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Ushbu maqolada vertikal o‘qli turbinalarni tayyorlashda foydalaniladigan
kompozit materillarning mexanik mustahkamligini eksperimental organish natijalari keltirilgan.
Bundan tashqari 1 kVt quvvatli shamol energetik qurilmasini yasash uchun sarflangan
xomashyolarning konsentratsiyasi va miqdori haqidagi ma’lumotlar taqdim etilgan va qurilmaning
ma’lum texnik parametrlaridagi eksperimental va nazariy tadqiqot natijalari taqqoslangan

  • Web Address
  • DOI
  • Date of creation in the UzSCI system 16-09-2024
  • Read count 8
  • Date of publication 26-09-2023
  • Main LanguageO'zbek
  • Pages64-70
Ўзбек

Ushbu maqolada vertikal o‘qli turbinalarni tayyorlashda foydalaniladigan
kompozit materillarning mexanik mustahkamligini eksperimental organish natijalari keltirilgan.
Bundan tashqari 1 kVt quvvatli shamol energetik qurilmasini yasash uchun sarflangan
xomashyolarning konsentratsiyasi va miqdori haqidagi ma’lumotlar taqdim etilgan va qurilmaning
ma’lum texnik parametrlaridagi eksperimental va nazariy tadqiqot natijalari taqqoslangan

Author name position Name of organisation
1 Davlonov X.A. t.f.f.d., dots. QarMII
2 Sadullayev N.N. t.f.d., prof. BuxMTI
3 Xujakulov S.M. t.f.f.d., dots. QarMII
4 Muzaffarov F.F. doktorant BuxMTI
Name of reference
1 Rohini Janaki Balamurugan and others, Design and multiperspectivity-based performance investigations of H-Darrieus vertical axis wind turbine through computational fluid dynamics adopted with moving reference frame approaches, International Journal of Low-Carbon Technologies, Volume 17, 2022, Pages 784–806, https://doi.org/10.1093/ijlct/ctac055
2 De Tavernier, D., Ferreira, C., & van Bussel, G. Airfoil optimisation for vertical-axis wind turbines with variable pitch. (2019). pp 1-16. Wind Energy. doi:10.1002/we.2306
3 Weltner, Klaus. Misinterpretations of Bernoulli's Law. (2015). https://www.researchgate.net/publication/303974495_Misinterpretations_of_Bernoulli's_Law https://www.nasa.gov/sites/default/files/atoms/files/bernoulli_principle_k-4.pdf
4 F.F Muzaffarov. Vertikal o‘qli shamol energetik qurilmalarining aerodinamik sirtlari hamda ularga ta’sir ko‘rsatuvchi kattaliklar. // Fan va texnologiyalar taraqqiyoti. Buxoro 2022 (6). 201- 207 b.
5 Kadivar, Mohammadreza & Tormey, David & Mcgranaghan, Gerard. A review on turbulent flow over rough surfaces: Fundamentals and theories. International Journal of Thermofluids. (2021). 10. 100077. 10.1016/j.ijft.2021.100077.
6 Yutaka Hara, Koichi Hara, and Tsutomu Hayashi. Moment of Inertia Dependence of Vertical Axis Wind Turbines in Pulsating Winds, Hindawi Publishing Corporation International Journal of Rotating Machinery Volume 2012, Article ID 910940, 12 pages, doi:10.1155/2012/910940
7 Andrew R. Winslow, Urban Wind Generation: Comparing Horizontal and Vertical Axis Wind Turbines at Clark University in Worcester, Massachusetts. 2014. https://commons.clarku.edu/cgi/viewcontent.cgi?article=1158&context=idce_masters_papers#:~: text=Horizontal%20axis%20wind%20turbines%20(HAVTs,is%20beneficial%20for%20these%2 0areas.
8 Xuejing Sun, Jianyang Zhu, Asad Hanif, Zongjin Li, Guoxing Sun. Effects of blade shape and its corresponding moment of inertia on self- starting and power extraction performance of the novel bowl-shaped floating straight-bladed vertical axis wind turbine. 2020. https://doi.org/10.1016/j.seta.2020.100648
9 Morren, J., Pierik, J., & de Haan, S. W. H. Inertial response of variable speed wind turbines. Electric Power Systems Research. (2006). 76(11). 980–987. doi:10.1016/j.epsr.2005.12.002
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