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High Velocity Jet Noise Source Location and Reduction. Task 3. Experimental Investigation of Suppression Principles. Volume I. Suppressor Concepts Optimization

机译：高速射流噪声源位置和减少。任务3.抑制原理的实验研究。第一卷抑制器概念优化

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Experimental investigations of suppression principles were conducted including developing an experimental data base, developing a better understanding of jet noise suppression principles, and formulating empirical methods for the acoustic design of jet noise suppressors. Acoustic scaling has been experimentally demonstrated, and five 'optimum' nozzles have been selected for subsequent anechoic free-jet testing. This report is organized into four volumes under separate cover: Volume I - Verification of Suppression Principles and Development of Suppression Prediction Methods, Volume II - Parametric Testing and Source Measurements, Volume III - Suppressor Concepts Optimization, and Volume IV - Laser Velocimeter Time-Dependent Cross Correlation Measurements. The experimental studies reported in Volume II involved acquisition of detailed far-field, acoustic data and of aerodynamic jet-flow-field data on several baseline and noise-abatement nozzles. These data were used to validate the theoretical jet noise prediction method of Task 2 and to develop and validate the empirical noise-prediction method presented herein. A series of seven suppressor configurations (ranging from geometrically simple to complex) were tested to establish the relative importance of four jet noise mechanisms (fluid shielding, convective amplification, turbulent mixing, and shock noise). In general, mechanical suppressors exhibit a significant reduction in shock noise relative to a baseline conical nozzle, reduce the effectiveness of fluid shielding (increase rather than suppress noise), reduce the effectiveness of convective amplification (reduce noise), and produce a modest reduction in turbulent mixing noise.

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Brown, R. H.; Clapper, W. S.; Joy, W.; Smith, M. A.; Stringas, E. J.;
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年度 1978
页码 p.1-371
总页数 371
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Jet engine noise; Suppressors; Noise reduction; Conical nozzles; Optimization; Theory; Data bases; Cross correlation; Mathematical prediction; Plumes; Computerized simulation; Jet flow; High velocity; Nozzle gas flow; Exhaust nozzles; Shielding; Flow noise; Turbulent;

机译：喷气发动机噪音;抑制器;降噪;锥形喷嘴;优化;理论;数据库;互相关;数学预测;羽流;计算机模拟;射流;高速;喷嘴气流;排气喷嘴;屏蔽;流动噪声;湍流;

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1. Experimental Investigation of Jet Noise Sources in a Hypersonic Nozzle at Takeoff [J] . Araki Mikiya, Morita Kohei, Takahashi Yasuhiro, AIAA Journal . 2015,第3期

机译：高超音速喷嘴起飞时射流噪声源的实验研究
2. Synthesis of Convection Velocity and Turbulence Measurements in Three-Stream Jets for Investigation of Noise Sources [C] . Marcie A. Stuber, K. Todd Lowe, Wing F. Ng AIAA/CEAS aeroacoustics conference . 2017

机译：用于研究噪声源的三股射流对流速度和湍流测量的综合
3. An experimental investigation of low-dimensional techniques for large scale noise source characterization in a heated jet [D] . Hall, Andre M. 2008

机译：低维技术在热射流中表征大规模噪声源的实验研究

High Velocity Jet Noise Source Location and Reduction. Task 3. Experimental Investigation of Suppression Principles. Volume I. Suppressor Concepts Optimization

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