Currently, there is no automation and protection equipment to detect wire breaks in 6 – 10/0.38 kV electric networks. A protection system based on microprocessor electricity meters installed in a 0.38 kV network for the automatic detection of a damaged section of 0.38 and 6 – 10 kV overhead lines is proposed. A functional diagram of the protection system is described.
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RF Pat. No. 2581607, IPC n02N 5/10/, A.M. Ershov, A. V. Mlotok, O. V. Filatov, A. I. Sidorov, A. V. Zaporozhskii, and R. G. Valeev, “Method and devise for protection against breaks of phase and neutral conductors in four-conductor overhead power line of 380 V electrical network,” patentees: South Ural State University (National Research University), Interregional Distributive Grid Company of Urals, and Energomera Electrotechnical Factories, No. 2014142515/07; appl. Oct. 21, 2014; publ. Apr. 20, 2016; Byul. Otkryt. Izobret., No. 11 (2016).
A. M. Ershov, A. V. Khlopova, and A. I. Sidorov, “Phase wire break signaling for 6 – 10 kV overhead line,” Power Technol. Eng., 52(1), 34 – 40 (2018).
RF Pat. No. 2633803, IPC H02H5_10, A. M. Ershov, O. V. Filatov, A. V. Khlopova, A. V. Zaporozhskii, R. G. Valeev, and A. I. Sidorov, “A wire-break protection device for overhead transmission lines with isolated neutral,” patentees: South Ural State University (National Research University) and Energomera Electrotechnical Factories, No. 2017102432; appl. Jan. 25, 2017; publ. October 19, 2017; Byul. Otkryt. Izobret., No. 29 (2017).
Geographical Information Fault Localization System for 6 – 35 kV Overhead and Cable Power Transmission Lines [in Russian], https://relematika.ru/produkty/6-35_kv/geoinformatsionnaya_sistema_omp_vl_i_kl_6_35_kv_gis_omp
Fault Localization in the Cloud, https://www.siemens.com/content/dam/internet/siemens-com/global/products-services/energy/energy-automation-and-smart-grid/grid-applications/flic/documents/fault-localization-in-the-cloud-ipdf.pdf
O. V. Pankov, “KOMORSAN monitoring system for cable and overhead lines,” Tekhn. Program. Sredstva System Avtomat., No. 6(107), 20 – 24 (2018).
Regulations on Design of Electrical Networks (RUM) [in Russian], Issue 5 (559), OAO “NTTs FSK EÉS,” Moscow (2014).
A. I. Fedotov, G. V. Vagapov, N. V. Rozhentsova, and R. E. Abdullazyanov, “Detection of wire breaks and single-phase earth faults in distribution networks from the parameters of the 0.4 kV side of step-down substations,” Prom. Énerget., No. 4, 34 – 40 (2016).
Vacuum Recloser REC15, REC25. Specifications [in Russian], Tavrida Élektrik, Moscow (2019).
Electrical Equipment Catalog [in Russian], Tavrida Élektrik, Moscow (2018).
RF Pat. No. 2703945; IPC G01R 31/08, A. M. Ershov, A. I. Sidorov, R. G. Valeev, and O. V. Filatov, “Device for localization of an open-phase section in a three-conductor overhead power line,” patentee: South Ural State University (National Research University), No. 2019105830; appl. Febr. 28, 2019; publ. Oct. 23, 2019, Byul. Otkryt. Izobret., No. 30 (2019).
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Translated from Élektricheskie Stantsii, No. 4, April, 2020, pp. 28 – 32.
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Ershov, A.M., Khlopova, A.V. & Sidorov, A.I. Wire Break Protection System for 0.38 and 6 – 10 KV Overhead Power Transmission Lines. Power Technol Eng 54, 434–437 (2020). https://doi.org/10.1007/s10749-020-01228-5
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DOI: https://doi.org/10.1007/s10749-020-01228-5