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Background Oriented Schlieren Implementation in a Jet-Surface Interaction Test.

机译：面向背景的schlieren在射流 - 表面相互作用测试中的实现。

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Many current and future aircraft designs rely on the wing or other aircraft surfaces to shield the engine noise from observers on the ground. However the available data regarding how a planar surface interacts with a jet to shield and/or enhance the jet noise are currently limited. Therefore, the Jet-Surface Interaction Tests supported by NASA's Fundamental Aeronautics Program's Fixed Wing Project were undertaken to supply experimental data covering a wide range of surface geometries and positions interacting with high-speed jet flows in order to support the development of noise prediction methods. Phase 1 of the Test was conducted in the Aero-Acoustic Propulsion Laboratory at NASA Glenn Research Center and consisted of validating noise prediction schemes for a round nozzle interacting with a planar surface. Phased array data and far-field acoustic data were collected for both the shielded and reflected sides of the surface. Phase 1 results showed that the broadband shock noise was greatly reduced by the surface when the jet was operated at the over-expanded condition, however, it was unclear whether this reduction was due a change in the shock cell structure by the surface. In the present study, Background Oriented Schlieren is implemented in Phase 2 of the Jet-Surface Interaction Tests to investigate whether the planar surface interacts with the high-speed jet ow to change the shock cell structure. Background Oriented Schlieren data are acquired for under-expanded, ideally-expanded, and over-expanded ow regimes for multiple axial and radial positions of the surface at three different plate lengths. These data are analyzed with far-field noise measurements to relate the shock cell structure to the broadband shock noise produced by a jet near a surface.

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作者
Clem, M. M.; Brown, C. A.; Fagan, A.;
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年度 2013
页码 1-14
总页数 14
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Jet aircraft noise; Surface reactions; Aeroacoustics; Acoustic properties; Aerodynamic noise; Noise measurement; Prediction analysis techniques; Phased arrays; Shock waves; Far fields; High speed; Fixed wings;

机译：喷气式飞机噪声;表面反应;气动声学;声学特性;空气动力学噪声;噪声测量;预测分析技术;相控阵;冲击波;远场;高速;固定翼;

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专利

1. Assessment and application of quantitative schlieren methods: Calibrated color schlieren and background oriented schlieren [J] . Elsinga GE., van Oudheusden BW., Scarano F., Experiments in Fluids: Experimental Methods and Their Applications to Fluid Flow . 2004,第2期

机译：定量纹影方法的评估和应用：校准的彩色纹影和背景取向的纹影
2. Three-dimensional reconstruction of incident shock/boundary layer interaction using background-oriented schlieren [J] . Wang Chengpeng, Xu Pei, Xue Longsheng, Acta astronautica . 2019,第APRa期

机译：使用面向背景的谢里林三维重建入射冲击/边界层相互作用
3. Three-dimensional reconstruction of incident shock/boundary layer interaction using background-oriented schlieren [J] . Wang Chengpeng, Xu Pei, Xue Longsheng, Acta astronautica . 2019,第Apra期

机译：使用背景型Schlieren的入射冲击/边界层相互作用的三维重建
4. Background Oriented Schlieren Implementation in a Jet-Surface Interaction Test [C] . Michelle M. Clem, Clifford A. Brown, Amy F. Fagan AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition . 2013

机译：Jet交互测试中面向背景的Schlieren实现
5. Three-Dimensional Shock Wave Reconstruction Using Multiple High-Speed Digital Cameras and Background Oriented Schlieren Imaging [D] . Winter, Kyle Oakley. 2018

机译：三维冲击波重建使用多速数码相机和背景面向Schlieren成像
6. Background-oriented schlieren imaging and tomography for rapid measurement of FUS pressure fields: initial results [O] . Michael Kremer, Charles Caskey, William Grissom 2015

机译：快速测量FUS压力场的面向背景的schlieren成像和层析成像：初步结果
7. Background Oriented Schlieren Implementation in a Jet-Surface Interaction Test [O] . Brown, Clifford A., Clem, Michelle M., Fagan, Amy 2013

机译：Jet交互测试中面向背景的Schlieren实现

Background Oriented Schlieren Implementation in a Jet-Surface Interaction Test.

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