Abstract
This paper studies the effects of geometrical features on harbor seal whiskers on its force reduction ability. Each feature in the seal whisker is sequentially stripped from the original whisker shape. Four whisker-like geometries are created from such methodology. 3D simulations of flow around the structures are performed and the resulting forces on the structures are non-dimensionalized. The lift and drag coefficients of these structures are compared to the real whisker case. The undulations on minor and major axes are found to be necessary in reducing the lift forces. Existence of only one of the undulations fails to weaken the flow and break the vortex tubes and braids in the wake. The offset angle between leading edge and trailing edge are found to have slight effects on the lift and drag coefficients. The reduction in drag coefficient is found to be dependent on the existence of undulations in minor axis. The force responses of whisker-like geometries with undulations on one of their axes are found to be periodic. When the force response on whisker-like geometries with both undulations are found to be chaotic. Vortex shedding frequency of the structure is observed to decrease considerably when no offset angle is introduced into the geometry. This may result in longer lifespan of the structure.
Original language | English |
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Title of host publication | OCEANS 2013 MTS/IEEE Bergen |
Subtitle of host publication | The Challenges of the Northern Dimension |
DOIs | |
Publication status | Published - 2013 |
Externally published | Yes |
Event | OCEANS 2013 MTS/IEEE Bergen: The Challenges of the Northern Dimension - Bergen, Norway Duration: 10 Jun 2013 → 13 Jun 2013 |
Conference
Conference | OCEANS 2013 MTS/IEEE Bergen: The Challenges of the Northern Dimension |
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Country/Territory | Norway |
City | Bergen |
Period | 10/06/13 → 13/06/13 |
Keywords
- force response
- geometrical features
- seal whiskers
- simulations