Wavy Whiskers in Wakes:Explaining the Trail-Tracking Capabilities of Whisker Arrays on Seal Muzzles

Seals can detect prey up to 180 m away using only their flow-sensing whiskers. The unique undulating morphology of Phocid seal whiskers reduces vortex-induced vibrations (VIVs), rendering seals highly sensitive to biologically relevant flow stimuli. In this work, digital models of harbor and grey se...

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Bibliographic Details
Published in:Advanced Science
Main Authors: Zheng, Xingwen Zheng, Kamat, Amar M, Cao, Ming, Kottapalli, Ajay Giri Prakash
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Seal whisker
Microelectromechanical systems
bioinspiration
biomimetic
Sensors
harbor seal
Online Access:https://hdl.handle.net/11370/b6246e29-c14a-4327-8e2f-e87f6d2cf891
https://research.rug.nl/en/publications/b6246e29-c14a-4327-8e2f-e87f6d2cf891
https://doi.org/10.1002/advs.202203062
https://pure.rug.nl/ws/files/645672636/Advanced_Science_2022_Zheng_Wavy_Whiskers_in_Wakes_Explaining_the_Trail_Tracking_Capabilities_of_Whisker_Arrays_on.pdf
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Summary:Seals can detect prey up to 180 m away using only their flow-sensing whiskers. The unique undulating morphology of Phocid seal whiskers reduces vortex-induced vibrations (VIVs), rendering seals highly sensitive to biologically relevant flow stimuli. In this work, digital models of harbor and grey seal whiskers are extracted using 3D scanning and a mathematical framework that accurately recreates their undulating geometry is proposed. Through fluid–structure interaction studies and experimental investigations involving a whisker array mounted on 3D-printed microelectromechanical systems sensors, the vibration characteristics of the whisker array and the interaction between neighboring whiskers in steady flows and fish-wake-like vortices are explained for the first time. Results reveal that the downstream vortices intensity and resulting VIVs are consistently lower for grey than harbor seal whiskers and a smooth cylinder, suggesting that the grey seal whisker geometry can be an ideal template for the biomimetic design of VIV-resistant underwater structures. In addition, neighboring whiskers in an array influence one another by resulting in greater flow vorticity fluctuation and distribution area, thus causing increased vibrations than an isolated whisker, which indicates the possibility of a signal-strengthening effect in whisker arrays.

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