81

This article provides information on the current importance of renewable energy
sources and the research carried out. In addition, the power of microhydro power plants, the types
of hydroturbines used in them, the types of existing structures and their shortcomings were
studied, and new recommendations were studied, as well as their mathematical basis for scientific
research was outlined. The results obtained from the proposed design were compared with existing
models.
 

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 11-09-2023
  • Количество прочтений 81
  • Дата публикации 11-09-2023
  • Язык статьиIngliz
  • Страницы91-99
English

This article provides information on the current importance of renewable energy
sources and the research carried out. In addition, the power of microhydro power plants, the types
of hydroturbines used in them, the types of existing structures and their shortcomings were
studied, and new recommendations were studied, as well as their mathematical basis for scientific
research was outlined. The results obtained from the proposed design were compared with existing
models.
 

Имя автора Должность Наименование организации
1 Uzbekov M.O. teacher Fergana Polytechnic Institute
2 Begmatov E.M. researcher Fergana Polytechnic Institute
Название ссылки
1 M.O. Uzbekov., E.M. Begmatov. Current issues of energy efficiency of automated electromechanical and electrotechnological systems. “International Scientific and Technical the conference of TSTU, Episode”, Тashkent, 2022. 327.
2 O.O. Bozarov., M.O. Uzbekov., X.A. Egamberdiev., E.M. Begmatov. Analysis of the possibilities of using photo and hydropower potentials to create a micro power plant network (Part 1). “Scientific-technical journal”, Fergana, 2022. 82
3 M.O. Uzbekov., O.O. Bozarov., E.M. Begmatov., B.A. Kiryigitov. Analysis of the possibilities of using photo and hydropower potentials to create a network of microelectric power stations (Part 2). “Scientific-technical journal”, Fergana, 2022. 70
4 S. Luther., I.N.G. Wardana., S. Rudy., W. Slamet. Angled and curved bladesof deep-water wheel efficiency. “Australian journal of basic and applied sciences”, 2014. 186.
5 B.M. Ivanov., T.Y. Podivilina., B.B. Cemkin., A.A. Blinov., P.B. Ivanova., P.P. Cvit., G.O.Kleyn. A device for converting energy and water into electrical energy. “Patent, RU 2306453 C2Published”, Russia, 2007.
6 Y. Unno. Hydraulic power generating plant. “RU 2500916 C1, IPC F03B7/00, F03B 15/04(2006.01)”, Published: Bulletin, Russia, 2013.
7 A.B. Bekbaev., P.G. Esirev., T.M. Munsizbay., M.T. Tolemıs., Q. Kadirbay., N. Abdish. “Hydro turbine "ALEMSAK", KZ (13) A4 (11) 25685, (51) F03B 7/00”, Kazakhstan, 2011.
8 D. Kodirov., O. Tursunov., S Khushiev., O. Bozarov., G. Tashkhodjaeva., S. Mirzaev. Mathematical description of water flow quantity for microhydroelectric station. “IOP Conf. Series: Earth and Environmental Science”, 2020. 614
9 M.O. Uzbekov., E.M. Begmatov. Hydropower resources of Fergana region and possibilities of their use. “Uzbekgidroenergo”, 2022
10 V.A. Nikiforovskiy. Great mathematicians Bernoulli. History of science and technology. “The science”, 1984. 177
11 Z.L. Kayzer. Collaboration in the history of science, illustrated by the example of Johann Andreas Segner's research conducted in Halle and Hungary. “Journal of all hygiene andits border areas”, 1974. 789
12 R.U. Aliev., O.O. Bozarov., R.A. Zakhidov., D.B. Kodirov. Reactive hydraulic turbine. “Patent, FAP 01287, IPC F 03 B3/02, F 03 B3/12”, 2018
13 O.O. Bozarov. “Doctoral thesis on the creation of a micro-hydroelectric unit with a reactive hydroaggregate for agricultural consumers”, Tashkent, 2020. 51
14 S.F. Ergashev., R.U. Aliyev., O.O. Bozarov., Kh.S. Usarov. Efficiency of a nozzle jet hydroturbine with internal direction device. “8th International Conference on Research in Humanities, Applied Sciences and Education Hosted from Berlin, Germany https://conferencea.org Dec. 30th”, Germany, 2022. 72.
В ожидании