Coagulation drives turbulence in binary fluid mixtures

Abstract

We use direct numerical simulations and scaling arguments to study coarsening in binary fluid mixtures with a conserved order parameter in the droplet-spinodal regime -- the volume fraction of the droplets is neither too small nor symmetric -- for small diffusivity and viscosity. Coagulation of droplets drives a turbulent flow that eventually decays. We uncover a novel coarsening mechanism, driven by turbulence where the characteristic length scale of the flow is different from the characteristic length scale of droplets, giving rise to a domain growth law of t1/2, where t is time. At intermediate times, both the flow and the droplets form self-similar structures: the structure factor S(q) q-2 and the kinetic energy spectra E(q) q-5/3 for an intermediate range of q, the wavenumber.