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This article is cited in 1 scientific paper (total in 1 paper)
Numerical simulation of dynamics of vertical-axis wind turbines
V. G. Bobkov, A. E. Bondarev, V. T. Zhukov, K. V. Manukovskii, N. D. Novikova, O. B. Feodoritova
Abstract:
Computing technology designed to perform parametric studies of various configurations of vertical-axis wind turbines based on aerodynamic calculations is presented. The analysis of 3D aerodynamic flows connecting with the functioning of models of wind turbines is carried out. Numerical simulation of a turbine with three twisted blades is performed by setting the wind speed and the angular speed of rotation of the turbine in a certain range of values, as well as by changing the geometric parameters (width, length and angle of inclination of the blade) that determine the design of the turbine. The quasi-stationary periodic modes of the turbine are studied, the conditions for optimal rotation are found, and estimates of torque pulsations are obtained depending on the specified parameters.
Keywords:
computational aerodynamics, vertical axis wind turbine,
hydrodynamic torque.
Citation:
V. G. Bobkov, A. E. Bondarev, V. T. Zhukov, K. V. Manukovskii, N. D. Novikova, O. B. Feodoritova, “Numerical simulation of dynamics of vertical-axis wind turbines”, Keldysh Institute preprints, 2019, 119, 25 pp.
Linking options:
https://www.mathnet.ru/eng/ipmp2757 https://www.mathnet.ru/eng/ipmp/y2019/p119
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Abstract page: | 140 | Full-text PDF : | 89 | References: | 11 |
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