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      On the clustering of finite-size particles in turbulence

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          Abstract

          We investigate experimentally the spatial distributions of heavy and neutrally buoyant particles of finite size in a fully turbulent flow. As their Stokes number (i.e. ratio of the particle viscous relaxation time to a typical flow time scale) is close to 1, one may expect both classes of particles to aggregate in specific flow regions. This is not observed. Using a Voronoi analysis we show that neutrally buoyant particles sample turbulence homogeneously, whereas heavy particles do cluster. One implication for the understanding and modeling of particle laden flows, is that the Stokes number cannot be the sole key parameter as soon as the dynamics of finite-size objects is considered.

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          Author and article information

          Journal
          16 May 2012
          2012-09-14
          Article
          10.1103/PhysRevE.86.035301
          1205.3713
          e4a45600-7654-4315-bb8f-03cd7c8dfbb9

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

          History
          Custom metadata
          accepted for publication in Physical Review E
          physics.flu-dyn

          Thermal physics & Statistical mechanics
          Thermal physics & Statistical mechanics

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