Substantiation of magnetic system of switched reluctance generator with annular rotor for wind turbine

Authors

  • V. V. Kozirsky National University of Life and Environmental Sciences of Ukraine image/svg+xml
  • О. D. Podoltsev Інститут електродинаміки
  • М. І. Tregub Bila Tserkva National Agrarian University image/svg+xml

Abstract

Abstract. Using the methods of numerical simulation and experimental studies of the influence of the geometric dimensions of the ferromagnetic annular rotor elements of valve jet generator on the frequency of change of the magnetic permeability of the electromagnetic system when the rotor movement. Determined the numerical ratios of the geometric dimensions of these elements, in which achieved the maximum change in this conductivity. The obtained quantitative dependences limit the radial height of the ferromagnetic element at a side of the ego of square section.

Key words: switched reluctance generator, wind-electric turbine, ring rotor, magnetic conductivity, geometric parameters.

 

References

Список літератури

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Альпер Н. Я., Терзян А. А. ?ндукторные генераторы. Москва. 1970. 192 с.

Козирський В. В., Трегуб М. І. Методологія вибору типу і геометричної конфігурації кільцевороторного дугостаторного генератора безредукторної вітроелектричної установки. Тези доповідей Міжнародної науково-практичної конференції «Проблеми та перспективи розвитку енергетики, електротехнологій та автоматики в АПК». 5-6 листопада 2013 року. Київ. 2013. С. 57–58.

Трегуб М. І., Козирський В. В. Патент України №101118 UA, МПК H02K19/20, H02K21/38. Індукторний аксіальний генератор. №а201200837. Заявлено 27.01.2012. Опубліковано 25.02.2013. Бюл. №4.

Eleonora Darie, Costin Cepisca and Immanuel Darie. The use of switched reluctance generator in wind energy applications. Proceedings of EPE-PEMC. 2008.

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H. Li and Z. Chen. Overview of different wind generator systems and their comparisons. Proceedings of IET Renewable Power Generation. 2008. Vol. 2. No. 2.

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M. Nassereddine, J. Rizk, and M. Nagrial. Switched reluctance generator for wind power applications. Proceedings of World academy of science, Engineering and Technology. July 2008. 2008. Vol. 31.

P. 126–130.

References

Sinchuk, E. M., Kozakevich, I. A., Yurchenko, M. M. (2017). Sensorless control of switched reluctance motors of traction ectromechanical systems. Technical electrodynamics. No. 5. 62–66.

Alper, N. Y. Terzian, A. A. (1970). Reluctance generators. Moscow. 192.

Kozirsky, V. V., Tregub, M. I. (2013). Determine methodology of the type and geomenric parameters of rin rotor wind turbine. Abstracts of the International scientific-practical conference "Problems and prospects of development of energy, Electrotechnology and automation in agriculture". 5-6 November 2013. Kiev. 57–58.

Kozirsky, V. V., Tregub, M. I. (2013). Patent of Ukraine No. 101118 EN, IPC H02K19/20, H02K21/38. Inductory axial generator. No. а201200837. 27.01.2012 stated. Published on 25.02.2013. Bull. No 4.

Eleonora Darie, Costin Cepisca and Immanuel Darie. (2008). The use of switched reluctance generator in wind energy applications. Proceedings of EPE-PEMC. 1963–1966.

H. Li and Z. Chen. (2008). Overview of different wind generator systems and their comparisons. Proceedings of IET Renewable Power Generation. Vol. 2. No. 2. 123–138.

M. Nassereddine, J. Rizk, and M. Nagrial. (2008). Switched reluctance generator for wind power applications. Proceedings of World academy of science, Engineering and Technology. July 2008. Vol. 31. 126–130.

Published

2019-07-11

Issue

Vol. 9 No. 3 (2018)

Section

Статті

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