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高超声速进气道快速破膜开启的流动特性
Flow characteristics of hypersonic inlet starting with diaphragm rupture

查看参考文献21篇

文摘 进气道处于起动状态是保证超燃冲压发动机正常工作的前提,进气道帽罩快速开启时的非定常效应可以有效提高进气道的起动能力。采用非定常数值计算深入研究了唇口帽罩不同安装位置开启时的非定常效应对进气道起动过程的影响,分析了不同帽罩安装位置开启时进气道流场的演化过程,并揭示了喉道分离泡的形成机理。研究结果表明,当帽罩上游不存在分离泡时,破膜非定常激波在压缩面反射,与上游复杂波系作用形成沿壁面的低速流,在唇口激波作用下在喉道形成分离泡。帽罩安装靠近唇口可通过缩短激波/边界层作用距离减小低速流动区范围,进气道临界起动内压比随之增大;而当帽罩上游出现大分离泡时,分离泡会先演变为低速流,之后在唇口激波作用下重新聚集形成大尺度分离,进气道临界起动内压比显著降低。
其他语种文摘 Reliable in-flight starting of the hypersonic inlet is of critical importance for the successful operation of scramjet engines and taking the method of diaphragm rupture can effectively improve the inlet starting ability due to unsteady flow effect. In this paper, time-accurate computations have been performed to investigate the effects on inlet starting process at different diaphragm positions. The evolution process of the inlet flow pattern is analyzed and the mechanism of the separation bubble formation in the throat is thus elucidated. The results show that the unsteady reflected shock interacts with the interface and expansion waves to trigger a low-speed flow when no separation bubble occurs in front of the diaphragm. A separation bubble then forms in the inlet throat, resulting from the low-speed flow under the interaction of cowl shock. Installing the diaphragm downstream would improve the inlet starting ability by decreasing the low-speed flow area. When large separation bubble occurs in front of the diaphragm, the separation bubble will first evolve to a low-speed flow after diaphragm rupture then develop to a new separation in the throat. The inlet starting ability degrades significantly.
来源 航空学报 ,2015,36(6):1795-1804 【核心库】
DOI 10.7527/s1000-6893.2014.0303
关键词 高超声速进气道 ; 破膜开启 ; 非定常效应 ; 激波边界层相互作用 ; 分离流
地址

中国科学院力学研究所, 高温气体动力学国家重点实验室, 北京, 100190

语种 中文
文献类型 研究性论文
ISSN 1000-6893
学科 航空
基金 国家自然科学基金
文献收藏号 CSCD:5449874

参考文献 共 21 共2页

1.  Hagenmaier M A. Study of moving start door flow physics for scramjet, AIAA-1999-4957,1999 被引 1    
2.  Huebner L D. Hyper-X flight engine ground testing for X-43 flight risk reduction, AIAA-2001-1809,2001 被引 2    
3.  Grainger A L. The unsteady flow physics of hypersonic inlet starting processes, AIAA-2012-5937,2012 被引 1    
4.  Ogawa H. Inlet starting of high-contraction axisymmetric scramjets. Journal of Propulsion and Power,2011,26(26):1247-1258 被引 7    
5.  张林. 高超声速二元进气道顶板移动变几何方案数值模拟. 航空学报,2012,33(10):1800-1808 被引 7    
6.  王翼. 开启式高超声速进气道启动性能试验. 航空动力学报,2008,23(6):1014-1018 被引 13    
7.  Tahir R B. Unsteady starting of high Mach number air inlets-A CFD study, AIAA-2003-5191,2003 被引 1    
8.  Timofeev E V. On recent developments related to flow starting in hypersonic air intakes, AIAA-2008-2512,2008 被引 1    
9.  Wang W X. Numerical study of unsteady starting characteristics of a hypersonic inlet. Chinese Journal of Aeronautics,2013,26(3):563-571 被引 13    
10.  Clemens N T. Low-frequency unsteadiness of shock wave/turbulent boundary layer interactions. Annual Review of Fluid Mechanics,2013,46:469-492 被引 47    
11.  梁德旺. 影响高超声速进气道起动能力的因素分析. 宇航学报,2006,27(4):714-719 被引 28    
12.  Holger B. Shock wave boundary-layer interactions,2011:141-159 被引 1    
13.  Loth E. Canonical normal shock wave/boundary-layer interaction flows relevant to external compression inlets. AIAA Journal,2013,51(9):2208-2217 被引 4    
14.  张晓嘉. 大内收缩比二元高超声速进气道波系配置特性. 推进技术,2012,33(4):505-509 被引 4    
15.  岳连捷. 二元高超声速进气道优化设计方法研究, CSTAM 2008-0028,2008 被引 1    
16.  Korkegi R H. Compression of shock induced two- and three-dimensional incipient turbulence separation. AIAA Journal,1975,13(4):534-535 被引 10    
17.  Boyce R R. The HyShot scramjet flight experiment-flight data and CFD calculations compared, AIAA-2003-7029,2003 被引 1    
18.  Boyce R R. Shock-induced three-dimensional separation of an axisymmetric hypersonic turbulent boundary layer, AIAA-2000-2226,2000 被引 1    
19.  Lu H B. Interaction of isentropic compression waves with a bow shock. AIAA Journal,2013,51(10):2208-2217 被引 1    
20.  Lu H B. Flow characteristics of hypersonic inlets with different cowl-lip blunting methods. Science China Physics, Mechanics and Astronomy,2014,57(4):741-752 被引 7    
引证文献 9

1 杨基明 激波的传播与干扰 力学进展,2016,46(1):541-587
被引 12

2 郭帅涛 攻角与马赫数对进气道起动影响的可比拟性 推进技术,2017,38(5):983-991
被引 3

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