Open Access
Issue
E3S Web Conf.
Volume 288, 2021
International Symposium “Sustainable Energy and Power Engineering 2021” (SUSE-2021)
Article Number 01111
Number of page(s) 7
DOI https://doi.org/10.1051/e3sconf/202128801111
Published online 14 July 2021
  1. Vinogradov A.V. Development of principles for managing the configuration of rural power grids and technical means for their implementation: dissertation for the degree of Doctor of Technical Sciences in the specialty 05.20.02-Electrical technologies and electrical equipment in agriculture/Vinogradov Alexander Vladimirovich; FGBNU FNAC VIM. Moscow. 527. (2021) [Google Scholar]
  2. Kirkman R. Development in substation automation systems. - Available at: http://www.ee.nsysu.edu.tw/isap2007CD/papers/f0083.pdf [Google Scholar]
  3. Pereda R. et al. Substation automation experiences based on the IEC 61850 GOOSE messages //23rd International Conference on Electricity Distribution. -15–18. (2015). Available at: http://cired.net/publications/cired2015/papers/CIRED2015_0596_final.pdf [Google Scholar]
  4. Vinogradov, A., Bolshev, V., Vinogradova, A., Kudinova, T., Borodin, M., Selesneva, A., & Sorokin, N. A System for Monitoring the Number and Duration of Power Outages and Power Quality in 0.38 kV Electrical Networks //International Conference on Intelligent Computing & Optimization. - Springer, Cham, 1–10. (2019). [Google Scholar]
  5. Powering. Reliable. Future. Yesterday, today and tomorrow. RWE Annual Report 2017. Essen, Germany: RWE Aktiengesellschaft. (2017). [Google Scholar]
  6. Innovation Report/2014-2015. IBERDROLA 2014-2015 Innovation Report (2015). - Available at: https://www.iberdrola.com/wcorp/gc/prod/en_US/sostenibilidad/docs/informe_innovacion_2014_2015.pdf [Google Scholar]
  7. Bukreev A.V., Vinogradov A.V., Semenov A.V., Kuzmin A.V. The use of sensors for parameters of operating modes of electric networks for analyzing the reliability of power supply to consumers and the quality of electricity supplied to them / A.V. Bukreev, A.V. Vinogradov, A.V. Semenov, A.V. Kuzmin / Agrotechnika i energoobespechenie. - N°4 (29). - Pp. 15–24. (2020) [Google Scholar]
  8. Dovgun V., Temerbaev S., Chernyshov M., Novikov V., Boyarskaya N., Gracheva E., Distributed power quality conditioning system for three-phase four-wire low voltage networks/ Energies, Volume 13, Issue 18. art. no. 4915, DOI: 10.3390/en13184915. (2020). [CrossRef] [Google Scholar]
  9. Momoh J.A. Smart grid design for efficient and flexible power networks operation and control // Power Systems Conference and Exposition, PSCE ‘09. P. 1–8. (2009). [Google Scholar]
  10. Goulden M., Bedwell B., Rennick-Egglestone S., Rodden T., Spence A. Smart grids, smart users? The role of the user in demand side management Energy // Energy Research & Social Science, Vol. 2. P. 219. (2014) [CrossRef] [Google Scholar]
  11. Yasin Kabalci. A survey on smart metering and smart grid communication // Renewable and Sustainable Energy Reviews. Vol. 57. P. 302–318. (2016) [CrossRef] [Google Scholar]
  12. Mohassel R.R., Fung A., Mohammadi F., Raahemifar K. A survey on Advanced Metering Infrastructure // Electrical Power and Energy Systems. Vol. 63. P. 473–484. (2014) [CrossRef] [Google Scholar]
  13. Advanced metering infrastructure (AMI) // Electric Power Research Institute (EPRI). (2007). [Google Scholar]
  14. Faruqui, A., Arritt, K., Sergici, S. The impact of advanced metering infrastructure on energy conservation: A case study of two utilities // The Electricity Journal. Vol. 30. P. 56–63. (2017). [CrossRef] [Google Scholar]
  15. Bolshev V.E., Vinogradov A.V. Review of foreign sources on the infrastructure of smart meters // - Bulletin of the South Ural State University. Series "Energetika". - Vol. 18. No. 3. - p. 5–13. (2018). [Google Scholar]
  16. Identification of power line sections with increased electricity losses using mobile portable timers- electric meters / Vinogradov A.V., Bukreev A.V., Vinogradova A.V., Bolshev V.E. // Electrotechnologies and electrical equipment in the agro-industrial complex. No. 3 (40). pp. 31–36. DOI: 10.22314/2658-4859-2020-67-3-31-36 (2020). [Google Scholar]
  17. Bolshev, V.E. Development of technical means for monitoring disconnections and voltage deviations at the inputs of rural consumers: dissertation for the scientific degree of Candidate of technical Sciences: 05.20.02 / Vadim E. Bolshev. - 224p. Moscow, (2020). [Google Scholar]
  18. Golikov I.O. Adaptive automatic voltage regulation in rural power grids of 0.38 kV: dissertation for the scientific degree of Candidate of Technical Sciences: 05.20.02 / Golikov Igor Olegovich. 200 p.Orel, (2016). [Google Scholar]
  19. Borodin M.V. Improving the efficiency of the functioning of power supply systems by monitoring the quality of electricity. Monography / Borodin M.V., Vinogradov A.V. -Orel: FGBOU VPO Orel GAU, 160 p., ISBN 978-5-93382-230-1 (2014). [Google Scholar]
  20. A.V. Vinogradov, V.E. Bolshev, A.V. Vinogradova, A.A. Lansberg, M.O. Ward and N.K. Miftakhova Method of accounting the dynamics of technological connections when forming a list of objects for the reconstruction and construction of power grids 01030. E3S Web of Conferences, Volume 178 (2020) High Speed Turbomachines and Electrical Drives Conference 2020 (HSTED-2020), Prague, Czech Republic, May 14-15, 2020. Published online: 09 July 2020. DOI: https://doi.org/10.1051/e3sconf/202017801030 [Google Scholar]
  21. Vinogradov A.V., Bolshev V.E., Revkov A.A. Sensor for monitoring the reliability of power supply and quality of electricity // Energo - i resursosberezhenie-XXI: materials of the XVIII International scientific and practical conference (December 8-10, 2020, Orel) / edited by Kachanov A.N., Stepanov Yu.S. - Orel: OSU named after I.S. Turgenev, 292 p. - p. 234–238 (2020). [Google Scholar]
  22. Regulation on technical policy in the distribution grid complex. Addendum to Decree No. 228 of PJSC Centre and North Caucasus, dated 14.11.2006 - Available at: http://programma.x-pdf.ru/16tehnicheskie/220204-1-polozhenie-tehnicheskoy-politike-raspredelitelnom-elektrosetevom-komplekse-moskva-nastoyaschee-polozhenie-tehnicheskoy-pol.php [Google Scholar]
  23. Regulation of PJSC "Rosseti" on the unified technical policy in the electric grid complex. - Moscow: PJSC "Rosseti", 196 p. (2013). [Google Scholar]
  24. The Regulation of PJSC "Rosseti» «the Unified Technical Policy in the Electric Grid Complex" "was approved by the Council of Directors of PJSC "Rosseti" (Minutes No. 252 of 22.02.2017) Available at: http://user/Downloads/%D0%A1%D0%A2%D0%9E%2034.01-5.1-008-2018.pdf [Google Scholar]
  25. Vinogradov A.V., Vinogradova A.V., Skiteva I.D., Panfilov A.A. Comparative analysis of the reliability of power supply in the districts of power grids // Innovations in agriculture. - N°3(28). p. 3946. (2018). [Google Scholar]
  26. Decree of the Government of the Russian Federation No. 861 of December 27, 2004 "On Approval of the Rules for Non-Discriminatory Access to Services for the Transmission of Electric Energy and the Provision of these services, the Rules for non-discriminatory access to services for operational Dispatch Management in the electric power industry and the provision of these services, the rules for non-discriminatory access to the services of the administrator of the wholesale market trading system and the provision of these services, and the rules for technological connection of power receiving devices of electric energy consumers, electric energy production facilities, as well as electric grid facilities belonging to grid organizations and other persons to power grids". Available at: http://www.consultant.ru/cons/cgi/online.cgi?req=doc&base=LAW&n=349429&fld=134&dst=1000000001,0&rnd=0.01637230187499794#08068684784850308 [Google Scholar]
  27. Analysis of accidents at power facilities controlled by Rostechnadzor authorities for 2017. // szap.gosnadzor.ru : Federal Service for Environmental, Technological and Nuclear Supervision (Rostechnadzor) (2020). [Google Scholar]
  28. Federal Law No. 471-FZ 27.12.2019 "On Changes to the Federal Law" On Electric Power Industry " regarding the Development of microgeneration» [Google Scholar]
  29. Resolution of the Government of the Russian Federation of March 5, 2021 N 328 "On changes to certain acts of the Government of the Russian Federation on the promotion of the use of renewable energy sources in the wholesale market of electric energy and capacity" [Google Scholar]
  30. Belikov, R.P. The use of control and switching devices for remote detection and elimination of damage in relation to branched power grids of 6 (10) kV / R.P. Belikov, I.N. Fomin // Agrotechnika i energoobespechenie. - N° 4 (17). 77–86. (2017). [Google Scholar]
  31. Fomin, I.N. Control of disconnection of high-voltage circuit breakers in a partitioned power transmission line / I.N. Fomin, R.P. Belikov // Vesti vyshnykh uchebnykh zavedeniy Chernozemya. 2 (56). 48–59. (2019). [Google Scholar]
  32. Vinogradov A.V., A.A. Panfilov, A.S. Bredikhin, S.A. Kanyus, M.V. Borodin, A.V. Vinogradova, A.V. Bukreev, V.E. Bolshev, A.I. Psarev, Yu.B. Ryzhenkov, A.A. Lansberg, Variants of execution of signaling devices and blocking from reverse transformation at transformer substations of 10/0. 4 kV // Glavny energetik. No. 10. 5–14 (2020). [Google Scholar]
  33. Vinogradov A.V., Vinogradova A.V., Bolshev V.E., Bukreev A.V., Panfilov A.A., Borodin M.V., Bredikhin A.S., Kanyus S.A. Method and device for preventing reverse transformation at 10/0. 4 kV transformer substations with unsanctioned supply of voltage to the 0.4 kV network/ A.V. Vinogradov, A.V. Vinogradova, V.E. Bolshev, A.V. Bukreev, A.A. Panfilov, M.V. Borodin, A.S. Bredikhin// Industrial power engineering. No. 7. pp. 56–62 (2020). [Google Scholar]
  34. Patent No. 2710938 Russian Federation, IPC N02J 9/06, N 02 J 13/00. A method for blocking reverse transformation by disconnecting switching devices in the low-voltage power lines departing from the transformer substation and the input switching device on the low side of the transformer substation and signaling and informing the personnel of the power grid organization in case of unsanctioned voltage supply to the low-voltage power lines departing from the transformer substation fromconsumers or to the low-voltage buses of the transformer substation/Vinogradov A.V., Vinogradova A.V., Panfilov A.A., Bolshev V.E.; applicant and patent holder of FGBNU FNAC VIM. - Application 2019133614; declared 23.10.2019; Publ. 14.01.2020 Byul. no. 2. [Google Scholar]
  35. GOST R IEC 60870-5-104-2004. National Standard of the Russian Federation "Telemechanics devices and systems" Part 5. Transmission protocols. Section 104. Network access for GOST R IEC 8705-101 using standard transport profiles. Available at: http://docs.cntd.ru/document/gost-r-mek-60870-5-104-2004. [Google Scholar]
  36. GOST R IEC 61850-5-2011 National Standard of the Russian Federation. Networks and communication systems at substations. Part 5. Communication requirements for functions and device models. Electronic resource. Title from the screen. Available at: http://docs.cntd.ru/document/1200093460. [Google Scholar]

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