Flow behavior of skewed vortex generators on a backward-facing ramp
The impact of skewness angle on the effectiveness of vortex generators (VGs) and the behavior of streamwise vortices on flow separation behind a backward-facing ramp (BFR) with a sharp transition were experimentally investigated using surface oil flow visualizations, planar and stereoscopic particle...
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sg-ntu-dr.10356-1556712022-03-15T08:21:00Z Flow behavior of skewed vortex generators on a backward-facing ramp Cheawchan, Atcha-uea Wen, Yiming Teo, Zhen Wei Ng, Bing Feng New, Tze How School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Flow Control Vortex Generator The impact of skewness angle on the effectiveness of vortex generators (VGs) and the behavior of streamwise vortices on flow separation behind a backward-facing ramp (BFR) with a sharp transition were experimentally investigated using surface oil flow visualizations, planar and stereoscopic particle image velocimetry measurements. Counter/corotating streamwise vortices were generated by a set of boundary layer-type rectangular VG located upstream of the BFR that comprised a flat- and 30-inclined sections with different skewness angles of 10°, 20°, and 30°. Local Reynolds number based on the VG location was Rex ≈ 3 × 106. Results show that the reattachment length was reduced by ∼45% when the VG was located five times its height ahead of the transition. Additionally, the behavior of the vortex core generated by the left vane displayed strong dependence on the skewness angle, whereby its vorticity magnitude and vortex instability increase with the skewness angle. Circulation magnitude and vortex radius of the left vortex core are also observed to be physically larger and less stable. In contrast, the vortex core produced by the right vane displays opposite behavior as the skewness angle increases. Lastly, the vortex core location is observed to fluctuate more in the vertical direction than horizontal direction. Submitted/Accepted version The research was supported by the Leonardo Company. 2022-03-15T08:21:00Z 2022-03-15T08:21:00Z 2021 Journal Article Cheawchan, A., Wen, Y., Teo, Z. W., Ng, B. F. & New, T. H. (2021). Flow behavior of skewed vortex generators on a backward-facing ramp. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 235(15), 2299-2314. https://dx.doi.org/10.1177/0954410021996181 0954-4100 https://hdl.handle.net/10356/155671 10.1177/0954410021996181 2-s2.0-85102420695 15 235 2299 2314 en Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering © 2021 IMechE. All rights reserved. This paper was published by SAGE Publishing in Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering and is made available with permission of IMechE. application/pdf |
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Engineering::Mechanical engineering Flow Control Vortex Generator Cheawchan, Atcha-uea Wen, Yiming Teo, Zhen Wei Ng, Bing Feng New, Tze How Flow behavior of skewed vortex generators on a backward-facing ramp |
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The impact of skewness angle on the effectiveness of vortex generators (VGs) and the behavior of streamwise vortices on flow separation behind a backward-facing ramp (BFR) with a sharp transition were experimentally investigated using surface oil flow visualizations, planar and stereoscopic particle image velocimetry measurements. Counter/corotating streamwise vortices were generated by a set of boundary layer-type rectangular VG located upstream of the BFR that comprised a flat- and 30-inclined sections with different skewness angles of 10°, 20°, and 30°. Local Reynolds number based on the VG location was Rex ≈ 3 × 106. Results show that the reattachment length was reduced by ∼45% when the VG was located five times its height ahead of the transition. Additionally, the behavior of the vortex core generated by the left vane displayed strong dependence on the skewness angle, whereby its vorticity magnitude and vortex instability increase with the skewness angle. Circulation magnitude and vortex radius of the left vortex core are also observed to be physically larger and less stable. In contrast, the vortex core produced by the right vane displays opposite behavior as the skewness angle increases. Lastly, the vortex core location is observed to fluctuate more in the vertical direction than horizontal direction. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Cheawchan, Atcha-uea Wen, Yiming Teo, Zhen Wei Ng, Bing Feng New, Tze How |
| format |
Article |
| author |
Cheawchan, Atcha-uea Wen, Yiming Teo, Zhen Wei Ng, Bing Feng New, Tze How |
| author_sort |
Cheawchan, Atcha-uea |
| title |
Flow behavior of skewed vortex generators on a backward-facing ramp |
| title_short |
Flow behavior of skewed vortex generators on a backward-facing ramp |
| title_full |
Flow behavior of skewed vortex generators on a backward-facing ramp |
| title_fullStr |
Flow behavior of skewed vortex generators on a backward-facing ramp |
| title_full_unstemmed |
Flow behavior of skewed vortex generators on a backward-facing ramp |
| title_sort |
flow behavior of skewed vortex generators on a backward-facing ramp |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155671 |
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1728433367922245632 |