Mixing in two-dimensional shear flow with smooth fluctuations

TL;DR

This paper investigates the statistical properties of passive scalar mixing in a two-dimensional shear flow with smooth, random fluctuations, highlighting intermittency and correlation functions in both decaying and forced scenarios.

Contribution

It introduces a model analyzing scalar mixing in shear flows with smooth fluctuations, providing new insights into intermittency and correlation functions in such systems.

Findings

Strong intermittency observed in scalar dynamics

Correlation functions characterized for short-correlated fluctuations

Qualitative properties of pair correlation functions derived

Abstract

Chaotic variations in flow speed up mixing of scalar fields via intensified stirring. This paper addresses the statistical properties of a passive scalar field mixing in a regular shear flow with random fluctuations against its background. We consider two-dimensional flow with shear component dominating over smooth fluctuations. Such flow is supposed to model passive scalar mixing e.g. inside a large-scale coherent vortex forming in two-dimensional turbulence or in elastic turbulence in a micro-channel. We examine both the decaying case and the case of the continuous forcing of the scalar variances. In both cases dynamics possesses strong intermittency, that can be characterized via the single-point moments and correlation functions calculated in our work. We present general qualitative properties of pair correlation function as well as certain quantitative results obtained in the framework of the model with fluctuations that are short correlated in time.