DEVELOPMENT OF A MODEL AND ALGORITHM FOR DETERMINING THE OPTIMAL ANGLE OF THE UNDERSHOT WATER WHEEL BLADES

Авторы

  • Gulom Uzakov Karshi SIEI
  • R.A. Mamedov Bukhara engineering technological institute
  • A.B. Safarov Bukhara engineering technological institute
  • I.A. Khatamov Karshi engineering-economics institute

Ключевые слова:

hydropower potential, undershot water wheel, Amu-Bukhara canal, water flow speed, water flow rate, optimal position angle, efficiency

Аннотация

This article presents the results of theoretical studies of the undershot water wheel that works effectively in low-pressure watercourses with a water flow speed of 1-4 m/s. When developing a mathematical model of the undershot water wheel, the Matlab/Simulink program was used. According to the results of the study, it was found that for the efficient operation of the undershot water wheel in low-pressure watercourses, the angle of inclination of the blade at the exit from the water is β=30°. Also, during the study, the water flow rate and the efficiency of the undershot water wheel were determined.

Библиографические ссылки

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Опубликован

2023-09-10

Как цитировать

Uzakov, G., Mamedov , R., Safarov , A., & Khatamov, I. (2023). DEVELOPMENT OF A MODEL AND ALGORITHM FOR DETERMINING THE OPTIMAL ANGLE OF THE UNDERSHOT WATER WHEEL BLADES. Muqobil Energetika, Alternative Energy , 2(01), 64–71. извлечено от https://ojs.qmii.uz/index.php/ae/article/view/451

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