论文部分内容阅读
A series of numerical simulations were conducted in both a 1.5stage axial compressor model and a simplified planar cascade model.The cases with different blade sweep schemes in the cascade model were simulated with free-slip endwalls to minimize the influence of endwall 3-D(three-dimensional)flows.The results obtained in the cascade model were discussed at first for getting a clear insight into the effects of blade sweep without other influences.And then the simulation results of the 1.5stage compressor model were discussed accordingly.The discussions focused on the influences of different meridional flowpath designs,i.e.constant mid radius(CMR)design,constant outer radius(COR)design and constant inner radius(CIR)design,on the performance of the swept blade.The results showed that the most critical effect produced by blade sweep was attributed to the redistribution of local mass-flow-rate in blade spanwise direction.The change of meridional flowpath did not change the mass-flow-rate redistribution behaviors.However,the trends for local mass-flow-rate redistribution in compressor stage model showed some discrepancies compared with the results shown in the planar cascade model.
A series of numerical simulations were conducted in both a 1.5stage axial compressor model and a simplified planar cascade model. Cases with different blade sweep schemes in the cascade model were simulated with free-slip endwalls to minimize the influence of endwall 3-D ( three-dimensional) flows.The results obtained in the cascade model were discussed at first for getting a clear insight into the effects of blade sweep without other influences. And then then the simulation results of the 1.5 stage compressor model were shown accordingly. The discussions focused on the influences of different meridional flowpath designs, ieconstant mid radius (CMR) design, constant outer radius (COR) design and constant inner radius (CIR) design, on the performance of the swept blade. The results showed that the most critical effect produced by blade sweep was attributed to the redistribution of local mass-flow-rate in blade spanwise direction. change of meridional flowpath did not change the mass-flow-rate re distribution behaviors. However, the trends for local mass-flow-rate redistribution in compressor stage model showed some discrepancies compared with the results shown in the planar cascade model.