Two-Dimensional Investigation of the Fundamentals of OGV Buffeting

IF 1.3 Q2 ENGINEERING, AEROSPACE International Journal of Turbomachinery, Propulsion and Power Pub Date : 2022-04-02 DOI:10.3390/ijtpp7020013

Jonah Harris, B. Lad, Sina Stapelfeldt

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Abstract

The increased demands of compact modern aero engine architectures have highlighted the problem of outlet guide vane (OGV) buffeting in off-design conditions. This structural response to aerodynamic excitations is characterised by increased vibration, risking structural fatigue. Investigations focused on understanding, mitigation and avoidance are therefore of high priority. OGV buffet is a type of transonic buffet caused by unsteady shock movement, but the exact parameters driving it are not fully understood. To try and understand them, this paper examines the buffet of a quasi-2D OGV geometry. Parametric studies of the incidence angle and inlet Mach number were performed. Forcing frequencies for both studies were found to be close to the experimentally detected frequency of vibration in the first bow mode, which demonstrates that buffet is driven by quasi-2D flow features. Increasing the inlet Mach number increased the dominant forcing frequency, whereas increasing the incidence yielded little change. Profiles of unsteady pressure amplitudes were shown to smoothly increase in magnitude with an increasing incidence and inlet Mach number.

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OGV抖振基础的二维研究

紧凑型现代航空发动机结构需求的增加突出了出口导叶（OGV）在非设计条件下的抖振问题。这种对空气动力学激励的结构响应的特点是振动增加，有结构疲劳的风险。因此，重点关注理解、缓解和避免的调查具有高度优先性。OGV抖振是一种由非定常激波运动引起的跨声速抖振，但驱动它的确切参数尚不完全清楚。为了尝试和理解它们，本文研究了准二维OGV几何的抖振。对入射角和进气道马赫数进行了参数研究。两项研究的强迫频率都接近第一弓形模式下实验检测到的振动频率，这表明抖振是由准二维流动特征驱动的。增加进气道马赫数增加了主强迫频率，而增加入射角几乎没有变化。非定常压力振幅的剖面图显示，随着入射角和入口马赫数的增加，振幅平稳增加。

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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