From the track to the ocean : using flow control to improve marine bio-logging tags for cetaceans

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Fiore, Giovani
Anderson, Erik J.
Garborg, C. Spencer
Murray, Mark M.
Johnson, Mark P.
Moore, Michael J.
Howle, Laurens
Shorter, K. Alex
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Bio-logging tags are an important tool for the study of cetaceans, but superficial tags inevitably increase hydrodynamic loading. Substantial forces can be generated by tags on fast-swimming animals, potentially affecting behavior and energetics or promoting early tag removal. Streamlined forms have been used to reduce loading, but these designs can accelerate flow over the top of the tag. This non-axisymmetric flow results in large lift forces (normal to the animal) that become the dominant force component at high speeds. In order to reduce lift and minimize total hydrodynamic loading this work presents a new tag design (Model A) that incorporates a hydrodynamic body, a channel to reduce fluid speed differences above and below the housing and wing to redirect flow to counter lift. Additionally, three derivatives of the Model A design were used to examine the contribution of individual flow control features to overall performance. Hydrodynamic loadings of four models were compared using computational fluid dynamics (CFD). The Model A design eliminated all lift force and generated up to ~30 N of downward force in simulated 6 m/s aligned flow. The simulations were validated using particle image velocimetry (PIV) to experimentally characterize the flow around the tag design. The results of these experiments confirm the trends predicted by the simulations and demonstrate the potential benefit of flow control elements for the reduction of tag induced forces on the animal.
This is an open access article, free of all copyright. The definitive version was published in PLoS ONE 12 (2017): e0170962, doi:10.1371/journal.pone.0170962.
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PLoS ONE 12 (2017): e0170962
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