2019
DOI: 10.1103/physrevfluids.4.074603
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Active flow control for drag reduction of a plunging airfoil under deep dynamic stall

Abstract: High-fidelity simulations are performed to study active flow control techniques for alleviating deep dynamic stall of a SD7003 airfoil in plunging motion. The flow Reynolds number is Re = 60,000 and the freestream Mach number is M = 0.1. Numerical simulations are performed with a finite difference based solver that incorporates high-order compact schemes for differentiation, interpolation and filtering on a staggered grid. A mesh convergence study is conducted and results show good agreement with available dat… Show more

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Cited by 29 publications
(29 citation statements)
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“…Some of the values for 𝐴 used in this work are: 0.060 (𝐶 𝜇 ≈ 1.511𝑒 − 3), 0.030 (𝐶 𝜇 ≈ 3.778𝑒 − 4) and 0.012 (𝐶 𝜇 ≈ 6.045𝑒 − 5). These values resemble those found in literature[23,[43][44][45] for flow actuation in airfoil flows. The variation of 𝐶 𝜇 along the wall with moving actuation is under 1% above and below the average.…”
supporting
confidence: 89%
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“…Some of the values for 𝐴 used in this work are: 0.060 (𝐶 𝜇 ≈ 1.511𝑒 − 3), 0.030 (𝐶 𝜇 ≈ 3.778𝑒 − 4) and 0.012 (𝐶 𝜇 ≈ 6.045𝑒 − 5). These values resemble those found in literature[23,[43][44][45] for flow actuation in airfoil flows. The variation of 𝐶 𝜇 along the wall with moving actuation is under 1% above and below the average.…”
supporting
confidence: 89%
“…In the present work, extremum seeking control is applied for real-time minimization of acoustic noise emitted by an airfoil. The pertinent control modules are implemented in a high-fidelity CFD simulation tool that has been validated for compressible flow applications [23,31]. Besides the ESC approach, some investigations proposed in this work alternatively use slope seeking control, which is suitable for cost functions that exhibit plateaus.…”
Section: Methodsmentioning
confidence: 99%
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“…Herein, time and frequency (Strouhal number) are presented non-dimensionalised by freestream velocity as t = t * U * ∞ /L * and St = f * L * /U * ∞ , respectively. The present numerical methodology has been extensively validated for various 2-D and 3-D simulations of compressible airfoil flows at different configurations (Wolf et al 2012a,b;Wolf, Azevedo & Lele 2013;Ramos et al 2019).…”
Section: Large Eddy Simulationmentioning
confidence: 99%