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Badanie wpływu jakości układu zasilania na charakterystyki silnika asynchronicznego z wirnikiem klatkowym
Języki publikacji
Abstrakty
The paper presents the results of studies of the influence of the quality of power systems on the characteristics of an asynchronous electric motor with a squirrel-cage rotor. During the research, a mathematical model of an induction motor, made in the MATLab software environment, was used. Based on the simulation results, the coefficients of the torque ripple and the phase current unbalance were determined. The results obtained are compared with previous studies of the manifestation of turn-to-turn closures in the phases of the motor stator winding, which also create an asymmetry of the rotating magnetic field.
W artykule przedstawiono wyniki badań wpływu jakości układów zasilających na charakterystyki silnika indukcyjnego ze zwartym wirnikiem. W badaniach wykorzystano model matematyczny silnika indukcyjnego wykonany w środowisku oprogramowania MATLab. Otrzymane wyniki porównuje się z wcześniejszymi badaniami występowania obwodów międzyzwojowych w fazach uzwojenia stojana silnika, które również tworzą asymetrię wirującego pola magnetycznego.
Wydawca
Czasopismo
Rocznik
Tom
Strony
142--148
Opis fizyczny
Bibliogr. 33 poz., rys., tab.
Twórcy
autor
- State University of Infrastructure and Technologies, Faculty of Railway Rolling Stock Infrastructure, Department of Electromechanics and Rolling Stock Of Railways
autor
- Danube Institute of Water Transport of State University of Infrastructure and Technology, Department of Navigation and Operation of Technical Systems on Water Transport
autor
- State University of Infrastructure and Technologies, Faculty of Railway Rolling Stock Infrastructure, Department of Electromechanics and Rolling Stock Of Railways
autor
- State University of Infrastructure and Technologies, Faculty of Railway Rolling Stock Infrastructure, Department of Electromechanics and Rolling Stock Of Railways
- National Technical University «Kharkiv Polytechnic Institute», Institute of Education and Science in Mechanical Engineering and Transport, Department of Mechanical Engineering Technology and Metal-Cutting Machines
Bibliografia
- [1] Gunderwar S.K., Kane P.V., ”Bearing Fault Diagnosis in Induction Motor Using Modified AlexNet Algorithm”, In Advances in Industrial Machines and Mechanisms, pp. 205-218, Springer, Singapore, 2021.
- [2] Koteleva N.I., Korolev N.A., Zhukovskiy Y.L., “Identification of the Technical Condition of Induction Motor Groups by the Total Energy Flow”, Energies, vol. 14, no 20, pp. 6677, 2021.
- [3] Rzeszucinski P., Orman M., Pinto C.T., Tkaczyk A., Sulowicz M., “Bearing health diagnosed with a mobile phone: Acoustic signal measurements can be used to test for structuralfaults in motors”, IEEE Industry Applications Magazine, vol. 24, no 4, 17-23, 2018.
- [4] Kumar P., Isha T.B., “FEM based electromagnetic signature analysis of winding inter-turn short-circuit fault in inverter fed induction motor”, CES Transactions on Electrical Machines and Systems, vol. 3, no 3, pp. 309-315, 2019.
- [5] Cherif H., Benakcha A., Laib I., Chehaidia S.E., Menacer A., Soudan B., Olabi A.G., “Early detection and localization of stator inter-turn faults based on discrete wavelet energy ratioand neural networks in induction motor”, Energy, vol. 212, pp. 118684, 2020.
- [6] Pietrowski W., Górny K., “Analysis of torque ripples of an induction motor taking into account a inter-turn short-circuit in a stator winding”, Energies, vol. 13, no 14, pp. 3626, 2020.
- [7] Goolak S., Gerlici J., Gubarevych O., Lack T., Pustovetov M., “Imitation Modeling of an Inter-Turn Short Circuit of an Asynchronous Motor Stator Winding for Diagnostics of Auxiliary Electric Drives of Transport Infrastructure”, Communications - Scientific Letters of the University of Zilina, vol. 23, no 2, pp. 65-74, 2021.
- [8] Gubarevych O., Goolak S., Daki O., Tryshyn V., “Investigation of Turn-To-Turn Closures of Stator Windings to Improve the Diagnostics System for Induction Motors”, Problemele energeticii regionale, vol. 2, no 50, pp. 10-24, 2021.
- [9] Adouni A., Cardoso J.M., “A. Thermal Analysis of Low-Power Three-Phase Induction Motors Operating Under Voltage Unbalance and Inter-Turn Short Circuit Faults”, Machines 2021, vol. 9, pp. 2-11, 2020.
- [10] Muxiri A.C., Bento, F., Fonseca, D.S.B., Cardoso A.J.M., “Thermal analysis of an induction motor subjected to inter-turnshort-circuit failures in the stator windings”, In 2019 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM), pp. 1-5. IEEE, March 2019.
- [11] Rocha M., Lucas G., Souza W., de Castro B.A., Andreoli, A., “Detection and Phase Identification of Inter-Turn Short-Circuit Faults in Three-Phase Induction Motors Using MEMS Accelerometer and Hilbert Transform”, In 2021 14th IEEE International Conference on Industry Applications (INDUSCON), pp. 955-961, IEEE, August 2021.
- [12] Liang H., Chen Y., Liang S., Wang C., “Fault detection of stator inter-turn short-circuit in PMSM on stator current and vibration signal”, Applied Sciences, vol. 8, no 9, pp. 1677, 2018.
- [13] Hegde V., Sathyanarayana Rao M.G, “Detection of statorwinding inter-turn short circuit fault in induction motor usingvibration signals by MEMS accelerometer”, Electric Power Components and Systems, vol.45 no 13, pp. 1463-1473, 2017.
- [14] Krishna M.K., Kumar K.K., Koushik M., Sudhakaran K., Kumar N.P, “Inter-turn Stator Winding Short Circuit Fault Analysis in Inverter fed Induction Motor Using FEM”, In 2018 3rd IEEE International Conference on Recent Trends in Electronics, Information & Communication Technology (RTEICT), pp. 392-396, IEEE, May 2018.
- [15] Zaparoli I.O., Baccarini L.M.R., Lamim Filho P.C.M., Batista F.B., “Transient envelope current analysis for inter-turn short-circuit detection in induction motor stator”, Journal of the Brazilian Society of Mechanical Sciences and Engineering, vol. 42, no 2, pp. 1-12, 2020.
- [16] Bessam B., Menacer A., Boumehraz M., Cherif H., “Wavelet transform and neural network techniques for inter-turn short circuit diagnosis and location in induction motor”, International Journal of System Assurance Engineering and Management, vol. 8, no 1, pp. 478-488, 2017.
- [17] Prahesti F.E., Asfani D.A., Negara I.M.Y., & Dewantara B.Y., “Three-phase induction motor short circuit stator detectionusing an external flux sensor”, In 2020 International Seminar on Intelligent Technology and Its Applications (ISITIA), pp. 375-380. IEEE, July 2020.
- [18] Smirnov A.I., Voytyuk I.N., “Diagnostics of inter-turn short-circuit in the stator winding of the induction motor”, In IOP Conference Series: Materials Science and Engineering, vol. 643, no. 1, p. 012023, IOP Publishing, Nov. 2019.
- [19] Babaa F., Bennis O., “An accurate inter-turn short circuit faults model dedicated to induction motors”, International Journal of Electrical and Computer Engineering, vol.11, no 1, pp. 9,. 2021.
- [20] Malekpour M., Phung B.T., “Ambikairajah, E. Modelling and diagnostic of incipient stator inter-turn short circuit fault in induction motors”, In 2018 Condition Monitoring and Diagnosis (CMD), pp. 1-6, IEEE, Sep. 2018.
- [21] Fomin O., Lovska A., Píštěk V., Kučera P., “Dynamic load effect on the transportation safety of tank containers as part of combined trains on railway ferries”, Vibroengineering procedia, vol. 29, pp. 124-129, 2019.
- [22] Tkachenko V., Sapronova S., Kulbovskiy I., Fomin O. “Research of resistance to the motion of vehicles related to the direction by railway”, Eastern-European Journal of Enterprise Technologies, vol. 5, no 7, pp. 89, 2017.
- [23] Fomin O., Lovska A., “Establishing patterns in determining the dynamics and strength of a covered freight car, which exhausted its resource”, Eastern-European Journal of Enterprise Technologies, 6(7), 108, 2020.
- [24] Gandoman F.H., Ahmadi A., Sharaf A.M., Siano P., Pou J., Hredzak B., Agelidis V.G., “Review of FACTS technologies and applications for power quality in smart grids with renewable energy systems”, Renewable and sustainable energy reviews, vol. 82, pp. 502-514, 2018.
- [25] Montoya F.G., Baños R., Alcayde A., Montoya M.G., Manzano-Agugliaro F., “Power quality: Scientific collaborationnetworks and research trends”, Energies, vol. 11, no 8, pp. 2067, 2018.
- [26] Goolak S., Tkachenko V., Bureika G., Vaičiūnas G., “Method of spectral analysis of traction current of AC electriclocomotives”, Transport, vol. 35, no 6, pp. 658-668, 2020.
- [27] Aderibigbe A., Ogunjuyigbe A., Ayodele R., Samuel I., “The performance of a 3-Phase Induction Machine under Unbalance Voltage Regime”, Journal of Engineering Science & Technology Review, vol. 10, no 5, pp. 93-103, 2017.
- [28] Rubino S., Bojoi R., Odhano S.A., Zanchetta P., “Model predictive direct flux vector control of multi-three-phase induction motor drives”, IEEE Transactions on Industry Applications, vol. 54, no 5, pp. 4394-4404, 2018.
- [29] Butko T., Babanin A., Gorobchenko A., “Rationale for the type of the membership function of fuzzy parameters of locomotive intelligent control systems”, Eastern-European Journal of Enterprise Technologies, vol. 1, no 3, pp. 73, 2015.
- [30] Jiao J., Ghoreishi S.M., Moradi Z., Oslub K., “Coupled particle swarm optimization method with genetic algorithm for the static–dynamic performance of the magneto-electro-elastic nanosystem”, Engineering with Computers, pp. 1-15, 2021.
- [31] Zaeniah Z., Salman S., “Designing Class Schedule Information System by Using Taboo-Search Method”, Jurnal Pilar Nusa Mandiri, vol. 16, no 2, pp. 241-248, 2020.
- [32] Goolak S., Gubarevych O., Yermolenko E., Slobodyanyuk M., Gorobchenko O., “Mathematical Modeling of an Induction Motor for Vehicles”, Eastern-European Journal of Enterprise Technologies, vol. 2, no 2(104), pp. 25-34, 2020.
- [33] Goolak S., Liubarskyi B., Sapronova S., Tkachenko V.,Riabov Ie., Glebova M., “Improving a Model of the Induction Traction Motor Operation Involving Non-Symmetric Stator Windings”, Eastern-European Journal of Enterprise Technologies, vol. 4, no 8(112), 45–58, 2021.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5424307a-2dfb-4975-b87f-272292642740