沟槽对湍流边界层中展向涡影响的实验研究

An experimental study on riblet-induced spanwise vortices in turbulent boundary layers

  • 摘要: 壁湍流中的相干结构与壁面的高摩擦阻力密切相关,研究壁面纵向微小沟槽对展向涡的影响规律,有助于深入认识沟槽壁面的减阻机理。在自由来流速度控制在0.18m/s的水槽中(Reτ=190),采用高时间分辨率粒子图像测速技术,测量光滑平板和沟槽板(s+=2h+=16.3)湍流边界层,分别获得了15998个瞬时速度矢量场。使用λci识别展向涡,比较了2种壁面流动中不同法向位置处展向涡的数量、平均强度、平均尺度及各尺度展向涡所占的数量比例。结果表明:沟槽使近壁区顺向涡的数量减小,逆向涡的数量增大,并削弱了展向涡的强度;沟槽使近壁区小尺度顺向涡和中尺度逆向涡的比例增加,中尺度顺向涡和大尺度逆向涡的比例减小,使得近壁区顺向涡的尺度差异变小,对近壁区逆向涡的尺度差异几乎无影响;沟槽减小了对数律区小尺度顺向涡的数量比例,并增大了大尺度顺向涡的数量比例,对数律区逆向涡数量比例的变化规律和顺向涡正好相反。

     

    Abstract: Coherent structure is closely related to the high frictional resistance in wall turbulence.Summarizing the influence rule of vertical micro-grooves on spanwise vortex is helpful for understanding the drag reduction mechanism by riblet surface.15998 instantaneous velocity fields over both riblet (s+=2h+=16.3) and smooth surfaces in turbulent boundary layers (TBL) at a Reynolds number of Reτ=190 were acquired by using time-resolved particle image velocimetry (TRPIV) in a water tunnel.The swirling strength λci was used to reveal spanwise vortices, and we extracted the cores of spanwise vortices by finding swirling strength's local extremum in whole field.Subsequently, the proportion of the spanwise vortex, the average swirl strength, the average diameter of the vortex and the proportion of the each scale vortex were analyzed statistically in flow field over riblet surface.All experimental results were compared with those over a smooth surface.It is found that (1) the number of prograde spanwise vortices is decreased by riblet in near wall region, while retrograde spanwise vortices'number is increased.(2) The average strength of the spanwise vortex is decreased, whether prograde vortex or retrograde vortex.(3) The proportion of small scale prograde vortices and mesoscale retrograde vortices is increased in near wall region, while mesoscale prograde vortices and large scale retrograde vortices'proportion is decreased.(4) The difference in stream-normal scale of the prograde spanwise vortex becomes smaller in inner boundary, but the retrograde spanwise vortex's scale difference without change.(5) The proportion of small scale prograde vortices is decreased in log-law region, while the proportion of large scale prograde vortices is increased.Impact on the proportion of retrograde vortices is exactly opposite of the prograde vortex.

     

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