Ukrainian Antarctic Journal

No 6-7 (2008): Ukrainian Antarctic Journal
Articles

Application Features of Independent-Power Supply Wind Systems at the Academician Vernadsky UAS

V. A. Dzenzersky
Institute of transport systems and technologies of NAS of Ukraine, Dnipropetrovsk
S. V. Tarasov
Institute of transport systems and technologies of NAS of Ukraine, Dnipropetrovsk
I. Yu. Kostiukov
Institute of transport systems and technologies of NAS of Ukraine, Dnipropetrovsk
S. Yu. Kremnev
National Antarctic Scientific Center, Kyiv
Published December 15, 2008
Keywords
  • Wind Power System,
  • Wind Turbine,
  • Antarctic Station
How to Cite
Dzenzersky, V. A., Tarasov, S. V., Kostiukov, I. Y., & Kremnev, S. Y. (2008). Application Features of Independent-Power Supply Wind Systems at the Academician Vernadsky UAS. Ukrainian Antarctic Journal, (6-7), 198-206. https://doi.org/10.33275/1727-7485.6-7.2008.511

Abstract

Considered are the features of power supply facilities, energy consumption modes, design models and operation algorithms of the system, consumed- output power ratios, climatic conditions, design and wind power specifications, selection of wind power site and effect of the UAS independent-power supply wind systems on animal and bird species. A series of requirements for the independent-power supply system, which should be included at its development, have been found resulting from the study carried out.

References

  1. Bubenko, P. T., Rebrov L. V. (1993). Otchet o rezul`tatax informacionny`x obsledovanij po teme «E`kologicheskoe obsledovanie AVE`-250S». [Report on the results of information surveys on the topic "Environmental inspection of AVE-250S"]. Severo-Vostochny`j nauchny`j centr Akademii nauk Ukrainy`, Xar`kov, pp. 30–32, & 55–62.
  2. Gagach, D. K., Mal`cev, V. K., Kostyukov, I. Yu. i dr. (2001). Pervaya vetrodizel`naya e`lektrostanciya na Tajmy`re. [The first wind-diesel power plant in Taimyr]. Energetics, 9, 10–12.
  3. Kampet, T., Usievich, V., Droste, D. i dr. (1993). Rukovodstvo po sooruzheniyu vetroe`nergetiches-kix ustanovok. Komissiya EE`S. [Wind Turbine Construction Guide. EEC]. Commission General`ny`j direktorat po E`nergetike DG XVII, pp. 29.
  4. Shven`, N. І., Petrenko, K. V., Klok, S. V. (2006). Deyakі osoblivostі cirkulyaczії atmosferi v rajonі Antarktidi. [Some features of atmospheric circulation in the Antarctic region]. Ukrainian Antarctic Journal, 4-5, 301–306.
  5. Baring-Gould, I., & Corbus, D. (2007). Status of Wind-Diesel Applications in Arctic Climates. Arctic Energy Summit Technology Conference, Anchorage, Alasca, October 15–18, 2007. P.3–7.
  6. Clarke, A. New Scientsist, 27.05.89. 62–66.
  7. Dahi, T. Wind Power Systems. http://www.polarpower.org/static/docs/windpower05april06.pdf P.22.
  8. Guichard, A., Magill, P., Godon, P., et al. (1996). Potential for Significant Wind Power Generation at Antarctic Station. SCALOP, Cambridge, United Kingdom, 6-7 August 1996. P.8.
  9. Lindquist, A. (2004). Wind power in Antarctica – a feasibility study for Wasa. Uppsala University, Sweden Division for Electricity and Lightning Research, 2004. P. 28–30.
  10. Loewenstein, R., Markowsky, G. (2008). Polar Science and Advanced Networking Report, NSF OPP/CISE, April 24-26, 2003. P.18–23.
  11. White, S. (2008). Summary Report on Forgen 500 Wind Turbine Performance. UNA VCO. P.1-5.