SELECTION OF THE WORKING BODY OF THE SAILING WPP AND PROOF OF THE IMPLEMENTATION OF REVERSE OSCILLATION TO OBTAIN ELECTRIC CURRENT
Mirzabayev B.
2025Levrotto and Bella
International Journal of Mechanics and Control
2025#26Issue 235 - 42 pp.
At present, alternative energy, technologies are experiencing a dynamic stage of development, with wind energy playing a particularly significant role in reducing and potentially eliminating dependence on conventional energy sources that contribute to global warming. However, the stable performance of traditional turbine-based wind power plants typically requires wind speeds to remain steady and above 10 m/s. Consequently, ongoing research is focused on enhancing the efficiency of wind power systems to achieve a higher conversion rate of wind’s kinetic energy into useful electrical power. This study introduces a low-capacity sail-type wind power plant (WPP). Unlike conventional WPPs, where rotor blades generate rotation primarily through aerodynamic lift, the sail-based configuration operates on a different principle. In this design, the working body undergoes oscillatory motion, converting wind energy into electricity by harnessing not only the lift force but also the drag force. Notably, the oscillatory motion of the working body is initiated at wind speeds as low as 2.5 m/s, which makes sail-type WPPs especially suitable for deployment in regions with varying or relatively moderate wind conditions.
computer modeling , dynamic model , parallel manipulator , toroidal sail , wind power plant
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M. Auezov South Kazakhstan University, Taukehan street 5, Shymkent, 16000, Kazakhstan
M. Auezov South Kazakhstan University
10 лет помогаем публиковать статьи Международный издатель
Книга Публикация научной статьи Волощук 2026 Book Publication of a scientific article 2026