NACA0009型水翼叶尖泄漏涡的数值研究

IF 1.8 3区 工程技术 Q3 ENGINEERING, MECHANICAL
Zhenqing Bi, Xueming Shao, Lingxin Zhang
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引用次数: 9

摘要

在叶尖间隙流动中,叶尖泄漏涡(TLV)是主导涡,它对轴流机械的水力和空化性能有重要影响。为了揭示间隙尺寸对TLV的影响机理,对τ=0.2 (2 mm)和τ=1.0 (10 mm)两种间隙尺寸下的间隙流动进行了数值研究。选择NACA0009型水翼来产生间隙流,来流速度为10米/秒,攻角为10度。结果表明,两种工况在涡特征和泄漏流分布上存在显著差异。在小间隙处出现一种喷流,而在大间隙处出现一种滚流。泄漏流的垂直速度梯度对TLV轨迹有决定性的影响。此外,对于较大的间隙,涡中心的轴向速度超过了来流。这种轴向速度的射流状状态可以保持较长的距离,使涡流更加稳定。然而,在τ=0.2的情况下,轴向速度不能停留在类射流状态,而迅速切换到类尾迹状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Study of Tip Leakage Vortex Around a NACA0009 Hydrofoil
In the tip clearance flow, the dominant vortex is the tip leakage vortex (TLV), which has a significant impact on the hydraulic and cavitation performance of axial flow machineries. In order to reveal the impact mechanism of the gap size on the TLV, gap flows with two gap sizes, i.e., τ=0.2 (2 mm) and τ=1.0 (10 mm), are numerically investigated. A NACA0009 hydrofoil is selected to create the gap flow, with an incoming velocity of 10 m/s and an attack angle of 10 deg. The results show that the two flow cases are significantly different in terms of vortex feature and the leakage flow distribution. In the small gap, a type of jet-pattern flow appears, whereas a type of rolling-pattern flow passes over the large gap. The vertical velocity gradient of the leakage flow has a decisive influence on the TLV trajectory. In addition, for the large gap, the axial velocity in the vortex center exceeds the incoming flow. This jet-like state of axial velocity can be maintained for a long distance, making the vortex more stable. However, the axial velocity in the case of τ=0.2 cannot stay at the jet-like state and rapidly switches to a wake-like state.
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来源期刊
CiteScore
4.60
自引率
10.00%
发文量
165
审稿时长
5.0 months
期刊介绍: Multiphase flows; Pumps; Aerodynamics; Boundary layers; Bubbly flows; Cavitation; Compressible flows; Convective heat/mass transfer as it is affected by fluid flow; Duct and pipe flows; Free shear layers; Flows in biological systems; Fluid-structure interaction; Fluid transients and wave motion; Jets; Naval hydrodynamics; Sprays; Stability and transition; Turbulence wakes microfluidics and other fundamental/applied fluid mechanical phenomena and processes
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