Complex of technical solutions for protection and selective signaling of single-phase earth faults in 6-10 kV distribution cable networks

Vladimir Shuin; Tatiana Shadrikova; Olga Dobryagina; Elena Shagurina

doi:10.1051/e3sconf/202021601017

All issues

Volume 216 (2020)

E3S Web of Conf., 216 (2020) 01017

References

Open Access

Issue		E3S Web of Conf. Volume 216, 2020 Rudenko International Conference “Methodological problems in reliability study of large energy systems” (RSES 2020)


Article Number		01017
Number of page(s)		5
DOI		https://doi.org/10.1051/e3sconf/202021601017
Published online		14 December 2020

F.A.Likhachev, Zamykaniya na zemlyu v setyah s izolirovannoj nejtral’yu i s kompensaciej emkostnyh tokov [Earth faults in networks with isolated neutral and capacitive current compensation], Energiya (1971) [Google Scholar]
V.A. Shuin, A.V. Gusenkov, Zashchity ot zamykanij na zemlyu v elektricheskih setyah 6–10 kV [Protection against earth faults in electrical networks of 6–10 kV], Energetik (2001) [Google Scholar]
M.A. Shabad, Raschety relejnoj zashchity I avtomatiki raspredelitel’nyh setej [Calculations of relay protection and automation of distribution networks], PEIPK (2003) [Google Scholar]
V.M. Kiskachi, Yu.G. Nazarov, Signalizaciya odnofaznyh zamykanijna zemlyuv kompensirovannyh kabel’nyh setyah 6–10 kV [Signaling of compensated cable networks 6-10 kV], Proceedings of VNIIE, Gosenergoizdat, 16 (1963), pp. 219–251 [Google Scholar]
V.A. Shuin, V.A. Martynov, E.S. Shagurina, T.Yu.Shadrikova, Maksimal’nye tokovye zashchity ot zamykanij na zemlyu na osnove vysshih garmonik dlya kompensirovannyh kabel’nyh setej 6–10 kV [Maximum current protection against earth faults based on higher harmonics for compensated cable networks 6–10 kV], Electrical Engineering, 1 (2018), pp. 62–72 [Google Scholar]
A.I. Shalin, Zamykaniya na zemlyu v setyah 6–35 kV. Napravlennye zashchity. Osobennosti primeneniya [Earth faults in 6–35 kV networks. Directional protection. Application features], Novosti elektrotekhniki, 6 (36) (2005) [Electronic resource]. URL: http://news.elteh.ru/arh/2005/36/09.php (date of access: 09/ 13/2020). [Google Scholar]
A.I. Shalin, Zamykaniya na zemlyu v setyah 6–35 kV. Napravlennye zashchity. Vliyanie elektricheskoj dugi na napravlennye zashchity [Earth faults in 6–35 kV networks. Directional protection. The influence of an electric arc on directional protection], News of ElectroTechnics, 1 (37) (2006) [Electronic resource]. URL: http://news.elteh.ru/arh/2006/37/06.php (date of access: 09/ 13/2020) [Google Scholar]
P. Olshovets, Admitansnye zashchity - effektivnoe sredstvo ohrany setej SN ot zamykanij na zemlyu [Admittance protection - an effective means of protecting MV networks from ground faults], Relejnaya zashchita i avtomatizaciya, CHeboksary, 3 (28), (2017), pp. 56–59 [Google Scholar]
I.N. Popov, V.F. Lachugin, G.V. Sokolova, Relejnaya zashchita, osnovannaya na kontrole perekhonyh processov [Relay protection based on transient control], Energoatomizdat (1986) [Google Scholar]
A. Wahlroos, J. Altonen, Multifrequency admittance protection, Wiadomości Elektrotechniczne, 12 (2016) [Google Scholar]
V.A. Shuin, T.Yu.Shadikova, O.A. Dobryagina, E.S. Shagurina, S.N. Pashkovsky, patent of RF No. 2629375 Н02Н 3/16. Device for adaptive protection against single-phase earth faults in networks with isolated neutral and with compensation of capacitive currents, Bul. No. 25 (08/29/2017) [Google Scholar]
V.A.Shuin, Shadikova T.Yu., Dobryagina O.A., Shagurina E.S. RF patent 2688210 Н02Н 3/16. Protection device against single-phase earth faults in networks with isolated neutral and with compensation of capacitive currents, Bul. No. 15 (05/21/2019) [Google Scholar]
T.Yu. Shadrikova Razrabotka printsipov vypolneniya kompleksnoy mnogofunktsional’noy zashchity ot odnofaznykh zamykaniy na zemlyu kabel’nykh setey 6–10 kV [Development of principles for the implementation of a comprehensive multi-functional protection against single-phase earth faults in single-phase earth faults of 6–10 kV cable networks], PHD Thesis, Ivanovo, ISPEU, (2016) [Google Scholar]

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[1] F.A.Likhachev, Zamykaniya na zemlyu v setyah s izolirovannoj nejtral’yu i s kompensaciej emkostnyh tokov [Earth faults in networks with isolated neutral and capacitive current compensation], Energiya (1971) [Google Scholar]

[2] V.A. Shuin, A.V. Gusenkov, Zashchity ot zamykanij na zemlyu v elektricheskih setyah 6–10 kV [Protection against earth faults in electrical networks of 6–10 kV], Energetik (2001) [Google Scholar]

[3] M.A. Shabad, Raschety relejnoj zashchity I avtomatiki raspredelitel’nyh setej [Calculations of relay protection and automation of distribution networks], PEIPK (2003) [Google Scholar]

[4] V.M. Kiskachi, Yu.G. Nazarov, Signalizaciya odnofaznyh zamykanijna zemlyuv kompensirovannyh kabel’nyh setyah 6–10 kV [Signaling of compensated cable networks 6-10 kV], Proceedings of VNIIE, Gosenergoizdat, 16 (1963), pp. 219–251 [Google Scholar]

[5] V.A. Shuin, V.A. Martynov, E.S. Shagurina, T.Yu.Shadrikova, Maksimal’nye tokovye zashchity ot zamykanij na zemlyu na osnove vysshih garmonik dlya kompensirovannyh kabel’nyh setej 6–10 kV [Maximum current protection against earth faults based on higher harmonics for compensated cable networks 6–10 kV], Electrical Engineering, 1 (2018), pp. 62–72 [Google Scholar]

[6] A.I. Shalin, Zamykaniya na zemlyu v setyah 6–35 kV. Napravlennye zashchity. Osobennosti primeneniya [Earth faults in 6–35 kV networks. Directional protection. Application features], Novosti elektrotekhniki, 6 (36) (2005) [Electronic resource]. URL: http://news.elteh.ru/arh/2005/36/09.php (date of access: 09/ 13/2020). [Google Scholar]

[7] A.I. Shalin, Zamykaniya na zemlyu v setyah 6–35 kV. Napravlennye zashchity. Vliyanie elektricheskoj dugi na napravlennye zashchity [Earth faults in 6–35 kV networks. Directional protection. The influence of an electric arc on directional protection], News of ElectroTechnics, 1 (37) (2006) [Electronic resource]. URL: http://news.elteh.ru/arh/2006/37/06.php (date of access: 09/ 13/2020) [Google Scholar]

[8] P. Olshovets, Admitansnye zashchity - effektivnoe sredstvo ohrany setej SN ot zamykanij na zemlyu [Admittance protection - an effective means of protecting MV networks from ground faults], Relejnaya zashchita i avtomatizaciya, CHeboksary, 3 (28), (2017), pp. 56–59 [Google Scholar]

[9] I.N. Popov, V.F. Lachugin, G.V. Sokolova, Relejnaya zashchita, osnovannaya na kontrole perekhonyh processov [Relay protection based on transient control], Energoatomizdat (1986) [Google Scholar]

[10] A. Wahlroos, J. Altonen, Multifrequency admittance protection, Wiadomości Elektrotechniczne, 12 (2016) [Google Scholar]

[11] V.A. Shuin, T.Yu.Shadikova, O.A. Dobryagina, E.S. Shagurina, S.N. Pashkovsky, patent of RF No. 2629375 Н02Н 3/16. Device for adaptive protection against single-phase earth faults in networks with isolated neutral and with compensation of capacitive currents, Bul. No. 25 (08/29/2017) [Google Scholar]

[12] V.A.Shuin, Shadikova T.Yu., Dobryagina O.A., Shagurina E.S. RF patent 2688210 Н02Н 3/16. Protection device against single-phase earth faults in networks with isolated neutral and with compensation of capacitive currents, Bul. No. 15 (05/21/2019) [Google Scholar]

[13] T.Yu. Shadrikova Razrabotka printsipov vypolneniya kompleksnoy mnogofunktsional’noy zashchity ot odnofaznykh zamykaniy na zemlyu kabel’nykh setey 6–10 kV [Development of principles for the implementation of a comprehensive multi-functional protection against single-phase earth faults in single-phase earth faults of 6–10 kV cable networks], PHD Thesis, Ivanovo, ISPEU, (2016) [Google Scholar]