A Numerical Investigation of the Effect of End-Wall Boundary Layer Skew on the Aerodynamic Performance of a Low Aspect Ratio, High Turning Compressor Cascade
(0) The paper reports on a numerical investigation into the effects of inlet boundary layer skew on the aerodynamic performance of a high turning (50°), 2d compressor cascade. The cascade geometry is representative of stator hub sections in highly loaded single-stage axial-flow low-speed compressors. 2D blades with NACA~65 thickness distribution on circular arc camber lines were used. The blade aspect ratio was 1.0, the space/chord ratio 0.5 and the stagger angle 25° The simulations were done with a commercially available, steady three-dimensional RANS solver with the Spalart-Allmaras turbulence model. The incoming end-wall boundary layers were assumed to be collateral or skewed. In both cases the profile boundary layers were fully turbulent. The Reynoldsnumber was fixed at 600000 and the thickness of the incoming endwall boundary layer was 0.1.Results are shown for an inlet-air angle of 50° representing the impact free inlet-air angle of a hypothetical cascade with zero-thickness blades. Contrary to what has been expected, the results do not show (hub) corner stall, neither with nor without end-wall boundary layer skew. Flow reversal happens to occur almost exclusively on the suction surface of the blades, not on the end-walls. The end-wall flow is highly overturned, when the incoming boundary layer is collateral and is much less curved when the incoming boundary layer is skewed and (re)energized. This in turn leads to an interaction between the end-wall and blade suction surface flow which is much stronger in the first than in the second case with corresponding higher and lower losses, respectively.
secondary flow skewness of boundary layer flow
Martin B(o)hle Udo Stark
Bergische University of Wuppertal FB D, Gau(B)trasse 20,42097 Wuppertal, Germany Technical University Braunschweig Institute of Fluid Mechanics, Bienroeder Weg 3,38106 Braunschweig,
国际会议
The Fourth International Symposium on Fluid Machinery and Fluid Engineering(第四届流体机械与流体工程国际会议)
北京
英文
107-114
2008-11-25(万方平台首次上网日期,不代表论文的发表时间)