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渦法による浮体構造物の非線形波浪中挙動解析法の開発 : 第1報 : 自由表面下で振動する物体に働く流体力

発表形態:
原著論文
主要業績:
主要業績
単著・共著:
共著
発表年月:
2012年12月
DOI:
会議属性:
指定なし
査読:
有り
リンク情報:

日本語フィールド

著者:
大窪 慈生;永田 修一;今井 康貴;豊田 和隆;新里 英幸
題名:
渦法による浮体構造物の非線形波浪中挙動解析法の開発 : 第1報 : 自由表面下で振動する物体に働く流体力
発表情報:
日本船舶海洋工学会論文集 号: 16 ページ: 49-58
キーワード:
概要:
To utilize floating structure under heavy environmental condition in sea safely, motions of the floating body and the mooring forces acting on the body have to be reduced. To decrease these motions and mooring forces, fins attached structure has been proposed.In this paper, as a first step of the study, two vortex methods, the Random-Walk method and the Core-Spreading method, are applied to uniform flow past a circular cylinder and heaving fin plate under free surface. In the simulation of uniform flow, we conduct parametric study which helped us determine the numerical parameters to be used in subsequent simulations. Then, the simulated wake velocities are compared with experimental results to verify the calculation accuracy. In the simulation of heaving plate, hydrodynamic forces on the plate are simulated and compared with experimental results.
抄録:

英語フィールド

Author:
OKUBO Shigeki;NAGATA Shuichi;IMAI Yasutaka;TOYOTA Kazutaka;NIIZATO Hideyuki
Title:
Simulation of Floating Body in Nonlinear Wave by Vortex Methods : Part1, Hydrodynamic Forces acting on Heaving Body under Free Surface
Announcement information:
Journal of the Japan Society of Naval Architects and Ocean Engineers Issue: 16 Page: 49-58
An abstract:
To utilize floating structure under heavy environmental condition in sea safely, motions of the floating body and the mooring forces acting on the body have to be reduced. To decrease these motions and mooring forces, fins attached structure has been proposed.In this paper, as a first step of the study, two vortex methods, the Random-Walk method and the Core-Spreading method, are applied to uniform flow past a circular cylinder and heaving fin plate under free surface. In the simulation of uniform flow, we conduct parametric study which helped us determine the numerical parameters to be used in subsequent simulations. Then, the simulated wake velocities are compared with experimental results to verify the calculation accuracy. In the simulation of heaving plate, hydrodynamic forces on the plate are simulated and compared with experimental results.


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