2015
DOI: 10.2514/1.j052928
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Observation of Cross-Flow Instability Mode over a Yawed Cylinder at Mach 2

Abstract: Nomenclature Q ∞ = velocity in the freestream direction U ∞ = velocity in the chordwise direction perpendicular to the leading edge V ∞ = velocity in the spanwise direction parallel to the leading edge x = distance in the local external flow direction y = distance in the normal-to-wall direction z = distance in the direction perpendicular to both x and y α = real part of complex wave number in x direction β = real part of complex wave number in z direction λ = wavelength in the wave-number vector direction λ S… Show more

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Cited by 1 publication
(2 citation statements)
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(45 reference statements)
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“…14) under the present experimental condition predicts this wavelength to be 0.82 [mm]. Good agreement between experiment and analysis suggests that the striations may be attributable to the action of a row of stationary vortices originating from a cross-flow instability.…”
Section: Transition Study On 3-d Boundary Layersupporting
confidence: 64%
See 1 more Smart Citation
“…14) under the present experimental condition predicts this wavelength to be 0.82 [mm]. Good agreement between experiment and analysis suggests that the striations may be attributable to the action of a row of stationary vortices originating from a cross-flow instability.…”
Section: Transition Study On 3-d Boundary Layersupporting
confidence: 64%
“…This time-dependent modes peaking at approximately 60kHz and growing downstream as shown in Fig.10a may be identified with the cross-flow instability mode 14) . …”
Section: Transition Study On 3-d Boundary Layermentioning
confidence: 80%