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Parametric Evaluation of Thin, Transonic Circulation-Control Airfoils

机译：跨音速循环控制薄型翼型的参数评估

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Wind-tunnel tests were conducted in the NASA Langley Transonic Dynamics Tunnel on a 6 percent-thick, elliptical circulation-control airfoil with upper-surface and lower-surface blowing capability. Results for elliptical Coanda trailing-edge geometries, biconvex Coanda trailing-edge geometries, and leading-edge geometries are reported. Results are presented at subsonic and transonic Mach numbers of 0.3 and 0.8, respectively. When considering one fixed trailing-edge geometry, for both the subsonic and transonic conditions it was found that the [3.0:1] ratio elliptical Coanda surface with the most rounded leading-edge [03] performed favorably and was determined to be the best compromise between comparable configurations that took advantage of the Coanda effect. This configuration generated a maximum. (Delta)C(sub 1) = 0.625 at a C(sub mu) = 0.06 at M = 0.3, alpha = 6deg. This same configuration generated a maximum (Delta)C(sub 1) = 0.275 at a C(sub mu) = 0.0085 at M = 0.8, alpha = 3deg.

机译：风洞试验是在NASA兰利跨音速动力学隧道中进行的，其厚度为6％，具有上表面和下表面吹气能力，是椭圆形的循环控制翼型。报告了椭圆形柯恩达后缘几何，双凸柯恩达后缘几何和前沿几何的结果。结果分别呈现在亚音速和跨音速马赫数分别为0.3和0.8的情况下。当考虑一个固定的后缘几何形状时，对于亚音速和跨音速条件，发现[3.0：1]比例的椭圆形柯恩达表面具有最圆的前缘[03]表现良好，并且被认为是最佳的折衷方案在利用柯恩达效应的可比较配置之间。此配置产生了最大值。在M ＝ 0.3，α＝ 6度时，C（sub mu）＝ 0.06时，ΔC（sub 1）＝ 0.625。这种相同的配置在C =（sub mu）= 0.0085在M = 0.8，α= 3deg时产生最大值ΔC（sub 1）= 0.275。

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Anders Scott; Schlecht Robin;
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年度 2007
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机译：薄型跨音速循环控制翼型的参数评估

Parametric Evaluation of Thin, Transonic Circulation-Control Airfoils

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