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Impact of trailing edge shape on the wake and propulsive performance of pitching panels

Impact of trailing edge shape on the wake and propulsive performance of pitching panels The effects of changing the trailing edge shape on the wake and propulsive performance of a pitching rigid panel are examined experimentally. The panel aspect ratio is AR = 1 , and the trailing edges are symmetric chevron shapes with convex and concave orientations of varying degree. Concave trailing edges delay the natural vortex bending and compression of the wake, and the mean streamwise velocity field contains a single jet. Conversely, convex trailing edges promote wake compression and produce a quadfurcated wake with four jets. As the trailing edge shape changes from the most concave to the most convex, the thrust and efficiency increase significantly. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physical Review Fluids American Physical Society (APS)

Impact of trailing edge shape on the wake and propulsive performance of pitching panels

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Impact of trailing edge shape on the wake and propulsive performance of pitching panels

Van Buren, T.; Floryan, D.; Brunner, D.; Senturk, U.; Smits, A. J.
Physical Review Fluids , Volume 2 (1): 10 – Jan 9, 2017

Abstract

The effects of changing the trailing edge shape on the wake and propulsive performance of a pitching rigid panel are examined experimentally. The panel aspect ratio is AR = 1 , and the trailing edges are symmetric chevron shapes with convex and concave orientations of varying degree. Concave trailing edges delay the natural vortex bending and compression of the wake, and the mean streamwise velocity field contains a single jet. Conversely, convex trailing edges promote wake compression and produce a quadfurcated wake with four jets. As the trailing edge shape changes from the most concave to the most convex, the thrust and efficiency increase significantly.

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References (15)

Publisher
American Physical Society (APS)
Copyright
©2017 American Physical Society
Subject
ARTICLES; Vortex Dynamics
ISSN
2469-990X
eISSN
2469-990X
DOI
10.1103/PhysRevFluids.2.014702
Publisher site
See Article on Publisher Site

Abstract

The effects of changing the trailing edge shape on the wake and propulsive performance of a pitching rigid panel are examined experimentally. The panel aspect ratio is AR = 1 , and the trailing edges are symmetric chevron shapes with convex and concave orientations of varying degree. Concave trailing edges delay the natural vortex bending and compression of the wake, and the mean streamwise velocity field contains a single jet. Conversely, convex trailing edges promote wake compression and produce a quadfurcated wake with four jets. As the trailing edge shape changes from the most concave to the most convex, the thrust and efficiency increase significantly.

Journal

Physical Review FluidsAmerican Physical Society (APS)

Published: Jan 9, 2017

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