…对浸入水中的双壁周围流动特性的研究。

Journal of the Korean Society of Mechanical Technology Pub Date : 2019-12-31 DOI:10.17958/ksmt.21.6.201912.1001

Kim Jin Gu, Jungeun Kim, Dongchul Kim

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引用次数: 0

摘要

当海上发生溢油事故时，最有效的措施是采用竖墙防油围栏。如何在考虑风速、浪高、水流方向等多种变量的情况下选择合适的油栅是一个很大的挑战。利用速度分布、速度轮廓、流线型等可视化分析技术，通过PIV实验研究了油栅垂直壁间流动特性中两壁以下的电流特性。在本研究中，为了最大限度地减少垂直壁面底部以下的漂浮物的流出，在各自不同的水速下，确定了两个垂直壁面之间的内部水流特征，并观察到在两个垂直壁面之间的某些地方发生了再循环流动和不规则涡。因此，研究表明，通过优化两个垂直壁之间的长度，可以在很大程度上减少油栅栏的破坏，如夹带破坏和沉没破坏。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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물속에 잠긴 이중벽 주위의 유동특성에 관한연구

When oil spill disaster on sea takes place, the most effective measure is to use oil fence with vertical wall. It has been big challenges that suitable oil fence in consideration of variety of variables such as wind speed, height of wave and current direction is chosen. And current characteristics below two of vertical wall was studied by PIV experiment with utilizing technic of visualized analysis like velocity distribution, contour of velocity and streamline pattern in flow characteristic between vertical wall of oil fence. In this study it is purposed to identify characteristics of inside water flow between two vertical walls depending on respective various water speeds to minimize outflow of floating article below bottom of vertical wall and observed that re-circulation flow and irregular vortex at certain places between two vertical walls occurred. Consequently, the study showed that failure of oil fence such as entrainment failure and submergence failure can be largely lessen by means of optimizing length between two vertical walls with water speeds.

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Journal of the Korean Society of Mechanical Technology

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