带旋转涡绳的轴向旋流发生器内部流动的全局线性稳定性分析

IF 1.7 3区 工程技术 Q3 ENGINEERING, CIVIL Journal of Hydraulic Research Pub Date : 2022-11-22 DOI:10.1080/00221686.2022.2106591
Z. Seifi, M. Raisee, M. Cervantes
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引用次数: 1

摘要

在水轮机中,无论是混流式水轮机还是轴流式水轮机,在尾水管入口处的PL条件下都会产生高旋流,从而形成旋转涡绳(RVR)。这导致压力波动,限制了单调节涡轮机的操作范围。本文采用基于SST的尺度自适应仿真模型(SST SAS)紊流模型对某轴向水轮机进行了数值模拟,以获取螺旋RVR。考虑到RVR的形成是全局不稳定的结果,对时均湍流流场进行了线性全局稳定性分析。在轴向水轮机中首次研究了边界条件对旋涡绳失稳模态的影响,以及旋涡绳失稳与下陷或旋转频率的关系。研究发现,尾水管内的流动对频率接近旋转分量的不对称扰动非常敏感。
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Global linear stability analysis of flow inside an axial swirl generator with a rotating vortex rope
In hydraulic turbines, either Francis or axial turbines, a high swirling flow is generated at PL conditions at the inlet of the draft tube resulting in the formation of a rotating vortex rope (RVR). This leads to pressure fluctuations which limit the operating range of single regulated turbines. In the present study, an axial hydraulic turbine has been numerically simulated by the and SST-based Scale-Adaptive Simulation model (SST SAS) turbulent models to capture helical RVR. Considering the formation of the RVR as the result of a global instability, linear global stability analysis of the time-averaged turbulent flow field has been conducted. For the first time in axial hydraulic turbines, how boundary conditions affect the unstable mode and which frequency, plunging or rotating, is related to the vortex rope instability have been studied. It is found that the flow inside the draft tube is sensitive to the asymmetrical disturbances with a frequency close to the rotational component.
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来源期刊
Journal of Hydraulic Research
Journal of Hydraulic Research 工程技术-工程:土木
CiteScore
4.90
自引率
4.30%
发文量
55
审稿时长
6.6 months
期刊介绍: The Journal of Hydraulic Research (JHR) is the flagship journal of the International Association for Hydro-Environment Engineering and Research (IAHR). It publishes research papers in theoretical, experimental and computational hydraulics and fluid mechanics, particularly relating to rivers, lakes, estuaries, coasts, constructed waterways, and some internal flows such as pipe flows. To reflect current tendencies in water research, outcomes of interdisciplinary hydro-environment studies with a strong fluid mechanical component are especially invited. Although the preference is given to the fundamental issues, the papers focusing on important unconventional or emerging applications of broad interest are also welcome.
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