A Comparison of Steam Turbine Control Valve Geometries and Their Dynamic Behavior at Part Load

IF 1.3 Q2 ENGINEERING, AEROSPACE
Christian Windemuth, M. Lange, Ronald Mailach
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引用次数: 0

Abstract

A growing significance of flexible steam turbine operation challenges the control of turbines, as part load operation using control valves can be accompanied by highly unsteady flow conditions. The increased dynamic load induced by pressure forces can reduce the reliable operating range, weaken the valve, and lead to mechanical failures. The geometry of the valve plays a major role in the reduction of dynamic forces. Using a scaled control valve, experiments were conducted with a focus on the dynamic behavior of the valve head. A spherical valve shape favoring unstable operation was used as a reference case, and the desired instability was proven by measurements. Different modified valve geometries based on literature featuring separation edges were then tested against the spherical shape. Results indicate the improved stability of the modified geometries over the reference geometry. For most of the operating range, vibrations were drastically reduced, and the overall flow stabilized.
蒸汽轮机控制阀几何形状及其部分负荷下的动态行为比较
汽轮机灵活运行的重要性日益凸显,这对汽轮机的控制提出了挑战,因为使用控制阀的部分负荷运行可能会伴随着高度不稳定的流动条件。压力引起的动态负荷增加会缩小可靠的工作范围,削弱阀门的性能,并导致机械故障。阀门的几何形状在降低动态力方面起着重要作用。我们使用一个按比例缩小的控制阀进行了实验,重点研究阀头的动态行为。实验采用了有利于不稳定运行的球形阀门作为参考案例,并通过测量证明了所需的不稳定性。然后,根据文献中以分离边缘为特征的不同改进阀几何形状与球形进行了对比测试。结果表明,与参考几何形状相比,改进几何形状的稳定性有所提高。在大部分工作范围内,振动大幅减少,整体流量趋于稳定。
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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来源期刊
CiteScore
2.30
自引率
21.40%
发文量
29
审稿时长
11 weeks
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