Correlation analysis of cavitation-induced pressure pulsation and vibration in a bulb turbine

IF 2.5 3区 工程技术 Journal of Hydrodynamics Pub Date : 2024-02-01 DOI:10.1007/s42241-024-0084-9
Tian-shu Li, Jian-jun Feng, Guo-jun Zhu, Yun-zhe Li, Xing-qi Luo
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引用次数: 0

Abstract

Cavitation is one of the main causes of deteriorating stability of bulb turbines. To enhance their stability, this study examines the effects of runner cavitation on draft tube pressure fluctuation and vibration in bulb turbine through experimental methods. With varying cavitation coefficients, a synchronous test system, including a high-speed camera, vibration acceleration sensors and pressure pulsation sensors, is applied to obtain cavitation images of the runner, vibration and internal fluid pressure pulsation data of the draft tube. The results show that the correlated component of pressure pulsation signals during the cavitation process is the synchronous pressure pulsation of 16fn With the development of cavitation, the amplitude of synchronous pressure pulsation increases first and then decreases. Cavitation enhances the high-frequency vibration on the wall of runner chamber. The root mean square (rms) of the vertical vibration component IMF3, the horizontal vibration components IMF2, IMF4 are linearly negatively correlated with the cavitation coefficient. The associated component between cavitation-induced vibration and pressure pulsation signal is 16fn and its harmonics. In the process of cavitation, pressure pulsation plays a leading role in vibration.

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灯泡式涡轮机中气蚀引起的压力脉动和振动的相关性分析
气蚀是导致灯泡贯流式水轮机稳定性下降的主要原因之一。为提高其稳定性,本研究通过实验方法研究了转轮气蚀对灯泡贯流式水轮机引流管压力波动和振动的影响。在空化系数变化的情况下,采用包括高速相机、振动加速度传感器和压力脉动传感器在内的同步测试系统,获取转轮的空化图像、振动和牵伸管内部流体压力脉动数据。结果表明,气蚀过程中压力脉动信号的相关分量是 16 fn 的同步压力脉动,随着气蚀的发展,同步压力脉动的振幅先增大后减小。空化增强了流道腔壁的高频振动。垂直振动分量 IMF3、水平振动分量 IMF2 和 IMF4 的均方根与空化系数呈线性负相关。空化诱导振动与压力脉动信号之间的关联分量为 16 fn 及其谐波。在空化过程中,压力脉动在振动中起主导作用。
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来源期刊
自引率
12.00%
发文量
2374
审稿时长
4.6 months
期刊介绍: Journal of Hydrodynamics is devoted to the publication of original theoretical, computational and experimental contributions to the all aspects of hydrodynamics. It covers advances in the naval architecture and ocean engineering, marine and ocean engineering, environmental engineering, water conservancy and hydropower engineering, energy exploration, chemical engineering, biological and biomedical engineering etc.
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