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Orientation Dynamics of Sedimenting Anisotropic Particles in Turbulence

Prateek Anand, Samriddhi Sankar Ray, Ganesh Subramanian

2020Physical Review Letters27 citationsDOIOpen Access PDF

Abstract

We examine the dynamics of small anisotropic particles (spheroids) sedimenting through homogeneous isotropic turbulence using direct numerical simulations and theory. The gravity-induced inertial torque acting on sub-Kolmogorov spheroids leads to pronouncedly non-Gaussian orientation distributions localized about the broadside-on (to gravity) orientation. Orientation distributions and average settling velocities are obtained over a wide range of spheroid aspect ratios, Stokes, and Froude numbers. Orientational moments from the simulations compare well with analytical predictions in the inertialess rapid-settling limit, with both exhibiting a nonmonotonic dependence on spheroid aspect ratio. Deviations arise at Stokes numbers of order unity due to a spatially inhomogeneous particle concentration field resulting from a preferential sweeping effect; as a consequence, the time-averaged particle settling velocities exceed the orientationally averaged estimates.

Topics & Concepts

Stokes numberSettlingIsotropyPhysicsTurbulenceAnisotropyFroude numberMechanicsOrientation (vector space)Classical mechanicsParticle (ecology)GaussianHomogeneous isotropic turbulenceDirect numerical simulationBreakupOpticsReynolds numberGeometryThermodynamicsMathematicsQuantum mechanicsGeologyOceanographyParticle Dynamics in Fluid FlowsAeolian processes and effectsGranular flow and fluidized beds
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