Details
Title
Thermal problems during start-up of cage induction motorsJournal title
Bulletin of the Polish Academy of Sciences Technical SciencesYearbook
2021Volume
69Issue
3Affiliation
Mróz, Jan : Rzeszów University of Technology, The Faculty of Electrical and Computer Engineering, al. Powstańców Warszawy 12, 35-959 Rzeszów, Poland ; Bogusz, Piotr : Rzeszów University of Technology, The Faculty of Electrical and Computer Engineering, al. Powstańców Warszawy 12, 35-959 Rzeszów, PolandAuthors
Keywords
cage induction motor ; direct start-up ; softstart ; winding temperatureDivisions of PAS
Nauki TechniczneCoverage
e137058Bibliography
- Y. Gritli, S.B. Lee, F. Filippetti, and L. Zarri, “Advanced diagnosis of outer cage damage in double-squirrel-cage induction motors under time-vartyng conditions besed on wavelet analysis”, IEEE Trans. Ind. Appl. 50(3), 1791‒1800, (2014).
- Y. Gritli, O. Di. Tommaso, R. Miceli, F. Filippeti, and C. Rossi, “Vibration signature analysis for rotor broken bar diagnosis in double cage induction motor drives”, 4th International Conference on Power Engineering, Energy and Electrical Drives, Istanbul, Turkey, 2013, pp. 1814‒1820.
- F. Wilczyński, P. Strankowski, J. Guziński, M. Morawiec, and A. Lewicki, “Sensorless field oriented control for five-phase induction motors with third harmonic injection and fault insensitive feature”, Bull. Pol. Acad. Sci. Tech. Sci. 67(2), 253‒262, (2019).
- C.G. Dias, L.C. da Silva, and I. E. Chabu, “Fuzzy-based statistical feature extraction for detecting broken rotor bars in line-fed and inverter-fed induction motors”, Energies 12(12), 2381, (2019).
- T. Nakahama, D. Biswas, K. Kawano, and F. Ishibashi, “Improved cooling performance of large motors using fans”, IEEE Transactions on Energy Conversion, 21(2), 324‒331, (2006).
- D. Staton, A. Boglietti, and A. Cavagnino, “Solving the more difficult aspects of electric motor thermal analysis in small and medium size industrial induction motors”, IEEE Trans. Energy Convers. 20(3), 620‒628, (2005).
- C. Ulu, O. Korman, and G. Komurgoz, “Electromagnetic and thermal design/analysis of an induction motor for electric vehicles”, 2017 8th International Conference on Mechanical and Aerospace Engineering (ICMAE), Prague, Czech Republic, 2017.
- Y. Xie, J. Guo, P. Chen, and Z. Li, “Coupled fluid-thermal analysis for induction motors with broken bars operating under the rated load”, Energies, 11(8), 2024, (2018).
- K.N. Gyftakis, D. Athanasopoulos, and J. Kappatou, “Study of double cage induction motors with different rotor bar materials”, 20th International Conference on Electrical Machines (ICEM), Marseille, France, 2012, pp. 1450‒1456.
- Z. Maddi and D. Aouzellag, “Dynamic modelling of induction motor squirrel cage for different shapes of rotor deep bars with estimation of the skin effect”, Prog. Electromagn. Res. M 59, 147‒160, (2017)
- M. Sundaram, M. Mohanraj, P. Varunraj, T.D. Kumar, and S. Sharma, “FEA based electromagnetic analysis of induction motor rotor bars with improved starting torque for traction applications”, Proceedings of the International Conference on Automatic Control, Mechatronics and Industrial Engineering (ACMIE), Suzhou, China, 2018.
- H.J. Lee, S.H. Im, D.Y. Um, G.S. Park, “A design of rotor bar for improving starting torque by analyzing rotor resistance and reactance in squirrel cage induction motor”, IEEE Trans. Magn. 99, 1‒4, (2017).
- L. Livadaru, A. Simion, A. Munteanu, M. Cojan, and O. Dabija, “Dual cage high power induction motor with direct start-up design and FEM analysis” Adv. Electr. Comput. Eng. 13(2), 55‒58, (2013).
- S. Sinha, N.K. Deb, and S.K. Biswas, “The design and its verification of the double rotor double cage induction motor”, Journal of The Institution of Engineers (India): Series B 98(1), 107‒113, (2017).
- W. Poprawski and T. Wolnik, “Innovative design of double squirrel cage induction motor for high start frequency operation”, Electr. Mach. Trans. J. Inst. Electr. Drives Mach. KOMEL 111(3), 41‒44, (2016).
- J. Mróz and W. Poprawski, “Improvement of the Thermal and Mechanical Strength of the Starting Cage of Double-Cage Induction Motors”, Energies 12 (23), 4551, (2019).
- J. Mróz, “Start-up of the Deep-Bar Motor with the use of the Softstart-up – An Energetisitc Face”, Zeszyty Problemowe BOBRME Komel 81, 17‒22, (2009) [in Polish].
- J. Mróz, “Energy Emitted in the Induction Motor’s Winding During the Start-up with the use of the Softstart-up”, Zeszyty Problemowe BOBRME Komel, 84, 121‒126, (2009) [in Polish].
- M.G. Solveson, B. Mirafazal, and N.A.O. Demerdash, “Soft-Started Induction Motor Modeling and Heating Issues for Different Starting Profiles Using a Flux Linkage ABC Frame of Reference”, IEEE Trans. Ind. Appl. 42(4), 973‒982, (2006)
- R. Krok,” Influence of work environment on thermal state of electric mine motors”, Arch. Electr. Eng. 60(3), 357‒370, (2011).
- Q. Al’Akayshee and D.A. Staton, “1150 hp motor design, electromagnetic and thermal analysis”, ICEM – 15-th International conference on electrical machines, Bruges, Belgium, 2002.
- J. Mróz, The Analysis of Coupled Electromechanical and Thermal Problems in Transient States of Double-Cage Induction Motors, Publishing House Rzeszow University of Technology: Rzeszow, Poland, 2013, [in Polish].