PDF下载分享

[1]李永洲,李光熙,张堃元,等.进口水平投影可控的流线追踪内收缩进气道设计[J].火箭推进,2017,43(03):28-34.
　LI Yongzhou,LI Guangxi,ZHANG Kunyuan,et al.Design on streamline tracing inward turning inlet with controlled horizontal projection of intake[J].Journal of Rocket Propulsion,2017,43(03):28-34.

点击复制

进口水平投影可控的流线追踪内收缩进气道设计

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V] 卷: 43 期数: 2017年03期页码: 28-34 栏目: 研究与设计出版日期: 2017-08-01

Title:: Design on streamline tracing inward turning inlet with controlled horizontal projection of intake

作者:: 李永洲¹; ²; 李光熙¹; 张堃元²; 马元¹; 1. 西安航天动力研究所，陕西西安 710100； 2. 南京航空航天大学能源与动力学院，江苏南京 210016

Author(s):: LI Yongzhou¹; ²; LI Guangxi¹; ZHANG Kunyuan²; MA Yuan¹; 1. Xi’an Aerospace Propulsion Institute, Xi’an 710100, China; 2. College of Energy and Power Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China

关键词:: 高超声速; 内收缩进气道; 流线追踪; 水平投影; 反设计

Keywords:: hypersonic; inward turning inlet; streamline tracing; horizontal projection; inverse design

分类号:: V434-34

文献标志码:: A

摘要:: 为了满足两侧进气布局飞行器的乘波前体与进气道一体化设计要求，提出了一种进口水平投影可控的流线追踪内收缩进气道设计方法。基于马赫数分布可控的轴对称基准流场，在指定进口水平投影为椭圆的条件下，采用该方法设计了内收缩进气道并在设计点(Ma=5.4)和接力点(Ma=4.0)对其进行数值研究。结果表明，设计点时进气道都能保持基准流场的波系结构和沿程压力分布，无粘时可以全捕获自由来流，喉道性能与基准流场几乎相等。有粘条件下，设计点和接力点时进气道具有较高的压缩效率和良好的流量捕获能力，接力点的流量系数高达0.85。该设计方法为内收缩进气道与乘波前体的一体化设计提供了新途径。

Abstract:: A design method has been presented for streamline tracing inward turning inlet with controlled horizontal projection of intake in order to meet the integrated design requirements of waverider forebody and inlet with both sides intake configuration vehicle. Based on the axisymmetric basic flowfield with controllable Mach number distribution, the inward turning inlet is designed with an elliptical horizontal projection of intake utilizing this method. Numerical simulation is conducted at design (Ma=5.4) and relay point (Ma=4.0). The results indicate that the inlet can retain wave structure and pressure distribution of basic flowfield, and capture all of free incoming flow on the inviscid condition at design point. Its performance of throat plane is almost equal to basic flowfield. On the viscous condition, the inlet has high compression efficiency and flow capture ratio at design and relay point. The flow coefficient is 0.85 at relay point. The design method provides a new approach for the integrated design of inward turning inlet and waverider forebody.

参考文献/References:

[1]BILLIG F S, JACOBSEN L S. Comparison of planar and axisymmetric flow paths for hydrogen fueled space access vehicle, AIAA 2003-4407[R]. USA: AIAA, 2003.
[2]YOU Y C. An overview of the advantages and concerns of hypersonic inward turning inlets, AIAA 2011-2269[R]. USA: AIAA, 2011.
[3]BULMAN M J, SIEBENHAAR A. The rebirth of round hypersonic propulsion, AIAA 2006-5035[R]. USA: AIAA, 2006.
[4]MOLDER S, SZPIRO J. Busemman inlet for hypersonic speeds [J]. Journal of spacecraft and rockets, 1966, 3(8): 1303-1304.
[5]VAN WIE D, M?LDER S. Applications of Busemann inlets design for flight at hypersonic speeds, AIAA- 1992-1210[R]. USA: AIAA, 1992.
[6]BILLIG F S. SCRAM-a supersonic combustion ramjet missile, AIAA 1993-2329 [R]. USA: AIAA, 1993.
[7]DRAYNA T W, NOMPELIS I, CANDLER G V. Hypersonic inward turning inlets: design and optimization, AIAA 2006-297[R]. USA: AIAA, 2006.
[8]ROSLI M R, TAKAHASHI M, SATO T, et al. Streamline tracing technique based design of elliptical-to-rectangular transitioning hypersonic inlet, AIAA 2013-2665[R]. USA: AIAA, 2013.
[9]孙波, 张堃元, 金志光. 流线追踪Busemann 进气道马赫数3.85实验研究 [J]. 航空动力学报, 2007, 22(3): 396- 399.
[10]王翼. 高超声速进气道启动问题研究[D]. 长沙: 国防科学技术大学, 2008: 27-30.
[11]MATTHEWS A J, JONES T V. Design and test of a modular waverider hypersonic intake[J]. Journal of pro- pulsion and power, 2006, 22(4): 913-920.
[12]WALKER S, RODGERS F, PAULL A, et al. HYCAUSE flight test program, AIAA 2008-2580[R]. USA: AIAA, 2008.
[13]SMART M K. Design of three-dimensional hypersonic inlets with rectangular-to-elliptical shape transition [J]. AIAA journal of power and propulsion, 1999, 15(3): 408-416.
[14]SABEAN J W, LEWIS M J. Computational optimization of a hypersonic rectangular-to-circular inlet[J]. Journal of Propulsion and Power, 2001, 17(3): 571-578.
[15]尤延铖, 梁德旺. 内乘波式进气道内收缩基本流场研究[J]. 空气动力学学报,2008, 26(2): 203-207.
[16]尤延铖, 梁德旺. 基于内乘波概念的三维变截面高超声速进气道[J]. 中国科学E辑, 2009, 39(8): 1483-1494.
[17]郭军亮, 黄国平, 尤延铖, 等. 改善内乘波式进气道出口均匀性的内收缩基本流场研究[J]. 宇航学报, 2009, 30(5): 1934-1940.
[18]YUE L J, XIAO Y B, CHEN L H, et al. Design of base flow for streamline-traced hypersonic inlet: AIAA 2009-7422[R]. USA: AIAA, 2009.
[19]XIAO Y B, YUE L J, CHEN L H, et al. Iso-contraction- ratio methodology for the design of hypersonic inward turning inlets with shape transition, AIAA 2012-5978[R]. USA: AIAA, 2012.
[20]南向军, 张堃元, 金志光. 乘波前体两侧高超声速内收缩进气道一体化设计[J]. 航空学报, 2012, 33(8): 1417- 1426.
[21]李永洲，张堃元，孙迪. 马赫数可控的方转圆高超声速内收缩进气道实验研究[J]. 航空学报, 2016, 37(10): 2970-2979.
[22]WALKER S H, TANG M, MORRIS S, et al. Falcon HTV-3X - a reusable hypersonic test bed, AIAA 2008- 2544[R]. USA: AIAA, 2008.

相似文献/References:

[1]杜炜强,吴宝元.高超声速进气道优化设计初探[J].火箭推进,2007,33(06):17.
　Du Weiqiang,Wu Baoyuan.Investigation on optimization design of scramjet inlet[J].Journal of Rocket Propulsion,2007,33(03):17.

备注/Memo

收稿日期：2017-03-30；修回日期：2017-04-13 基金项目：基础科研计划（JCKY2016203C050）作者简介：李永洲（1984—），男，博士，工程师，研究领域为高超声速组合发动机设计

更新日期/Last Update: 1900-01-01