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2025 | OriginalPaper | Chapter

1. Tasks and Main Methods of Statistical Diagnostics of Electric Power Equipment

Authors : Vitalii Babak, Sergii Babak, Artur Zaporozhets

Published in: Statistical Diagnostics of Electric Power Equipment

Publisher: Springer Nature Switzerland

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Abstract

This chapter delves into the intricate field of statistical diagnostics for electric power equipment, emphasizing the integration of modern computational and statistical methods rooted in pattern recognition theory. It provides an extensive overview of the Ukrainian power industry, highlighting the distinct roles of thermal, hydro, and nuclear power plants and their associated reliability challenges. Key diagnostic methods—non-destructive testing, vibration, and acoustic emission signals—are discussed, focusing on their critical application in identifying faults in electric machines, particularly winding and bearing damages which contribute to the majority of failures. The chapter also examines the diagnostic processes, touching upon the historical evolution of measurement technologies, the development of diagnostic systems, and compliance with industry standards. Furthermore, it explores mathematical modeling and statistical spline functions for forecasting failures, demonstrating how these methods can enhance the prediction and reliability of industrial equipment by monitoring gradual changes in diagnostic parameters. The comprehensive analysis presented integrates theoretical foundations with practical applications, offering substantial insights into the methodologies for ensuring the optimal functioning and longevity of electrical machinery.

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Literature
1.
go back to reference Lin, J.G., Xie, F.C., Wei, B.C.: Statistical diagnostics for skew-t-normal nonlinear models. Commun. Stat. Simul. Comput. 38(10), 2096–2110 (2009)MathSciNetCrossRef Lin, J.G., Xie, F.C., Wei, B.C.: Statistical diagnostics for skew-t-normal nonlinear models. Commun. Stat. Simul. Comput. 38(10), 2096–2110 (2009)MathSciNetCrossRef
2.
go back to reference Pan, J.X., Fang, K.T.: Growth Curve Models and Statistical Diagnostics. Springer Science & Business Media (2002) Pan, J.X., Fang, K.T.: Growth Curve Models and Statistical Diagnostics. Springer Science & Business Media (2002)
3.
go back to reference Garay, A.M., Lachos, V.H., Labra, F.V., Ortega, E.M.: Statistical diagnostics for nonlinear regression models based on scale mixtures of skew-normal distributions. J. Stat. Comput. Simul. 84(8), 1761–1778 (2014)MathSciNetCrossRef Garay, A.M., Lachos, V.H., Labra, F.V., Ortega, E.M.: Statistical diagnostics for nonlinear regression models based on scale mixtures of skew-normal distributions. J. Stat. Comput. Simul. 84(8), 1761–1778 (2014)MathSciNetCrossRef
4.
go back to reference Babak, S., Babak, V., Zaporozhets, A., Sverdlova, A.: Method of statistical spline functions for solving problems of data approximation and prediction of objects state. In: Proceedings of the Second International Workshop on Computer Modeling and Intelligent Systems (CMIS-2019), Zaporizhzhia, Ukraine, April, pp. 15–19 (2019, April) Babak, S., Babak, V., Zaporozhets, A., Sverdlova, A.: Method of statistical spline functions for solving problems of data approximation and prediction of objects state. In: Proceedings of the Second International Workshop on Computer Modeling and Intelligent Systems (CMIS-2019), Zaporizhzhia, Ukraine, April, pp. 15–19 (2019, April)
5.
go back to reference Babak, V., Eremenko, V., Zaporozhets, A.: Research of diagnostic parameters of composite materials using Johnson distribution. Int. J. Comput. 18(4), 483–494 (2019)CrossRef Babak, V., Eremenko, V., Zaporozhets, A.: Research of diagnostic parameters of composite materials using Johnson distribution. Int. J. Comput. 18(4), 483–494 (2019)CrossRef
6.
go back to reference Myslovycn, M.V.: Scientific Foundations of the Theory of Information-Measuring Systems for Statistical Diagnostics of Electrical Equipment (1995) Myslovycn, M.V.: Scientific Foundations of the Theory of Information-Measuring Systems for Statistical Diagnostics of Electrical Equipment (1995)
7.
go back to reference Zaporozhets, A.A., Eremenko, V.S., Serhiienko, R.V., Ivanov, S.A.: Development of an intelligent system for diagnosing the technical condition of the heat power equipment. In: 2018 IEEE 13th International Scientific and Technical Conference on Computer Sciences and Information Technologies (CSIT), vol. 1, pp. 48–51. IEEE (2018, September) Zaporozhets, A.A., Eremenko, V.S., Serhiienko, R.V., Ivanov, S.A.: Development of an intelligent system for diagnosing the technical condition of the heat power equipment. In: 2018 IEEE 13th International Scientific and Technical Conference on Computer Sciences and Information Technologies (CSIT), vol. 1, pp. 48–51. IEEE (2018, September)
8.
go back to reference Zaporozhets, A., Babak, V., Sverdlova, A., Isaienko, V., Babikova, K.: Development of a system for diagnosing heat power equipment based on IEEE 802.11 s. In: Systems, Decision and Control in Energy II, pp. 141–151. Springer International Publishing, Cham (2021) Zaporozhets, A., Babak, V., Sverdlova, A., Isaienko, V., Babikova, K.: Development of a system for diagnosing heat power equipment based on IEEE 802.11 s. In: Systems, Decision and Control in Energy II, pp. 141–151. Springer International Publishing, Cham (2021)
9.
go back to reference Babak, V., Mokiychuk, V., Zaporozhets, A., Redko, O.: Improving the efficiency of fuel combustion with regard to the uncertainty of measuring oxygen concentration. Eastern Eur. J. Enterp. Technol. 6(8), 84 (2016) Babak, V., Mokiychuk, V., Zaporozhets, A., Redko, O.: Improving the efficiency of fuel combustion with regard to the uncertainty of measuring oxygen concentration. Eastern Eur. J. Enterp. Technol. 6(8), 84 (2016)
10.
go back to reference Zaporozhets, A.O., Redko, O.O., Babak, V.P., Eremenko, V.S., Mokiychuk, V.M.: Method of indirect measurement of oxygen concentration in the air. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu 5, 105–114 (2018)CrossRef Zaporozhets, A.O., Redko, O.O., Babak, V.P., Eremenko, V.S., Mokiychuk, V.M.: Method of indirect measurement of oxygen concentration in the air. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu 5, 105–114 (2018)CrossRef
11.
go back to reference Zaporozhets, A.O.: Methods and means for the control of the fuel combustion process. In: Control of Fuel Combustion in Boilers, pp. 1–33 (2020) Zaporozhets, A.O.: Methods and means for the control of the fuel combustion process. In: Control of Fuel Combustion in Boilers, pp. 1–33 (2020)
12.
go back to reference Zaporozhets, A.O.: Experimental research of a computer system for the control of the fuel combustion process. In: Control Fuel Combustion in Boilers, pp. 89–123 (2020) Zaporozhets, A.O.: Experimental research of a computer system for the control of the fuel combustion process. In: Control Fuel Combustion in Boilers, pp. 89–123 (2020)
13.
go back to reference Babak, V., Scherbak, L., Kuts, Y., Zaporozhets, A.: Information and measurement technologies for solving problems of energy informatics. In: The 1st International Workshop on Information Technologies: Theoretical and Applied Problems 2021. CEUR Workshop Proceedings, vol. 3039, pp. 24–31 (2021, December) Babak, V., Scherbak, L., Kuts, Y., Zaporozhets, A.: Information and measurement technologies for solving problems of energy informatics. In: The 1st International Workshop on Information Technologies: Theoretical and Applied Problems 2021. CEUR Workshop Proceedings, vol. 3039, pp. 24–31 (2021, December)
14.
go back to reference Sverdlova, A., Zaporozhets, A.: Predicting anomaly conditions of energy equipment using neural networks. In: E3S Web of Conferences, vol. 280, p. 09005 (2021, June) Sverdlova, A., Zaporozhets, A.: Predicting anomaly conditions of energy equipment using neural networks. In: E3S Web of Conferences, vol. 280, p. 09005 (2021, June)
15.
go back to reference Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Simulation and software for diagnostic systems. In: Diagnostic Systems for Energy Equipments, pp. 71–90 (2020) Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Simulation and software for diagnostic systems. In: Diagnostic Systems for Energy Equipments, pp. 71–90 (2020)
16.
go back to reference Zaporozhets, A., Babak, V., Starenkiy, V., Gryb, O., Karpaliuk, I., Luka, O.: Instruments for identification of corona discharge presence by spectral characteristics of acoustic radiation. In: Detection of Corona Discharge in Electric Networks, pp. 113–136. Springer Nature Switzerland, Cham (2023) Zaporozhets, A., Babak, V., Starenkiy, V., Gryb, O., Karpaliuk, I., Luka, O.: Instruments for identification of corona discharge presence by spectral characteristics of acoustic radiation. In: Detection of Corona Discharge in Electric Networks, pp. 113–136. Springer Nature Switzerland, Cham (2023)
17.
go back to reference Bohachev, I., Babak, V., Zaporozhets, A.: Novel small-aperture transducers based on magnetostrictive effect for diagnostic systems. Tech. Electrodyn. 3, 69–78 (2022) Bohachev, I., Babak, V., Zaporozhets, A.: Novel small-aperture transducers based on magnetostrictive effect for diagnostic systems. Tech. Electrodyn. 3, 69–78 (2022)
18.
go back to reference Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M., Babak, V.P., Zvaritch, V.M., et al.: Technical provision of diagnostic systems. In: Diagnostic Systems for Energy Equipments, pp. 91–133 (2020) Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M., Babak, V.P., Zvaritch, V.M., et al.: Technical provision of diagnostic systems. In: Diagnostic Systems for Energy Equipments, pp. 91–133 (2020)
19.
go back to reference Kondratenko, I., Vasetsky, Y., Zaporozhets, A.: Electromagnetic systems with iron-free inductors for induction heating of moving strip in transverse magnetic field. In: Interactions Between Electromagnetic Field and Moving Conducting Strip, pp. 91–119. Springer Nature Switzerland, Cham (2023) Kondratenko, I., Vasetsky, Y., Zaporozhets, A.: Electromagnetic systems with iron-free inductors for induction heating of moving strip in transverse magnetic field. In: Interactions Between Electromagnetic Field and Moving Conducting Strip, pp. 91–119. Springer Nature Switzerland, Cham (2023)
20.
go back to reference Zaporozhets, A., Babak, V., Popov, O., Scherbak, L., Kuts, Y.: Methodological support of air pollution monitoring system. In: Systems, Decision and Control in Energy V, pp. 713–737. Springer Nature Switzerland, Cham (2023) Zaporozhets, A., Babak, V., Popov, O., Scherbak, L., Kuts, Y.: Methodological support of air pollution monitoring system. In: Systems, Decision and Control in Energy V, pp. 713–737. Springer Nature Switzerland, Cham (2023)
21.
go back to reference Zabulonov, Y., Popov, O., Skurativskyi, S., Hromova, I., Zaporozhets, A.: Remote gamma ray mapping of ground surface: mathematical issues. In: Systems, Decision and Control in Energy IV: Volume IІ. Nuclear and Environmental Safety, pp. 173–184. Springer Nature Switzerland, Cham (2023) Zabulonov, Y., Popov, O., Skurativskyi, S., Hromova, I., Zaporozhets, A.: Remote gamma ray mapping of ground surface: mathematical issues. In: Systems, Decision and Control in Energy IV: Volume IІ. Nuclear and Environmental Safety, pp. 173–184. Springer Nature Switzerland, Cham (2023)
22.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models and measures for atmospheric pollution monitoring. In: Models and Measures in Measurements and Monitoring, pp. 227–266 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models and measures for atmospheric pollution monitoring. In: Models and Measures in Measurements and Monitoring, pp. 227–266 (2021)
23.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Monitoring the air pollution with UAVs. In: Models and Measures in Measurements and Monitoring, pp. 191–225 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Monitoring the air pollution with UAVs. In: Models and Measures in Measurements and Monitoring, pp. 191–225 (2021)
24.
go back to reference Gulevets, D., Zaporozhets, A., Isaienko, V., Babikova, K.: Ecological and energy analysis of the green areas and the surface layer of atmospheric air in the districts of the Kyiv City. In: Environmental Control for Ensuring Cities Safety, pp. 73–91 (2021) Gulevets, D., Zaporozhets, A., Isaienko, V., Babikova, K.: Ecological and energy analysis of the green areas and the surface layer of atmospheric air in the districts of the Kyiv City. In: Environmental Control for Ensuring Cities Safety, pp. 73–91 (2021)
25.
go back to reference Zaporozhets, A.: Overview of quadrocopters for energy and ecological monitoring. In: Systems, Decision and Control in Energy I, pp. 15–36. Springer International Publishing, Cham (2020) Zaporozhets, A.: Overview of quadrocopters for energy and ecological monitoring. In: Systems, Decision and Control in Energy I, pp. 15–36. Springer International Publishing, Cham (2020)
26.
go back to reference Zaporozhets, A., Babak, V., Sverdlova, A., Scherbak, L., Kuts, Y.: Review of the state of air pollution by energy objects in Ukraine. System Research in Energy 2(71), 42–52 (2022)CrossRef Zaporozhets, A., Babak, V., Sverdlova, A., Scherbak, L., Kuts, Y.: Review of the state of air pollution by energy objects in Ukraine. System Research in Energy 2(71), 42–52 (2022)CrossRef
27.
go back to reference Khomenko, O., Tsendjav, L., Kononenko, M., Janchiv, B.: Nuclear-and-fuel power industry of Ukraine: production, science, education. In: Mining of Mineral Deposits (2017) Khomenko, O., Tsendjav, L., Kononenko, M., Janchiv, B.: Nuclear-and-fuel power industry of Ukraine: production, science, education. In: Mining of Mineral Deposits (2017)
28.
go back to reference Sala, D., Bashynska, I., Pavlova, O., Pavlov, K., Chorna, N., Chornyi, R.: Investment and innovation activity of renewable energy sources in the electric power industry in the south-eastern region of Ukraine. Energies 16(5), 2363 (2023)CrossRef Sala, D., Bashynska, I., Pavlova, O., Pavlov, K., Chorna, N., Chornyi, R.: Investment and innovation activity of renewable energy sources in the electric power industry in the south-eastern region of Ukraine. Energies 16(5), 2363 (2023)CrossRef
29.
go back to reference Babenko, V.A., Jenkovszky, L.L., Pavlovych, V.N.: Nuclear power industry: tendencies in the world and Ukraine. Phys. Part. Nucl. 38, 795–826 (2007)CrossRef Babenko, V.A., Jenkovszky, L.L., Pavlovych, V.N.: Nuclear power industry: tendencies in the world and Ukraine. Phys. Part. Nucl. 38, 795–826 (2007)CrossRef
30.
go back to reference Vivcharenko, O.: Development of coal industry of Ukraine in the context of contemporary challenges. In: Geomechanical Processes During Underground Mining, pp. 1–5 (2012) Vivcharenko, O.: Development of coal industry of Ukraine in the context of contemporary challenges. In: Geomechanical Processes During Underground Mining, pp. 1–5 (2012)
31.
go back to reference Chernyavskyy, M., Dunayevska, N., Novoseltsev, O., Eutukhova, T.: Comparative assessment of electricity supply costs from different sources in baseload and regulated modes. Syst. Res. Energy 2(77), 4–15 (2024) Chernyavskyy, M., Dunayevska, N., Novoseltsev, O., Eutukhova, T.: Comparative assessment of electricity supply costs from different sources in baseload and regulated modes. Syst. Res. Energy 2(77), 4–15 (2024)
32.
go back to reference Denysov, V., Eutukhova, T.: Dynamic models for developing reference scenarios of energy system in the low-carbon transition. Syst. Res. Energy 1(76), 17–26 (2024) Denysov, V., Eutukhova, T.: Dynamic models for developing reference scenarios of energy system in the low-carbon transition. Syst. Res. Energy 1(76), 17–26 (2024)
33.
go back to reference Stanytsina, V., Nechaieva, T., Trokhaniak, V., Horskyi, V., Teslenko, O.: Electricity and heat supply technologies for increasing the energy independence of certain territorial communities. Syst. Res. Energy 4(75), 32–44 (2023) Stanytsina, V., Nechaieva, T., Trokhaniak, V., Horskyi, V., Teslenko, O.: Electricity and heat supply technologies for increasing the energy independence of certain territorial communities. Syst. Res. Energy 4(75), 32–44 (2023)
34.
go back to reference Kostenko, G., Zaporozhets, A.: Enhancing of the power system resilience through the application of micro power systems (microgrid) with renewable distributed generation. Syst. Res. Energy 3(74), 25–38 (2023) Kostenko, G., Zaporozhets, A.: Enhancing of the power system resilience through the application of micro power systems (microgrid) with renewable distributed generation. Syst. Res. Energy 3(74), 25–38 (2023)
35.
go back to reference Tsagkaris, C., Matiashova, L., Isayeva, A.: The impacts of putting the Zaporizhzhia nuclear power plant in the line of fire. Public Health Chall. 1(4), e26 (2022)CrossRef Tsagkaris, C., Matiashova, L., Isayeva, A.: The impacts of putting the Zaporizhzhia nuclear power plant in the line of fire. Public Health Chall. 1(4), e26 (2022)CrossRef
36.
go back to reference Molhem, A.: Possible accidents scenarios in Zaporizhzhia nuclear power plant. Open Access Libr. J. 10(2), 1–19 (2023) Molhem, A.: Possible accidents scenarios in Zaporizhzhia nuclear power plant. Open Access Libr. J. 10(2), 1–19 (2023)
37.
go back to reference Roecker, S.: Nuclear power plants under attack: the legacy of Zaporizhzhia. Arms Control Today 53(3), 6–10 (2023) Roecker, S.: Nuclear power plants under attack: the legacy of Zaporizhzhia. Arms Control Today 53(3), 6–10 (2023)
38.
go back to reference Davis, A.: Playing with fire’: implications of Russia’s occupation of Chornobyl and Zaporizhzhia nuclear power plants for the global nuclear order. St Antony’s Int. Rev. 18(1), 137–149 (2023)MathSciNet Davis, A.: Playing with fire’: implications of Russia’s occupation of Chornobyl and Zaporizhzhia nuclear power plants for the global nuclear order. St Antony’s Int. Rev. 18(1), 137–149 (2023)MathSciNet
39.
go back to reference Kurando, M.: Nuclear security in conflict zones: the dangerous case of Zaporizhzhia. Int. J. Nucl. Secur. 8(2), 10 (2023)CrossRef Kurando, M.: Nuclear security in conflict zones: the dangerous case of Zaporizhzhia. Int. J. Nucl. Secur. 8(2), 10 (2023)CrossRef
40.
go back to reference Abdullayev, A., Kulish, G., Slyeptsov, O., Slyeptsov, S., Aleshin, Y., Sparrow, S., Latorre, R., et al.: Westinghouse fuel assemblies performance after operation in South-Ukraine NPP mixed core (2013) Abdullayev, A., Kulish, G., Slyeptsov, O., Slyeptsov, S., Aleshin, Y., Sparrow, S., Latorre, R., et al.: Westinghouse fuel assemblies performance after operation in South-Ukraine NPP mixed core (2013)
41.
go back to reference Yastrebenetsky, M., Rozen, Y., Klevtsov, A., Gashev, M.: Strategy of NPP I&C systems’ modernization in Ukraine. In: Nuclear and Radiation Safety (2012) Yastrebenetsky, M., Rozen, Y., Klevtsov, A., Gashev, M.: Strategy of NPP I&C systems’ modernization in Ukraine. In: Nuclear and Radiation Safety (2012)
42.
go back to reference Becker, O., Lorenz, P., Wallner, A.: Critical review of EU nuclear stress tests in Bulgaria, Hungary, Romania and Ukraine (2012) Becker, O., Lorenz, P., Wallner, A.: Critical review of EU nuclear stress tests in Bulgaria, Hungary, Romania and Ukraine (2012)
43.
go back to reference Matiichuk, L.: Structure and functioning system of the fuel and energy complex of Ukraine. Innov. Sustain. № 4, 109–118 (2022) Matiichuk, L.: Structure and functioning system of the fuel and energy complex of Ukraine. Innov. Sustain. № 4, 109–118 (2022)
44.
go back to reference Tulchinskiy, R., Butko, M., Tulchynska, S., Khudolei, V.: Ukraine’s electricity system striving for European energy integration. Polityka Energetyczna 23, 93–110 (2020) Tulchinskiy, R., Butko, M., Tulchynska, S., Khudolei, V.: Ukraine’s electricity system striving for European energy integration. Polityka Energetyczna 23, 93–110 (2020)
45.
go back to reference Kyrylenko, O.V., Pavlovsky, V.V., Steliuk, А.О., Lenga, O.V., Vyshnevskyi, M.V.: Simulation of the normal and emergency operation of interconnected power system of Ukraine for frequency stability study. In: Technical Electrodynamics (2017) Kyrylenko, O.V., Pavlovsky, V.V., Steliuk, А.О., Lenga, O.V., Vyshnevskyi, M.V.: Simulation of the normal and emergency operation of interconnected power system of Ukraine for frequency stability study. In: Technical Electrodynamics (2017)
46.
go back to reference Kuznietsova, K.O.: Preconditions and perspectives of Ukrainian energy market development. Econ. Proces. Manage. 1 (2014) Kuznietsova, K.O.: Preconditions and perspectives of Ukrainian energy market development. Econ. Proces. Manage. 1 (2014)
47.
go back to reference Denysov, V.A.: Evaluation of the parameters of optimized coating of load graphs in the modes of synchronous operation of the power systems of Ukraine and Poland for characteristic days on the example of the actual values of the established power and load graphs. Syst. Res. Energy 1–2(68–69), 50–57 (2022) Denysov, V.A.: Evaluation of the parameters of optimized coating of load graphs in the modes of synchronous operation of the power systems of Ukraine and Poland for characteristic days on the example of the actual values of the established power and load graphs. Syst. Res. Energy 1–2(68–69), 50–57 (2022)
48.
go back to reference Buratynskyi, I., Nechaieva, T.: Modeling of the combined operation of a solar photovoltaic power plant and a system of electric energy storage. Probl. General Energy 3(62), 30–36 (2020)CrossRef Buratynskyi, I., Nechaieva, T.: Modeling of the combined operation of a solar photovoltaic power plant and a system of electric energy storage. Probl. General Energy 3(62), 30–36 (2020)CrossRef
49.
go back to reference Kulyk, M., Nechaieva, T., Zgurovets, O., Shulzhenko, S., Maistrenko, N.: Comparative analysis of energy-economic indicators of renewable technologies in market conditions and fixed pricing on the example of the power system of Ukraine. In Systems, Decision and Control in Energy IV: Volume I. Modern Power Systems and Clean Energy, pp. 433–449. Springer Nature Switzerland, Cham (2023) Kulyk, M., Nechaieva, T., Zgurovets, O., Shulzhenko, S., Maistrenko, N.: Comparative analysis of energy-economic indicators of renewable technologies in market conditions and fixed pricing on the example of the power system of Ukraine. In Systems, Decision and Control in Energy IV: Volume I. Modern Power Systems and Clean Energy, pp. 433–449. Springer Nature Switzerland, Cham (2023)
50.
go back to reference Rudniev, Y., Romanchenko, J.: Comprehensive condition analysis and perspectives of energy development in Ukraine according to the Smart Grid concept. Power Eng. Econ. Tech. Ecol. 1 (2024) Rudniev, Y., Romanchenko, J.: Comprehensive condition analysis and perspectives of energy development in Ukraine according to the Smart Grid concept. Power Eng. Econ. Tech. Ecol. 1 (2024)
51.
go back to reference Khalatov, АА: Energy sector of Ukraine: modern state and nearest prospects. Visn. Nac. Acad. Nauk Ukr 6, 53–61 (2016)CrossRef Khalatov, АА: Energy sector of Ukraine: modern state and nearest prospects. Visn. Nac. Acad. Nauk Ukr 6, 53–61 (2016)CrossRef
53.
go back to reference Kyrylenko, O.V., Basok, B.I., Baseyev, Y., Blinov, I.V.: Power industry of Ukraine and realities of the global warming. Tech. Electrodyn. 3, 52–61 (2020) Kyrylenko, O.V., Basok, B.I., Baseyev, Y., Blinov, I.V.: Power industry of Ukraine and realities of the global warming. Tech. Electrodyn. 3, 52–61 (2020)
54.
go back to reference Čepin, M., Čepin, M.: Reliability and performance indicators of power plants. In: Assessment of Power System Reliability: Methods and Applications, pp. 197–214 (2011) Čepin, M., Čepin, M.: Reliability and performance indicators of power plants. In: Assessment of Power System Reliability: Methods and Applications, pp. 197–214 (2011)
55.
go back to reference Maalla, A., Lin, X.L., Zhuang, C.Y.: Direct current transmission based on reliability indicators system. In: 2020 IEEE 5th Information Technology and Mechatronics Engineering Conference (ITOEC), pp. 947–951. IEEE (2020, June) Maalla, A., Lin, X.L., Zhuang, C.Y.: Direct current transmission based on reliability indicators system. In: 2020 IEEE 5th Information Technology and Mechatronics Engineering Conference (ITOEC), pp. 947–951. IEEE (2020, June)
56.
go back to reference Heylen, E., Deconinck, G., Van Hertem, D.: Review and classification of reliability indicators for power systems with a high share of renewable energy sources. Renew. Sustain. Energy Rev. 97, 554–568 (2018)CrossRef Heylen, E., Deconinck, G., Van Hertem, D.: Review and classification of reliability indicators for power systems with a high share of renewable energy sources. Renew. Sustain. Energy Rev. 97, 554–568 (2018)CrossRef
57.
go back to reference Blinov, I., Zaitsev, I., Parus, E., Bereznychenko, V.: Faults Indicators applying for smart monitoring system for improving reliability electric power distribution. In: Power Systems Research and Operation: Selected Problems II, pp. 235–256. Springer International Publishing, Cham (2022) Blinov, I., Zaitsev, I., Parus, E., Bereznychenko, V.: Faults Indicators applying for smart monitoring system for improving reliability electric power distribution. In: Power Systems Research and Operation: Selected Problems II, pp. 235–256. Springer International Publishing, Cham (2022)
58.
go back to reference Kuric, I., Klačková, I., Nikitin, Y.R., Zajačko, I., Císar, M., Tucki, K.: Analysis of diagnostic methods and energy of production systems drives. Processes 9(5), 843 (2021)CrossRef Kuric, I., Klačková, I., Nikitin, Y.R., Zajačko, I., Císar, M., Tucki, K.: Analysis of diagnostic methods and energy of production systems drives. Processes 9(5), 843 (2021)CrossRef
59.
go back to reference Eremenko, V., Zaporozhets, A., Isaienko, V., Babikova, K.: Application of wavelet transform for determining diagnostic signs. In: Proceedings of the 15th International Conference on ICT in Education, Research and Industrial Applications (2019, June) Eremenko, V., Zaporozhets, A., Isaienko, V., Babikova, K.: Application of wavelet transform for determining diagnostic signs. In: Proceedings of the 15th International Conference on ICT in Education, Research and Industrial Applications (2019, June)
60.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models and measures for standardless measurements of the composite materials characteristics. In: Models and Measures in Measurements and Monitoring, pp. 157–190 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models and measures for standardless measurements of the composite materials characteristics. In: Models and Measures in Measurements and Monitoring, pp. 157–190 (2021)
61.
go back to reference Zaporozhets, A., Eremenko, V., Babak, V., Isaienko, V., Babikova, K.: Using Hilbert transform in diagnostic of composite materials by impedance method. Periodica polytechnica Electr. Eng. Comput. Sci. 64(4), 334–342 (2020)CrossRef Zaporozhets, A., Eremenko, V., Babak, V., Isaienko, V., Babikova, K.: Using Hilbert transform in diagnostic of composite materials by impedance method. Periodica polytechnica Electr. Eng. Comput. Sci. 64(4), 334–342 (2020)CrossRef
62.
go back to reference Zaporozhets, A.: Analysis of control system of fuel combustion in boilers with oxygen sensor. Periodica Polytechnica Mechan. Eng. 63(4), 241–248 (2018)CrossRef Zaporozhets, A.: Analysis of control system of fuel combustion in boilers with oxygen sensor. Periodica Polytechnica Mechan. Eng. 63(4), 241–248 (2018)CrossRef
63.
go back to reference Eremenko, V., Babak, V., Zaporozhets, A.: Method of reference signals creating in non-destructive testing based on low-speed impact. Tekhnichna Elektrodynamika 4, 070 (2021)CrossRef Eremenko, V., Babak, V., Zaporozhets, A.: Method of reference signals creating in non-destructive testing based on low-speed impact. Tekhnichna Elektrodynamika 4, 070 (2021)CrossRef
64.
go back to reference Baranski, M., Decner, A., Polak, A.: Selected diagnostic methods of electrical machines operating in industrial conditions. IEEE Trans. Dielectr. Electr. Insul. 21(5), 2047–2054 (2014)CrossRef Baranski, M., Decner, A., Polak, A.: Selected diagnostic methods of electrical machines operating in industrial conditions. IEEE Trans. Dielectr. Electr. Insul. 21(5), 2047–2054 (2014)CrossRef
65.
go back to reference Contreras-Valdes, A., Amezquita-Sanchez, J.P., Granados-Lieberman, D., Valtierra-Rodriguez, M.: Predictive data mining techniques for fault diagnosis of electric equipment: A review. Appl. Sci. 10(3), 950 (2020)CrossRef Contreras-Valdes, A., Amezquita-Sanchez, J.P., Granados-Lieberman, D., Valtierra-Rodriguez, M.: Predictive data mining techniques for fault diagnosis of electric equipment: A review. Appl. Sci. 10(3), 950 (2020)CrossRef
66.
go back to reference Babak, V., Zaporozhets, A., Zvaritch, V., Scherbak, L., Myslovych, M., Kuts, Y.: Models and measures in theory and practice of manufacturing processes. IFAC-PapersOnLine 55(10), 1956–1961 (2022)CrossRef Babak, V., Zaporozhets, A., Zvaritch, V., Scherbak, L., Myslovych, M., Kuts, Y.: Models and measures in theory and practice of manufacturing processes. IFAC-PapersOnLine 55(10), 1956–1961 (2022)CrossRef
67.
go back to reference Zaporozhets, A., Eremenko, V., Isaenko, V., Babikova, K.: Approach for creating reference signals for detecting defects in diagnosing of composite materials. In: Conference on Computer Science and Information Technologies, pp. 154–172. Springer International Publishing, Cham (2019, September) Zaporozhets, A., Eremenko, V., Isaenko, V., Babikova, K.: Approach for creating reference signals for detecting defects in diagnosing of composite materials. In: Conference on Computer Science and Information Technologies, pp. 154–172. Springer International Publishing, Cham (2019, September)
68.
go back to reference Babak, V., Bohachev, I., Zaporozhets, A., Khaidurov, V., Havrysh, V., Kalinichenko, A.: Some features of modeling ultrasound propagation in non-destructive control of metal structures based on the magnetostrictive effect. Electronics 12(3), 477 (2023)CrossRef Babak, V., Bohachev, I., Zaporozhets, A., Khaidurov, V., Havrysh, V., Kalinichenko, A.: Some features of modeling ultrasound propagation in non-destructive control of metal structures based on the magnetostrictive effect. Electronics 12(3), 477 (2023)CrossRef
69.
go back to reference Farooq, U., Myler, P.: Flat nose low velocity drop-weight impact response of carbon fibre composites using non-destructive damage detection techniques. Open Eng. 5(1) (2015) Farooq, U., Myler, P.: Flat nose low velocity drop-weight impact response of carbon fibre composites using non-destructive damage detection techniques. Open Eng. 5(1) (2015)
70.
go back to reference Dwivedi, S.K., Vishwakarma, M., Soni, A.: Advances and researches on non destructive testing: a review. Mater. Today Proc. 5(2), 3690–3698 (2018)CrossRef Dwivedi, S.K., Vishwakarma, M., Soni, A.: Advances and researches on non destructive testing: a review. Mater. Today Proc. 5(2), 3690–3698 (2018)CrossRef
71.
go back to reference Blitz, J.: Electrical and Magnetic Methods of Non-destructive Testing, vol. 3. Springer Science & Business Media (1997) Blitz, J.: Electrical and Magnetic Methods of Non-destructive Testing, vol. 3. Springer Science & Business Media (1997)
72.
go back to reference Antonino-Daviu, J., Quijano-López, A., Climente-Alarcon, V., Garín-Abellán, C.: Reliable detection of rotor winding asymmetries in wound rotor induction motors via integral current analysis. IEEE Trans. Ind. Appl. 53(3), 2040–2048 (2017)CrossRef Antonino-Daviu, J., Quijano-López, A., Climente-Alarcon, V., Garín-Abellán, C.: Reliable detection of rotor winding asymmetries in wound rotor induction motors via integral current analysis. IEEE Trans. Ind. Appl. 53(3), 2040–2048 (2017)CrossRef
73.
go back to reference Siddique, A., Yadava, G.S., Singh, B.: A review of stator fault monitoring techniques of induction motors. IEEE Trans. Energy Convers. 20(1), 106–114 (2005)CrossRef Siddique, A., Yadava, G.S., Singh, B.: A review of stator fault monitoring techniques of induction motors. IEEE Trans. Energy Convers. 20(1), 106–114 (2005)CrossRef
74.
go back to reference Ferreira, F.J., Baoming, G., de Almeida, A.T.: Reliability and operation of high-efficiency induction motors. In: 2015 IEEE/IAS 51st Industrial & Commercial Power Systems Technical Conference (I&CPS), pp. 1–13. IEEE (2015, May) Ferreira, F.J., Baoming, G., de Almeida, A.T.: Reliability and operation of high-efficiency induction motors. In: 2015 IEEE/IAS 51st Industrial & Commercial Power Systems Technical Conference (I&CPS), pp. 1–13. IEEE (2015, May)
75.
go back to reference Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Principles of construction of systems for diagnosing the energy equipment. In: Diagnostic Systems for Energy Equipments, pp. 1–22 (2020) Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Principles of construction of systems for diagnosing the energy equipment. In: Diagnostic Systems for Energy Equipments, pp. 1–22 (2020)
76.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Problems and features of measurements. In: Models and Measures in Measurements and Monitoring, pp. 1–31 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Problems and features of measurements. In: Models and Measures in Measurements and Monitoring, pp. 1–31 (2021)
77.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models and measures for the diagnosis of electric power equipment. In: Models and Measures in Measurements and Monitoring, pp. 99–126 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models and measures for the diagnosis of electric power equipment. In: Models and Measures in Measurements and Monitoring, pp. 99–126 (2021)
78.
go back to reference Babak, V., Zaporozhets, A., Kovtun, S., Myslovych, M., Kuts, Y., Scherbak, L.: Information support for identification of the technical state of electric power facilities. In: Systems, Decision and Control in Energy V, pp. 129–153. Springer Nature Switzerland, Cham (2023) Babak, V., Zaporozhets, A., Kovtun, S., Myslovych, M., Kuts, Y., Scherbak, L.: Information support for identification of the technical state of electric power facilities. In: Systems, Decision and Control in Energy V, pp. 129–153. Springer Nature Switzerland, Cham (2023)
79.
go back to reference Cruz, S.M., Cardoso, A.M.: Stator winding fault diagnosis in three-phase synchronous and asynchronous motors, by the extended Park’s vector approach. IEEE Trans. Ind. Appl. 37(5), 1227–1233 (2001)CrossRef Cruz, S.M., Cardoso, A.M.: Stator winding fault diagnosis in three-phase synchronous and asynchronous motors, by the extended Park’s vector approach. IEEE Trans. Ind. Appl. 37(5), 1227–1233 (2001)CrossRef
80.
go back to reference Casimir, R., Bouteleux, E., Yahoui, H., Clerc, G., Henao, H., Delmotte, C., Faucher, J., et al.: Comparison of modelling methods and of diagnostic of asynchronous motor in case of defects. In: 9th IEEE International Power Electronics Congress, 2004. CIEP 2004, pp. 101–108. IEEE (2004, October) Casimir, R., Bouteleux, E., Yahoui, H., Clerc, G., Henao, H., Delmotte, C., Faucher, J., et al.: Comparison of modelling methods and of diagnostic of asynchronous motor in case of defects. In: 9th IEEE International Power Electronics Congress, 2004. CIEP 2004, pp. 101–108. IEEE (2004, October)
81.
go back to reference Capolino, G.A., Antonino-Daviu, J.A., Riera-Guasp, M.: Modern diagnostics techniques for electrical machines, power electronics, and drives. IEEE Trans. Industr. Electron. 62(3), 1738–1745 (2015)CrossRef Capolino, G.A., Antonino-Daviu, J.A., Riera-Guasp, M.: Modern diagnostics techniques for electrical machines, power electronics, and drives. IEEE Trans. Industr. Electron. 62(3), 1738–1745 (2015)CrossRef
82.
go back to reference Kostenko, G., Zaporozhets, A.: Transition from electric vehicles to energy storage: review on targeted lithium-ion battery diagnostics. Energies 17(20), 5132 (2024) Kostenko, G., Zaporozhets, A.: Transition from electric vehicles to energy storage: review on targeted lithium-ion battery diagnostics. Energies 17(20), 5132 (2024)
83.
go back to reference Bucci, G., Ciancetta, F., Fiorucci, E.: Apparatus for online continuous diagnosis of induction motors based on the SFRA technique. IEEE Trans. Instrum. Meas. 69(7), 4134–4144 (2019)CrossRef Bucci, G., Ciancetta, F., Fiorucci, E.: Apparatus for online continuous diagnosis of induction motors based on the SFRA technique. IEEE Trans. Instrum. Meas. 69(7), 4134–4144 (2019)CrossRef
84.
go back to reference Venugopal, G., Udayakumar, A.K., Balashanmugham, A., Houran, M.A., Alsaif, F., Elavarasan, R.M., Alsharif, M.H., et al.: Fault identification and classification of asynchronous motor drive using optimization approach with improved reliability. Energies 16(6), 2660 (2023)CrossRef Venugopal, G., Udayakumar, A.K., Balashanmugham, A., Houran, M.A., Alsaif, F., Elavarasan, R.M., Alsharif, M.H., et al.: Fault identification and classification of asynchronous motor drive using optimization approach with improved reliability. Energies 16(6), 2660 (2023)CrossRef
85.
go back to reference Kouakeuo, S.H.N., Solignac, A., Sabariego, R.V., Morel, L., Raulet, M.A., Toutsop, B., Ducharne, B., et al.: Internal characterization of magnetic cores, comparison to finite element simulations: a route for dimensioning and condition monitoring. IEEE Trans. Instrum. Meas. 71, 1–10 (2022) Kouakeuo, S.H.N., Solignac, A., Sabariego, R.V., Morel, L., Raulet, M.A., Toutsop, B., Ducharne, B., et al.: Internal characterization of magnetic cores, comparison to finite element simulations: a route for dimensioning and condition monitoring. IEEE Trans. Instrum. Meas. 71, 1–10 (2022)
86.
go back to reference Gawrylczyk, K.M., Trela, K.: Frequency response modeling of transformer windings utilizing the equivalent parameters of a laminated core. Energies 12(12), 2371 (2019)CrossRef Gawrylczyk, K.M., Trela, K.: Frequency response modeling of transformer windings utilizing the equivalent parameters of a laminated core. Energies 12(12), 2371 (2019)CrossRef
87.
go back to reference Abeywickrama, N., Serdyuk, Y.V., Gubanski, S.M.: High-frequency modeling of power transformers for use in frequency response analysis (FRA). IEEE Trans. Power Delivery 23(4), 2042–2049 (2008)CrossRef Abeywickrama, N., Serdyuk, Y.V., Gubanski, S.M.: High-frequency modeling of power transformers for use in frequency response analysis (FRA). IEEE Trans. Power Delivery 23(4), 2042–2049 (2008)CrossRef
88.
go back to reference Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Diagnostic Systems for Energy Equipments, p. 281. Springer International Publishing (2020) Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Diagnostic Systems for Energy Equipments, p. 281. Springer International Publishing (2020)
89.
go back to reference Song, L., Wang, H., Chen, P.: Vibration-based intelligent fault diagnosis for roller bearings in low-speed rotating machinery. IEEE Trans. Instrum. Meas. 67(8), 1887–1899 (2018)CrossRef Song, L., Wang, H., Chen, P.: Vibration-based intelligent fault diagnosis for roller bearings in low-speed rotating machinery. IEEE Trans. Instrum. Meas. 67(8), 1887–1899 (2018)CrossRef
90.
go back to reference Cong, F., Chen, J., Dong, G., Pecht, M.: Vibration model of rolling element bearings in a rotor-bearing system for fault diagnosis. J. Sound Vib. 332(8), 2081–2097 (2013)CrossRef Cong, F., Chen, J., Dong, G., Pecht, M.: Vibration model of rolling element bearings in a rotor-bearing system for fault diagnosis. J. Sound Vib. 332(8), 2081–2097 (2013)CrossRef
91.
go back to reference Huo, Z., Zhang, Y., Francq, P., Shu, L., Huang, J.: Incipient fault diagnosis of roller bearing using optimized wavelet transform based multi-speed vibration signatures. IEEE Access 5, 19442–19456 (2017)CrossRef Huo, Z., Zhang, Y., Francq, P., Shu, L., Huang, J.: Incipient fault diagnosis of roller bearing using optimized wavelet transform based multi-speed vibration signatures. IEEE Access 5, 19442–19456 (2017)CrossRef
92.
go back to reference Junsheng, C., Dejie, Y., Yu, Y.: A fault diagnosis approach for roller bearings based on EMD method and AR model. Mech. Syst. Signal Process. 20(2), 350–362 (2006)CrossRef Junsheng, C., Dejie, Y., Yu, Y.: A fault diagnosis approach for roller bearings based on EMD method and AR model. Mech. Syst. Signal Process. 20(2), 350–362 (2006)CrossRef
93.
go back to reference Jha, R.K., Swami, P.D.: Fault diagnosis and severity analysis of rolling bearings using vibration image texture enhancement and multiclass support vector machines. Appl. Acoust. 182, 108243 (2021)CrossRef Jha, R.K., Swami, P.D.: Fault diagnosis and severity analysis of rolling bearings using vibration image texture enhancement and multiclass support vector machines. Appl. Acoust. 182, 108243 (2021)CrossRef
94.
go back to reference Caesarendra, W., Kosasih, B., Tieu, A.K., Zhu, H., Moodie, C.A., Zhu, Q.: Acoustic emission-based condition monitoring methods: review and application for low speed slew bearing. Mech. Syst. Signal Process. 72, 134–159 (2016)CrossRef Caesarendra, W., Kosasih, B., Tieu, A.K., Zhu, H., Moodie, C.A., Zhu, Q.: Acoustic emission-based condition monitoring methods: review and application for low speed slew bearing. Mech. Syst. Signal Process. 72, 134–159 (2016)CrossRef
95.
go back to reference Grosse, C.U., Ohtsu, M., Aggelis, D.G., Shiotani, T. (eds.): Acoustic Emission Testing: Basics for Research–Applications in Engineering. Springer Nature (2021) Grosse, C.U., Ohtsu, M., Aggelis, D.G., Shiotani, T. (eds.): Acoustic Emission Testing: Basics for Research–Applications in Engineering. Springer Nature (2021)
96.
go back to reference Li, C.J., Li, S.Y.: Acoustic emission analysis for bearing condition monitoring. Wear 185(1–2), 67–74 (1995) Li, C.J., Li, S.Y.: Acoustic emission analysis for bearing condition monitoring. Wear 185(1–2), 67–74 (1995)
97.
go back to reference Maughan, C.V., Reschovsky, J.M.: Advances in motor and generator rotor health. In: 2010 IEEE International Symposium on Electrical Insulation, pp. 1–4. IEEE (2010, June) Maughan, C.V., Reschovsky, J.M.: Advances in motor and generator rotor health. In: 2010 IEEE International Symposium on Electrical Insulation, pp. 1–4. IEEE (2010, June)
98.
go back to reference Tinta, D., Petrovčič, J., Benko, U., Juričić, Đ, Rakar, A., Žele, M., Stefanovska, A., et al.: A diagnostic system for vacuum cleaner motors. IFAC Proc. Vol. 36(5), 831–836 (2003) Tinta, D., Petrovčič, J., Benko, U., Juričić, Đ, Rakar, A., Žele, M., Stefanovska, A., et al.: A diagnostic system for vacuum cleaner motors. IFAC Proc. Vol. 36(5), 831–836 (2003)
99.
go back to reference Smit, D., Raghuram, S.: Degradation and Diagnostics of Electrical Machines (2021) Smit, D., Raghuram, S.: Degradation and Diagnostics of Electrical Machines (2021)
100.
go back to reference Singh, G.K.: Induction machine drive condition monitoring and diagnostic research—a survey. Electric Power Syst. Res. 64(2), 145–158 (2003)CrossRef Singh, G.K.: Induction machine drive condition monitoring and diagnostic research—a survey. Electric Power Syst. Res. 64(2), 145–158 (2003)CrossRef
101.
go back to reference Stone, G.C., Culbert, I., Boulter, E.A., Dhirani, H.: Electrical insulation for rotating machines: design, evaluation, aging, testing, and repair, vol. 83. Wiley (2014) Stone, G.C., Culbert, I., Boulter, E.A., Dhirani, H.: Electrical insulation for rotating machines: design, evaluation, aging, testing, and repair, vol. 83. Wiley (2014)
103.
go back to reference Prabhu, R.: Rolling bearing diagnostics. In: Proceedings of the Indo-US Symposium on Emerging Trends in Vibration and Noise Engineering, New Delhi, pp. 311–320 (1996) Prabhu, R.: Rolling bearing diagnostics. In: Proceedings of the Indo-US Symposium on Emerging Trends in Vibration and Noise Engineering, New Delhi, pp. 311–320 (1996)
104.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models of measuring signals and fields. In: Models and Measures in Measurements and Monitoring, pp. 33–59 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Models of measuring signals and fields. In: Models and Measures in Measurements and Monitoring, pp. 33–59 (2021)
105.
go back to reference Dybała, J., Zimroz, R.: Rolling bearing diagnosing method based on empirical mode decomposition of machine vibration signal. Appl. Acoust. 77, 195–203 (2014)CrossRef Dybała, J., Zimroz, R.: Rolling bearing diagnosing method based on empirical mode decomposition of machine vibration signal. Appl. Acoust. 77, 195–203 (2014)CrossRef
106.
go back to reference Unal, M., Sahin, Y., Onat, M., Demetgul, M., Kucuk, H.: Fault diagnosis of rolling bearings using data mining techniques and boosting. J. Dyn. Syst. Meas. Contr. 139(2), 021003 (2017)CrossRef Unal, M., Sahin, Y., Onat, M., Demetgul, M., Kucuk, H.: Fault diagnosis of rolling bearings using data mining techniques and boosting. J. Dyn. Syst. Meas. Contr. 139(2), 021003 (2017)CrossRef
107.
go back to reference Kostek, R., Landowski, B., Muślewski, Ł: Simulation of rolling bearing vibration in diagnostics. J. Vibroeng. 17(8), 4268–4278 (2015) Kostek, R., Landowski, B., Muślewski, Ł: Simulation of rolling bearing vibration in diagnostics. J. Vibroeng. 17(8), 4268–4278 (2015)
108.
go back to reference Babak, V., Zaporozhets, A., Kuts, Y., Myslovych, M., Fryz, M., Scherbak, L.: Models and characteristics of identification of noise stochastic signals of research objects. In: CEUR Workshop Proceedings, vol. 3309, pp. 349–362 (2022, December) Babak, V., Zaporozhets, A., Kuts, Y., Myslovych, M., Fryz, M., Scherbak, L.: Models and characteristics of identification of noise stochastic signals of research objects. In: CEUR Workshop Proceedings, vol. 3309, pp. 349–362 (2022, December)
109.
go back to reference Babak, V., Zaporozhets, A., Kuts, Y., Scherbak, L., Eremenko, V.: Application of material measure in measurements: theoretical aspects. In: Systems, Decision and Control in Energy II, pp. 261–269. Springer International Publishing, Cham (2021)CrossRef Babak, V., Zaporozhets, A., Kuts, Y., Scherbak, L., Eremenko, V.: Application of material measure in measurements: theoretical aspects. In: Systems, Decision and Control in Energy II, pp. 261–269. Springer International Publishing, Cham (2021)CrossRef
110.
go back to reference Ram, R., Bhatnagar, P.V., Rajesh, M.G., Das, D.: Generation of on-line test signals for nuclear instrumentation for PFBR. In: Proceedings of DAE-BRNS National Symposium on Nuclear Instrumentation-2010 (2010) Ram, R., Bhatnagar, P.V., Rajesh, M.G., Das, D.: Generation of on-line test signals for nuclear instrumentation for PFBR. In: Proceedings of DAE-BRNS National Symposium on Nuclear Instrumentation-2010 (2010)
111.
go back to reference Bianchi, S., Corsini, A., Rispoli, F., Sheard, A.G.: Detection of aerodynamic noise sources in low-speed axial fans with tip end-plates. Proc. Inst. Mech. Eng. C J. Mech. Eng. Sci. 223(6), 1379–1392 (2009)CrossRef Bianchi, S., Corsini, A., Rispoli, F., Sheard, A.G.: Detection of aerodynamic noise sources in low-speed axial fans with tip end-plates. Proc. Inst. Mech. Eng. C J. Mech. Eng. Sci. 223(6), 1379–1392 (2009)CrossRef
112.
go back to reference Liu, W.Y.: A review on wind turbine noise mechanism and de-noising techniques. Renew. Energy 108, 311–320 (2017)CrossRef Liu, W.Y.: A review on wind turbine noise mechanism and de-noising techniques. Renew. Energy 108, 311–320 (2017)CrossRef
113.
go back to reference Janda, M., Vitek, O., Skalka, M.: Noise diagnostic of induction machine. In: The XIX International Conference on Electrical Machines-ICEM 2010, pp. 1–4. IEEE (2010, September) Janda, M., Vitek, O., Skalka, M.: Noise diagnostic of induction machine. In: The XIX International Conference on Electrical Machines-ICEM 2010, pp. 1–4. IEEE (2010, September)
114.
go back to reference Di Matteo, A., Pirrotta, A.: Path integral method for nonlinear systems under Lévy white noise. ASCE-ASME J. Risk Uncertain. Eng. Syst. Part B: Mechan. Eng. 3(3), 030905 (2017)CrossRef Di Matteo, A., Pirrotta, A.: Path integral method for nonlinear systems under Lévy white noise. ASCE-ASME J. Risk Uncertain. Eng. Syst. Part B: Mechan. Eng. 3(3), 030905 (2017)CrossRef
115.
go back to reference Di Paola, M., Alotta, G.: Path integral methods for the probabilistic analysis of nonlinear systems under a white-noise process. ASCE-ASME J. Risk Uncertain. Eng. Syst. Part B: Mechan. Eng. 6(4), 040801 (2020)CrossRef Di Paola, M., Alotta, G.: Path integral methods for the probabilistic analysis of nonlinear systems under a white-noise process. ASCE-ASME J. Risk Uncertain. Eng. Syst. Part B: Mechan. Eng. 6(4), 040801 (2020)CrossRef
116.
go back to reference Du, Z., Chen, X., Zhang, H., Miao, H., Guo, Y., Yang, B.: Feature identification with compressive measurements for machine fault diagnosis. IEEE Trans. Instrum. Meas. 65(5), 977–987 (2016)CrossRef Du, Z., Chen, X., Zhang, H., Miao, H., Guo, Y., Yang, B.: Feature identification with compressive measurements for machine fault diagnosis. IEEE Trans. Instrum. Meas. 65(5), 977–987 (2016)CrossRef
117.
go back to reference Wu, Y.J., Wang, H.Y.: First-Crossing problem of weakly coupled strongly nonlinear oscillators subject to a weak harmonic excitation and Gaussian white noises. J. Vib. Acoust. 140(4), 041006 (2018)CrossRef Wu, Y.J., Wang, H.Y.: First-Crossing problem of weakly coupled strongly nonlinear oscillators subject to a weak harmonic excitation and Gaussian white noises. J. Vib. Acoust. 140(4), 041006 (2018)CrossRef
118.
go back to reference Myslovitch, M., Ulitko, A.: Use of the Poisson Spectral Function in Acoustic Emission Expert System of the Electrical Engineering Equipment Myslovitch, M., Ulitko, A.: Use of the Poisson Spectral Function in Acoustic Emission Expert System of the Electrical Engineering Equipment
119.
go back to reference Meyer, H.K.H.: Dielectric Barriers Under Lightning Impulse Stress: Breakdown and Discharge-Dielectric Interaction in Short Non-Uniform Air Gaps (2019) Meyer, H.K.H.: Dielectric Barriers Under Lightning Impulse Stress: Breakdown and Discharge-Dielectric Interaction in Short Non-Uniform Air Gaps (2019)
120.
go back to reference Aliramezani, M., Koch, C.R., Shahbakhti, M.: Modeling, diagnostics, optimization, and control of internal combustion engines via modern machine learning techniques: a review and future directions. Prog. Energy Combust. Sci. 88, 100967 (2022)CrossRef Aliramezani, M., Koch, C.R., Shahbakhti, M.: Modeling, diagnostics, optimization, and control of internal combustion engines via modern machine learning techniques: a review and future directions. Prog. Energy Combust. Sci. 88, 100967 (2022)CrossRef
121.
go back to reference Zaporozhets, A.O.: Research of the process of fuel combustion in boilers. In: Control of Fuel Combustion in Boilers, pp. 35–60 (2020) Zaporozhets, A.O.: Research of the process of fuel combustion in boilers. In: Control of Fuel Combustion in Boilers, pp. 35–60 (2020)
122.
go back to reference Zaporozhets, A.O.: Hardware and software implementation of modules of the system of the fuel combustion control process. In: Control of Fuel Combustion in Boilers, pp. 61–87 (2020) Zaporozhets, A.O.: Hardware and software implementation of modules of the system of the fuel combustion control process. In: Control of Fuel Combustion in Boilers, pp. 61–87 (2020)
123.
go back to reference Zaichenko, S., Erçetin, Ü., Kulish, R., Derevyanko, D., Shalenko, V.: Determination of diagnostic parameters of power plants based on internal combustion engines. Mining Revue 27(3), 86–92 (2021)CrossRef Zaichenko, S., Erçetin, Ü., Kulish, R., Derevyanko, D., Shalenko, V.: Determination of diagnostic parameters of power plants based on internal combustion engines. Mining Revue 27(3), 86–92 (2021)CrossRef
124.
go back to reference Saraiev, O., Saraieva, I., Gritsuk, I.V., Volkov, V., Litikova, O., Belousov, E., Kurnosenko, D., et al.: Automated Diagnostic System for Engine Cylinder-Piston Group (No. 2020–01–2022). SAE Technical Paper (2020) Saraiev, O., Saraieva, I., Gritsuk, I.V., Volkov, V., Litikova, O., Belousov, E., Kurnosenko, D., et al.: Automated Diagnostic System for Engine Cylinder-Piston Group (No. 2020–01–2022). SAE Technical Paper (2020)
125.
go back to reference Hrynkiv, A., Aulin, V., Lysenko, S., Rogovskii, I., Titova, L., Zagurskiy, O., Kolosok, I.: Development of a system for determining the informativeness of the diagnosing parameters for a cylinder-piston group in the diesel engine during operation. Eastern-Eur. J. Enterp. Technol. 3(5–105), 19–29 (2020)CrossRef Hrynkiv, A., Aulin, V., Lysenko, S., Rogovskii, I., Titova, L., Zagurskiy, O., Kolosok, I.: Development of a system for determining the informativeness of the diagnosing parameters for a cylinder-piston group in the diesel engine during operation. Eastern-Eur. J. Enterp. Technol. 3(5–105), 19–29 (2020)CrossRef
126.
go back to reference Kapłan, M., Klimek, K., Maj, G., Zhuravel, D., Bondar, A., Lemeshchenko-Lagoda, V., Wałowski, G., et al.: Method of evaluation of materials wear of cylinder-piston group of diesel engines in the biodiesel fuel environment. Energies 15(9), 3416 (2022)CrossRef Kapłan, M., Klimek, K., Maj, G., Zhuravel, D., Bondar, A., Lemeshchenko-Lagoda, V., Wałowski, G., et al.: Method of evaluation of materials wear of cylinder-piston group of diesel engines in the biodiesel fuel environment. Energies 15(9), 3416 (2022)CrossRef
127.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O.: Models and measures for measuring random angular quantities. In: Models and Measures in Measurements and Monitoring, pp. 61–97 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O.: Models and measures for measuring random angular quantities. In: Models and Measures in Measurements and Monitoring, pp. 61–97 (2021)
128.
go back to reference Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Examples of using models and measures on the circle. In: Models and Measures in Measurements and Monitoring, pp. 127–156 (2021) Babak, V.P., Babak, S.V., Eremenko, V.S., Kuts, Y.V., Myslovych, M.V., Scherbak, L.M., Zaporozhets, A.O., et al.: Examples of using models and measures on the circle. In: Models and Measures in Measurements and Monitoring, pp. 127–156 (2021)
129.
go back to reference Babak, V., Zaporozhets, A., Kulyk, M., Kuts, Y., Scherbak, L.: Application of discrete Hilbert transform to estimate the characteristics of cyclic signals: information provision. In: Systems, Decision and Control in Energy IV: Volume I. Modern Power Systems and Clean Energy, pp. 93–115. Springer Nature Switzerland, Cham (2023) Babak, V., Zaporozhets, A., Kulyk, M., Kuts, Y., Scherbak, L.: Application of discrete Hilbert transform to estimate the characteristics of cyclic signals: information provision. In: Systems, Decision and Control in Energy IV: Volume I. Modern Power Systems and Clean Energy, pp. 93–115. Springer Nature Switzerland, Cham (2023)
130.
go back to reference Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Methods and models for information data analysis. In: Diagnostic Systems for Energy Equipments, pp. 23–70 (2020) Babak, V.P., Babak, S.V., Myslovych, M.V., Zaporozhets, A.O., Zvaritch, V.M.: Methods and models for information data analysis. In: Diagnostic Systems for Energy Equipments, pp. 23–70 (2020)
131.
go back to reference Rudnichenko, N., Vychuzhanin, V., Polyvianchuk, A., Mateichyk, V.: Complex technical system condition diagnostics and prediction computerization. In: CEUR Workshop Proceedings. 2608, pp. 42–56. RWTH Aachen University (2020) Rudnichenko, N., Vychuzhanin, V., Polyvianchuk, A., Mateichyk, V.: Complex technical system condition diagnostics and prediction computerization. In: CEUR Workshop Proceedings. 2608, pp. 42–56. RWTH Aachen University (2020)
132.
go back to reference Zaporozhets, A.O.: Correlation analysis between the components of energy balance and pollutant emissions. Water Air Soil Pollut. 232, 1–22 (2021)CrossRef Zaporozhets, A.O.: Correlation analysis between the components of energy balance and pollutant emissions. Water Air Soil Pollut. 232, 1–22 (2021)CrossRef
133.
go back to reference Panda, A., Nahornyi, V., Pandová, I., Harničárová, M., Kušnerová, M., Valíček, J., Kmec, J.: Development of the method for predicting the resource of mechanical systems. Int. J. Adv. Manuf. Technol. 105, 1563–1571 (2019)CrossRef Panda, A., Nahornyi, V., Pandová, I., Harničárová, M., Kušnerová, M., Valíček, J., Kmec, J.: Development of the method for predicting the resource of mechanical systems. Int. J. Adv. Manuf. Technol. 105, 1563–1571 (2019)CrossRef
Metadata
Title
Tasks and Main Methods of Statistical Diagnostics of Electric Power Equipment
Authors
Vitalii Babak
Sergii Babak
Artur Zaporozhets
Copyright Year
2025
DOI
https://doi.org/10.1007/978-3-031-76253-6_1