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王昊鹏, 袁先旭, 陈曦, 刘姝怡, 赖江, 刘晓东. 波纹壁对高超声速平板边界层稳定性的影响. 力学学报, 2023, 55(2): 330-342. DOI: 10.6052/0459-1879-22-327
引用本文: 王昊鹏, 袁先旭, 陈曦, 刘姝怡, 赖江, 刘晓东. 波纹壁对高超声速平板边界层稳定性的影响. 力学学报, 2023, 55(2): 330-342. DOI: 10.6052/0459-1879-22-327
Wang Haopeng, Yuan Xianxu, Chen Xi, Liu Shuyi, Lai Jiang, Liu Xiaodong. Effects of wavy roughness on the stability of a Mach 6.5 flat-plate boundary layer. Chinese Journal of Theoretical and Applied Mechanics, 2023, 55(2): 330-342. DOI: 10.6052/0459-1879-22-327
Citation: Wang Haopeng, Yuan Xianxu, Chen Xi, Liu Shuyi, Lai Jiang, Liu Xiaodong. Effects of wavy roughness on the stability of a Mach 6.5 flat-plate boundary layer. Chinese Journal of Theoretical and Applied Mechanics, 2023, 55(2): 330-342. DOI: 10.6052/0459-1879-22-327

波纹壁对高超声速平板边界层稳定性的影响

EFFECTS OF WAVY ROUGHNESS ON THE STABILITY OF A MACH 6.5 FLAT-PLATE BOUNDARY LAYER

  • 摘要: 高超声速边界层转捩会使飞行器表面热流和摩阻增加3 ~ 5倍, 极大影响高超声速飞行器的性能. 波纹壁作为一种可能的推迟边界层转捩的被动控制方法, 具有较强的工程应用前景. 文章研究了不同高度和安装位置的波纹壁对来流马赫数6.5的平板边界层稳定性的影响. 采用直接数值模拟(DNS)得到层流场, 并在上游分别引入不同频率的吹吸扰动以研究波纹壁对扰动演化的作用. 对于不同位置的波纹壁, 探究了其与同步点相对位置对其作用效果的影响, 与相同工况下光滑平板的扰动演化结果进行了对比, 发现当快慢模态同步点位于波纹壁上游时, 波纹壁会对该频率的第二模态扰动起到抑制作用. 当同步点位于波纹壁之中或者下游时, 波纹壁对扰动的作用可能因为存在两种不同的机制而使得结果较为复杂. 对于不同高度波纹壁, 发现高度较低的波纹壁, 其作用效果强弱与波纹壁高度成正相关, 而更高的波纹壁则会减弱其作用效果. 与DNS结果相比, 线性稳定性理论可以定性预测波纹壁对高频吹吸扰动的作用, 但在波纹壁附近的强非平行性区域误差较大.

     

    Abstract: Transition from laminar to turbulent flow of the hypersonic boundary layer can increase the wall friction coefficient and heat conduction coefficient by 3 ~ 5 times, which has a significant influence on flight performance and safety of hypersonic vehicles. Wavy roughness is a possible passive control method to delay hypersonic boundary layer transition, and is thus of engineering significance. In this paper we investigate the effort of finite-length wavy roughnesses with different locations and heights on the stability of a Mach 6.5 flat-plate boundary layer using direct numerical simulation and linear stability theory (LST). DNS is employed to obtain the laminar base flow, and to study the linear evolution of fixed-frequency disturbances parametrically introduced upstream by blowing and suction. The effects of the relative position of the fast/slow mode synchronization point and the wavy roughness are revealed. It is found that when the wavy roughness is placed upstream of a disturbance’s synchronization point, the disturbance is damped compared to the smooth surface case; when the disturbance’s synchronization point is within or slightly downstream of the wavy roughness, the disturbance is generally enhanced. The effects of heights of wavy roughnesses are also considered. For the wavy roughness with small heights compared to the boundary layer thickness, the effect of wavy roughness is positively correlated with the height of the wavy roughness, while the effect is weakened by the higher wavy roughness. Linear stability theory can predict well the effects of wavy roughness on high-frequency disturbances, but exhibits large discrepancies with DNS in predicting the behaviors of moderate and low-frequency disturbances. This indicates that the receptivity process and the strong non-parallel effect in the vicinity of the wavy roughness neglected by LST should play an important role.

     

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