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W2983132240 startingPage "121" @default.
W2983132240 abstract "Abstract The ability of microramps to control shock - boundary layer interaction at the vicinity of an axisymmetric compression corner was investigated computationally in a Mach 4 flow. A cylinder/flare model with a flare angle of 25° was chosen for this study. Height (h) of the microramp device was 22% of the undisturbed boundary layer thickness (δ) obtained at the compression corner location. A single array of these microramps with an inter-device spacing of 7.5h was placed at three different streamwise locations viz. 5δ, 10δ and 15δ (22.7h, 45.41h and 68.12h in terms of the device height) upstream of the corner and the variations in the flowfield characteristics were observed. These devices modified the separation bubble structure noticeably by producing alternate upwash and downwash regions in the boundary layer. Variations in the separation bubble’s length and height were observed along the spanwise (circumferential) direction due to these devices." @default.
W2983132240 created "2019-11-22" @default.
W2983132240 creator A5034630740 @default.
W2983132240 creator A5050333187 @default.
W2983132240 creator A5059101054 @default.
W2983132240 date "2019-11-06" @default.
W2983132240 modified "2023-09-24" @default.
W2983132240 title "Effect of microramps on flare-induced shock – boundary-layer interaction" @default.
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W2983132240 doi "https://doi.org/10.1017/aer.2019.138" @default.
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