Pressure Distribution Prediction for Two-Dimensional Hydrofoils with Massive Turbulent Separation

Journal of Hydronautics Pub Date : 1976-07-01 DOI:10.2514/3.48146
C. Farn, D. Whirlow, F. Goldschmied
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引用次数: 9

Abstract

An automated numerical algorithm has been developed for the prediction of the pressure distribution on twodimensional noncavitating lifting hydrofoils, isolated or in cascade, even with massive turbulent flow separation. The only required inputs are the hydrofoil profile, the inlet flow angle, the cascade parameters, and the Reynolds Number. Satisfactory experimental verification of the algorithm has been achieved against the NACA 63-018 airfoil at 18° angle of attack, the NACA 65, 2-421 airfoil of 20° angle of attack, and the NASA GA(W)-1 airfoil at 21° angle of attack with turbulent separation locations up to 85% chord upstream of the trailing-edge. Only two iterations were required in the previous cases with a maximum computing time of 205 sec on the CDC 7600 system.
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大规模湍流分离的二维水翼压力分布预测
本文提出了一种预测二维非空化升力型水翼压力分布的自动化数值算法。唯一需要的输入是水翼型、进口气流角、叶栅参数和雷诺数。针对NACA 63-018型18°迎角、NACA 65,2 -421型20°迎角和NASA GA(W)-1型21°迎角,湍流分离位置在尾缘上游85%弦线处的实验验证了该算法的有效性。在之前的案例中,只需要两次迭代,在CDC 7600系统上的最大计算时间为205秒。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Journal of Hydronautics
Journal of Hydronautics
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