PIV Analysis of Wake Structure of Real Elephant Seal Whiskers

Seals are able to accurately detect minute disturbances in the ambient flowenvironment using their whiskers, which is attributed to the exceptional capability oftheir whiskers to suppress vortex-induced vibrations in the wake. To explore potential applications for designing smart flow devices, such...

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Bibliographic Details
Main Author: Bunjevac, Joseph Antun
Format: Text
Language:unknown
Published: EngagedScholarship@CSU 2017
Subjects:
Undulating whiskers
vortex dynamics
seal whiskers
elephant seal
harbor seal
PIV
water channel
flow
vortex induced vibration
VIV
turbulence
vortex supression
undulations
Biomechanics
Fluid Dynamics
Biomechanical Engineering
Mechanical Engineering
Elephant Seal
Online Access:https://engagedscholarship.csuohio.edu/etdarchive/963
https://engagedscholarship.csuohio.edu/context/etdarchive/article/1995/viewcontent/JBunjevac_MasterThesis_2017_OhioLINK.pdf
id ftclevelandstate:oai:engagedscholarship.csuohio.edu:etdarchive-1995
record_format openpolar
spelling ftclevelandstate:oai:engagedscholarship.csuohio.edu:etdarchive-1995 2023-06-11T04:11:24+02:00 PIV Analysis of Wake Structure of Real Elephant Seal Whiskers Bunjevac, Joseph Antun 2017-01-01T08:00:00Z application/pdf https://engagedscholarship.csuohio.edu/etdarchive/963 https://engagedscholarship.csuohio.edu/context/etdarchive/article/1995/viewcontent/JBunjevac_MasterThesis_2017_OhioLINK.pdf unknown EngagedScholarship@CSU https://engagedscholarship.csuohio.edu/etdarchive/963 https://engagedscholarship.csuohio.edu/context/etdarchive/article/1995/viewcontent/JBunjevac_MasterThesis_2017_OhioLINK.pdf ETD Archive Undulating whiskers vortex dynamics seal whiskers elephant seal harbor seal PIV water channel flow vortex induced vibration VIV turbulence vortex supression undulations Biomechanics Fluid Dynamics Biomechanical Engineering Mechanical Engineering text 2017 ftclevelandstate 2023-05-07T16:41:02Z Seals are able to accurately detect minute disturbances in the ambient flowenvironment using their whiskers, which is attributed to the exceptional capability oftheir whiskers to suppress vortex-induced vibrations in the wake. To explore potential applications for designing smart flow devices, such as high-sensitivity underwaterflow sensors and drag reduction components, researchers have studied how the roleof some key parameters of whisker-like morphology affect the wake structure. Due tothe naturally presented variation in size and curvature along the length of whiskers,it is not well understood how a real whisker changes the surrounding flow and thevortex shedding behavior. This study aims to detail the flow statistics around a realElephant Seal whisker at low Reynolds numbers (i.e. one hundred) using particle image velocimetry in a water channel. Wake flow structures are inspected and comparedbetween two Elephant Seal whiskers (undulating) and a California Sea Lion whisker(smooth), along with idealized whisker-like models. Undulating whiskers significantlychange the mean flow properties and suppress turbulence intensities in the wake region as compared to the smooth whisker at the tested Re. The undulating whiskersare able to create a low turbulence intensity area directly behind the whiskers trailing,vproviding these whiskers with their Vortex Induced Vibration reduction properties. Text Elephant Seal harbor seal Cleveland State University: EngagedScholarship@CSU
institution Open Polar
collection Cleveland State University: EngagedScholarship@CSU
op_collection_id ftclevelandstate
language unknown
topic Undulating whiskers
vortex dynamics
seal whiskers
elephant seal
harbor seal
PIV
water channel
flow
vortex induced vibration
VIV
turbulence
vortex supression
undulations
Biomechanics
Fluid Dynamics
Biomechanical Engineering
Mechanical Engineering
spellingShingle Undulating whiskers
vortex dynamics
seal whiskers
elephant seal
harbor seal
PIV
water channel
flow
vortex induced vibration
VIV
turbulence
vortex supression
undulations
Biomechanics
Fluid Dynamics
Biomechanical Engineering
Mechanical Engineering
Bunjevac, Joseph Antun
PIV Analysis of Wake Structure of Real Elephant Seal Whiskers
topic_facet Undulating whiskers
vortex dynamics
seal whiskers
elephant seal
harbor seal
PIV
water channel
flow
vortex induced vibration
VIV
turbulence
vortex supression
undulations
Biomechanics
Fluid Dynamics
Biomechanical Engineering
Mechanical Engineering
description Seals are able to accurately detect minute disturbances in the ambient flowenvironment using their whiskers, which is attributed to the exceptional capability oftheir whiskers to suppress vortex-induced vibrations in the wake. To explore potential applications for designing smart flow devices, such as high-sensitivity underwaterflow sensors and drag reduction components, researchers have studied how the roleof some key parameters of whisker-like morphology affect the wake structure. Due tothe naturally presented variation in size and curvature along the length of whiskers,it is not well understood how a real whisker changes the surrounding flow and thevortex shedding behavior. This study aims to detail the flow statistics around a realElephant Seal whisker at low Reynolds numbers (i.e. one hundred) using particle image velocimetry in a water channel. Wake flow structures are inspected and comparedbetween two Elephant Seal whiskers (undulating) and a California Sea Lion whisker(smooth), along with idealized whisker-like models. Undulating whiskers significantlychange the mean flow properties and suppress turbulence intensities in the wake region as compared to the smooth whisker at the tested Re. The undulating whiskersare able to create a low turbulence intensity area directly behind the whiskers trailing,vproviding these whiskers with their Vortex Induced Vibration reduction properties.
format Text
author Bunjevac, Joseph Antun
author_facet Bunjevac, Joseph Antun
author_sort Bunjevac, Joseph Antun
title PIV Analysis of Wake Structure of Real Elephant Seal Whiskers
title_short PIV Analysis of Wake Structure of Real Elephant Seal Whiskers
title_full PIV Analysis of Wake Structure of Real Elephant Seal Whiskers
title_fullStr PIV Analysis of Wake Structure of Real Elephant Seal Whiskers
title_full_unstemmed PIV Analysis of Wake Structure of Real Elephant Seal Whiskers
title_sort piv analysis of wake structure of real elephant seal whiskers
publisher EngagedScholarship@CSU
publishDate 2017
url https://engagedscholarship.csuohio.edu/etdarchive/963
https://engagedscholarship.csuohio.edu/context/etdarchive/article/1995/viewcontent/JBunjevac_MasterThesis_2017_OhioLINK.pdf
genre Elephant Seal
harbor seal
genre_facet Elephant Seal
harbor seal
op_source ETD Archive
op_relation https://engagedscholarship.csuohio.edu/etdarchive/963
https://engagedscholarship.csuohio.edu/context/etdarchive/article/1995/viewcontent/JBunjevac_MasterThesis_2017_OhioLINK.pdf
_version_ 1768386459791785984

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