Experimental Study and Numerical Simulation on Spray Characteristics of New-Type Air-Assist Nozzle 被引量：3

Experimental Study and Numerical Simulation on Spray Characteristics of New-Type Air-Assist Nozzle

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摘要 To investigate the spray characteristics of a new-type air-assist nozzle,three-dimensional laser phase Dopper analyzer( PDA) was used to measure the spray parameters. The external flow fields of the nozzle were simulated by means of computational fluid dynamics( CFD). The distributions of the diameter and the axial velocity for the droplets were analyzed respectively. The results indicate that,the mean diameter of the droplets fluctuates along the center axis. The distance between the measurement point and the nozzle increases,the axial velocity of the droplets decreases. The further the measurement point from the center axis is,the smaller the axial velocity of the droplets is. With the increase of the nozzle pressure drop,the axial velocity of the droplets improves while the mean diameter of the droplets is reduced,and the distribution uniformity of the droplets is better for the diameter. The simulation result agrees well with the experimental data. The average deviation ranges from 3.9% to 7.7%. To investigate the spray characteristics of a new-type air-assist nozzle,three-dimensional laser phase Dopper analyzer（ PDA） was used to measure the spray parameters. The external flow fields of the nozzle were simulated by means of computational fluid dynamics（ CFD）. The distributions of the diameter and the axial velocity for the droplets were analyzed respectively. The results indicate that,the mean diameter of the droplets fluctuates along the center axis. The distance between the measurement point and the nozzle increases,the axial velocity of the droplets decreases. The further the measurement point from the center axis is,the smaller the axial velocity of the droplets is. With the increase of the nozzle pressure drop,the axial velocity of the droplets improves while the mean diameter of the droplets is reduced,and the distribution uniformity of the droplets is better for the diameter. The simulation result agrees well with the experimental data. The average deviation ranges from 3.9% to 7.7%.

作者 Kun Liu Yonggang Yu Na Zhao

机构地区 School of Energy and Power Engineering Northwest Institute of Mechanical & Electrical Engineering

出处《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2016年第1期34-40,共7页 哈尔滨工业大学学报（英文版）

基金 Sponsored by Specialized Research Fund for the Doctoral Program of Higher Education(Grant No.20113219110024)

关键词 air-assist nozzle SPRAY DROPLET numerical simulation air-assist nozzle spray droplet numerical simulation

分类号 V434.3 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献9

1刘伟,林宇震,刘高恩,王华芳.低压条件下复合式多级旋流杯燃烧室燃烧效率研究[J].航空动力学报,2004,19(5):650-655. 被引量：14
2彭云晖,林宇震,许全宏,刘高恩.双旋流空气雾化喷嘴喷雾、流动和燃烧性能[J].航空学报,2008,29(1):1-14. 被引量：57
3张弛,张荣伟,徐国强,林宇震.直射式双旋流空气雾化喷嘴的雾化效果[J].航空动力学报,2006,21(5):805-809. 被引量：35
4周兵,吉洪湖,张宝诚.旋流空气对双油路离心喷嘴雾化特性影响的实验[J].航空动力学报,2013,28(9):1933-1941. 被引量：9
5吴泽俊,何小民,朱志新,金义,丁国玉.周期性供油气助雾化直喷喷嘴雾化特性试验[J].航空动力学报,2013,28(2):307-315. 被引量：4
6龚景松,傅维镳.旋转型气-液雾化喷嘴的雾化特性研究[J].热能动力工程,2006,21(6):632-634. 被引量：14
7林宇震,林培华,许全宏,刘高恩.复合式收扩套筒空气雾化喷嘴燃烧室点火研究[J].航空动力学报,2007,22(3):342-346. 被引量：17
8Inchul Lee,Youngsu Kang,Jaye Koo.Mixing Characteristics of Pulsed Air-assist Liquid Jet into an Internal Subsonic Cross-flow[J].Journal of Thermal Science,2010,19(2):136-140. 被引量：3
9龚景松,傅维镳.一种新型喷嘴的提出及其流量特性的研究[J].工程热物理学报,2005,26(3):507-510. 被引量：16

二级参考文献91

1郭新华,林宇震,张驰,黄勇.离心式同向双旋流器空气雾化喷嘴雾化特性研究[J].航空动力学报,2009,24(10):2249-2254. 被引量：28
2龚景松,傅维镳.“旋转型气-液雾化喷嘴”流量特性的实验研究[J].热能动力工程,2004,19(4):376-379. 被引量：6
3杨立军,葛明和,张向阳,张振鹏.喷口长度对离心喷嘴雾化特性的影响[J].推进技术,2005,26(3):209-214. 被引量：18
4张弛,张荣伟,徐国强,林宇震.直射式双旋流空气雾化喷嘴的雾化效果[J].航空动力学报,2006,21(5):805-809. 被引量：35
5K. C. Lin, P. J. Kennedy, T. A. Jackson, "Spray Structures of Aerated-Liquid Jets in Subsonic Cross-flows," AIAA Meeting & Exhibit, Reno, NV, 8-11 January 2001.
6Krebs, W., Flohr, P., Prade, B., and Hoffman, S., "Thermoacoustic Stability Chart for High Intensity Gas Turbine Combustion Systems," Combustion Science and Technology, Vol. 174, No. 7, pp. 99-128, 2002.
7Ducruix, S., Schuller, T., Durox, D., and Candel, S., "Combustion Dynamics and Instabilities; Elementary Coupling and Driving Mechanisms," Journal of Propulsion and Power, Vol. 19, No. 5, pp. 722-734, 2003.
8C. Ghenai, O.I. Smith, and A. Karagozian, "Acoustical Excitation of Buming Fuel Droplets," 39th AIAA Aerospace Sciences Meeting and Exhibit, Reno, NV, January 2001.
9M. Y. Leong, Ct Vincent, McDonell, and Ct S. Samuelsen, "Mixing of an Airblast-Atomized Fuel Spray Injected a Cross-flow of Air," NASA/CR 2000-210467, UCIARTR-00-05, 2000.
10[2]Fu Y,Cai J,Jeng S M,et al.Confinement effects on the swirling flow of a counter-rotating swirl cup[R].ASME 2005-GT-68622,2005.

共引文献140

1Xiongjie FAN,Cunxi LIU,Gang XU,Chi ZHANG,Jianchen WANG,Yuzhen LIN.Experimental investigations of the spray structure and interactions between sectors of a double-swirl low-emission combustor[J].Chinese Journal of Aeronautics,2020,33(2):589-597. 被引量：10
2邸东,刘雨辰,王亚军,林建府,徐新文,颜应文.加力用扇形喷嘴雾化特性试验[J].航空动力学报,2020,35(3):457-470. 被引量：5
3党新宪,赵坚行,张欣,徐榕,颜应文,刘勇.应用PIV技术测试模型环形燃烧室流场[J].航空动力学报,2009,24(7):1470-1475. 被引量：13
4郭新华,林宇震,张驰,黄勇.离心式同向双旋流器空气雾化喷嘴雾化特性研究[J].航空动力学报,2009,24(10):2249-2254. 被引量：28
5于锦峰,郭志辉,张君锋,尚守堂.套筒长度对火焰筒流场和雾化特性的影响[J].航空动力学报,2009,24(11):2506-2513. 被引量：11
6刘乃玲,张旭.螺旋型喷嘴雾化及流量特性实验[J].农业机械学报,2006,37(9):79-82. 被引量：8
7王新泉,余涛.碳素焙烧炉沥青烟气净化系统的雾化冷却技术现状分析[J].中原工学院学报,2007,18(2):23-27.
8柳贡民,黄亮,张文平,高兴华,贺林,缪旭弘.船用柴油机排气冷却降噪装置性能仿真与实验研究[J].船舶工程,2007,29(3):5-8. 被引量：4
9周俊虎,周林华,杨卫娟,卢志民,刘建忠,岑可法.新型扇形雾化喷嘴的实验研究[J].过程工程学报,2007,7(4):652-656. 被引量：16
10张于贤,王红.SnAgCu系无铅焊锡粉末特性的实验研究[J].功能材料,2007,38(A08):3257-3258.

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1赵毅,张玉海,闫蓓.二恶英的生成及污染控制[J].环境污染治理技术与设备,2006,7(11):1-7. 被引量：27
2周莉菊,冯家满,赵由才.二噁英高温气相生成机理研究进展[J].有色冶金设计与研究,2007,28(2):77-80. 被引量：6
3张丽丽,周慎杰,陈举华.冲击式气流喷嘴雾化模型[J].武汉理工大学学报,2007,29(8):135-138. 被引量：3
4盛锴,马增益,王飞.烟气急冷塔内流场和温度场以及SO_2吸收的CFD模拟[J].能源工程,2008,28(3):40-43. 被引量：3
5王启民,张益民,杨海瑞,吕俊复.城市生活垃圾焚烧炉二恶英的生成机理与控制策略分析[J].工业锅炉,2008(5):4-7. 被引量：14
6付祥钊,蒋斌,王勇,王子云.内混式扇形空气雾化喷嘴参数分析[J].重庆大学学报（自然科学版）,2010,33(3):87-91. 被引量：5
7王超,仇性启,张海平.急冷器内错流射流场的数值模拟[J].化工机械,2010(6):740-743. 被引量：4
8解艳,薛科社.二噁英分析检测方法研究进展及展望[J].环境科学与管理,2011,36(3):84-86. 被引量：6
9张新铭,罗晴,洪光,凌娅.高压水扇形喷嘴结构参数对内部流场影响的数值模拟[J].热能动力工程,2012,27(3):301-306. 被引量：14
10张竞争,刘定平.液包式雾化喷嘴出口锥角优化实验研究[J].热能动力工程,2013,28(1):57-60. 被引量：1

引证文献3

1吴恩启,顾自明,赵兵,徐智保.空气雾化喷嘴的设计与实验研究[J].热能动力工程,2018,33(4):69-75. 被引量：8
2毛宇,胡新生,王彬,孙茂伟.逆流型急冷塔内温度场分析及其结构参数优化[J].化工机械,2023,50(4):544-548.
3毛宇,胡新生.逆流型急冷塔温度场分析及结构参数优化[J].化工设备与管道,2024,61(2):53-57.

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1唐聪.基于FLUENT的变间距喷雾干涉数值模拟[J].广西农业机械化,2019,0(4):6-8.
2唐聪.基于FLUENT的纵向风速促进雾化数值模拟分析[J].时代农机,2019,46(6):75-77. 被引量：1
3秦汝祥,徐同震,刘雅瑞,高伟,陈文涛,周亮.雾化与水浴混合加湿实验装置研制[J].工矿自动化,2020,46(1):13-17.
4钱俊兵,潘楠,潘地林,安裕强,刘海石,陈启用.两相流喷嘴雾化空间粒径分布研究[J].电子测量技术,2020,43(21):77-83. 被引量：3
5陈清华,宋皓然,崔锦琼,李先保,吴苏里江.同向风速对内混式空气雾化喷嘴雾化特性的影响研究[J].煤矿安全,2022,53(5):171-175. 被引量：1
6董佩文,张博文,刘国强,吴海峰,黄志电,晏刚,王瑞祥,孙承华.造雪机用旋流喷嘴雾化特性的模拟研究[J].暖通空调,2022,52(8):103-108. 被引量：1
7张彦奇,李伟伟,史晓澜,柴凡.喷雾干燥制备CL-20过程中喷嘴直径对液滴雾化行为影响的CFD模拟[J].中北大学学报（自然科学版）,2022,43(6):541-547.
8于浩洋,刘爱虢,成胜军,李恒文.掺混燃油在离心喷嘴内的流动与雾化特性研究[J].热能动力工程,2023,38(3):66-73.

1刘新建,袁天保.New-type of flying control for spinning TVC vehicle[J].Applied Mathematics and Mechanics(English Edition),2008,29(6):725-730.
2Zhou Lixing and Zhang JianTsinghua University.NUMERICAL MODELING OF TURBULENTEVAPORATING GAS-DROPLET TWO-PHASE FLOWS IN AN AFTERBURNER DIFFUSOR OF TURBO-FAN JET ENGINES[J].Chinese Journal of Aeronautics,1990,5(4):258-265.
3GUO TieDing,JIANG FangHua,BAOYIN HeXi,LI JunFeng.Fuel optimal low thrust rendezvous with outer planets via gravity assist[J].Science China(Physics,Mechanics & Astronomy),2011,54(4):756-769. 被引量：8
4Zhu Guangsheng, Lin Junyi, Zhang Yuelin (Nanjing University of Science and Technology, Nanjing, 210094, China) Wu Chuijie (Air Force Institute of Meteorology, Nanjing, 211101, China).NUMERICAL INVESTIGATION OF UNSTEADY DROPLET COMBUSTION PROCESS IN HOT QUIESCENT AIR ENVIRONMENTS (HQAE)[J].Chinese Journal of Aeronautics,1997,10(3):35-41.
5Daniel Rodriguez Davood Moslemian.Numerical Analysis of Pollutant Formation in a Liquid Spray Sudden Expansion Combustor[J].Journal of Energy and Power Engineering,2014,8(10):1721-1734.
6A New-type Inertial Device Passed Piggyback Demonstration[J].Aerospace China,2007,8(3):22-22.
7HuangZhen,ShaoYiming,等.Controlling　Mechanism　and　Resulting　Spray　Characteristics　of　Injection　of　Fuel　Containing　Dissolved　Gas[J].Journal of Thermal Science,1994,3(3):191-199. 被引量：3
8Mi Guofa,Li Zhou,Tian Shifan(Institute of Aeronautical Materials, Beijing, 100095, China)Zeng Songyan,Li Qingchun(Harbin Institute of Technology, Harbin, 150001,China).MICROSTRUCTURE AND MECHANICAL PROPERTIES OF PARTICULATE REINFORCED MATRIX COMPOSITE[J].Chinese Journal of Aeronautics,1997,10(2):127-130.
9Guo-Lei Wang~(a)) and Xi-Yun Lu~(b)) Department of Modern Mechanics,University of Science and Technology of China,Hefei,Anhui 230026,China.Effects of the jet-to-crossflow momentum ratio on a sonic jet into a supersonic crossflow[J].Theoretical & Applied Mechanics Letters,2011,1(1):53-57. 被引量：2
10丁永杰,于达仁,武志文.Parameters Distribution Along the Channel Axis in the Scaling Designed Stationary Plasma Thruster[J].Plasma Science and Technology,2006,8(6):716-719. 被引量：1

Journal of Harbin Institute of Technology(New Series)

2016年第1期

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