用防涡元件控制混流式水轮机尾水管内流动

Journal of Electrical Power & Energy Systems Pub Date : 2022-02-25 DOI:10.26855/jepes.2022.02.001

Deniz Sarper Semerci̇

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引用次数: 1

摘要

随着可再生能源的重要性随着能源需求的增加而增加，涡轮机的效率变得更加重要。混流式水轮机是水力发电厂使用的最常见的水轮机类型之一。在某些情况下，如甩负荷和高负荷运行，压力波动和涡的形成导致混流式水轮机效率和耐久性下降。为了防止这些影响，设计了一种新的涡流防止元件(VPE)。新设计的主要思想是采用防涡元件来减缓旋涡，提高流道叶片吸力侧的性能。这种新元件安装在涡轮转轮和尾水管之间。CFD分析是在有和没有VPE的情况下进行的。初步结果表明，只有一个螺旋元件的VPE在尾水管中的流动更为均匀。根据初步结果，新设计还提供了约4%的效率提高。

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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Controlling Flow in Draft Tube of Francis Turbine by Vortex Preventing Element

As importance of renewable energy sources increase with respect to energy demands, turbine efficiencies become more important. Francis turbines are one of the most common turbine types in use at hydroelectric power plants. In some cases such as load rejection and high load operations, pressure fluctuations and vortex formation cause Francis turbine efficiency and endurance to decrease. To prevent these effects, a new component named Vortex Preventing Element (VPE) is designed. The main idea of this new design is damping the swirling slow with Vortex Preventing Element and improving the performance of suction side of runner blades. This new element is mounted between turbine runner and draft tube. CFD analyses are carried out with and without VPE. Preliminary results show that VPE with having only one spiral element provides more uniform flow through the draft tube. According to the preliminary results, the new design also provides an efficiency increment about 4%.

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Journal of Electrical Power & Energy Systems

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