Practical design for wind electric turbines development

A.M. Oleinikov1, V.V. Usachev2

Institute of Natural and Technical Systems, Russian Federation, Sevastopol, Lenin St., 28

2 Federal State Educational Institution of Higher Education «Sevastopol State University»,

Russian Federation, Sevastopol, Universitetskaya St., 33


DOI: 10.33075/2220-5861-2018-2-133-141

UDC 621.313.17


   This article describes original design for gearless wind electric constructions of horizontal axis or vertical axis type and their main components-many-pole generators with electromagnetic excitation or magnetic electric type, as well as other Hub devices. Examples of testing small and medium-sized wind turbines, as well as patent-protected new prospective designs that can be used when designing large WIND TURBINES with power upper limit (10–15 Mw) for using them in areas with increased wind flow.

Keywords: energy, wind electric turbines, slow-speed generators, permanent.

Full text in PDF (RUS)


  1. Inexhaustible energy. KN. 1. Wind turbines: textbook / V. S. Krivtsov, am Oleynikov, O. Yakovlev. Kharkiv: National aerospace. UN-t Khai; Sevastopol: SevNTU, 2003. P. 400.
  2. Inexhaustible energy. Book 2. Wind Power: textbook / V. S. Krivtsov, am Oleynikov, O. Yakovlev. Kharkiv: National aerospace. UN-t Khai; Sevastopol: SevNTU, 2004. P. 519.
  3. PFG “Concord”. Golubenko N. S., Dovgalyuk S. I., Feldman a.m. wind electric turbo generator set TG-750 [et al.] / / Non-traditional and renewable energy sources in the energy supply of the region: materials of Nauk. – prakt. conf. / Regional branch of the National Center. Institute of Strategic Studies. research in Dnepropetrovsk / ed. by Prof.A. I. Shevtsov. Dnepropetrovsk, 2007, P. 38-41.
  4. Megaconstruction. The largest wind turbines. [[Electra. resource], Paul Dvorak, JohnY an, China, (date of request: 2.02.2018), access Code
  5. Pat. 88140 Ukraine, IPC N 02 K 21/00. Multi-machine vertical-axial wind turbine / a.m. Oleynikov, V. T. Plakida, V. V. Usachev [et al.]. Publ. 11.03.2014. 5.
  6. Oleynikov A.M., Pilganchuk A.V., Gembarsky E. N. Experience in designing and testing wind turbines with a capacity of 10 kW for Autonomous power supply. Sevastopol, 2001, No. 4, P. 16-20.
  7. Oleynikov A. M., Zaritskaya E. I. Synchronous generators of low power with electromagnetic excitation for wind installations // Proceedings of the Institute of electrodynamics of the National Academy of Sciences of Ukraine: collection. scientific works. Kiev, 2008. Issue 21. P. 86-92.
  8. Oleynikov A. M., Peleganchuk A.V., Zagoruiko L. L. Autonomous low-power wind power generators // Proc. scientific. works Sniyaeip. Sevastopol, 1999, No. 1, P. 77-79.
  9. Oleynikov, A. M., and Zaretsky E. I., A. V. Peleganchuk Autonomous gearless wind turbines with low-speed synchronous generator average power // Bulletin Of SevNTU. Ser. Mechanics, power engineering, ecology: SB. nauch. Tr. Sevastopol, 2009. Issue 97. P. 103-106.
  10. Pat. 74180 Ukraine, MPK7N02K1 / 08. The rotor of the synchronous machine / A. M. Miller, A. V. Klementiev, M. A. Oleynikov. No. 2002107856: Declared 03.10.2002; Published 15.11.2005. Byul. No. 11.
  11. Autonomous wind power installations: study method. manual for technical students. higher. studies’. institutions / A. M. Oleynikov, Yu. V. Matveev [et al.] / ed. by A. M. Oleynikov. Sevastopol: SevNTU Publishing house, 2009. P. 192.
  12. Pat. 86070 Ukraine, IPC N 02 K 21/00. Rotor of a low-speed synchronous generator with permanent magnets / a.m. Oleynikov, V. N. Martynov, P. V. Tereshchenko [et al.]. Applicant and patent holder of SevNTU; Publ. 25.03.2009. Byul. no. 6.

If you have found a spelling error, please, notify us by selecting that text and pressing Ctrl+Enter.

Translate »

Spelling error report

The following text will be sent to our editors: