Abstract
The major test and functional methods for performance resource operational diagnostics of electric motors have been analyzed with the account of initial, limiting and permissible values of parameters that have to be monitored. Requirements for the integrated operational diagnostics method designed to evaluate the functional status of bearing assembly and stator windings of electric motors have been developed and substantiated. Technical condition of the two bearings and that of stator windings isolation resistance of electric motor shall be monitored, and their operational resource has to be predicted simultaneously, in the course of a single maintenance procedure, in real operation conditions, without their disassembling. The inspection zone of equipment operability diagnostics has to be specified and preventive activities limited by the combined look-ahead tolerance have to be performed. Practical application of the suggested method makes it possible to monitor simultaneously the basic resource-limiting components of electric motors, in severe conditions of agricultural production with the use of up-to-date portable multi-function measuring equipment. It will help to reduce the number of electric motor failures and, consequently, the amount of material damage in agricultural production owing to the trouble-free operation of electrified equipment which can be achieved because of a longer electric motor life span.
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References
Energy strategy in agriculture of Russia for the period until the year 2020. GNU VIESH, Moscow (2009)
Syrykh, N.N., Kabdin, N.Ye.: Theoretical Foundations of Operation and Maintenance of Electrified Equipment. Agrobizneszentr Pbl., Moscow (2007)
Bloch, H.: Motor life. Petrochemical Machinery Insights, pp. 105–118 (2017)
Burke, J.K., Evans, J.W.: Reliability of motor wear parts in space – a case study. In: Proceedings of 2011 – Reliability and Maintainability Annual Symposium, pp. 1–7 (2011)
Bloch, H.: Thematic category 11 - service life of the electric motor. Analysis of petrochemical engineering, pp. 105–118 (2016)
Vinogradov, A.V., et al.: Features of distributed energy integration in agriculture. In: Vasant, P., Zelinka, I., Weber, G.W. (eds.) Intelligent Computing and Optimization. ICO 2020. Advances in Intelligent Systems and Computing, vol. 1324, pp. 19–27. Springer, Cham (2021). https://doi.org/10.1007/978-3-030-68154-8_2
Smirnov, N.N.: Basics of the theory of technical maintenance of airborne vehicles, 99 p. MGTUGA, Moscow (2001)
Nekrasov, A.I., Nekrasov, A.A.: Method for definition of required spare components set to maintain electric equipment for rural applications. In: International Russian Automation Conference (2018)
Nekrasov, A.I., Syrykh, N.N.: Improvement of technical service system of electrified equipment of agricultural producers. Int. Sci. Res. J. 9(51), 73–75 (2016). Part 2
Dovkhan, V., Kvasnikov, V., Ornatskiy, D.: Development of a vibration diagnostics system for bearing assemblies using an analog interface. East Eur. J. Enterp. Technol. 5(9(95)), 51–59 (2018)
Smith, A.M.: Reliability-Oriented Maintenance. McGraw-Hill Education, New York (1993)
Feng, S., Ma, X., Hu, Z., Luo, Y.: Applying an improved rotor bearing assembly sampling method to radiated noise analysis using the Riccati transfer matrix method. IET Electr. Power Appl. 11(7), 1245–1253 (2017)
Goldberg, O.D.: Testing Electric Machines. Vysshaya Shkola Publ., Moscow (2000)
Yeroshenko, G.P., Bakirov, S.M.: Adapting Maintenance of Electric Equipment to the Specifics of Agricultural Production. ITs ‘Nauka’, Saratov (2011)
Yashura, A.I.: System of Maintenance and Repair of Power Equipment. Reference book, 504 p. NTs ENAC Publishers, Moscow (2007)
Syrykh, N.N., Nekrasov, A.A.: Diagnostics of electric motors by bearing radial clearance. Mech. Electr. Agric. 1, 16–18 (2012)
Butorin, V.A., Borozentsev, S.N.: On the issue of dependence of wear rate of bearings assemblies of asynchronous electric motors on external factors. In: Proceedings of ChIMESH, p. 143 (1978)
Borisov, Yu.S., Nekrasov, A.A.: Methodical recommendations on predicting and diagnostics of technical condition of electric motors in agricultural production. GNU VIESH, Moscow (2011)
Smirnov, N.N., Vladimirov, N.I., Chernenko, Zh.S.: Technical operation of aircrafts. Transport, Moscow (1990)
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Nekrasov, A.A., Panchenko, V., Banik, A. (2023). Integrated Method for Operational Diagnostics of Functional Status of Electric Motors in Agriculture. In: Vasant, P., Weber, GW., Marmolejo-Saucedo, J.A., Munapo, E., Thomas, J.J. (eds) Intelligent Computing & Optimization. ICO 2022. Lecture Notes in Networks and Systems, vol 569. Springer, Cham. https://doi.org/10.1007/978-3-031-19958-5_76
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DOI: https://doi.org/10.1007/978-3-031-19958-5_76
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