| Abstract: | Three-dimensional corner separation is a common phenomenon that significantly affects compressor performance. Turbulence model is still a weakness for RANS method on predicting corner separation flow accurately. In the present study, numerical study of corner separation in a linear highly loaded prescribed velocity distribution (PVD) compressor cascade has been investigated using seven frequently used turbulence models. The seven turbulence models include Spalart–Allmaras model, standard k–e model, realizable k–e model, standard k–x model, shear stress transport k–x model, v2–f model and Reynolds stress model. The results of these turbulence models have been compared and analyzed in detail with available experimental data. It is found the standard k–e model, realizable k–e model, v2–f model and Reynolds stress model can provide reasonable results for predicting three dimensional corner separation in the compressor cascade. The Spalart–Allmaras model, standard k–x model and shear stress transport k–x model overesti-mate corner separation region at incidence of 0?. The turbulence characteristics are discussed and turbulence anisotropy is observed to be stronger in the corner separating region. |
