Abstract
The peculiarities of detection using the location method of single-line-to-ground faults in the electricity transmission lines (ETLs) with 6–35 kV of tree topology and linear structures of 110 kV and higher have been studied. Ways of recognizing reflectograms if there is a fault in the ETL are presented. The investigations were carried out in laboratory settings using ETL models and under real conditions on working ETLs.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Likhachev, F.A., Zamykaniya na zemlyu v setyakh s izolirovannoi neitral’yu s kompensatsiei emkostnykh tokov (Fault to Ground in the Networks with Insulated Neutral and with Capacitive Current Compensation), Moscow: Energiya, 1971.
Tsapenko, E.F., Zamykaniya na zemlyu v setyakh 6-35 kV (Fault to Ground in the Electricity Networks of 6–35 kV), Moscow: Energoatomizdat, 1986.
Shutskii, V.I., Zhidkov, V.O., and Il’in, Yu.N., Zashchitnoe shuntirovanie odnofaznykh povrezhdenii elektroustanovok (Protective Shunting of Single-phase Faults in Electric Power Plans), Moscow: Energoatomizdat, 1986.
Boruhman, V.A., About Exploitation of the Selective Protecting Systems against the Faults to Ground in the Electricity Networks of 6–10 kV and about the Measures of Their Improvement, Energetik, 2000, no. 1, pp. 20–22.
Shalin, A.I., Fault to Ground in the Electricity Transmission Lines of 6–35 kV, Novosti Elektrotekhniki, 2005, no. 1, pp. 73–75.
Shalyt, G.M., Opredelenie mest povrezhdenii linii elektroperedachi impul’snym metodom (Fault Point Detection with the Help of Location Method), Moscow: Energiya, 1968.
Minullin, R.G. and Zakamskii, E.V., Fault Point Detection in the Electricity Networks of 6–35 kV with the Help of Location Method Materialy dokladov Rossiiskogo natsional’nogo simposiuma po energetike (Proc. of Russian Symposium on Power Engineering), Kazan’: KGEU, 2001, vol. 2, pp. 62–64.
Minullin, R.G., Metody i apparatura opredeleniya mest povrezhdenii v elektrosetyakh (The Procedure and Equipment Intended for Fault Points Detection in the Electricity Transmission Lines), Kazan’: ITs. “Energoprogress,” 2002.
Minullin, R.G., Zakamskii, E.V., and Andreev, V.V., The Conditions of Pulse Signals Reflection in the Distribution Lines with Tree Topology, Elektrotekhnika, 2003, no. 10, pp. 39–44.
Minullin, R.G. and Zakamskii, E.V., Obnaruzhenie povrezhdenii v elektricheskikh raspredelitel’nykh setyakh lokatsionnym metodom (Fault Point Detection in the Electricity Distribution Networks with the Help of Location Method), Kazan’: ITs. “Energoprogress,” 2004.
Minullin, R.G. and Fardiev, I.Sh., Physical Principals of Fault Diagnostics in the Electricity Transmission Lines of Distributing Electricity Networks, Izvestiya Vuzov. Problemy Energetiki, 2004, nos. 5–6, pp. 43–47.
Fardiev, I.Sh., Minullin, R.G., Zakamskii, E.V., et.al, Diagnostics in the Aerial Lines of Distributing Electricity Networks, Izvestiya Vuzov. Problemy Energetiki, 2004, nos. 7–8, pp. 41–49.
Minullin, R.G. and Fardiev, I.Sh., Gubaev, D.F., and et al., Location Monitoring of Nonuniformities of Distributing Electricity Lines, Elektrotekhnika, 2006, no. 5, pp. 2–10.
Additional information
Original Russian Text © R.G. Minullin, Yu.Ya. Petrushenko, I.Sh. Fardiev, E.I. Lukin, G.V. Lukina, 2008, published in Elektrotekhnika, 2008, No. 12, pp. 20–28.
About this article
Cite this article
Minullin, R.G., Petrushenko, Y.Y., Fardiev, I.S. et al. Ways to detect single-line-to-ground faults in electricity transmission lines using the location method. Russ. Electr. Engin. 79, 655–663 (2008). https://doi.org/10.3103/S106837120812002X
Published:
Issue Date:
DOI: https://doi.org/10.3103/S106837120812002X