2020
DOI: 10.5194/wes-5-1075-2020
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Parametric slat design study for thick-base airfoils at high Reynolds numbers

Abstract: Abstract. Standard passive aerodynamic flow control devices such as vortex generators and gurney flaps have a working principle that is well understood. They increase the stall angle and the lift below stall and are mainly applied at the inboard part of wind turbine blades. However, the potential of applying a rigidly fixed leading-edge slat element at inboard blade stations is less well understood but has received some attention in the past decade. This solution may offer advantages not only under steady cond… Show more

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Cited by 8 publications
(17 citation statements)
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“…This observation might be affected by the accuracy of the drag measurements, especially when the wake rake is used. However, these trends are in line with the CFD results of Steiner et al (2020). For completeness, Fig.…”
Section: Sensitivity To Slat Positionsupporting
confidence: 88%
See 4 more Smart Citations
“…This observation might be affected by the accuracy of the drag measurements, especially when the wake rake is used. However, these trends are in line with the CFD results of Steiner et al (2020). For completeness, Fig.…”
Section: Sensitivity To Slat Positionsupporting
confidence: 88%
“…As expected, this increase is further amplified when 155 the contribution of the lift force on the slat is added (coloured dots). Again, the slat has a negligible effect on the drag force experienced by the main airfoil and the lift-to-drag ratios are consistent with those obtained by CFD simulations in similar conditions Steiner et al (2020).…”
Section: Sensitivity To Slat Positionsupporting
confidence: 87%
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