Film cooling behavior of a single cylindrical hole inclined at an angle of 35° with respect to a flat surface is numerically predicted in this study. Adiabatic film cooling effectiveness has been presented to evaluate the influence of the scoop placed on the coolant entry side. The effect of blowing ratio (0.65, 1, 1.5 and 2) and the length-to-diameter ratio (1.7 and 4.4) are examined. Three-dimensional Reynolds-averaged Navier-Stokes analysis with SST turbulence model is used for the computations. It has been found that both centerline and laterally averaged adiabatic film cooling effectiveness are enhanced by the scoop and the enhancement increases with the blowing ratio in the investigated range of variables. The scoop was more effective for the higher length-to-diameter ratio cases (L/D = 4.4) because of better velocity distribution at the film hole exit, which makes coolant reattach at a more upstream location after blowing off from the wall.
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机译:在该研究中,数值预测了以35°以35°的角度倾斜的单个圆柱孔的膜冷却行为。已经提出了绝热膜冷却效果以评估勺子放置在冷却剂进入侧的影响。检查吹出比率(0.65,1,1.5和2)和长度至直径比(1.7和4.4)的效果。使用SST湍流模型的三维雷诺平均纳维尔 - Stokes分析用于计算。已经发现,通过勺子增强了中心线和横向平均的绝热膜冷却效果,并且增强随着调查范围的变量中的吹气比而增加。由于在薄膜孔出口处更好的速度分布,勺子对较高的长度到直径比例(L / D = 4.4)更有效,这使得在从墙壁吹来的更高的上游位置使冷却剂重新连接。
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