Characteristics of separated vortices generated from the tip of a cape

"Separation vortices are generated at the tip of a cape exposed to a tidal current perpendicular to the major axis of the cape. The boundary layer thickness increases with, increasing distance along the cape. Vortices are generated when the flow separates at the tip of the cape. An upwelling is...

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Veröffentlicht in:	Fisheries Engineering (Japan) 1998, Vol.35(2), pp.131-137
Hauptverfasser:	"Otake, S. (Fukui Prefectural Univ., Matsuoka (Japan)), Itosu, C, Nakamura, M, Okuno, J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Boundary layer Cape HYDRODYNAMICS Marine PHYSIOGRAPHIC FEATURES Separation vortex Strouhal number TIDES Upwelling WATER CURRENTS
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container_end_page	137
container_issue	2
container_start_page	131
container_title	Fisheries Engineering (Japan)
container_volume	35
creator	"Otake, S. (Fukui Prefectural Univ., Matsuoka (Japan)) Itosu, C Nakamura, M Okuno, J.
description	"Separation vortices are generated at the tip of a cape exposed to a tidal current perpendicular to the major axis of the cape. The boundary layer thickness increases with, increasing distance along the cape. Vortices are generated when the flow separates at the tip of the cape. An upwelling is generated due to the spin down of this separated vortex. This study examines the generation period and the strength (circulation) of the separated vortex by means of hydraulic experiments. The experimental results show that the Strouhal number is constant and does not depend on the Reynolds number when the flow condition is higher than a Reynolds of 300. The formation process of separated vortices is visible by these experiments. The strength of the separated vortex is related to the vorticity at the separation point. This vorticity is governed by the headland length, the current velocity and the Strouhal number. A theorem is proposed to describe the boundary layer development along a cape in which the boundary layer thickness increase along the cape is proportional to the headland length. This theorem shows good agreement with the experimental data."
doi_str_mv	10.18903/fisheng.35.2_131
format	Article
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(Fukui Prefectural Univ., Matsuoka (Japan)) ; Itosu, C ; Nakamura, M ; Okuno, J.</creator><creatorcontrib>"Otake, S. (Fukui Prefectural Univ., Matsuoka (Japan)) ; Itosu, C ; Nakamura, M ; Okuno, J.</creatorcontrib><description>"Separation vortices are generated at the tip of a cape exposed to a tidal current perpendicular to the major axis of the cape. The boundary layer thickness increases with, increasing distance along the cape. Vortices are generated when the flow separates at the tip of the cape. An upwelling is generated due to the spin down of this separated vortex. This study examines the generation period and the strength (circulation) of the separated vortex by means of hydraulic experiments. The experimental results show that the Strouhal number is constant and does not depend on the Reynolds number when the flow condition is higher than a Reynolds of 300. The formation process of separated vortices is visible by these experiments. The strength of the separated vortex is related to the vorticity at the separation point. This vorticity is governed by the headland length, the current velocity and the Strouhal number. A theorem is proposed to describe the boundary layer development along a cape in which the boundary layer thickness increase along the cape is proportional to the headland length. This theorem shows good agreement with the experimental data."</description><identifier>ISSN: 0916-7617</identifier><identifier>EISSN: 2189-7131</identifier><identifier>DOI: 10.18903/fisheng.35.2_131</identifier><language>eng</language><publisher>The Japanese Society of Fisheries Engineering</publisher><subject>Boundary layer ; Cape ; HYDRODYNAMICS ; Marine ; PHYSIOGRAPHIC FEATURES ; Separation vortex ; Strouhal number ; TIDES ; Upwelling ; WATER CURRENTS</subject><ispartof>Journal of Fisheries Engineering, 1998, Vol.35(2), pp.131-137</ispartof><rights>1998 The Japanese Society of Fisheries Engineering</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,1881,27922,27923</link.rule.ids></links><search><creatorcontrib>"Otake, S. 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The experimental results show that the Strouhal number is constant and does not depend on the Reynolds number when the flow condition is higher than a Reynolds of 300. The formation process of separated vortices is visible by these experiments. The strength of the separated vortex is related to the vorticity at the separation point. This vorticity is governed by the headland length, the current velocity and the Strouhal number. A theorem is proposed to describe the boundary layer development along a cape in which the boundary layer thickness increase along the cape is proportional to the headland length. This theorem shows good agreement with the experimental data."</description><subject>Boundary layer</subject><subject>Cape</subject><subject>HYDRODYNAMICS</subject><subject>Marine</subject><subject>PHYSIOGRAPHIC FEATURES</subject><subject>Separation vortex</subject><subject>Strouhal number</subject><subject>TIDES</subject><subject>Upwelling</subject><subject>WATER CURRENTS</subject><issn>0916-7617</issn><issn>2189-7131</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1998</creationdate><recordtype>article</recordtype><recordid>eNo9kE9Lw0AQxRdRsNR-AA9CTt5SZ3aSbHIsxfqHgh70vGy3s2kkTWI2Ffz2bkjxMjO8eTxmfkLcIiwxL4AeXOUP3JRLSpdSI-GFmMmwiVWYL8UMCsxilaG6Fgvvqx1IwrRIKZ-JzfpgemMH7is_VNZHrYs8d0EbeB_9tH0Q2UclNzxJrm-P0XDgaKi60Wwiazq-EVfO1J4X5z4Xn5vHj_VzvH17elmvtrFDSvN47wwk0hQSrEoUKIWQoMod272EHaoiSQuVQLg3mADyFCVnlOyyxEKRUU5zcT_ldn37fWI_6GPlLde1abg9eY2KICccjavJ-OUHU7Lu-upo-l9txodq1mdimlItxxJA_e9sQKK5CRl3U4YzrTZlIKRf3yUAASApoj-7j2_H</recordid><startdate>199812</startdate><enddate>199812</enddate><creator>"Otake, S. 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source	J-STAGE; AgriKnowledge（アグリナレッジ）AGROLib
subjects	Boundary layer Cape HYDRODYNAMICS Marine PHYSIOGRAPHIC FEATURES Separation vortex Strouhal number TIDES Upwelling WATER CURRENTS
title	Characteristics of separated vortices generated from the tip of a cape
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