The effect of shear-thinning on the scalings and small-scale structures of turbulence

Abstract

We study the homogeneous isotropic turbulence of a shear-thinning fluid modeled by the Carreau model and show how the variable viscosity affects the multiscale behaviour of the turbulent flow. We show that Kolmogorov theory can be extended to such non-Newotnian fluids, provided that the correct choice of average is taken when defining the mean Kolmogorov scale and dissipation rate, to properly capture the effect of the variable viscosity. Thus, the classical phenomenology a la Kolmogorov can be observed in the inertial range of scale, with the energy spectra decaying as k-5/3 and the third order structure function obeying the 4/5 law. The changing viscosity instead strongly alters the small scale of turbulence, leading to an enhanced intermittent behavior of the velocity field.