Proceedings of the Korea Committee for Ocean Resources and Engineering Conference (한국해양공학회:학술대회논문집)
- 2006.11a
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- Pages.420-425
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- 2006
Adaptive Stereoscopic-PIV System for the Analyses of the Flow-Structure-Interactions (FSI) of Air-Lifted Bodies
공기부양 물체의 유동-구조 연동운동 해석을 위한 능동형 스테레오-PIV 시스템
- Doh, Deog-Hee (Korea Maritime Univ., School of Mech. & Information Eng.) ;
- Hwang, Tae-Gyu (Georgia Inst. of Tech., Dept. of Mech. Eng.) ;
- Jo, Hyo-Je (Korea Maritime Univ., Div. of Ocean Systems Eng.) ;
- Tanaka, Kenji (Okanwto Co. Ltd.) ;
- Takei, Masahiro (Nihon Univ., Dept. of Mech. Eng.)
- Published : 2006.11.16
Abstract
Measurements results of flow-structure-interactions (FSI) of an air-lifted body are introduced. An adaptive stereoscopic-PIV system has been constructed for the measurements of the air-lifted body. The measurement system consists of two cameras and optical sensors. The flow characteristics around a lifted cylinder body(length=60mmm, diameter =10mm, polystyrene) in the swirling flow field in a vertical pipe (length=600mm, inner diameter=) are investigated by the use of the constructed adaptive stereoscopic-PIV system. The images of the two cameras were used for the analysis of the flow fields around the floated cylinder body. The images of the cylinder body captured by the two cameras were used for the analyses of its motions. Four optical sensors (LED) were used for the detection of the postures of the freely-lifted cylinder body. The FSI analyses have been carried out to find the physical conditions at which the floating body is stabilized with its upright postures.
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