Flow instability effects related to purge through a gas turbine chute seal

IF 1.1 Q4 ENGINEERING, MECHANICAL

Journal of the Global Power and Propulsion Society Pub Date : 2020-09-09 DOI:10.33737/gpps20-tc-82

A. Roy, J. Fridh, James A. Scobie, C. Sangan, G. Lock

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引用次数: 2

Abstract

This paper investigates flow instabilities inside the cavity formed between the stator and rotor disks of a high-speed turbine rig. The cavity rim seal is of chute seal design. The influence of flow coefficient on the sealing effectiveness at constant purge flow rate through the wheel-space is determined. The effectiveness at different radial positions over a range of purge flow conditions and flow coefficients is also studied. Unsteady pressure measurements have identified the frequency of instabilities that form within the rim seal, phenomena which have been observed in other studies. Frequencies of these disturbances, and their correlation in the circumferential direction have determined the strength and speed of rotation of the instabilities within the cavity. Large scale unsteady rotational structures have been identified, which show similarity to previous studies. These disturbances have been found to be weakly dependent on the purge flow and flow coefficients, although an increased purge reduced both the intensity and speed of rotation of the instabilities. Additionally, certain uncorrelated disturbances have been found to be inconsistent (discontinuous) with pitchwise variation.

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通过燃气轮机斜槽密封的气流不稳定性影响

本文研究了某高速涡轮装置定子与转子盘间空腔内的流动不稳定性。腔缘密封采用斜槽密封设计。确定了在一定吹扫流量下，流量系数对轮距内密封效果的影响。在不同的径向位置，在不同的吹扫流动条件和流动系数范围内的有效性也进行了研究。非定常压力测量已经确定了在边缘密封内形成不稳定的频率，这一现象已经在其他研究中观察到。这些扰动的频率及其在周向上的相关性决定了腔内不稳定性的旋转强度和速度。发现了大尺度非定常旋转结构，这与以往的研究结果相似。这些扰动对吹扫流量和流量系数的依赖性较弱，尽管吹扫的增加降低了不稳定性的旋转强度和速度。此外，某些不相关的干扰已被发现是不一致的(不连续的)与音调方向的变化。

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

Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

8 weeks