Continuing invariant solutions towards the turbulent flow

E. Parente, M. Farano, J. Robinet, P. De Palma, S. Cherubini
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引用次数: 2

Abstract

A new mathematical framework is proposed for characterizing the coherent motion of fluctuations around a mean turbulent channel flow. We search for statistically invariant coherent solutions of the unsteady Reynolds-averaged Navier–Stokes equations written in a perturbative form with respect to the turbulent mean flow, using a suitable approximation of the Reynolds stress tensor. This is achieved by setting up a continuation procedure of known solutions of the perturbative Navier–Stokes equations, based on the continuous increase of the turbulent eddy viscosity towards its turbulent value. The recovered solutions, being sustained only in the presence of the Reynolds stress tensor, are representative of the statistically coherent motion of turbulent flows. For small friction Reynolds number and/or domain size, the statistically invariant motion is almost identical to the corresponding invariant solution of the Navier–Stokes equations. Whereas, for sufficiently large friction number and/or domain size, it considerably departs from the starting invariant solution of the Navier–Stokes equations, presenting spatial structures, main wavelengths and scaling very close to those characterizing both large- and small-scale motion of turbulent channel flows. This article is part of the theme issue ‘Mathematical problems in physical fluid dynamics (part 2)’.
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紊流的连续不变解
提出了一种新的数学框架来描述平均湍流通道周围波动的相干运动。我们利用雷诺兹应力张量的适当近似,以紊流平均形式写下来的非定常Reynolds-average Navier-Stokes方程的统计不变相干解。这是通过建立摄动Navier-Stokes方程已知解的延拓过程来实现的,该延拓过程是基于湍流涡流粘度对其湍流值的连续增加。只有在雷诺应力张量存在的情况下,恢复的解才能维持,这代表了湍流的统计相干运动。对于较小的摩擦雷诺数和/或区域尺寸,统计不变运动几乎等于相应的Navier-Stokes方程的不变解。然而,对于足够大的摩擦数和/或域大小,它大大偏离了Navier-Stokes方程的初始不变解,呈现的空间结构,主波长和尺度非常接近那些表征湍流通道流动的大尺度和小尺度运动。本文是主题问题“物理流体动力学中的数学问题(第二部分)”的一部分。
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