Universal statistics of density of inertial particles sedimenting in turbulence

Abstract

We solve the problem of spatial distribution of inertial particles that sediment in Navier-Stokes turbulence with small ratio Fr of acceleration of fluid particles to acceleration of gravity g. The particles are driven by linear drag and have arbitrary inertia. We demonstrate that independently of the particles' size or density the particles distribute over fractal set with log-normal statistics determined completely by the Kaplan-Yorke dimension DKY. When inertia is not small DKY is proportional to the ratio of integral of spectrum of turbulence multiplied by wave-number and g. This ratio is independent of properties of particles so that the particles concentrate on fractal with universal, particles-independent statistics. We find Lyapunov exponents and confirm predictions numerically. The considered case includes typical situation of water droplets in clouds.