TRANSITION IN WALL-BOUNDED FLOWS
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摘要: 对壁流动的不同实验结果做了对比,这些实验结果来自于流动显示、热膜测量以及PIV测量, 对比的同时,还总结了与此相应的理论方面的进展.这些进展是在对所选大约120篇文献中内容归纳提炼的基础上给出的.尽管实验中所使用的初始扰动条件不同,但所发现的流动结构几乎是完全一样的. 在对壁流动转捩的认识方面,认为下列所观察到的流动结构是最基本最重要的:在边界层和管流中被称为类孤子相干结构(SCS)的三维非线性涡包、$\Lambda$涡、二次涡环和涡环链.近期的实验中发现了这些结构形成和转捩的动力学过程,具体包括以下内容: (1) $\Lambda$ 涡和二次涡环间持续的相互作用过程.该过程决定了涡环链的产生方式, 总是从壁面区域周期性地形成,并进入到边界层的外部区域; (2)高频涡的生成,这是理解转捩和湍流边界层(以及其他流动)发展的关键问题之一.尽管已经提出了一些解释,但是二次涡环的实验发现将对此提供一个特别清晰的解释.(3)在所有湍流猝发中SCS所起的关键作用.这一点被看做是低雷诺数湍流边界层中湍流产生的关键机制.与猝发直接相关联的是低速条带. 基于SCS的动力学过程, 针对壁流动情况,可以比以前更清晰地解释低速条带的形成机制及其与流动结构的关系.在实验中所观察到的SCS和二次涡环,不仅能使我们重温壁面流动转捩中的经典故事, 同时还开辟一条新的途径,可以基于此建立壁面流动转捩可能具有的普适性的动力学过程.Abstract: In this paper, wepresent direct comparisons of experimental results on transitionin wall-bounded flows obtained by flow visualizations, hot-filmmeasurement, and particle image velocimetry, along with a briefmention of relevant theoretical progresses, based on a criticalreview of about 120 selected publications. Despite somewhatdifferent initial disturbance conditions used in experiments, theflow structures were found to be practi- cally the same. Thefollowing observed flow structures are considered to be offundamental importance in understanding transitional wall-boundedflows: the three-dimensional nonlinear wave packets calledsolitonlike coherent structures (SCSs) in boundary layer and pipeflows, the - vortex, the secondary vortex loops, and the chain ofring vortices. The dynamic processes of the formation of thesestructures and transition as newly discovered by recentexperiments include the following: (1) The sequential interactionprocesses between the-vortex and the secondary vortex loops, whichcontrol the manner by which the chain of ring vortices isperiodically introduced from the wall region into the outer regionof the boundary layer. (2) The generation of high-frequencyvortices, which is one of the key issues for understanding bothtransitional and developed turbulent boundary layers (as well asother flows), of which several explanations have been proposed buta particularly clear interpretation can be provided by theexperimental discovery of secondary vortex loops. The ignorance ofsecondary vortex loops would make the dynamic processes and flowstructures in a transitional boundary layer inconsistent withprevious discoveries. (3) The dominant role of SCSs in allturbulent bursting, which is considered as the key mechanism ofturbulent production in a low Reynoldsnumber turbulent boundarylayer. Of direct relevance to bursting is the low-speed streaks,whose formation mechanism and link to the flow structures inwall-bounded flows can be answered more clearly than before interms of the SCS dynamics. The observed SCSs and secondary vortexloops not only enable revisiting the classic story of wall-boundedflow transition, but also open a new avenue to reconstruct thepossible universal scenario for wall-bounded flow transition.
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