Prediction of leading-edge-vortex initiation using criticality of the boundary layer

Ramanathan Hariharan; Gopalarathnam Ashok

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Prediction of leading-edge-vortex initiation using criticality of the boundary layer

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The initiation of leading-edge-vortex formation in unsteady airfoil flows is governed by flow criticality at the leading edge. While earlier works demonstrated the promise of criticality of leading-edge suction in governing LEV shedding, this criterion is airfoil and Reynolds number dependent. In this work, by examining results from Navier-Stokes computations for a large set of pitching airfoil cases at laminar flow conditions, we show that the onset of flow reversal at the leading edge always corresponds to the boundary-layer shape factor reaching the same critical value that governs laminar flow separation in steady airfoil flows. Further, we show that low-order prediction of this boundary-layer criticality is possible with an integral-boundary-layer calculation performed using potential-flow velocity distributions from an unsteady panel method. The low-order predictions agree well with the high-order computational results with a single empirical offset that is shown to work for multiple airfoils. This work shows that boundary-layer criticality governs LEV initiation, and that a low-order prediction approach is capable of predicting this boundary-layer criticality and LEV initiation.

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《Theoretical and Computational Fluid Dynamics》 |2023年第3期|397-420|共24页
作者
Ramanathan Hariharan; Gopalarathnam Ashok;
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作者单位

North Carolina State Univ;

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原文格式 PDF
正文语种英语
中图分类流体力学;
关键词
Unsteady aerodynamics; LESP; Separated flows; Boundary layer separation; Vortical flows; REYNOLDS-NUMBER; DYNAMIC STALL; FLOW SEPARATION; AIRFOIL; LIFT; ONSET;

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Prediction of leading-edge-vortex initiation using criticality of the boundary layer

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