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关于弹性惯性湍流的机制。

On the mechanism of elasto-inertial turbulence.

作者信息

Dubief Yves, Terrapon Vincent E, Soria Julio

机构信息

School of Engineering, University of Vermont, Burlington, Vermont 05405, USA.

出版信息

Phys Fluids (1994). 2013 Nov;25(11):110817. doi: 10.1063/1.4820142. Epub 2013 Sep 17.

Abstract

Elasto-inertial turbulence (EIT) is a new state of turbulence found in inertial flows with polymer additives. The dynamics of turbulence generated and controlled by such additives is investigated from the perspective of the coupling between polymer dynamics and flow structures. Direct numerical simulations of channel flow with Reynolds numbers ranging from 1000 to 6000 (based on the bulk and the channel height) are used to study the formation and dynamics of elastic instabilities and their effects on the flow. The flow topology of EIT is found to differ significantly from Newtonian wall-turbulence. Structures identified by positive (rotational flow topology) and negative (extensional/compressional flow topology) second invariant isosurfaces of the velocity gradient are cylindrical and aligned in the spanwise direction. Polymers are significantly stretched in sheet-like regions that extend in the streamwise direction with a small upward tilt. The cylindrical structures emerge from the sheets of high polymer extension, in a mechanism of energy transfer from the fluctuations of the polymer stress work to the turbulent kinetic energy. At subcritical Reynolds numbers, EIT is observed at modest Weissenberg number (, ratio polymer relaxation time to viscous time scale). For supercritical Reynolds numbers, flows approach EIT at large . EIT provides new insights on the nature of the asymptotic state of polymer drag reduction (maximum drag reduction), and explains the phenomenon of early turbulence, or onset of turbulence at lower Reynolds numbers than for Newtonian flows observed in some polymeric flows.

摘要

弹性惯性湍流(EIT)是在含有聚合物添加剂的惯性流中发现的一种新的湍流状态。从聚合物动力学与流动结构之间的耦合角度研究了由此类添加剂产生和控制的湍流动力学。使用雷诺数范围为1000至6000(基于体积和通道高度)的通道流直接数值模拟来研究弹性不稳定性的形成和动力学及其对流动的影响。发现EIT的流动拓扑与牛顿壁面湍流有显著差异。由速度梯度的正(旋转流动拓扑)和负(拉伸/压缩流动拓扑)第二不变量等值面识别出的结构是圆柱形的,并在展向方向上排列。聚合物在沿流向延伸且向上倾斜较小的片状区域中被显著拉伸。圆柱形结构从高聚合物延伸的片层中出现,这是一种从聚合物应力功的波动到湍动能的能量传递机制。在亚临界雷诺数下,在适度的魏森贝格数(聚合物松弛时间与粘性时间尺度之比)下观察到EIT。对于超临界雷诺数,流动在大的 时接近EIT。EIT为聚合物减阻的渐近状态(最大减阻)的性质提供了新的见解,并解释了早期湍流现象,即在某些聚合物流中观察到的比牛顿流在更低雷诺数下出现湍流的现象。

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