Digitalization and robotization in the automation of energy facilities

Alexander Bogdanov; Kamil Gilfanov; Tagir Latypov

doi:10.1051/e3sconf/202128801039

All issues

Volume 288 (2021)

E3S Web Conf., 288 (2021) 01039

References

Open Access

Issue		E3S Web Conf. Volume 288, 2021 International Symposium “Sustainable Energy and Power Engineering 2021” (SUSE-2021)


Article Number		01039
Number of page(s)		5
DOI		https://doi.org/10.1051/e3sconf/202128801039
Published online		14 July 2021

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A.N. Belyaev, R.A. Bogomolov, CIM in Russia: experience JSC “so UES” for the implementation and maintenance of integrated information model of the UES of Russia in a hierarchical Supervisory control, plans and prospects, the electric power industry through the eyes of youth - 2019, Proceedings of jubilee X international. Sci. - tech. conf., in 3 vols., Irkutsk, IRNITU Publishing House, 38–43 (16-20 September 2019) [Google Scholar]
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V.A. Fedulova, O.V. Novikova, Introduction of the Digital Substation technology: complex tests of the Nizhny Novgorod Hydroelectric Power Station digital test site, Energy Economics and Energy Saving, Materials of the International Scientific Conference, 72–75 (2018) [Google Scholar]
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O.N. Titarenko, I.A. Murtazaev, Digital substations - an important element of an intelligent power system, Power installations and technologies, 1, 58–63 (2020) [Google Scholar]
A.O. Yakovlev, On some features of the use of digital substations, Energy efficiency and Energy saving in modern production and society Materials of the international scientific and practical conference, Under the general editorship of V.A. Gulevsky, 143–148 (2019) [Google Scholar]
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E.P. Grabchak, E.L. Loginov, Digital twins of Nuclear power plants and thermal power plants as elements of digital agglomerations in the energy super system, Modern problems of electric Power industry and Ways to solve them: materials of the V All-Russian Scientific and Technical Conference, Makhachkala, DSTU, 155–159 (2019) [Google Scholar]
R.M. Muratov, I.A. Ryabykh, Virtual reality simulator for working with high-voltage equipment, Radio Electronics, Electrical Engineering And Power Engineering, P 154 Twenty-fifth International Scientific and Technical Conference conf. of students and postgraduates, Moscow, Tez. dokl., Moscow, LLC “Center for Printing Services “Raduga”, 600 (14-15 March 2019) [Google Scholar]
A.V. Aliev, A.A. Shchukin, D.V. Kalinin, Y.N. Borsky, M.Y. Lavrovsky, D.V. Privalova, The use of virtual reality in the development of a simulator for the operational personnel of the unloading and loading machine for RMBK-1000 reactors, Issues of atomic science and Technology, Physics of Nuclear Reactors, 65–69 (2007) [Google Scholar]
G.A. Koloskova, Y.U. Koloskova, VR as an additional training in the energy sector, Actual science, 7 (36), 28–31 (2020) [Google Scholar]
A.S. Sadriev, Virtual reality technologies in modern education, Bulletin of Scientific Conferences, 2-2 (18), 95–97 (2017) [Google Scholar]
D.Y. Andrushko, Application of virtual and augmented reality technologies in the educational process: problems and prospects, Scientific Review, Pedagogical Sciences, 6, 5–10 (2018) [Google Scholar]
M.L. Shit, S.G. Shkolnik, E.S. Andreev, Specialized robots in power engineering, Problems of regional Power Engineering, 1 (24), 63–70 (2014) [Google Scholar]
V.F. Shishlakov, S.V. Solon, D.G. Shavliashvili, L.M. Ilin, Cyber-physical systems in the power industry, Zavalishina reading (SB. Dokl./SPb.: SUAE, 5, 2017) [Google Scholar]
A.A. Morozov, D.A. Rusakov, N.A. Kazachek, Software and hardware complex based on mobile robots with variable chassis geometry, Proceedings of the VI International Scientific and Technical Conference. conf. of young scientists, Omsk, Publishing house of the Omsk state technical University, 146–150 (2016) [Google Scholar]
S.A. Kulabukhov, M.V. Bobyr, A stereo vision device for a mobile robot navigation system, Modern innovations in science and technology, 106–110 (2018) [Google Scholar]
A.M. Romanov, Review of hardware and software for modern control systems of robotic complexes of various scales and purposes, Part 2, Service Robotics, Russian Technological Journal, 7 (6), 68–86 (2019) [Google Scholar]
A.N. Bogdanov, I.A. Ryabykh, A.I. Galiev, Education Quality Improvement Due To Automated Virtual Reality System, 2019 International Scientific And Technical Conference Smart Energy Systems, SES 2019 Kazan, 05024 (18-20 September 2019) DOI: 10.1051/e3sconf/201912405024 [Google Scholar]
R.K. Atamuratov, The educational advantages of virtual reality technologies, International scientific review of the problems and prospects of modern science and education, Problems of science, 90–92 (2020) [Google Scholar]
D. Velev, P. Zlateva, Virtual Reality Challenges in Education and Training, International Journal of Learning and Teaching, 3 (1), 33–37 (March 2017) [Google Scholar]
T.T. Zielinska, History of service robots and new trends, Novel Design and Applications of Robotics Technologies, IGI Global, 158–187 (2019) DOI: 10.4018/978-1-5225-5276-5.ch006 [Google Scholar]
A. Kulachinskaya, I.G. Akhmetova, V. Y. Kulkova, V.Y.S.B. Ilyashenko, The challenge of the energy sector of russia during the 2020 covid-19 pandemic through the example of the republic of tatarstan: Discussion on the change of open innovation in the energy sector, Journal of Open Innovation: Technology, Market, and Complexity 6(3),60 (2020) [Google Scholar]
E. Bazukova, Y. Vankov, Increasing the reliability of thermal energy transportation systemstaking into account forecasting the properties of thermal insulation during operation, E3S Web of Conferences 216, 01078 (2020) [EDP Sciences] [Google Scholar]
I.V. Shvetsov, E.V. Garnyshova, E.V. Izmaylova, E.V.Y.V. Vankov, A.R. Zagretdinov, Reducing labor input of monitoring condition of heat exchange equipment surfaces, IOP Conference Series: Materials Science and Engineering 939(1),012072 (2020) [Google Scholar]
T.V. Tabachnikova, E.I. Gracheva, O.V. Naumov, A.N. Gorlov, Forecasting technical state and efficiency of electrical switching devices at electric complexes in oil and gas industry, IOP Conference Series: Materials Science and Engineering 860(1),012014 (2020) [Google Scholar]
I.N. Voytyuk, A.V. Kopteva, A.N. Skamyin, “Emergency Response Plan” Automated System for Oil Production and Transportation Enterprises, Journal of Ecological Engineering 22(1), p. 76–82 (2020) [Google Scholar]
Y.V. Gulkov, A.V. Turysheva, P.B. Gurkin, Electric power quality control in electro-technical complexes of oil processing plant, IOP Conference Series: Materials Science and Engineering 643(1),012001 (2019) [Google Scholar]

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[1] A. Martynova, Electric Power Industry 4.0: Switch to Digital, Atomic Expert, 5 (66), 34–40 (2018) [Google Scholar]

[2] E. Chistova, To transmit with the mind, Information and analytical publication, appendix to the scientific journal Atomic Energy, 7 (68), 22–27 (October 2018) [Google Scholar]

[3] B.B. Kobets, I.O. Volkova, Innovative development of electric power industry on the basis of the Smart Grid concept: Monograph (Moscow: IAC Energia, 208, 2010) [Google Scholar]

[4] A.N. Belyaev, R.A. Bogomolov, CIM in Russia: experience JSC “so UES” for the implementation and maintenance of integrated information model of the UES of Russia in a hierarchical Supervisory control, plans and prospects, the electric power industry through the eyes of youth - 2019, Proceedings of jubilee X international. Sci. - tech. conf., in 3 vols., Irkutsk, IRNITU Publishing House, 38–43 (16-20 September 2019) [Google Scholar]

[5] E.B. Tishchenko, “Smart” path to Victory, Information and analytical journal Construction in the Nuclear Industry, Private Institution of the State Atomic Energy Corporation Rosatom “OCCS”, 1, 12–13 (2018) [Google Scholar]

[6] O.A. Zhukov, Aspects of digitalization of the electric power industry and electrotechnical Expertise, Eurasian Scientific Association, 5-2 (51), 121–125 (2019) [Google Scholar]

[7] V.O. Golovshchikov, Digital substation - the main element of the digital electric power system, Modern technologies and scientific and technical progress, 1, 224–225 (2019) [Google Scholar]

[8] V.A. Fedulova, O.V. Novikova, Introduction of the Digital Substation technology: complex tests of the Nizhny Novgorod Hydroelectric Power Station digital test site, Energy Economics and Energy Saving, Materials of the International Scientific Conference, 72–75 (2018) [Google Scholar]

[9] L.L. Orlov, Innovative development: from automation systems to digital substations, Automation in Industry, 4, 39–40 (2012) [Google Scholar]

[10] A.V. Ankushev, B.V. Zherebtsov, A.S. Kizurov, Transition from traditional substations to digital substations using the IEC Protocol, Collection of articles of the II All-Russian (national) scientific and practical conference “Modern scientific and practical solutions in the agro-industrial complex”, State Agrarian University of the Northern TransUrals, 285–289 (2018) [Google Scholar]

[11] V.I. Dubrov, R.G. Ohanyan, N.D. Narakidze, G.K. Aleksanyan, Development of an information system for a software and hardware model of a digital substation, Proceedings of the XV International Conference NIDays 2016, Moscow, 300–302 (2016) [Google Scholar]

[12] E.N. Sosnina, R.S. Bedretdinov, I.A. Lipuzhin, Modeling of energy-efficient modes of operation of a digital electric substation, Fedorov Readings-2013, XLIII/International Scientific and Practical Conference, Moscow, Publishing House of the MEI, 155–159 (6-8 November 2013) [Google Scholar]

[13] O.N. Titarenko, I.A. Murtazaev, Digital substations - an important element of an intelligent power system, Power installations and technologies, 1, 58–63 (2020) [Google Scholar]

[14] A.O. Yakovlev, On some features of the use of digital substations, Energy efficiency and Energy saving in modern production and society Materials of the international scientific and practical conference, Under the general editorship of V.A. Gulevsky, 143–148 (2019) [Google Scholar]

[15] A.V. Pazderin, P.V. Murzin, I.N. Odinaev, F.Z. Bobokalonov, Research directions for improving the reliability of digital substation information, Electrotechnical Systems and Complexes, 45 (4), 4–11 (2019) DOI: 10.18503/2311-8318-2019-4(45)-4-11 [Google Scholar]

[16] K.S. Ponomarev, A.N. Feofanov, A Digital twin of the production as a tool of digitalization of technological processes of an enterprise, Current trends and prospects of development of science, engineering and technology: proceedings of the International scientific-practical conference, ed. by E.P. Tkachova, Belgorod, Agency for Advanced Scientific Research (APNI), LLC, 141–144 (2018) [Google Scholar]

[17] V.E. Romanovskaya, “Digital Twin” as the basis of digital Design and modeling, Digital technologies in economy and industry (ECOPROM-2019), Proceedings of the National scientific and Practical conference with international participation, Edited by A.V. Babkin, 208–214 (2019) [Google Scholar]

[18] E.P. Grabchak, E.L. Loginov, Digital twins of Nuclear power plants and thermal power plants as elements of digital agglomerations in the energy super system, Modern problems of electric Power industry and Ways to solve them: materials of the V All-Russian Scientific and Technical Conference, Makhachkala, DSTU, 155–159 (2019) [Google Scholar]

[19] R.M. Muratov, I.A. Ryabykh, Virtual reality simulator for working with high-voltage equipment, Radio Electronics, Electrical Engineering And Power Engineering, P 154 Twenty-fifth International Scientific and Technical Conference conf. of students and postgraduates, Moscow, Tez. dokl., Moscow, LLC “Center for Printing Services “Raduga”, 600 (14-15 March 2019) [Google Scholar]

[20] A.V. Aliev, A.A. Shchukin, D.V. Kalinin, Y.N. Borsky, M.Y. Lavrovsky, D.V. Privalova, The use of virtual reality in the development of a simulator for the operational personnel of the unloading and loading machine for RMBK-1000 reactors, Issues of atomic science and Technology, Physics of Nuclear Reactors, 65–69 (2007) [Google Scholar]

[21] G.A. Koloskova, Y.U. Koloskova, VR as an additional training in the energy sector, Actual science, 7 (36), 28–31 (2020) [Google Scholar]

[22] A.S. Sadriev, Virtual reality technologies in modern education, Bulletin of Scientific Conferences, 2-2 (18), 95–97 (2017) [Google Scholar]

[23] D.Y. Andrushko, Application of virtual and augmented reality technologies in the educational process: problems and prospects, Scientific Review, Pedagogical Sciences, 6, 5–10 (2018) [Google Scholar]

[24] M.L. Shit, S.G. Shkolnik, E.S. Andreev, Specialized robots in power engineering, Problems of regional Power Engineering, 1 (24), 63–70 (2014) [Google Scholar]

[25] V.F. Shishlakov, S.V. Solon, D.G. Shavliashvili, L.M. Ilin, Cyber-physical systems in the power industry, Zavalishina reading (SB. Dokl./SPb.: SUAE, 5, 2017) [Google Scholar]

[26] A.A. Morozov, D.A. Rusakov, N.A. Kazachek, Software and hardware complex based on mobile robots with variable chassis geometry, Proceedings of the VI International Scientific and Technical Conference. conf. of young scientists, Omsk, Publishing house of the Omsk state technical University, 146–150 (2016) [Google Scholar]

[27] S.A. Kulabukhov, M.V. Bobyr, A stereo vision device for a mobile robot navigation system, Modern innovations in science and technology, 106–110 (2018) [Google Scholar]

[28] A.M. Romanov, Review of hardware and software for modern control systems of robotic complexes of various scales and purposes, Part 2, Service Robotics, Russian Technological Journal, 7 (6), 68–86 (2019) [Google Scholar]

[29] A.N. Bogdanov, I.A. Ryabykh, A.I. Galiev, Education Quality Improvement Due To Automated Virtual Reality System, 2019 International Scientific And Technical Conference Smart Energy Systems, SES 2019 Kazan, 05024 (18-20 September 2019) DOI: 10.1051/e3sconf/201912405024 [Google Scholar]

[30] R.K. Atamuratov, The educational advantages of virtual reality technologies, International scientific review of the problems and prospects of modern science and education, Problems of science, 90–92 (2020) [Google Scholar]

[31] D. Velev, P. Zlateva, Virtual Reality Challenges in Education and Training, International Journal of Learning and Teaching, 3 (1), 33–37 (March 2017) [Google Scholar]

[32] T.T. Zielinska, History of service robots and new trends, Novel Design and Applications of Robotics Technologies, IGI Global, 158–187 (2019) DOI: 10.4018/978-1-5225-5276-5.ch006 [Google Scholar]

[33] A. Kulachinskaya, I.G. Akhmetova, V. Y. Kulkova, V.Y.S.B. Ilyashenko, The challenge of the energy sector of russia during the 2020 covid-19 pandemic through the example of the republic of tatarstan: Discussion on the change of open innovation in the energy sector, Journal of Open Innovation: Technology, Market, and Complexity 6(3),60 (2020) [Google Scholar]

[34] E. Bazukova, Y. Vankov, Increasing the reliability of thermal energy transportation systemstaking into account forecasting the properties of thermal insulation during operation, E3S Web of Conferences 216, 01078 (2020) [EDP Sciences] [Google Scholar]

[35] I.V. Shvetsov, E.V. Garnyshova, E.V. Izmaylova, E.V.Y.V. Vankov, A.R. Zagretdinov, Reducing labor input of monitoring condition of heat exchange equipment surfaces, IOP Conference Series: Materials Science and Engineering 939(1),012072 (2020) [Google Scholar]

[36] T.V. Tabachnikova, E.I. Gracheva, O.V. Naumov, A.N. Gorlov, Forecasting technical state and efficiency of electrical switching devices at electric complexes in oil and gas industry, IOP Conference Series: Materials Science and Engineering 860(1),012014 (2020) [Google Scholar]

[37] I.N. Voytyuk, A.V. Kopteva, A.N. Skamyin, “Emergency Response Plan” Automated System for Oil Production and Transportation Enterprises, Journal of Ecological Engineering 22(1), p. 76–82 (2020) [Google Scholar]

[38] Y.V. Gulkov, A.V. Turysheva, P.B. Gurkin, Electric power quality control in electro-technical complexes of oil processing plant, IOP Conference Series: Materials Science and Engineering 643(1),012001 (2019) [Google Scholar]