Alex Skillen scite author profile

International audienceThe stall-delaying properties of the humpback whale flipper have been observed and quantified in recent years, through both experimental and numerical studies. In the present work we report numerical simulations of an infinite span wing with an idealised representation of this geometry, at a Reynolds number of 1.2 × 105 . Us- ing Large Eddy Simulation, we first establish an adequate spatial resolution before also examining the spanwise extent of the domain. We then proceed to analyse these results to provide an explanation of the conditions that drive the lift observed be- yond the conventional stall angle. The undulating leading-edge geometry gives rise to a span-wise pressure gradient that drives a secondary flow towards the regions of minimum chord. In turn, this leads to the entrainment of higher-momentum fluid into the region behind the maximum chord, which energises the boundary layer and delays stall. Aside from demonstrating a significant post-stall lift, the undulations also have the added benefit of substantially reducing lift fluctuations

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Numerical prediction of local hot-spot phenomena in transformer windings

Skillen

Revell

Iacovides

et al. 2012

Applied Thermal Engineering

101

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Accuracy and efficiency improvements in synthetic eddy methods.

Skillen

Revell

Craft

2016

International Journal of Heat and Fluid Flow

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Alex Skillen

Incompressible smoothed particle hydrodynamics (SPH) with reduced temporal noise and generalised Fickian smoothing applied to body–water slam and efficient wave–body interaction

Flow over a Wing with Leading-Edge Undulations

Numerical prediction of local hot-spot phenomena in transformer windings

Accuracy and efficiency improvements in synthetic eddy methods.

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