32nd AIAA Applied Aerodynamics Conference 2014
DOI: 10.2514/6.2014-2144
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Leading Edge Separation Control on an Airfoil in Fully-Reversed Condition

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Cited by 4 publications
(7 citation statements)
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“…[13,14,15,11]. The formation of small structures (such as those produced by high excitation Strouhal numbers) only results in partial reattachment [13,14,15,11]. This is also observed in the PIV data presented ( To an extent, this is also observed by the phase-locked PIV data in Closer examination of Figure 4.11, indicates that there is fairly monotonic relationship between the excitation Strouhal number and the lift peak.…”
Section: Firstly Thesupporting
confidence: 58%
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“…[13,14,15,11]. The formation of small structures (such as those produced by high excitation Strouhal numbers) only results in partial reattachment [13,14,15,11]. This is also observed in the PIV data presented ( To an extent, this is also observed by the phase-locked PIV data in Closer examination of Figure 4.11, indicates that there is fairly monotonic relationship between the excitation Strouhal number and the lift peak.…”
Section: Firstly Thesupporting
confidence: 58%
“…This behavior smooths out, as the excitation Strouhal number increases. given that higher excitation Strouhal numbers result in the formation of more, smaller structures further upstream on the airfoil which quickly develop, disintegrate, and dissipate [13,14,15,11]. Again, this is well captured by PIV data, shown in Figure 4.24.…”
Section: Firstly Thementioning
confidence: 73%
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