Mathematical modeling of the aerodynamic coefficients of a sail blade
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Advances in Aerodynamics
Abstract
The authors of the work numerically studied the aerodynamic coefficients of the
sail blade, during which the patterns of three-dimensional flow around airflow and
the pressure distribution field were obtained. The triangular sail blade is used as the
power element of wind turbines. The sail blade modeling was based on the Reynoldsaveraged
Navier–Stokes equations (RANS) using the ANSYS FLUENT computer program.
A flow pattern is obtained, which gives a physical explanation of the nature
of the airflow around the sail blade and the pressure distribution field. Comparative
analyses of theory and experiment are given. In the range of Reynolds numbers from
0.5 × 104
to 2.5 × 104,
the change in the drag force coefficient is from 1.04 to 0.54, and
the difference in the lift force coefficient is from 0.52 to 0.33.
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Citation
Mathematical modeling of the aerodynamic coefficients of a sail blade/Tleubergenova A.Zh. [et al.] // Advances in Aerodynamics - 2023 - №5(14) - pp.1-15.