Russian Internet Journal of Electrical Engineering

The energy of the sun as an energy source of air flow is easily accessible and can be used in almost any region of the Earth The features of the most common by far wind turbines and options for getting help with their electric energy with a connection to the external network. Shows the literature on the issues discussed, including the development of the authors.

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Krivtsov V.S., Oleynikov A.M., Yakovlev A.I. Neischerpayemaya energiya. Kniga 1. Vetroenergogeneratory [Inexhaustible energy. Book 1. Wind generator], Kharkov, KhAI, 2003. (in Russ.)

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Gurevich V.A., Sokolovskiy Yu.B., Sokolovskiy A.Yu., Frolov Ye.A. Tsilindricheskaya vetroturbina [The cylindrical wind turbine], Patent RU 2563558, 2015.

Khaskin L.A. Towers of wind power units [Bashnya iz vetroenergeticheskikh moduley], Nauka i zhizn [Science and Life], 2003, no. 9. (in Russ.)

Constant Power Control and Fault-Ride-Through Enhancement of DFIG Wind Turbines with Energy Storage, Department of Electrical Engineering University of Nebraska Lincoln 223N Walter Scott Engineering Center Lincoln, NE 68588-0511 USA.

Gurevich V.A., Sokolovskiy Yu.B, Sokolovskiy A.Yu., Kheyfets A.B. Sposob oriyentatsii ustanovok s gori-zontalno-osevymi propellernymi turbinami [A method of targeting systems with HAWT turbines], Patent application №2014117781. 04/30/2014.

Novyy proyekt vetrofermy bez vetryakov [The new project of wind farms without windmills]. Available at: http://www.nanonewsnet.ru/node/11137/backlinks (accessed 1 November 2015). (in Russ.)

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Bokay V.I. Sposob preobrazovaniya kineticheskoy energii tekushchey sredy vo vrashchatelnoye dvizheniye kryla i ustanovka dlya osushchestvleniya etogo sposoba [A method of converting the kinetic energy of the flowing medium into rotary motion of the wing, and apparatus for carrying out this method.], Patent RU 2157919, 2000. (in Russ.)

Gurevich V.A., Sokolovskiy Yu.B., Sokolovskiy D.Yu, Frolov Ye.A. Sposob preobrazovaniya kineticheskoy energii potoka vo vrashchatelnoye dvizheniye kryla i ustanovka dlya osushchestvleniya etogo sposoba [A method of converting the kinetic energy of the stream into a rotary movement of the wing and apparatus for carrying out this method], Patent application №2014146593, 19/11/2014. (in Russ.)

Rotor Savoniusa [Savonius rotor]. Available at: www.wetroenergetika.ru/14%20savoinus.html (accessed 1 November 2015). (in Russ.)

Seleznev N.V. Vetroelektrostantsiya [Wind power station], Patent RU 2285147, 2006. (in Russ.)

Murashevskiy V.V. Vetrovaya energeticheskaya usta-novka [Wind power plant], Patent RU 2277642, 2006. (in Russ.)

Gurevich V.A., Sokolovskiy Yu.B. Vetrovaya energeticheskaya ustanovka [Wind power plant], Patent 2484296, 2013. (in Russ.)

Gurevich V.A, Sokolovskiy Yu.B. Karuselnoye vetrokoleso [Carousel wind wheel], Patent RU 2498109, 2013. (in Russ.)

Vikhrevaya vetroenergeticheskaya ustanovka [Whirlpool wind power plant]. Available at: http://www.ptechnology.ru/MainPart/Energy/Energy28.html (accessed 1 November 2015). (in Russ.)

Haskew T.A., Williams K.A., Swatloski, R.P. Control of DFIG Wind Turbine With Direct-Current Vector Control Configuration, Sustainable Energy, IEEE Transactions, 2012, vol. 3, is. 1. DOI: 10.1109/TSTE.2011.2167001

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Sokolovsky J., Heifetz A., Sosenushkina V. Wind Power in Israel with the Use of Sea Coasters – Technical and Economic Calculation in the Project Business Plan, Journal SCIENTIFIC ISRAEL. Technological Advantages, 2015, vol. 15, no. 2.

Sokolovsky J., Heifetz A., Sokolovsky A. Railway Electrification of Israel with Self-Contained Power Electric Locomotives, Journal SCIENTIFIC ISRAEL. Technological Advantages, 2014, vol. 16, no. 1-2.