本文在低速风洞上对叶顶间隙尺寸为0.036 m的常规直叶栅的间隙中分面和上、下游及栅内的气动参数进行了详细的测量,并与黄洪雁博士对相同叶栅测量的0.023 m间隙尺寸下的实验数据进行了比较.通过对实验结果的分析和讨论,认为叶顶间隙的存在将在涡轮叶栅内引起沿叶高指向上端壁的二次流动,从而改善了下半叶展的流动性能,恶化了上半叶展的流动状态.在较大间隙下泄漏流动更加趋近上端壁,增强了壁面剪切效应,从而使得较大间隙的总压损失大于较小间隙.
参考文献
[1] | Yaras M I;Sjolander S A .Effects of Simulated Rotation on Tip Leakage in a Planar Cascade of Turbine Blades:Part I-Tip Gap Flow[J].ASME Journal of of Turbomachinery,1992,114:652-659. |
[2] | Yaras M I;sjolander S A;Kind R J .Effects of Simulated Rotation on Tip Leakage in a Planar Cascade of Turbine Blades:Part Ⅱ-.Downstream Flow Field and Blade Load-ing[J].ASME Transactions Journal of Turbomachinery,1992,114:660-667. |
[3] | Chan J K K;Yaras M I;Sjolander S A .Interaction Be-tween Inlet Boundary Layer,Tip-Leakage and Secondary Flows in a Low-Speed Turbine Cascade[AsME Paper 94-GT-250][R].,1994. |
[4] | Cecco S De;Yaras M I;Sjolander S A .Measurements of the Tip-Leakage Flow in a Turbine Cascade with Large Clearances[ASME Paper 95-GT-77][R].,1995. |
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