszak, Bogdan
Weychan, Agnieszka
Zięba, Beata
description •Novel solution for two phase faults protection in the power distribution system.•Protection reach enhancement for two phase and double phase-to-earth faults.•Negative sequence current used as criterion in instantaneous overcurrent protection.•Zero sequence current additionally used for double phase-to-earth faults protection.•Suggested solution is easy to implement in existing protection relays. Adequate power system protection plays crucial role in ensuring reliability of electricity supply, thus it is a key challenge for distribution system operators to increase the effectiveness of protection schemes operation and protection equipment itself. The main goal of the paper is presenting a multi-criteria protection algorithm that may boost effectiveness of power lines’ short-circuit overcurrent relays in medium voltage networks in case of various two phase faults. The idea of enhancing protection performance is based on fault current symmetrical components’ analysis and specifically on using negative and zero sequence currents as criterial values for overcurrent line protection used against such faults. The paper describes in detail the proposed solution and analyses its performance based on medium voltage network simulations carried out using DIgSILENT PowerFactory software. Promising simulation results can be observed for definite time overcurrent protection relays used in reactance-earthed networks, as introduction of the proposed method proved to increase the zone of effective operation twice comparing to the traditional phase current based solutions. Moreover, in the proposed solution, coordination of protection settings for small earth-fault current values, which are identified by other protection relays, is not necessary. The proposed solution may complement the traditional algorithms for short-circuit protection (I≫) used in modern protection relays monitoring the level of negative and zero sequence current, and therefore may significantly improve the effectiveness of detecting various phase-to-phase faults in the considered MV line protection zone.
doi_str_mv 10.1016/j.ijepes.2021.107449
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subjects Distribution network
Fault current
Negative sequence current
Overcurrent protection
Symmetrical components
title Overcurrent protection against multi-phase faults in MV networks based on negative and zero sequence criteria
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