We present results of experiments on a periodically unsteady compressor stator flow of the type which would be expected in consequence of pulsed combustion. A Reynolds number of Re = 600000 was used for the investigations. The experiments were conducted on the two-dimensional low-speed compressor testing facility in Berlin. A choking device downstream the trailing edges induced a periodic non-steady outflow condition to each stator vane which simulated the impact of a pressure gaining combuster downstream from the last stator. The Strouhal number of the periodic disturbance was Sr = 0.03 w.r.t. the stator chord length. Due to the periodic non-steady outflow condition, the flow-field suffers from periodic flow separation phenomena, which were managed by means of active flow control. In our case, active control of the corner separation was applied using fluidic actuators based on the principle of fluidic amplification. The flow separation on the centre region of the stator blade was suppressed by means of a fluidic blade actuator leading to an overall time-averaged loss reduction of 11.5%, increasing the static pressure recovery by 6.8% while operating in the non-steady regime. Pressure measurements on the stator blade and the wake as well as PIV data proved the beneficial effect of the active flow control application to the flow field and the improvement of the compressor characteristics. The actuation efficiency was evaluated by two figures of merit introduced in this contribution.
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机译:我们在脉冲燃烧的后果的周期性不稳定压缩机定子流动上存在实验结果。 Re = 600000的Reynolds数量用于调查。实验是在柏林的二维低速压缩机试验设施上进行的。下游的窒息装置凸起边缘对每个定子叶片引起周期性的非稳定流出条件,该定子叶片模拟了压力下游的压力下游的冲击。周期性干扰的Strouhal数量是SR = 0.03 W.R.T.定子弦长。由于周期性非稳定流出条件,流场遭受了周期性流动分离现象,其通过主动流量控制来管理。在我们的情况下,使用流体致动器基于流体扩增原理来应用转角分离的主动控制。通过流体刀片致动器抑制了定子叶片的中心区域上的流动分离,该流体刀片致动器导致总是时间平均损失的11.5%,在非稳定的制度下运行时,将静压回收增加6.8%。定子叶片的压力测量和唤醒以及PIV数据证明了主动流量控制应用对流场的有益效果和压缩机特性的改进。致动效率通过这一贡献中引入的两个数字评估。
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