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Kolmogorov-size particles in homogeneous and isotropic turbulence

Alessandro Chiarini, Simone Tandurella, Marco Edoardo Rosti

2025Journal of Fluid Mechanics10 citationsDOIOpen Access PDF

Abstract

We investigate the fluid–solid interaction of suspensions of Kolmogorov-size spherical particles moving in homogeneous isotropic turbulence at a microscale Reynolds number of $Re_\lambda \approx 140$ . Two volume fractions are considered, $10^{-5}$ and $10^{-3}$ , and the solid-to-fluid density ratio is set to $5$ and $100$ . We present a comparison between interface-resolved (PR-DNS) and one-way-coupled point-particle (PP-DNS) direct numerical simulations. We find that the modulated energy spectrum shows the classical $-5/3$ Kolmogorov scaling in the inertial range of scales and a $-4$ scaling at smaller scales, with the latter resulting from a balance between the energy injected by the particles and the viscous dissipation, in an otherwise smooth flow. An analysis of the small-scale flow topology shows that the particles mainly favour events with axial strain and vortex compression. The dynamics of the particles and their collective motion studied for PR-DNS are used to assess the validity of the PP-DNS. We find that the PP-DNS predicts fairly well both the Lagrangian and Eulerian statistics of the particle motion for the low-density case, while some discrepancies are observed for the high-density case. Also, the PP-DNS is found to underpredict the level of clustering of the suspension compared with the PR-DNS, with a larger difference for the high-density case.

Topics & Concepts

Homogeneous isotropic turbulenceTurbulenceIsotropyHomogeneousKolmogorov microscalesMechanicsK-epsilon turbulence modelTurbulence kinetic energyPhysicsK-omega turbulence modelClassical mechanicsStatistical physicsReynolds numberDirect numerical simulationOpticsParticle Dynamics in Fluid FlowsGas Dynamics and Kinetic TheoryFluid Dynamics and Turbulent Flows
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