The clustering instability of inertial particles spatial distribution in turbulent flows

Details The clustering instability of inertial particles spatial distribution in turbulent flows The clustering instability of inertial particles spatial distribution in turbulent flows

2002-04-12

arxiv.org/abs/nlin/0204022v1

Phys. Rev. E, 66, 036302 (2002)

Nonlinear Sciences

Chaotic Dynamics

REVTeX 4, 15 pages, 2 figures(included), PRE submitted

Scientific paper

10.1103/PhysRevE.66.036302

A theory of clustering of inertial particles advected by a turbulent velocity field caused by an instability of their spatial distribution is suggested. The reason for the clustering instability is a combined effect of the particles inertia and a finite correlation time of the velocity field. The crucial parameter for the clustering instability is a size of the particles. The critical size is estimated for a strong clustering (with a finite fraction of particles in clusters) associated with the growth of the mean absolute value of the particles number density and for a weak clustering associated with the growth of the second and higher moments. A new concept of compressibility of the turbulent diffusion tensor caused by a finite correlation time of an incompressible velocity field is introduced. In this model of the velocity field, the field of Lagrangian trajectories is not divergence-free. A mechanism of saturation of the clustering instability associated with the particles collisions in the clusters is suggested. Applications of the analyzed effects to the dynamics of droplets in the turbulent atmosphere are discussed. An estimated nonlinear level of the saturation of the droplets number density in clouds exceeds by the orders of magnitude their mean number density. The critical size of cloud droplets required for clusters formation is more than $20 \mu$m.

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