EXPERIMENTAL STUDIES OF THE PERFORMANCE EFFICIENCY OF A WIND TURBINE WITH COMBINED BLADES

EXPERIMENTAL STUDIES OF THE PERFORMANCE EFFICIENCY OF A WIND TURBINE WITH COMBINED BLADES

Authors

DOI:

https://doi.org/10.31489/2024No2/31-37

Keywords:

wind turbine, combined blades, wind tunnel T-1-M, flow velocity, drag force, lift force, Reynolds number

Abstract

This article studies the aerodynamic characteristics of a wind turbine at different streamline parameters. For this purpose, an experimental sample of the plant with combined power elements in rotating cylinders form with fixed blades was fabricated. The airflow velocity was varied, ranging from 3 to 12 m/s. The results of the experiment to study the variation of the angle α of the fixed blade position relative to the cylinder from the air flow velocity were analyzed. The changes in aerodynamic forces from the air flow velocity are graphically presented. It was found that at the optimal angle α = 0 ° of the fixed blade relative to the cylinder, the maximum values of aerodynamic forces were obtained. Graphs of the dependence of aerodynamic coefficients on the Reynolds number are also constructed, in which it is established that, at α= 0º, the minimum value of the lift coefficient is 0.012 N and the maximum value of the drag coefficient is 10.07 N at Re = 1∙105. The presented results show the effectiveness of the combined use of the and the fixed blade. The experimental results obtained on the aerodynamic parameters of a wind turbine can be used in the development of prototypes of installations designed for low wind speeds.

Author's detail

Tleubergenova A.Zh.

Tleubergenova, Akmaral Zharylkasynovna – PhD student, E.A. Buketov Karaganda University, Karaganda, Kazakhstan; https://orcid.org/0009-0009-5152-0050; akmaral.tzh7@mail.ru

Dyusembayeva A.N.

Dyusembayeva, Ainur Nurtaevna – PhD, Postdoctoral fellow, E.A. Buketov Karaganda University, Karaganda, Kazakhstan; https://orcid.org/0000-0001-6627-7262; aikabesoba88@mail.ru

Tanasheva N.K.

Tanasheva, Nazgul Kadyralievna – PhD, Associate Professor, E.A. Buketov Karaganda University, Karaganda, Kazakhstan; https://orcid.org/0000-0003-4273-0960; nazgulya_tans@mail.ru

Bakhtybekova A.R.

Bakhtybekova, Asem Ravshanbekovna– PhD,Researcher, E.A. Buketov Karaganda University, Karaganda, Kazakhstan; https://orcid.org/0000-0002-2018-8966; asem.alibekova@inbox.ru

Kutumova Zh.B.

Kutumova, Zhibek Baysultanovna – Master (Sci.) Senior Lecture, E.A. Buketov Karaganda University, Karaganda, Kazakhstan; https://orcid.org/0009-0001-1392-6457; zhibek_kutumova@mail.ru

Mukhamedrakhim A.R.

Mukhamedrakhim, Almat Ramazanuly – Student, E.A. Buketov Karaganda University, Karaganda, Kazakhstan; https://orcid.org/0009-0003-4242-6114; almatmuhamedrahim@gmail.com

References

Tasneem Z., Noman A.A., Das S. K., Saha D. K., Islam R., Ali F., Badal F.R., Ahamed H., Moyeen S. I., Alam F. (2020) An analytical review on the evaluation of wind resource and wind turbine for urban application: Prospect and challenges. Developments in the Built Environment. 4, 100033. DOI:10.1016/j.dibe.2020.100033.

Boiko N. (2023) Winds of change in the economy of Kazakhstan's future. Available at: https://dknews.kz/ru/eksklyuziv-dk/293675-veter-peremen-v-ekonomike-budushchego-kazahstana. [in Russian]

Yershina A.K., Sakipova S.E. (2020) A method for increasing the efficiency of a wind turbine. Eurasian Physical Technical Journal. 17, 2(34), 73 – 77. DOI:10.31489/2020No2/73-77.

Mabrouk I.B., El Hami A. (2019). Effect of number of blades on the dynamic behavior of a Darrieus turbine geared transmission system. Mechanical Systems and Signal Processing, 121, 562-578. DOI:10.1016/j.ymssp.2018.11.048.

Kishinami K., Taniguchi H., Suzuki J., Ibano H., Kazunou T., Turuhami M. (2005). Theoretical and experimental study on the aerodynamic characteristics of a horizontal axis wind turbine. Energy, 30(11-12), 2089-2100. DOI:10.1016/j.energy.2004.08.015.

Fujisawa,N., Gotoh F. (1994) Experimental study on the aerodynamic performance of a Savonius rotor. DOI:10.1115/1.2930074.

Shigemitsu T., Fukutomi J., Toyohara M. (2016) Performance and flow condition of cross-flow wind turbine with a symmetrical casing having side boards. International Journal of Fluid Machinery and Systems, 9(2), 169-174. https://doi.org/10.5293/IJFMS.2016.9.2.169

Tanasheva, N.K., Tleubergenova, A.Zh., Shaimerdenova, K.M., Minkov, L.L. & Uzbergenova, S.Zh.(2021). Investigation of the aerodynamic forces of a triangular wind turbine blade for the low wind speeds. Eurasian physical technical journal, 18(4 (38)), 59-64. DOI:10.31489/2021No4/59-64.

Tleubergenova A.Z., Dyusembayeva A.N., Tanasheva N.K., Kyzdarbekova S.S., Mukhamedrakhim A.R. (2023) Analysis of aerodynamic characteristics of a two-bladed wind power plant containing combined power elements. Bulletin of the Karaganda University" Physics Series", 111(3), 143-150. DOI:10.31489/2023ph3/143-150.

Battisti L., Benini E., Brighenti A., Dell’Anna S., Castelli M.R. (2018) Small wind turbine effectiveness in the urban environment. Renewable energy, 129, 102-113. DOI:10.1016/j.renene.2018.05.062.

Luo D., Huang D., Wu G. (2011) Analytical solution on Magnus wind turbine power performance based on the blade element momentum theory. Journal of Renewable and Sustainable Energy, 3(3). DOI:10.1063/1.3588039.

Lukin A., Demidova G.L., Lukichev D.V., Rassõlkin A., Kallaste A., Vaimann T., Belahcen A. (2020). Experimental prototype of high-efficiency wind turbine based on magnus effect. 27th International Workshop on Electric Drives: MPEI Department of Electric Drives 90th Anniversary (IWED). 1-6. DOI:10.1109/IWED48848.2020.9069565.

Tanasheva N.K., Bakhtybekova A.R., Shaimerdenova G.S., Sakipova S.E., Shuyushbaeva N. (2022) Modeling aerodynamic characteristics of a wind energy installation with rotating cylinder blades on the basis of the Ansys Suite. Journal of Engineering Physics and Thermophysics, 95(2), 457-463. DOI:10.1007/s10891-022-02500-3.

Tleubergenova A.Z., Tanasheva N.K., Shaimerdenova K. M., Kassymov S.S., Bakhtybekova A.R., Shuyushbayeva N.N., Ranova G.A. (2023) Mathematical modeling of the aerodynamic coefficients of a sail blade. Advances in Aerodynamics, 5(1), 14. DOI:10.1186/s42774-023-00140-6.

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Received

2023-02-16

Revised

2024-05-03

Accepted

2024-06-21

Published online

2024-06-29

How to Cite

Tleubergenova, A., Dyusembayeva, A., Tanasheva, N., Bakhtybekova, A., Kutumova, Z., & Mukhamedrakhim, A. (2024). EXPERIMENTAL STUDIES OF THE PERFORMANCE EFFICIENCY OF A WIND TURBINE WITH COMBINED BLADES. Eurasian Physical Technical Journal, 21(2(48), 31–37. https://doi.org/10.31489/2024No2/31-37

Issue

Section

Energy
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