基于品质因数的翼型绕流多孔抽吸控制

基于品质因数，对雷诺数Re=10⁴，攻角α=6°，抽吸起始位置位于分离点的NACA0012翼型绕流分离控制进行了数值模拟，讨论了抽吸区域与抽吸系数变化对控制收益与升阻比等参数的影响。结果表明：翼型升力与升阻比系数随控制区域增加而升高，但只有一个控制区域使阻力系数最小。相同控制区域，翼型最大升阻比对应一个最佳抽吸系数。若固定抽吸控制区域，则抽吸系数应尽量小，才能获得最多控制收益。另外，存在一个最佳控制区域尺度，使控制收益最高。

SUCTION CONTROL OF AIRFOIL FLOW BASED ON THE FIGURE OF MERIT

Based on the figure of merit, the numerical simulation for the suction control of flow past an airfoil NACA0012 is conducted at Reynolds number Re=104, angle of attack α=6° with the control beginning from the separation point. The effects of variations of the control area and suction coefficient on the control cost and lift-drag ratio are discussed. The results show that the lift and lift-drag ratio coefficients increase with the increase of the suction area. However, for the drag coefficient, there is only one control area which makes it minimum. For the same control area, there is an optimal suction coefficient which makes the lift-drag coefficient maximum. If the suction area size is constant, the suction coefficient should be as small as possible to get the utmost control gain. Furthermore, there is also an optimal control area which makes the control gain maximum.