Scientific and Technical Journal

ELECTROTECHNIC AND COMPUTER SYSTEMS

ISSN Print 2221-3937
ISSN Online 2221-3805
ELECTROMECHANICS COMPLEX OF AUTONOMOUS WIND MINI POWER-STATIONS FOR EXPLOITATION IN THE CONDITIONS OF IRON-ORE MINES
Abstract:

Because of features of work of electro mechanics complex of autonomous wind mini power-stations in the conditions of the underground making of iron-ore mines management by the initial parameters of wind electromechanics complex, it is suggested to carry out the management by the combined regulator on the base of fuzzy sets. The use of this control system will allow to provide stable and high-quality electro- supply of users.

Authors:
Keywords
DOI
10.15276/etks.15.91.2014.89
References
  1. SіnchukO.N., and Boіko S.M. Elektromehanichniy kompleks vitroenergetichnoyi ustanovki dlya vikoristannya v pidzemnih virobkah zalizorudnih shaht[There is an Electromechanics Complex of Wind-EnergyComplex the use in the Underground Making of Iron-Ore Mines],(2013), Vostochno–Evropeiskii Zhurnal Peredovykh Tekhnologii. Energosberegayushchie Tekhnologii i Oborudovanie Publ., Kharkov, Ukraine, Vol. 1/8(67), pp. 13 – 21 (In Ukraine)

2. Elektrische Energi Eversorgung fur Wagen der Reiszugwagenbauart: UIC 550, UIC Codex, 1969, 13 p.

3. Shefter Ya.I. Ispolzovanie energii vetra [Use of Energy of Wind], (1983), Moscow, Russian Federation, Energoatomizdat, 200 p. (In Russian).

4. Datta R., and Ranganathan V.-T., (2003), A Method of Tracking the Peak Power Points for a Variable Speed wind Energy Conversion System, IEEE Transactions on Energy Conversion, Vol. 18, pp. 163 – 168, March 2003.

5. Moor G., and Beukes H., (2004). Power Point Trackers for wind Turbines, Power Electronics Specialist Conference (PESC), pp. 2044 – 2049.

6. Nakamura T., Morimoto S., Sanada M., and Takeda Y., (2002), Optimum Control of imps for wind Generation System, Power Conversion Conference (PCC), Vol. 3, pp. 1435 – 1440,

7. Wang Q., and Chang L.-C., (2004),An Intelligent Maximum Power Extraction Algorithm for Inverter-Based Variable Speed wind Turbine Systems, IEEE Transactions on Power Electronics, Vol. 19, pp. 1242 – 1249, September 2004.

8. Koutroulis E., and Kalaitzakis K., (2006), Design of a Maximum Power Tracking System for Wind-Energy-Conversion Applications, IEEE Transactions on Industrial Electronics, Vol. 53, April 2006.

9. Datta R., and Ranganathan V.-T., (2003), A Method of Tracking the Peak Power Points for a Variable Speed wind Energy Conversion System, IEEE Transactions on Energy Conversion, Vol. 18, pp. 163 – 168, March 2003.

10. Sіnchuk O.N., Mihaylichenko D.A., Boіko S.M., and Scherbak M.A. Patent Ukraine, MPK H02P9/00 Sistema keruvannya asinhronnim generatorom u skladi vitroelektrotehnichnogo kompleksu[Control the System by an Aasynchronous Generator is in Composition a Wind-Energy Complex] /; patent Ukraine 84633, zayava #u201305538 vіd 29.04.2013, Opubl. 25.10.2013. Byul. 20, 2013 (In Ukrainian)

 

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