摘要
采用“照片三维复原技术”对某型飞机无隔道进气道/前机身进行了几何重构,然后用N S方程对机身/进气道内外流场进行了数值模拟,得到了进气道内外流场的马赫数分布和鼓包表面的压力分布,分析了无隔道进气道排移附面层的机理。结果表明:该飞机进气道在鼓包顶点有一个起始压缩角,波后为等熵压缩面。研究认为,无隔道进气道的设计机理是在鼓包压缩面上形成一个中间高、两侧低的压力分布,在该压力梯度的作用下来流附面层被推向两侧并被排除。
The diverterless inlet and forebody of a fighter are constructed by using the Three Dimensional Reversion Technique of Photos and the external and internal flowfields of the inlet and forebody are calculated. The Mach contours inside and outside the inlet and tile pressure distribution on the bump surface are presen- ted. Mechanism of diversion of boundary layer on diverterless supersonic inlet (DSI) is also analyzed. It can be seen from the results that there is an initial compression angle at the front point of tile bump and an isoentropic compression surface after the shock. The investigation shows that the diverterless supersonic inlet or bump inlet creates a high pressure area on the bump compression surface which pushes the air in boundary layer away from the inlet.
出处
《航空学报》
EI
CAS
CSCD
北大核心
2005年第3期286-289,共4页
Acta Aeronautica et Astronautica Sinica
基金
"十五"空军预研资助项目
关键词
无隔道进气道
鼓包进气道
一体化设汁
计算流体力学
divertreless supersonic inlet (DSI)
bump inlet
integrated design
computational fluid dynamics(CFD)
作者简介
梁德旺(1962-)男,湖南岳阳人,南京航空航天大学能源与动力学院教授,博土生导师。研究领域为内流流体力学,微型发动机技术,高超声速技术,进发匹配技术,湍流数值模拟。E—mail:ldw@nuaa.edu.cn
李博(1974-)男,河南洛阳人,南京航空航天大学能源与动力学院讲师,硕上。研究领域为内流流体力学,高超声速技术。E—mail:liangpe@nuaa.edu.cn
