Direct Numerical Simulation of Receptivity to Roughness in a Swept-Wing Boundary Layer at High Reynolds Numbers

48th AIAA Fluid Dynamics Conference 2018 : held at the AIAA Aviation Forum 2018 : Atlanta, Georgia, USA, 25-29 June 2018. AIAA Fluid Dynamics Conference (48th : 2018 : Atlanta, Ga.) Pub Date : 2018-06-24 DOI:10.2514/6.2018-3076

G. Nicholson, Chao Zhang, L. Duan, M. Malik, Fei Li, A. Uzun

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引用次数: 1

Abstract

Direct numerical simulations (DNS) are performed to examine the receptivity to roughness in a spatially developing three-dimensional boundary layer over an inﬁnite-swept natural-laminar-ﬂow wing at a freestream Mach number of 0 . 75 and a chord Reynolds number of approximately 25 million based on the long, swept chord. Stationary crossﬂow disturbances are excited by applying either critically spaced discrete cylinders of micron size or naturally occurring distributed roughness in the leading-edge region. The DNS data show that the spanwise spectral content of the excited crossﬂow disturbances is highly dependent upon the shape of roughness elements, and the initial growth of the crossﬂow structures is a nonlinear function of the element height. The linear growth rate of the excited crossﬂow disturbances predicted by DNS shows good agreement with linear parab-olized stability equations. The receptivity study lays the foundation for investigating the stabilization of the naturally most unstable steady crossﬂow mode by using spanwise periodic DREs

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高雷诺数下后掠翼边界层粗糙度接受度的直接数值模拟

采用直接数值模拟(DNS)研究了在自由流马赫数为0时，无限掠面自然层流机翼上空间发展的三维边界层对粗糙度的接受性。75和和弦雷诺数约为2500万基于长，扫弦。通过施加临界间距微米尺寸的离散圆柱体或在前缘区域自然发生的分布粗糙度来激发稳态横流扰动。DNS数据表明，受激横流扰动的谱向含量高度依赖于粗糙度单元的形状，横流结构的初始生长是单元高度的非线性函数。用DNS预测的受激横流扰动的线性增长率与线性抛物面化稳定性方程吻合较好。可接受性研究为利用展向周期DREs研究自然最不稳定定常横流模态的镇定性奠定了基础

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48th AIAA Fluid Dynamics Conference 2018 : held at the AIAA Aviation Forum 2018 : Atlanta, Georgia, USA, 25-29 June 2018. AIAA Fluid Dynamics Conference (48th : 2018 : Atlanta, Ga.)

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