减小翼型激波阻力的鼓包流动控制技术

针对2020年使用的N+2代民用飞机的翼身融合(BWB)布局发展需要,以减小激波阻力为目标,采用计算流体力学(CFD)方法,开展弱化激波、减小激波阻力的鼓包流动控制技术研究.提出了λ形激波结构“强干扰”和等熵压缩“弱干扰”两种鼓包激波减阻流动控制原理,给出了两种鼓包基本形状设计方法和工程应用的可行性分析,指出λ形激波结...

Wave Drag Reduction of Airfoil with Shock Control Bump

In order to meet the development requirements of the blended wing body (BWB) configuration for N+2 generation civil transport aircraft in 2020, this paper establishes a goal of reducing the wave drag, and uses a shock control bump to weaken the shock and hence reduce the wave drag by a computational fluid dynamics(CFD) method. Bump control principles besed on strong disturbance created by the λ shock structure and weak disturbance created by infinitely quasi-isentropic shocks are put forward; the geometric design method and engineering feasibility analysis of the two different bumps are studied. The results show that the bump based on a λ shock structure can be easily realized in engineering applications. The parameters of the length, height and location of the bump which produces a λ shock structure are investigated in detail so as to find their impact on wave drag reduction and yield the principles for parameter selection. It can be concluded that the best matching of these parameters with regard to such flow conditions as shock strength and its location can realize obvious drag reduction, the results show that the maximal drag reduction can reach 21% for RAE2822 and 12% for NACA0012.