微型涡喷发动机涡形喷管纹影技术的实验研究

IF 2.1 Q2 ENGINEERING, MULTIDISCIPLINARY Inventions Pub Date : 2023-11-14 DOI:10.3390/inventions8060145
Grigore Cican, Mihnea Gall, Alina Bogoi, Marius Deaconu, Daniel Eugeniu Crunțeanu
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引用次数: 0

摘要

关于亚音速射流噪声的产生,特别是关于微型涡轮喷气发动机的热射流,我们遇到了文献中缺乏最近的高分辨率数据,这些数据通过光学诊断来描述流场的实验验证。本文的目的是利用一种用于纹影式光学系统诊断的高速摄像机,研究和比较安装和不安装chevrons的微型涡喷发动机排气塞喷嘴对剪切层的影响。对基线配置和具有16个三角形线形的配置检查了三种不同的操作制度。与图像捕获相结合,声压级在一个垂直于气流的麦克风的帮助下被记录下来,距离喷嘴的排气0.4 m,并进一步处理。在定量方面,我们发现当发动机在更高的工况下工作时,OASPL降低了1%以上。此外,我们发现平均排气喷射角(衡量流体混合层质量的一个指标)相对于基线喷嘴增加了5%。通过使用纹影成像中的“最暗像素”技术,我们可以在实验中验证,对于所有的工作体制,理论断言亚音速射流噪声是精细尺度均匀湍流的结果。此外,潜在的新颖性在于与精细尺度涡流的一致色散有关的具体观测,以及漩涡的存在如何放大湍流场中的这种均匀性。
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Experimental Investigation of a Micro Turbojet Engine Chevrons Nozzle by Means of the Schlieren Technique
In connection with subsonic jet noise production, especially regarding the hot jet from a micro turbojet engine, we encountered a lack of recent high-resolution data in the literature describing the flow field using experimental validation through optical diagnoses. The objective of this paper is to examine and compare the influence on shear layers of the exhaust plug nozzle of a micro turbojet engine with and without chevrons mounted, using a high-speed camera used in Schlieren-type optical system diagnosis. Three different operating regimes are examined for both the baseline configuration and the configuration with 16 triangular-shaped chevrons. In conjunction with the image captures, the sound pressure level was recorded with the help of a microphone placed perpendicular to the flow, 0.4 m from the exhaust of the nozzle which was further processed. In quantitative terms, we found that the OASPL decreases by more than 1% when the engine is operating at higher regimes. Moreover, we found that the average exhaust jet angle, which is a measure of the quality of the fluid mixing layer is increased by 5% with respect to the baseline nozzle. By using the “darkest pixel” technique in Schlieren imaging, we can verify experimentally, for all working regimes, the theory that asserts that subsonic jet noise is a consequence of fine-scale homogeneous turbulence. Additionally, the potential novelty lies in the specific observations related to consistent dispersion of fine-scale eddies and how the presence of chevrons amplifies this uniformity within the turbulent field.
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来源期刊
Inventions
Inventions Engineering-Engineering (all)
CiteScore
4.80
自引率
11.80%
发文量
91
审稿时长
12 weeks
期刊最新文献
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