关键词: 轴流式压气机;转子叶片;非定常流;纳维尔斯托克斯方程

Abstract: An isolated axial flow compressor rotor was investigated computationally by Navier-Stokes solver The main contributors which cause some unsteadiness downstream of the rotor were studied in detail based on the calculated 3-D flow field The total unsteadiness in the mean flow direction was calculated and compred with experimental data The comparison shows a good agreement for total unsteadiness prediction The calculation results also show that both the turbulence kinetic energy and the wake velocity deficit make important contributions to the total unsteadiness downstream of the rotor Higher turbulence kinetic energy was produced by tip leakage flow, passage vortex and hub corner stall, which resulted in that much unsteadiness exists in rotor tip region near the hub and inside the blade wake This method for evaluating total unsteadiness can be useful tools to investigate the effects of unsteady-flow mechanics

Key words: Axial flow compressor;Rotor blade;Unsteady flow;Navier-Stokes equation