二元超声速进气道流管压缩量特性与应用初步研究

推进技术 ›› 2013, Vol. 34 ›› Issue (12): 1616-1620.

• 气动热力学与总体技术 • 上一篇下一篇

二元超声速进气道流管压缩量特性与应用初步研究

关祥东¹,李宏东¹,孟宇鹏¹,朱守梅^1,2

北京动力机械研究所,北京 100074;北京动力机械研究所,北京 100074;北京动力机械研究所,北京 100074;北京动力机械研究所,北京 100074

发布日期:2021-08-15
作者简介:关祥东(1979—),男,硕士,工程师,研究领域为内流空气动力学及推进技术。E-mail:guanxdyu@sina.com

Properties of Capture Stream Tube Contraction Ratio and Application of 2D Supersonic Inlet

Beijing Power Machinery Institute,Beijing 100074,China;Beijing Power Machinery Institute,Beijing 100074,China;Beijing Power Machinery Institute,Beijing 100074,China;Beijing Power Machinery Institute,Beijing 100074,China

Published:2021-08-15

摘要/Abstract

摘要： 为研究流管压缩程度与超声速进气道临界总压恢复系数的规律,以双楔外压式进气道为例,对不同来流马赫数、多种方案进行实例研究。研究马赫数范围为2.0至4.0,各种压缩方案涉及宽泛的总转折角范围和多种楔角组合方式。研究结果表明,就通常设计中常用的压缩方案范围而言,临界总压恢复系数与流管收缩比呈明显的正相关变化规律,并在一定的范围内两者呈近似线性关系,基于流管收缩比可实现对临界总压恢复系数大小的近似判断。 

关键词: 超声速进气道;临界总压恢复系数;二元进气道 

Abstract: In order to study the regularity of capture stream tube contraction ratio and the critical total pressure recovery coefficient of 2D-surpersonic inlet, a large number of double wedges external compression inlets with various Ma∞ are investigated. The inlets studied include various total external compression angle and a variety of wedge angle combination. The range of Ma∞ is 2.0to 4.0. Analyses indicate that the critical total pressure recovery coefficient presents obviously positive relation with capture stream tube contraction ratio in the commonly used range of total compression angles. In certain regions, a linear relation between them is observed. The critical total pressure recovery coefficient can be estimated approximately using capture stream tube contraction ratio.

Key words: Supersonic inlet; Critical total pressure recovery coefficient, 2D inlet

关祥东,李宏东,孟宇鹏,朱守梅. 二元超声速进气道流管压缩量特性与应用初步研究[J]. 推进技术, 2013, 34(12): 1616-1620.

GUAN Xiang-dong¹, LI Hong-dong¹, MENG Yu-peng¹, ZHU Shou-mei^1,2. Properties of Capture Stream Tube Contraction Ratio and Application of 2D Supersonic Inlet[J]. Journal of Propulsion Technology, 2013, 34(12): 1616-1620.

参考文献

[1] Oswatitsch K.Pressure Recovery For Missiles With Reaction Propulsion at High Supersonic Speeds[R].NACA TM 1140,7.
[2] 鲍福廷,李进贤,赵飞.固冲发动机双下侧二元进气道设计研究[J].西北工业大学学报,2002,0(4).
[3] 王起飞.冲压发动机导弹进气道设计的几个问题[J].火箭推进,2004,0(2).
[4] 杨铁成,谷良贤,龚春林.超声速巡航导弹轴对称进气道型面优化设计[J].导弹与航天运载技术, 2011,(2).
[5] Gerald Carrier, Doyle Knight.Multi-Criteria Design Optimization of Two-Dimensional Supersonic Inlet[R].AIAA 2001-1064.
[6] 李理,陈小庆,杨涛,等.大攻角条件下的二维进气道型面优化设计[J].固体火箭技术,2009,2(4).
[7] 关祥东,孟宇鹏,朱守梅,等.一种基于流管收缩比分析超声速进气道临界性能的方法[J].推进技术,2013,4(10).(GUAN Xiang-dong, MENG Yu-peng, ZHU Shou-mei, et al.Method Based on Capture Stream Tube Contraction Ratio Analysis Supersonic Inlet Critical Performance[J].Journal of Propulsion of Technology, 2013,4(10).)
[8] 关祥东,李宏东,崔佃飞,等.一种利用流管收缩比进行超声速进气道外压缩面设计方法[C].青岛:中国宇航学会固体火箭推进专业委员会第三十届学术年会,2013.
[9] 关祥东,孟宇鹏,朱守梅.一种基于流管收缩比初步评价超声速进气道性能的方法[C].西安:2013年全国力学大会, 2013.
[10] 王健,李宏东,朱守梅,等.冲压发动机用轴对称进气道设计和试验[J].推进技术,2009,30(6).( WANG Jian,LI Hong-dong,ZHU Shou-mei,et al.Design and Wind Tunnel Test of An Axisymmetric Inlet For Ramjet Engine[J].Journal of Propulsion of Technology,2009,0(6).)
[11] 样铁成,谷良贤,龚春林.超声速巡航导弹轴对称进气道型面优化设计[J].导弹与航天运载技术,2010(2).
[12] 贾金鑫,李全通,高星伟,等.基于多目标优化算法的发动机进气道设计[J].机械设计,2011,8(4).
[13] 陈小庆,侯中喜,何烈堂,等.吻切锥乘波构型参数化设计与正交试验分析[J].推进技术,2010,31(4).(CHEN Xiao-qing,HOU Zhong-xi,HE Lie-tang,et al.Parameterized Design And Orthogonal Experiment Analysis of Osculating-cone Waverider[J].Journal of Propulsion of Technology, 2010,1(4).)

二元超声速进气道流管压缩量特性与应用初步研究

Properties of Capture Stream Tube Contraction Ratio and Application of 2D Supersonic Inlet

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