A model-scale test on noise from single-stream nozzle exhaust geometries in static conditions 被引量：1

A model-scale test on noise from single-stream nozzle exhaust geometries in static conditions

导出

摘要 A model-scale test with single-stream nozzle exhaust geometries was carried out at the anechoic chamber of Beihang University in Beijing, China. The spectral characteristics are investigated, and the effects of the following parametric variations are reported in this paper: impact of nozzle operating conditions on spectra; impact of the presence of a plug; and effectiveness of chevron configurations for noise mitigation. The measurement shows that the change of pressure values has more impact on spectra than the change of temperature values. The spectral change due to pressure is shown at all band numbers for unheated conditions whereas it is more pronounced at highfrequency ranges for heated conditions. An impact of the presence of a plug is also clearly observed.The reduction of noise is moderate up to band number of 35, and becomes more significant at higher band numbers. It is observed that chevron nozzles are more efficient at high pressure and temperature values. It is expected that the quantified analysis will be used to develop an empirical model of single jet noise, which will be the baseline for the development of prediction of noise from turbofan engines of high bypass ratios. A model-scale test with single-stream nozzle exhaust geometries was carried out at the anechoic chamber of Beihang University in Beijing, China. The spectral characteristics are investigated, and the effects of the following parametric variations are reported in this paper: impact of nozzle operating conditions on spectra; impact of the presence of a plug; and effectiveness of chevron configurations for noise mitigation. The measurement shows that the change of pressure values has more impact on spectra than the change of temperature values. The spectral change due to pressure is shown at all band numbers for unheated conditions whereas it is more pronounced at highfrequency ranges for heated conditions. An impact of the presence of a plug is also clearly observed.The reduction of noise is moderate up to band number of 35, and becomes more significant at higher band numbers. It is observed that chevron nozzles are more efficient at high pressure and temperature values. It is expected that the quantified analysis will be used to develop an empirical model of single jet noise, which will be the baseline for the development of prediction of noise from turbofan engines of high bypass ratios.

作者 Incheol LEE Yingzhe ZHANG Dakai LIN

机构地区 Beijing Aeronautical Science and Technology Research Institute of Commercial Aircraft Corporation of China

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2018年第12期2206-2220,共15页 中国航空学报（英文版）

关键词 CHEVRON Engine noise Engine plug Jet noise Single-stream jet Chevron Engine noise Engine plug Jet noise Single-stream jet

分类号 V [航空宇航科学技术]

引文网络
相关文献

参考文献1

1何敬玉,李晓东.锯齿型喷口抑制热喷流噪声的实验研究[J].推进技术,2015,36(2):167-174. 被引量：11

二级参考文献22

1汪洋海,李晓东.超声速喷流啸声的控制方法[J].推进技术,2007,28(2):211-215. 被引量：16
2Bradbury L J S, Khadem A H. The Distortion of a Jet by Tabs [J]. Journal of Fluid Mechanics, 1975, 70 (4): 801-813.
3Samimy M, Zaman K B M Q, Reeder M F. Effect of Tabs on the Flow and Noise Field of an Axisymmetric Jet [J]. AIAA Journal, 1993, 31(3): 609-619.
4Krothapalli A, King C J. The Role of Streamwise Vorti- ces on Sound Generation of a Supersonic [ R]. A1AA 93- 4320.
5Salikuddin M, Martens S, Janardan B A, et al. Experi- mental Study for Multi-Lobed Mixer High Bypass Ex- haust Systems for Subsonic Jet Noise Reduction-Part 2:Acoustic Results[ R]. AIAA 99-1988.
6Gliebe P R, Brausch J F, Majjigi R K, et al. Jet Noise Suppression [ J ]. Journal of Acoustical Society of Ameri- ca, 1995, 1(2): 207-269.
7Calkins F T, Butler G W. Variable Geometry Chevrons for Jet Noise Reduction[ R]. AIAA 2006-2546.
8Callender B, Gutmark E, Martens S. A PIV Flow Field Investigation of Chevron Nozzles Mechanisms and Trends [J]. AIAA Journal, 2004, 43(1): 87-95.
9Saiyed N, Mikkelsen K, Bridges J. Acoustics and Thrust of Quiet Separate-Flow High-Bypass-Ratio Noz- zles[J]. AIAA Journal, 2003, 41(3): 372-378.
10Nesbitt E, Mengle V, Czech M, et al. Flight Test Re- sults for Uniquely Tailored Propulsion-Airframe Aero- Acoustic Chevrons: Community Noise [R]. AIAA 2006- 2438.

共引文献10

1张颖哲,倪大明,Incheol LEE,林大楷,杨志刚.缩比发动机喷嘴热喷流噪声试验[J].航空学报,2018,39(12):138-148. 被引量：3
2许坤波,乔渭阳,霍施宇,魏人可,仝帆.风扇单音噪声模态识别及其误差传递特性研究[J].推进技术,2018,39(1):185-195. 被引量：3
3何敬玉,李晓东.吊挂安装效应对热喷流噪声影响实验[J].航空动力学报,2018,33(5):1057-1064. 被引量：1
4李晓东,徐希海,高军辉,何敬玉.喷流噪声研究进展与展望[J].空气动力学学报,2018,36(3):398-409. 被引量：15
5张毅,屠珊,洪振瀚,郑伟呈,李中书.喷管入口气温影响下的射流流场及声场特性[J].西安交通大学学报,2020,54(2):175-181. 被引量：1
6翟超慧,刘妍琛,杜永乐.喷流噪声声源识别与声源机理分析方法进展[J].航空工程进展,2020,11(1):1-9. 被引量：2
7刘兴强,黄文超,延浩,李晓东.锯齿喷口参数对喷流噪声特性的影响[J].科学技术与工程,2020,20(5):2088-2092. 被引量：2
8刘常春,高亢,周驯黄,陈俊,李晓东.大涵道比涡扇发动机喷流降噪实验[J].航空动力学报,2020,35(8):1716-1723.
9孙晨洋,王平,祁浩天,袁梦铖.基于FW-H方程的涡扇发动机射流噪声特性数值研究[J].噪声与振动控制,2023,43(1):154-158. 被引量：2
10张济泽,向阳,林海燕,黄小彬,刘洪.高速起动射流过程中可压缩涡环的生长演化及其对瞬时力的影响规律[J].推进技术,2024,45(11):60-75.

同被引文献4

1张靖周,单勇,李立国.Computation and Validation of Parameter Effects on Lobed Mixer-Ejector Performances[J].Chinese Journal of Aeronautics,2005,18(3):193-198. 被引量：21
2Chen Min Tang Hailong Zhu Zhili.Goal Programming for Stable Mode Transition in Tandem Turbo-ramjet Engines[J].Chinese Journal of Aeronautics,2009,22(5):486-492. 被引量：15
3Zheng Junchao,Chen Min,Tang Hailong.Matching mechanism analysis on an adaptive cycle engine[J].Chinese Journal of Aeronautics,2017,30(2):706-718. 被引量：24
4Fu SONG,Li ZHOU,Zhanxue WANG,Zhifu LIN,Jingwei SHI.Integration of high-fidelity model of forward variable area bypass injector into zero-dimensional variable cycle engine model[J].Chinese Journal of Aeronautics,2021,34(8):1-15. 被引量：9

引证文献1

1Guoping HUANG,Chao LI,Chen XIA,Qian LI.Investigations of entrainment characteristics and shear-layer vortices evolution in an axisymmetric rear variable area bypass injector[J].Chinese Journal of Aeronautics,2022,35(4):230-244. 被引量：6

二级引证文献6

1王若玉,于贤君,梁彩云,孟德君,安广丰,刘宝杰.考虑复杂涵道影响的变循环发动机压缩系统一体化性能评估方法[J].航空动力学报,2022,37(10):2090-2103. 被引量：1
2Runfu LIU,Zhenyao LI,Huiliu ZHANG,Qixing WANG,Yue HUANG,Yancheng YOU.Numerical study of steady flow characteristics of a rear variable-area bypass injector with alternating area regulator[J].Chinese Journal of Aeronautics,2024,37(5):180-198.
3李晓庆,孟德君,尹松.基于3维数值仿真的变循环压缩系统部件匹配分析[J].航空发动机,2024,50(3):40-46.
4刘润富,黄玥,李臻曜,张慧骝,尤延铖.波瓣结构后可变面积涵道引射器掺混特性[J].航空动力学报,2024,39(8):377-385.
5Ruoyu Wang,Xianjun Yu,Baojie Liu,Guangfeng An.New insights into component matching mechanism in the compression system of double bypass engine[J].Propulsion and Power Research,2024,13(1):118-131.
6Qian LI,Chen XIA,Guoping HUANG,Omer MUSA,Linjun LI,Zonghan YU.Mechanism of adjusting bypass ratio by front variable area bypass injector for a variable cycle engine[J].Chinese Journal of Aeronautics,2024,37(10):158-171.

1日本邮船与法国TGPCL签订1艘LNG船长期租船协议[J].海运情报,2018,0(12):36-36.
2吴昊,毛国梁,王月含,封智超.乙烯齐聚工艺——从非选择性齐聚到选择性齐聚[J].化工科技,2019,27(1):77-84. 被引量：5
3刘细梅,邓晖,吴亮,曾凡洋,欧佳斌.基于无人机影像的城市用地分类系统设计与实现[J].地理空间信息,2019,17(3):79-82. 被引量：6
4王锋,刘宗仁,张铭明,赵温倩,刘超,李娜.微创截骨中医手法整复术与改良Chevron截骨术治疗拇外翻前瞻对照研究[J].健康之路,2018(11):312-313.
5邓京波.日本将开始大规模生产生物喷气燃料[J].石油炼制与化工,2019,50(3):107-107.
6Hui Lu,Shen Su,Zhihong Tian,Chunsheng Zhu.A Novel Search Engine for Internet of Everything Based on Dynamic Prediction[J].China Communications,2019,16(3):42-52. 被引量：1
7武丹.插着自然拼读翅膀的小学初级英文绘本教学——以Fish and Chips为例[J].中国农村教育,2019(2):96-96. 被引量：1
8Meng Zhao,Mingshan Wei.Optimization and Evaluation of a Vehicular Exhaust Heat Recovery System[J].Journal of Beijing Institute of Technology,2018,27(4):527-534.
9顾晓晖,毕擎,夏冰,洪剑飞.改良Chevron截骨裹帘固定治疗伴骨质疏松症外翻[J].浙江中医药大学学报,2018,42(12):1029-1033. 被引量：3
10杨春燕,周丽英,韩梅盈,申青华,贾焕荣,许平.早期口腔运动干预措施对早产儿预后的效果分析[J].中国儿童保健杂志,2019,27(2):133-137. 被引量：35

Chinese Journal of Aeronautics

2018年第12期

浏览历史

内容加载中请稍等...