The choice of traction motors for building systems for mobile electrical systems

Authors

DOI:

https://doi.org/10.15587/2312-8372.2015.39931

Keywords:

traction motor, electrical complex, traction drive, the method

Abstract

The peculiarities of the choice of traction motors for different types and designs of mobile electrical systems. The analysis of the practical experience of building systems for traction drives on the basis of the selected traction motor and synthesis techniques for determination of parameters of the engine under certain requirements relative to the movement's electrical sector. The study of building systems for traction drives with different types of engines are relevant from the point of view of achieving a maximum level of energy efficiency by performing all of the listed requirements. Means of improving energy efficiency and productivity of mobile electrical systems in the complex situation on the market of energy resources to help ensure the growth of the independence of the domestic transport sector from a number of economic and political factors that have a significant impact on key indicators of work of many enterprises and the budget of private vehicle owners and ensure optimal design and more efficient work of the various sectors of the economy. As a result of the analysis has been further development of the method of determining the type and parameters of the traction motors of the rolling electrical complex by taking into account the specific requirements from the side of the actuator. In particular, the analysis of the practical experience of choosing the traction motors and synthesis methods determine the type and parameters of the traction motors with the specified requirements by rolling electrical complex, which allows for accurate selection of the type and parameters of the engine depending on operating conditions of the electrical industry.

Author Biographies

Дмитро Олександрович Кулагін, Zaporizhzhya National Technical University, str. Zhukovsky 64, Zaporozhye, Ukraine, 69063

Candidate of Technical Sciences, Associate Professor, Doctoral Student

Department of Power Supply of Industrial Enterprises

Богдан Сергійович Чернецький, Zaporizhzhya National Technical University, str. Zhukovsky 64, Zaporozhye, Ukraine, 69063

Graduate student

Department of Power Supply of Industrial Enterprises

References

  1. Wasynczuk, O., Sudhoff, S. D., Corzine, K. A., Tichenor, J. L., Krause, P. C., Hansen, I. G., Taylor, L. M. (1998, June). A maximum torque per ampere control strategy for induction motor drives. IEEE Transactions on Energy Conversion, Vol. 13, № 2, 163–169. doi:10.1109/60.678980
  2. Petrov, L. P. (1980). Die Modelierung der Energieverluste in Asynchronmotoren unter Beachtung der elektromagnetischen Ubergangsprozesse. Elektrie, Vol. 34, 7, 375-379.
  3. Florentsev, S. N. (2009). Traction Electric Equipment Set for AC Electric Transmission Various Vehicles. Proceedings of International Exhibition & Conference “Power Electronics, Intelligent Motion. Power Quality (PCIM-2009). 12–14 May 2009. Nurenberg, Germany, 625–627.
  4. Kulagin, D. O. (2014). Proektuvannia system keruvannia tiahovymy elektroperedachamy motorvahonnykh poizdiv. Berdiansk: FO-P Tkachuk O. V., 154.
  5. Ali Emadi. (2004). Energy-Efficient Electric Motors: Selection and Applications. Ed. 3. New York: Marcel Dekker, 424.
  6. Kulagin, D. O. (2014). Matematychna model tiahovoho asynkhronnoho dvyhuna z urakhuvanniam nasychennia mahnitnykh kil. Naukovyi visnyk NHU, 6, 103–110.
  7. Kulagin, D. O. (2004). Matematychna model tiahovoho asynkhronnoho dvyhuna z urakhuvanniam nasychennia. Tekhnichna elektrodynamika, 6, 49–55.
  8. Boldea, I., Nasar, S. A. (2002). Induction Machines Handbook. CRC Press Boca Raton: London, New York, Washington, D.C., 845.
  9. El-Sharkawi, M. A. (2000). Fundamental of electric drivers. Brooks: Cole production, 400.
  10. Stone, G. C., Dhirani, H., Boulter, E. A., Culbert, I. (2004). Electrical insulation for rotating machines. A John Wiley & Sons, inc., 392.

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Published

2015-04-02

How to Cite

Кулагін, Д. О., & Чернецький, Б. С. (2015). The choice of traction motors for building systems for mobile electrical systems. Technology Audit and Production Reserves, 2(1(22), 9–12. https://doi.org/10.15587/2312-8372.2015.39931

Issue

Vol. 2 No. 1(22) (2015): Energy, energy-saving technologies and equipment. Electrical engineering and industrial electronics

Section

Energy, energy-saving technologies and equipment

License

Copyright (c) 2016 Дмитро Олександрович Кулагін, Богдан Сергійович Чернецький

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