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Acceleration statistics of heavy particles in turbulence

Published online by Cambridge University Press:  27 February 2006

J. BEC
Affiliation:
CNRS Observatoire de la Côte d'Azur, B.P. 4229, 06304 Nice Cedex 4, France
L. BIFERALE
Affiliation:
Department of Physics and INFN, University of Rome “Tor Vergata”, Via della Ricerca Scientifica 1, 00133 Roma, Italy
G. BOFFETTA
Affiliation:
Department of Physics and INFN, University of Torino, Via Pietro Giuria 1, 10125, Torino, Italy
A. CELANI
Affiliation:
CNRS, INLN, 1361 Route des Lucioles, F-06560 Valbonne, France
M. CENCINI
Affiliation:
SMC-INFM c/o Department of Physics, University of Rome “La Sapienza”, Piazz.le A. Moro, 2, I-00185 Roma, Italy, and CNR-ISC via dei Taurini 19, I-00185 Roma, Italy
A. LANOTTE
Affiliation:
CNR-ISAC, Sezione di Lecce, Str. Prov. Lecce-Monteroni km 1,200, I-73100 Lecce, Italy
S. MUSACCHIO
Affiliation:
Department of Physics, University of Rome “La Sapienza”, Piazz.le A. Moro, 2, I-00185 Roma, Italy
F. TOSCHI
Affiliation:
CNR-IAC, Viale del Policlinico 137, I-00161 Roma, Italy and INFN, Sezione di Ferrara, via G. Saragat 1, I-44100, Ferrara, Italy

Abstract

We present the results of direct numerical simulations of heavy particle transport in homogeneous, isotropic, fully developed turbulence, up to resolution $512^3$ ($R_\lambda\approx 185$). Following the trajectories of up to 120 million particles with Stokes numbers, St, in the range from 0.16 to 3.5 we are able to characterize in full detail the statistics of particle acceleration. We show that: (i) the root-mean-squared acceleration $a_{\rm rms}$ sharply falls off from the fluid tracer value at quite small Stokes numbers; (ii) at a given St the normalized acceleration $a_{\rm rms}/(\epsilon^3/\nu)^{1/4}$ increases with $R_\lambda$ consistently with the trend observed for fluid tracers; (iii) the tails of the probability density function of the normalized acceleration $a/a_{\rm rms}$ decrease with St. Two concurrent mechanisms lead to the above results: preferential concentration of particles, very effective at small St, and filtering induced by the particle response time, that takes over at larger St.

Type
Papers
Copyright
© 2006 Cambridge University Press

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