Keywords
design data
magnetic field
FEMM
numerically-field calculations
electromagnetic and energy parameters
verification analysis асинхронный двигатель
проектные данные
магнитное поле
FEMM
численно-полевые расчеты
электромагнитные и энергетические параметры
поверочный анализ
How to Cite
Abstract
The principles and results of the numerically-field determination of the electromagnetic and energy parameters of the designed three-phase induction motors for the purpose of their verification analysis have presented. The analysis has realized with the magnetic field calculations in the FEMM software environment. Calculations have automated by the control program in the algorithmic language Lua. The data of a 15kW motor have used for the approbation of the method. The assessment of an adequacy of the motor designed parameters to its initial data has carried out on a magnetizing current, design tension and power. Studies have shown the problems of a motor designing by the classical method, where electromagnetic calculations have based on the magnetic circuit method. It has proposed to introduce a system of numerically-field calculations of the induction motor parameters as an efficacious basis for their refined design. References 17, tables 2, figures 3.
References
Vaskovskiy Yu.N., Geraskin А.А., Belenok N.V. Induction motors angular rotor eccentricity diagnosis by analyzing ibroperturbing forces. Visnyk Natsionalnoho Tekhnichnoho Universytetu "KhPI". Seriia Elektrychni mashyny ta elektromekhanichne peretvorennia enerhii. 2016. No 11(118). Pp. 30–35. (Ukr)
Voldek A.I., Popov V.V. Electrical Machines. Machines of alternating current. Sankt-Peterburg: Piter, 2010. 356 p. (Rus)
Kopyilov I.P., Goryainov F.A., Klokov B.K. Design of electrical machines. Moskva: Yurai, 2011. 767 p. (Rus)
Lushchik V.D. Promising directions for improving electrical machines. Monografiia. Kyiv: PrAT Myronivska drukarnia, 2015. 264 p. (Ukr)
Milykh V.I. Automated formation of calculation models of a three-phase induction motors for software environment FEMM. Visnyk Natsionalnoho Tekhnichnoho Universytetu "KhPI". Seriia Elektrychni mashyny ta elektromekhanichne peretvorennia enerhii. 2017. No 1(1123). Pp. 3–15. (Rus)
Milykh V.I., Polyakova N.V. Determination of electromagnetic parameters of electric machines based on numerical calculations of magnetic field. Electrical engineering & Electromehanics. 2006. No 2. Pp. 40–46. (Rus)
Milykh V.I., Shilkova L.V. Numerical-field analysis of the magnetic field of a three-phase induction motor in statics and dynamics. Visnyk Natsionalnoho Tekhnichnoho Universytetu "KhPI". Seriia: Elektrychni mashyny ta elektromekhanichne peretvorennia enerhii. 2016. No 11(1183). Pp. 80–87. (Rus)
Milykh V.I., Shilkova L.V. Numerically-field confirmatory analysis of a three-phase induction motor design parameter. Elektromekhanichni i enerhozberihaiuchi systemy. 2016. No 1/(33). Pp. 58 65. (Rus)
Petrushin V.S., Yenoktaiev R.N. Using a multi-criteria optimization in the design of controlled asynchronous motors. Visnyk Natsionalnoho Tekhnichnoho Universytetu "KhPI". Seriia: Elektrychni mashyny ta elektromekhanichne peretvorennia enerhii. 2016. No 11(1183). Pp. 11–14. (Rus)
Bobon A. 3D Finite Element Computation of Axial Flux in Induction Machine. Transactions on Electrical Engineering. 2012. Vol. 1. No 3. Pp. 72 75.
Finite Element Method Magnetics: OldVersions. FEMM 4.2 11Oct2010 Self-Installing Executable. Avaliable at: http://www.femm.info/ wiki/OldVersions.
Iwao S., Todaka T., Enokizono M. Torque Characteristic Analysis of an IM/PM Hybrid Motor by Using Fi-nite Element Method. Materials Science Forum. 2014. Vol. 792. Pp. 337 342.
Kurita N., Ishikawa T., Suzuki G. Development of the Two Pole Type Shaded Pole Self-Bearing Motor. Materials Science Forum. 2016. Vol. 856. Pp. 196 201.
Maria Dems, Krzystof Komeza, Jan K. Sykorsry. Analysis of effects of magnetic slot wedges on characteristics of large induction motor. Przeglad Electrotechniczny (Eelrctrical Reviw). 2012. Vol. 88. No 7b. Pp. 73 76.
Mohd Afaque Iqbal, Gurmeet Singh. Electromagnetic Field Analysis of the Performance of SinglePhase Capacitor-Run Induction Motor Using Composite Rotor Conductor. Journal of Engineering Research and Applica-tions. June 2014. Vol. 4. Issue 6 (Version 6). Pp. 78 84.
Ravi Kumar, Basavaraja Banakara. Finite Element Analysis in the Estimation of Air-Gap Torque and Sur-face Temperature of Induction Machine. International Conference on Advanced Material Technologies (ICAMT)-2016, Dadi Institute of Engineering and Technology (DIET), Visakhapatnam, Andhra Pradesh, India. 27th and 28th December, 2016. 10 p.
Takayuki Kai, Shigeru Aihara, Takashi Todaka, Masato Enokizono. Investigation of measured distribu-tions of local vector magnetic properties in a three-phase induction motor model core. Journal of Electrical Engineer-ing. 2010. Vol. 61. No 7/s. Pp. 115 118.
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