Research Information System
PROGRESS IN COMPUTATIONAL FLUID DYNAMICS, vol.1, pp.1-25, 2023 (SCI-Expanded)
Aerodynamic performance of SD7062 airfoil in two-dimensional unsteady flows at
high Reynolds number (Re ≈ 5x10^6
) has been investigated numerically for a wide range of
angles of attack. The k-ω SST turbulence model is used to predict turbulent flow behaviour.
Time-averaged aerodynamic coefficients of unsteady simulations are compared with the steady
CFD solutions, and the discrepancies between the results are discussed. Laminar separation
bubble parameters such as length, height of the separation bubble, and the separation and the
reattachment points are evaluated based on the mean velocity streamlines, pressure and skin
friction coefficients around SD7062 airfoil. Vortex patterns are classified into five different
modes, but only three of them are observed in the analysed configurations. The study reveals that
oscillation in aerodynamic coefficients and vortex shedding in the wake are observed above AoA = 19.5°. Two-dimensional analyses are also compared with the three-dimensional analyses at
various pre-and post-stall conditions