MF研究者総覧

教員活動データベース

渦法による自由表面下で強制振動する平板周りの流場解析 - 流速と渦度を未知量とした基礎式に基づく2 次元粘性流体解析 -

発表形態:
一般講演(学術講演を含む)
主要業績:
主要業績
単著・共著:
共著
発表年月:
2019年
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:
岡本 豊;永田 修一;今井 康貴;新里 英幸
題名:
渦法による自由表面下で強制振動する平板周りの流場解析 - 流速と渦度を未知量とした基礎式に基づく2 次元粘性流体解析 -
発表情報:
日本船舶海洋工学会論文集 巻: 29 号: 0 ページ: 25 - 37
キーワード:
概要:

Fins are often installed on submerged parts of a floating structure to reduce its motion in waves. It is expected that its kinetic energy is reduced by vortex generated from fins because its energy is converted into vortex energy around fins. To utilize this method, numerical analysis method for viscous fluid is required to decide the optimum shape and installation position of these fins. For this problem, authors proposed 2D numerical analysis method in time domain, using vortex method that can consider the fluid viscosity and calculated motions and primary conversion efficiency of a floating OWC-type wave energy converter in waves. In this method, unknown quantities are vorticity and stream function. As a next step, vortex method should be expanded to 3D problem so that it will be applied to actual design for floating structure, however its method can't be applied because stream function isn't defined in 3D problem. Therefore, development of vortex method using vorticity and velocity as unknown quantities is required. In this paper, by restricting to 2D problem, the vortex method using these unknown quantities is applied to flow field around a 2D cylinder in uniform flow and a forced oscillation problem of a submerged plate under the free surface. We carry out the comparison between calculation and experimental results, confirming its effectivity and reliability.

抄録:

英語フィールド

Author:
Okamoto Yutaka;Nagata Shuichi;Imai Yasutaka;Niizato Hideyuki
Title:
Flow Field Analysis around the Forced Oscillating Plate under the Free Surface by Vortex Method — 2D Viscous Fluid Analysis Based on Fundamental Equations Using Velocity and Vorticity as Unknown Quantities —
Announcement information:
Journal of the Japan Society of Naval Architects and Ocean Engineers Vol: 29 Issue: 0 Page: 25 - 37
An abstract:

Fins are often installed on submerged parts of a floating structure to reduce its motion in waves. It is expected that its kinetic energy is reduced by vortex generated from fins because its energy is converted into vortex energy around fins. To utilize this method, numerical analysis method for viscous fluid is required to decide the optimum shape and installation position of these fins. For this problem, authors proposed 2D numerical analysis method in time domain, using vortex method that can consider the fluid viscosity and calculated motions and primary conversion efficiency of a floating OWC-type wave energy converter in waves. In this method, unknown quantities are vorticity and stream function. As a next step, vortex method should be expanded to 3D problem so that it will be applied to actual design for floating structure, however its method can't be applied because stream function isn't defined in 3D problem. Therefore, development of vortex method using vorticity and velocity as unknown quantities is required. In this paper, by restricting to 2D problem, the vortex method using these unknown quantities is applied to flow field around a 2D cylinder in uniform flow and a forced oscillation problem of a submerged plate under the free surface. We carry out the comparison between calculation and experimental results, confirming its effectivity and reliability.



Copyright © MEDIA FUSION Co.,Ltd. All rights reserved.