ANALYTICAL RELATIONSHIPS BETWEEN GEOMETRIC AND ENERGY PARAMETERS OF THE WATER WHEEL

The article analyzes the types of water wheels operating in flowing and lowpressure water sources. By solving the Navier-Stokes equation, the sources of running water, the
generation of electricity using a water wheel in channels, and the characteristics of the speed of
water flow in channels are investigated. Depending on the degree of immersion of the impeller
blades in water, the energy values are theoretically calculated, i.e., the acting force, water
pressure, moment of force and power shoulders, depending on the geometric dimensions and the
number of impeller blades. The application of the water wheel and the analysis of theory and
practical sources are presented. Particular attention is paid to the coverage of their technical
aspects.

Name of journalTechnical science and innovation
Number of edition2023, №2(16)
View count33

Web Address

DOI

Date of creation in the UzSCI system11-09-2023

Read count33

Date of publication11-09-2023

Main LanguageIngliz

Pages99-107

Tags

impeller

water wheel

hydro turbines

jet turbines

water sources

English

The article analyzes the types of water wheels operating in flowing and lowpressure water sources. By solving the Navier-Stokes equation, the sources of running water, the
generation of electricity using a water wheel in channels, and the characteristics of the speed of
water flow in channels are investigated. Depending on the degree of immersion of the impeller
blades in water, the energy values are theoretically calculated, i.e., the acting force, water
pressure, moment of force and power shoulders, depending on the geometric dimensions and the
number of impeller blades. The application of the water wheel and the analysis of theory and
practical sources are presented. Particular attention is paid to the coverage of their technical
aspects.

Tags

impeller

water wheel

hydro turbines

jet turbines

water sources

№ Author name position Name of organisation

1 Bozorov O.O. teacher TSTU

2 Kozimjonov N.A. teacher TSTU

№ Name of reference

1 O. Bozarov., Kh. Usarov., B. Kiryigitov. Prospects for providing decentralized areas with renewable electricity. “International Journal for Innovative Engineering and Managment Reseach”, 2021. 227.

2 M. Gerald., K. Klemens. Old water mills - Britain's new source of energy. “New civil engineer international”, 2003. 20.

3 J.C. Casila., M. Duka., R.D.L. Reyes., J.C. Ureta. Potential of the Molawin creek for mikro hydro power generation: “An assissment sustainable energy technologies and assissments”, Phillipines, 2019. 111

4 P.P. Sweet. Development of a micro-hydro power plant with an asynchronous generator for agricultural consumers. “Abstract of the dissertation for the degree candidate of technical sciences”, Barnaul, Altai State Technical University. 2007. 25

5 D. Zhou., J. Gui., D. Deng., H. Cheu., Y. Yu., A.Yu., C. Yang. “Development of an ultralow head siphon hudro turbine using computational fluid dinamics”, Energy. China, 2019. 43

6 K. Brada., K. A. Radlik. Water screw motor for micropower plant. “6th Intl. Symp. Heat exchange and renewable energy sources”, W. Nowak, ed. Wydaw Politechniki Szczecioskiej, Szczecin, Poland, 1996. 43.

7 E.S. Umbetov., Sh.K. Shokolakova. Analysis of the classification of structures micro-zheos. “Scientific Bulletin of BSU”, Bishkek, 2016. 124

8 D.B. Kadyrov. “Energy-efficient microhydroelectric power plant for low-pressure water flows”, 2018. 17

9 N.E. Kochin., I.A. Kibel., N.V. Rose. Theoretical hydromechanics. “Phys.-math. Literature”, Moscow, 1963. 420

10 O.O. Bozarov., Kh.S. Usarov., S.R. Saidullayeva. “Energy potential of solar and water resources in Uzbekistan and their use international journal on integrated education”, 2022. 64

11 S.I. Averin., A.N. Minaev., V.S. Shvydkiy. “Fluid and gas mechanics”, Moscow, 1986. 163.

12 M. Mamadzhanov., B. Shakirov., O.O. Bozarov., B. Shakirov. The solution of leveling NaveStoksa for the pumping station of the water channel. “Scientific and technical journal Uzbekhydroenergy”, 2020. 44.

13 https://metalspace.ru/history-metallurgy/tom2/water/148-vodyanye-koljosa-v-drevnemmire.html

14 A.B. Satybaldyev., A. Abidov., T.K. Matisakov., A.K. Attokurov. Calculation of the blade of the bottom-hole water wheel. “Science, new technologies and innovations of Kyrgyzstan”, 2016. 16

15 Z.I. Abdumalikova. Improving the performance of the level of roundness of the water wheel plates. Science and education. “Scientific Journal”, 2022. 452

Waiting

№	Name of reference
1	O. Bozarov., Kh. Usarov., B. Kiryigitov. Prospects for providing decentralized areas with renewable electricity. “International Journal for Innovative Engineering and Managment Reseach”, 2021. 227.
2	M. Gerald., K. Klemens. Old water mills - Britain's new source of energy. “New civil engineer international”, 2003. 20.
3	J.C. Casila., M. Duka., R.D.L. Reyes., J.C. Ureta. Potential of the Molawin creek for mikro hydro power generation: “An assissment sustainable energy technologies and assissments”, Phillipines, 2019. 111
4	P.P. Sweet. Development of a micro-hydro power plant with an asynchronous generator for agricultural consumers. “Abstract of the dissertation for the degree candidate of technical sciences”, Barnaul, Altai State Technical University. 2007. 25
5	D. Zhou., J. Gui., D. Deng., H. Cheu., Y. Yu., A.Yu., C. Yang. “Development of an ultralow head siphon hudro turbine using computational fluid dinamics”, Energy. China, 2019. 43
6	K. Brada., K. A. Radlik. Water screw motor for micropower plant. “6th Intl. Symp. Heat exchange and renewable energy sources”, W. Nowak, ed. Wydaw Politechniki Szczecioskiej, Szczecin, Poland, 1996. 43.
7	E.S. Umbetov., Sh.K. Shokolakova. Analysis of the classification of structures micro-zheos. “Scientific Bulletin of BSU”, Bishkek, 2016. 124
8	D.B. Kadyrov. “Energy-efficient microhydroelectric power plant for low-pressure water flows”, 2018. 17
9	N.E. Kochin., I.A. Kibel., N.V. Rose. Theoretical hydromechanics. “Phys.-math. Literature”, Moscow, 1963. 420
10	O.O. Bozarov., Kh.S. Usarov., S.R. Saidullayeva. “Energy potential of solar and water resources in Uzbekistan and their use international journal on integrated education”, 2022. 64
11	S.I. Averin., A.N. Minaev., V.S. Shvydkiy. “Fluid and gas mechanics”, Moscow, 1986. 163.
12	M. Mamadzhanov., B. Shakirov., O.O. Bozarov., B. Shakirov. The solution of leveling NaveStoksa for the pumping station of the water channel. “Scientific and technical journal Uzbekhydroenergy”, 2020. 44.
13	https://metalspace.ru/history-metallurgy/tom2/water/148-vodyanye-koljosa-v-drevnemmire.html
14	A.B. Satybaldyev., A. Abidov., T.K. Matisakov., A.K. Attokurov. Calculation of the blade of the bottom-hole water wheel. “Science, new technologies and innovations of Kyrgyzstan”, 2016. 16
15	Z.I. Abdumalikova. Improving the performance of the level of roundness of the water wheel plates. Science and education. “Scientific Journal”, 2022. 452