Fast pressure-sensitive paint measurements of dynamic stall on a pitching airfoil via intensity- and lifetime-based methods

IF 1.7 4区计算机科学 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Visualization Pub Date : 2024-03-25 DOI:10.1007/s12650-024-00973-3

Lingrui Jiao, Zheyu Shi, Chunhua Wei, Shuai Ma, Xin Wen, Yingzheng Liu, Di Peng

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Abstract

This study investigated unsteady pressure measurements on a pitching OA309 airfoil at a Mach number of 0.1 using a fast-responding pressure-sensitive paint (fast PSP). Two commonly used data acquisition methods applicable to fast PSPs, namely the real-time intensity-based method and the single-shot lifetime-based method, were separately used to obtain the pressure distributions on the upper surface at a reduced pitching frequency (k = πfc/U_∞) of 0.074. The signal-to-noise ratio, influences of model motion, and temperature-induced errors associated with the two methods were compared to explore the advantages and disadvantages of the methods. The real-time intensity-based method outperformed the single-shot lifetime-based method in pressure measurements on moving models with very low speeds. Flow separation and reattachment were identified according to the temporal- and spatial-resolved pressure fields obtained through the real-time intensity-based method; finally, the effects of the pitching amplitude and the leading-edge vortex generators were studied. The results showed that flow separation was postponed as the pitching amplitude increased, while flow reattachment occurred earlier on the airfoil equipped with leading-edge vortex generators.

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通过基于强度和寿命的方法快速测量俯仰翼面动态失速的压敏涂料

本研究使用快速反应压敏涂料（快速压敏涂料）对马赫数为 0.1 的俯仰 OA309 机翼进行了非稳态压力测量。分别使用了两种适用于快速压敏涂料的常用数据采集方法，即基于实时强度的方法和基于单次寿命的方法，以获得在降低的俯仰频率（k = πfc/U∞）为 0.074 时上表面的压力分布。比较了两种方法的信噪比、模型运动的影响和温度引起的误差，以探讨两种方法的优缺点。在对速度极低的运动模型进行压力测量时，基于实时强度的方法优于基于单次寿命的方法。根据基于实时强度的方法获得的时间和空间分辨压力场，确定了流体分离和重新附着；最后，研究了俯仰振幅和前缘涡流发生器的影响。结果表明，随着俯仰振幅的增加，气流分离被推迟，而在装有前缘涡流发生器的机翼上，气流重新附着发生得更早。

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 Visualization COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY

CiteScore

3.40

自引率

5.90%

发文量

审稿时长

>12 weeks

期刊介绍： Visualization is an interdisciplinary imaging science devoted to making the invisible visible through the techniques of experimental visualization and computer-aided visualization. The scope of the Journal is to provide a place to exchange information on the latest visualization technology and its application by the presentation of latest papers of both researchers and technicians.