Large-eddy simulation of turbulent preferential concentration and collision of bidisperse heavy particles in isotropic turbulence

• Published in: Powder technology Vol. 314; pp. 281 - 290
• Main Authors: Chen, Jincai, Jin, Guodong
• Format: Journal Article
• Language: English
• Published: Lausanne Elsevier B.V 01.06.2017; Elsevier BV
• Subjects: Bidisperse particles; Collision rate; Collision rates; Computational fluid dynamics; Computer simulation; Direct numerical simulation; Errors; Filtration; Isotropic turbulence; Large eddy simulation; Mathematical models; Navier-Stokes equations; Numerical analysis; Particle-laden turbulence; Particulates; Preferential concentration; Statistics; Stokes number; Studies; Subgrid scale motion; Turbulence; Turbulent flow; Vortices; Bidisperse particles; Collision rate; Particle-laden turbulence; Subgrid scale motion; Large-eddy simulation; Preferential concentration
• ISSN: 0032-5910; 1873-328X
• DOI: 10.1016/j.powtec.2016.12.069

Particle-laden turbulent flows are ubiquitous in natural and engineering flows. The preferential concentration and pair-statistics of heavy particles at small and intermediate Stokes numbers are mainly related to the small-scale motions, which are missing in conventional large-eddy simulation (LES). Therefore, studies on the effects of subgrid scale (SGS) motions on particle-pair statistics are significant. This paper will study the effects of SGS motions on the collision-related statistics of a bidisperse system that involves two groups of particles at different Stokes numbers using a direct numerical simulation (DNS), filtered DNS (FDNS) and LES. Compared with a monodisperse system at a single Stokes number, the relative error of the collision rates in the bidisperse system is much smaller than that in the monodisperse one. For given filter widths and Stokes numbers, the relative errors between the FDNS and LES are much smaller than their relative errors to DNS, implying that the error caused by the filtering operation in LES plays a leading role in the overall error of the particle collision rate at Stokes numbers less than 3. A particle SGS model is, thus, necessary to consider the effect of SGS motions on bidisperse heavy particles. [Display omitted] •Effects of missing subgrid scale fluid motions on LES of collision rate of bidisperse heavy particles.•Severe errors on LES of collision rate for particles at small and moderate Stokes numbers.•Necessity for particle subgrid scale model for LES of particle-laden turbulent flows.