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

Uzoqov G'ulom Norboyevich; Mamedov R A; Safarov Alisher Bekmurodovich; Hatamov Inomjon Amrulloyevich

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.

Name of journalMUQOBIL ENERGETIKA
Number of edition02 (09) 2023
View count 62

Web Address

DOI

Date of creation in the UzSCI system 15-09-2024

Read count 62

Date of publication 03-07-2023

Main LanguageIngliz

Pages64-71

Tags

water flow rate

hydropower potential

undershot water wheel

Amu-Bukhara canal

water flow speed

optimal position angle

English

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.

Tags

water flow rate

hydropower potential

undershot water wheel

Amu-Bukhara canal

water flow speed

optimal position angle

№ Author name position Name of organisation

1 Uzoqov G.N. t.f.d., prof. QarMII

2 Mamedov R.A. doktorant BuxMTI

3 Safarov A.B. t.f.f.d., dots. BuxMTI

4 Hatamov I.A. o'qituvchi QarMII

№ Name of reference

1 Sadullayev N N Safarov A B Nematov Sh N Mamedov R A Abdujabarov A B 2020 Opportunities and prospects for the use of renewable energy sources in Bukhara region. Applied solar energy Vol. 56 № 4 P 410-421

2 Celso P 2004 Guide on How to Develop a Small Hydropower Plant European Small Hydropower Association – ESHA Vol 2 № 7 P 43-49

3 Renewables 2020 Global Status Report Retrieved from: https://www.ren21.net/wpcontent/uploads/2019/05/GSR2021_Full_Report.pdf

4 Nicolet C Zobeiri A Maruzewski P Avellan F 2011 Experimental Investigations on Upper Part Load Vortex Rope Pressure Fluctuations in Francis Turbine Draft Tube. International Journal of Fluid Machinery and Systems Vol 4 № 1 P 179-190

5 Vu T Koller M Gauthier M Deschenes C 2011Flow simulation and efficiency hill chart prediction for a Propeller turbine. International Journal of Fluid Machinery and Systems Vol 4 № 2 P 243-254

6 Kodirov D Tursunov O 2019 Calculation of Water Wheel Design Parameters for Micro Hydroelectric Power Station. E3S Web of Conferences 97 P 1-11

7 Sadullayev N N Safarov A B Mamedov R A Kodirov D 2020 Assessment wind and hydropower potential of Bukhara region. ―1st International Conference on Energetics, Civil and Agricultural Engineering‖ P 1-8

8 Butera I Balestra R 2015 Estimation of the hydropower potential of irrigation networks. Renewable and sustainable energy reviews P 140-151

9 Khamitov T G Mukhammadiev M M Klychev Sh I 2009 Technical and economic characteristics of small hydro power plants. Applied Solar Energy (English translation of Geliotekhnika) 45(4) P 307-308

10 2021 Hydropower Status Report Retrieved from: https://www.hydropower.org/publications/2021-hydropower-status-report

11 Mamedov R A 2021 Calculations of the resources of the gross hydropower potential of the Amu-Bukhara Canal using one-point and two-point methods. International scientific and technical conference: "Trends in the development of alternative and renewable energy: problems and solutions" Tashkent P 202-209

12 Mamedov R A Safarov A B Charyeva M R 2021 Analysis of the dependence of the Chezi coefficient in assessing the resources of the hydropower potential of irrigation canals in the Bukhara region. Scientific and technical journal "Alternative Energy" №1 P 52-60

13 W Müller 1899 Die Eisernen Wasserräder - Berechnung, Konstruktion und Wirkungsgrad (University of Wisconsin – Madison Germany) 167

14 Matthias H 2018 Analyse des Zuppinger-Wasserrades – Hydraulische Optimierungen unter Berücksichtigung ökologischer Aspekte (Universität Stuttgart Germany) 192

15 . Mukhammadiev M M Mamadiyarov E K Urishev B U Mukhammadiev S M 2012 Technological model of micro power facilities based on renewable energy sources with the energy storage. Applied Solar Energy (English translation of Geliotekhnika) 48(2) P 152-156

16 Adanta D Kurnianto M 2020 Effect of the number of blades on undershot waterwheel performance for straight blades. IOP Conf. Series: Earth and Environmental Science – Germany 431 P 1-6

17 Quaranta E Müller G 2018 Sagebien and Zuppinger water wheels for very low head hydropower applications. Journal of Hydraulic Research P 1-11

18 Nuembergk D M Trostdorf F Treiber G 2009 Untersuchung zum Wirkungsgrad eines Zuppinger-Wasserrades mit einer kreisförmigen Überfallschütze. Wasserbaukolloquium 2009: Wasserkraft im Zeichen des Klimawandels Dresdener Wasserbauliche Mitteilungen Р 359-368

19 Denny M 2004 The efficiency of overshot and undershot water wheels. European journal of physics 25 P 193–202

20 Kodirov D Tursunov O Khushiev S Bozarov O Tashkhodjaeva G Mirzaev S 2020 Mathematical description of water flow quantity for microhydroelectric station. IOP Conf. Series: Earth and Environmental Science P 1-9

Waiting

№	Author name	position	Name of organisation
1	Uzoqov G.N.	t.f.d., prof.	QarMII
2	Mamedov R.A.	doktorant	BuxMTI
3	Safarov A.B.	t.f.f.d., dots.	BuxMTI
4	Hatamov I.A.	o'qituvchi	QarMII

№	Name of reference
1	Sadullayev N N Safarov A B Nematov Sh N Mamedov R A Abdujabarov A B 2020 Opportunities and prospects for the use of renewable energy sources in Bukhara region. Applied solar energy Vol. 56 № 4 P 410-421
2	Celso P 2004 Guide on How to Develop a Small Hydropower Plant European Small Hydropower Association – ESHA Vol 2 № 7 P 43-49
3	Renewables 2020 Global Status Report Retrieved from: https://www.ren21.net/wpcontent/uploads/2019/05/GSR2021_Full_Report.pdf
4	Nicolet C Zobeiri A Maruzewski P Avellan F 2011 Experimental Investigations on Upper Part Load Vortex Rope Pressure Fluctuations in Francis Turbine Draft Tube. International Journal of Fluid Machinery and Systems Vol 4 № 1 P 179-190
5	Vu T Koller M Gauthier M Deschenes C 2011Flow simulation and efficiency hill chart prediction for a Propeller turbine. International Journal of Fluid Machinery and Systems Vol 4 № 2 P 243-254
6	Kodirov D Tursunov O 2019 Calculation of Water Wheel Design Parameters for Micro Hydroelectric Power Station. E3S Web of Conferences 97 P 1-11
7	Sadullayev N N Safarov A B Mamedov R A Kodirov D 2020 Assessment wind and hydropower potential of Bukhara region. ―1st International Conference on Energetics, Civil and Agricultural Engineering‖ P 1-8
8	Butera I Balestra R 2015 Estimation of the hydropower potential of irrigation networks. Renewable and sustainable energy reviews P 140-151
9	Khamitov T G Mukhammadiev M M Klychev Sh I 2009 Technical and economic characteristics of small hydro power plants. Applied Solar Energy (English translation of Geliotekhnika) 45(4) P 307-308
10	2021 Hydropower Status Report Retrieved from: https://www.hydropower.org/publications/2021-hydropower-status-report
11	Mamedov R A 2021 Calculations of the resources of the gross hydropower potential of the Amu-Bukhara Canal using one-point and two-point methods. International scientific and technical conference: "Trends in the development of alternative and renewable energy: problems and solutions" Tashkent P 202-209
12	Mamedov R A Safarov A B Charyeva M R 2021 Analysis of the dependence of the Chezi coefficient in assessing the resources of the hydropower potential of irrigation canals in the Bukhara region. Scientific and technical journal "Alternative Energy" №1 P 52-60
13	W Müller 1899 Die Eisernen Wasserräder - Berechnung, Konstruktion und Wirkungsgrad (University of Wisconsin – Madison Germany) 167
14	Matthias H 2018 Analyse des Zuppinger-Wasserrades – Hydraulische Optimierungen unter Berücksichtigung ökologischer Aspekte (Universität Stuttgart Germany) 192
15	. Mukhammadiev M M Mamadiyarov E K Urishev B U Mukhammadiev S M 2012 Technological model of micro power facilities based on renewable energy sources with the energy storage. Applied Solar Energy (English translation of Geliotekhnika) 48(2) P 152-156
16	Adanta D Kurnianto M 2020 Effect of the number of blades on undershot waterwheel performance for straight blades. IOP Conf. Series: Earth and Environmental Science – Germany 431 P 1-6
17	Quaranta E Müller G 2018 Sagebien and Zuppinger water wheels for very low head hydropower applications. Journal of Hydraulic Research P 1-11
18	Nuembergk D M Trostdorf F Treiber G 2009 Untersuchung zum Wirkungsgrad eines Zuppinger-Wasserrades mit einer kreisförmigen Überfallschütze. Wasserbaukolloquium 2009: Wasserkraft im Zeichen des Klimawandels Dresdener Wasserbauliche Mitteilungen Р 359-368
19	Denny M 2004 The efficiency of overshot and undershot water wheels. European journal of physics 25 P 193–202
20	Kodirov D Tursunov O Khushiev S Bozarov O Tashkhodjaeva G Mirzaev S 2020 Mathematical description of water flow quantity for microhydroelectric station. IOP Conf. Series: Earth and Environmental Science P 1-9