Wind tunnel tests for vortex generators mitigating leading-edge roughness on a 30% thick airfoil
R Gutiérrez (Nordex Energy Spain S.A.U.)
Elena Llorente (Nordex Energy Spain S.A.U.)
F. Echeverría (Nordex Energy Spain S.A.U.)
Daniele Ragni (TU Delft - Wind Energy)
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Abstract
In this study, the aerodynamic performance of a thick airfoil is analysed, after installing leading-edge roughness to emulate a severe state on the airfoil surface. The impact on aerodynamic coefficients has been quantified using two roughness methods: zig-zag tape and sandpaper. Wind tunnel tests are carried out at a Reynolds number of 3•106. At low angles of attack, zig-zag tape and sandpaper provide comparable lift and drag coefficients but significant variations of these coefficients are obtained for high angles of attack. Stalled flow is the cause of the most significant variation on the airfoil performance between smooth and rough surface states. Vortex generators are adapted to recover the lift coefficient value previously given by the airfoil under smooth conditions. As a result, vortex generators are able to reduce the loss of lift and the sensitivity of the airfoil to the rough state.
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