用高频压力传感器测量了低速单级压气机转子叶尖动态压力场。结果表明, 转子叶背附面层径向潜流使得叶背附近存在一个高压带。叶背角区和叶盆角区的气流交混造成通道中部具有甚至不低于叶盆处的高压力。两个高压区都随流量的减小而扩大,并随流向逐渐融合,反映了叶背附面层径向潜流和中部气流交混的发展。 设计状态下,泄漏涡是造成转子叶尖压力脉动的主要因素,形成的高水平压力脉动区随流向呈喇叭形逐渐扩大,约在一半弦长处脉动最强。 近失速状态下,叶背前部角区中强叶面附面层潜流及与强泄漏流和端壁附面层的交混造成大范围的强压力脉动区,局部扩展到整个通道,通道中部叶背附面层很有可能发生分离。
Unsteady static pressure field on the tip endwall of an axial-flow compressor rotorpassage was measured using a micro high frequency pressure transducer. Distributionsof phase-locked average and random fluctuation of the pressure were analyzed to helpunderstand the tip flow in both design and near stall condition. The results showthat, in design condition, a high pressure area extending along the suction side whileanother one existing in mid-passage, both enlarge with the mass flow decreases. Indesign condition, pressure fluctuation is mainly caused by the tip leakage vortex,with the highest level at half-chord. In near stall condition, the pressurefluctuation area is even across the whole blade passage due to the very strong leakageflow. The distributions of average pressure and fluctuation pressure both confirmthe separation of the boundary layer on the suction surface.
参考文献
| [1] | B Pandya A .Tip Clearance Flow In a Compressor Rotor Passageat Design and Off-Design Conditions[J].ASME Journal of Engineering for Power,1984,106:570-577. |
| [2] | 蒋浩康;马宏伟 .压气机转子三维紊流流场[J].工程热物理学报,1998,19(03):287-292. |
| [3] | 马宏伟;蒋浩康 等.轴流压气机叶尖泄漏涡的时均流动[J].工程热物理学报,1998,19(06):681-686. |
| [4] | 马宏伟;蒋浩康 等.轴流压气机转子尖区三维紊流特性[J].工程热物理学报,1999,20(02):166-170. |
| [5] | 蒋浩康.研究转子内流动的大尺寸轴流压气机实验装置和动态测量技术[J].航空动力学报,1992(01):1. |
| [6] | 马宏伟.扩压叶栅端壁区旋涡流动显示研究[J].航空动力学报,1997(03):258. |
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