Inertial Particles in Homogeneous Shear Turbulence: Experiments and Direct Numerical Simulation
Autor: | Paolo Gualtieri, Claudia Nicolai, Renzo Piva, Boris Jacob |
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Rok vydání: | 2013 |
Předmět: |
Physics
Turbulence General Chemical Engineering Isotropy Direct numerical simulation General Physics and Astronomy Reynolds number Mechanics Enstrophy Physics::Fluid Dynamics symbols.namesake flow symbols anisotropic clustering particle-laden shear flow Mean flow Statistical physics Physical and Theoretical Chemistry Anisotropy Stokes number |
Zdroj: | Flow, turbulence and combustion 91 (2013). doi:10.1007/s10494-013-9513-5 info:cnr-pdr/source/autori:C. NICOLAI(1), B. JACOB(1), P. GUALTIERI(2), R. PIVA (2)/titolo:Inertial particles in homogeneous shear turbulence: experiments and direct numerical simulations/doi:10.1007%2Fs10494-013-9513-5/rivista:Flow, turbulence and combustion/anno:2013/pagina_da:/pagina_a:/intervallo_pagine:/volume:91 |
ISSN: | 1573-1987 1386-6184 |
DOI: | 10.1007/s10494-013-9513-5 |
Popis: | The properties of the transport of heavy inertial particles in a uniformly sheared turbulent ow have been investigated by combining experimental and numerical data at particle Stokes number St =0.3 and 0.5 respectively. As in isotropic turbulence, particles are observed to avoid zones of intense enstrophy and to cluster in strain-dominated regions, resulting in highly intermittent spatial distributions. Moreover, the anisotropy of the mean ow is found to imprint a clear preferential orientation of the particle clusters in the direction of the maximum mean strain. These features are observed both in the numerics and in the experiments, and have been consistently quantied by a number of complementary statistical tools, such as the statistics associated to the Voronoi tessellations and the pair correlation function. The latter quantity has been generalized in the form of the Angular Distribution Function and has allowed to evaluate the anisotropy content of the particle eld at each scale. The behavior of this observable exhibits the same trend in the two datasets and suggests that, owing to increased inertia, the particle distribution starts to recover isotropy at scales smaller than the carrier velocity eld. A proper rescaling of the two datasets in terms of their respective values of the shear scale allows to account for dierences in the Reynolds number of experiments and numerics in the range of scales dominated by the mean shear |
Databáze: | OpenAIRE |
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