The Structure of a Three Dimensional Tip Vortex at High Reynolds Numbers

Day 1 Tue, August 08, 1989 Pub Date : 1989-08-08 DOI:10.1115/1.2909524
D. R. Stinebring, K. Farrell, M. Billet
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引用次数: 32

Abstract

The tip vortex structure of a three dimensional hydrofoil at high Reynolds number was measured experimentally in both the 48-in (1.22- m) diameter water tunnel and the 48-in (1.22-m) wind tunnel at the Applied Research Laboratory, Penn State. The flow on and near the hydrofoil was measured using a number of flow visualization techniques, laser velocimetry (tip boundary layers) and pressure taps. The downstream tip vortex was measured with a three-component laser velocimeter at a number of streamwise positions with a detailed planar mapping of the flow in the region of cavitation inception. The effect of Reynolds number and applied tip roughness on the downstream tip vortex was investigated. In addition, the importance of the unsteady pressure fluctuations in the core on cavitation inception is discussed.
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高雷诺数下三维尖端涡的结构
在宾夕法尼亚州立大学应用研究实验室的48-in (1.22-m)直径水洞和48-in (1.22-m)风洞中,实验测量了高雷诺数下三维水翼的叶尖涡结构。利用流动可视化技术、激光测速技术(尖端边界层)和压力抽头对水翼上和水翼附近的流动进行了测量。用三分量激光测速仪在多个流向位置测量了下游叶尖涡,并对空化起始区域的流动进行了详细的平面映射。研究了雷诺数和外加叶尖粗糙度对下游叶尖涡的影响。此外,还讨论了岩心非定常压力波动对空化产生的重要性。
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Day 1 Tue, August 08, 1989
Day 1 Tue, August 08, 1989
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