大型水翼船拖曳水箱试验的气泡捕获试验

Day 1 Mon, July 23, 2001 Pub Date : 2001-07-23 DOI:10.5957/attc-2001-003

R. Latorre, J. Billard, F. Moutant, O. Roussel

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引用次数: 0

摘要

通过实验研究了气泡与旋涡的相互作用，阐明了气泡初始位置对其沿大型水翼尖涡脱落轨迹的影响。用4-6毫米气泡进行的实验表明，它们可以不捕获，快速捕获到尖端涡或缓慢捕获到涡周围的螺旋轨迹。结果还揭示了气泡的结垢问题，对气泡的分析表明，在大型箔试验中，气泡呈球形-椭圆形状，当它们被缩放到空化隧道时，它们是球形微气泡。

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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Bubble Capture Tests with a Large Hydrofoil Towing Tank Test

The interaction of gas bubbles with a vortex is investigated experimentally to clarify the role of the initial bubble position on its trajectory around the tip vortex shed from a large hydrofoil. The experiments performed with 4-6 mm bubbles show they can undergo no capture, quick capture into the tip vortex or slow capture with a spiral trajectory around the vortex. The results also reveal a scaling problem, analysis of the bubbles shows that while the bubbles in the large-scale foil tests, have a spherical -elliptical shape when they are scaled to cavitation tunnel they are spherical microbubbles.

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Day 1 Mon, July 23, 2001

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