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Abstrakty
A specific case of voltage fluctuations is sinusoidal voltage modulation, which is a superposition of the fundamental voltage component and the subharmonic and interharmonic components – that is components of frequency less than the fundamental one or not being an integer multiple of it. Depending on the phase angles of the subharmonic and interharmonic components, various cases of voltage modulation can be distinguished, like amplitude, phase and intermediate modulations. This paper deals with the effect of phase angles of the subharmonic and interharmonic components on speed variation. The results of FEM computations are presented for a cage induction motor with a rated power of 3 kW.
Rocznik
Tom
Strony
31--41
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Gdynia Maritime University, 83 Morska St., 81–225 Gdynia, Poland, Faculty of Electrical Engineering, Department of Marine Electrical Power Engineering
autor
- Gdynia Maritime University, 83 Morska St., 81–225 Gdynia, Poland, Faculty of Electrical Engineering, Department of Marine Electrical Power Engineering
Bibliografia
- 1. Arkkio, A., Cederström, S., Awan, H.A.A., Saarakkala, S.E., Holopainen, T.P., 2018, Additional Losses of Electrical Machines Under Torsional Vibration, IEEE Transactions on Energy Conversion, Vol. 33, No. 1, pp. 245–251.
- 2. Bollen, M.H.J. , Gu, I.Y.H., 2006, Signal Processing of Power Quality Disturbances, Wiley, New York, USA.
- 3. Crotti, G., D’Avanzo, G., Letizia, P.S., Luiso, M., 2021, Measuring Harmonics with Inductive Voltage Transformers in the Presence of Subharmonics, IEEE Transactions on Instrumentation and Measurement, Vol. 70, pp. 1–13.
- 4. EN Standard 50160, 2010, Voltage Characteristics of Electricity Supplied by Public Distribution Network.
- 5. Gallo, D., Landi, C., Langella, R., Testa, A., 2005, Limits for Low Frequency Interharmonic Voltages: Can They Be Based on the Flickermeter Use, IEEE Russia Power Tech, pp. 1–7.
- 6. Ghaseminezhad, M., Doroudi, A., Hosseinian, S.H., Jalilian, A., 2017a, Analysis of Voltage Fluctuation Impact on Induction Motors by an Innovative Equivalent Circuit Considering the Speed Changes, IET Gener. Transm. Distrib., Vol. 11, pp. 512–519.
- 7. Ghaseminezhad, M., Doroudi, A., Hosseinian, S.H., Jalilian, A., 2017b, An Investigation of Induction Motor Saturation Under Voltage Fluctuation Conditions, Journal of Magnetics, Vol. 22, pp. 306–314.
- 8. Ghaseminezhad, M., Doroudi, A., Hosseinian, S.H., Jalilian, A., 2021a, Analytical Field Study on Induction Motors Under Fluctuated Voltages, Iranian Journal of Electrical and Electronic Engineering, Vol. 17, No. 1, pp. 1620–1620.
- 9. Ghaseminezhad, M., Doroudi, A., Hosseinian, S.H., Jalilian, A., 2021b, High Torque and Excessive Vibration on the Induction Motors Under Special Voltage Fluctuation Conditions, COMPEL – The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, Vol. 40, No. 4, pp. 822–836.
- 10. Gnaciński, P., Hallmann, D., Klimczak, P., Muc, A., Pepliński, M., 2021, Effects of Voltage Interharmonics on Cage Induction Motors, Energies, Vol. 14, No. 5, pp. 12–18.
- 11. Gnaciński, P., Hallmann, D., Pepliński, M., Jankowski, P., 2019a, The Effects of Voltage Subharmonics on Cage Induction Machine, International Journal of Electrical Power & Energy Systems, Vol. 111, pp. 125–131.
- 12. Gnaciński, P., Klimczak, P., 2020, High-Power Induction Motors Supplied with Voltage Containing Subharmonics, Energies, Vol. 13, pp. 58–94.
- 13. Gnaciński, P., Muc, A., Pepliński, M., 2021b, Influence of Voltage Subharmonics on Line Start Permanent Magnet Synchronous Motor, IEEE Access, Vol. 9, pp. 164 275–164 281.
- 14. Gnaciński, P., Pepliński, M., Hallmann, D., Jankowski, P., 2019b, Induction Cage Machine Thermal Transients Under Lowered Voltage Quality, IET Electric Power Applications, Vol. 13, No. 4, pp. 479–486.
- 15. Gnaciński, P., Pepliński, M., Murawski, L., Szeleziński, A., 2019c, Vibration of Induction Machine Supplied with Voltage Containing Subharmonics and Interharmonics, IEEE Trans. Energy Convers., Vol. 34, pp. 1928–1937.
- 16. Hallmann, D., 2020, Analysis of Operation of an Induction Motor Supplied with Voltage Containing Subharmonics and Interharmonics Using a Field Model (in Polish), rozprawa doktorska, Uniwersytet Morski w Gdyni, Gdynia 2020.
- 17. IEEE Standard 519-2014 (Revision of IEEE Standard 519-1992), 2014, IEEE Recommended Practice and Requirements for Harmonic Control in Electric Power Systems, IEEE, New York, USA.
- 18. Kovaltchouk, T., Armstrong, S., Blavette, A., Ahmed, H.B., Multon, B., 2016, Wave Farm Flicker Severity: Comparative Analysis and Solutions, Renewable Energy, Vol. 91, pp. 32–39.
- 19. Kuwałek, P., 2021, Selective Identification and Localization of Voltage Fluctuation Sources in Power Grids, Energies, Vol. 14, No. 20, pp. 65–85.
- 20. Patel, D., Chowdhury, A., 2021, Mitigation of Voltage Fluctuation in Distribution System using Sen Transformer with Variable Loading Conditions, International Conference on Advances in Electrical, Computing, Communication and Sustainable Technologies (ICAECT), pp. 1–6.
- 21. Tennakoon, S., Perera, S., Robinson, D., 2008, Flicker Attenuation – Part I: Response of Three-Phase Induction Motors to Regular Voltage Fluctuations, IEEE Transactions Power Delivery, Vol. 23, pp. 1207–1214.
- 22. Testa, A., et al. (21 authors), 2007, Interharmonics: Theory and Modeling, IEEE Transactions Power Delivery, Vol. 22, pp. 2335–2348.
- 23. Zhang, S., Kang, J., Yuan, J., 2021, Analysis and Suppression of Oscillation in V/F Controlled Induction Motor Drive Systems, IEEE Transactions on Transportation Electrification, Vol. 8, pp. 1566–1574.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d52c3932-36a7-4ca5-9c23-4a80e75979b6