Stochastic dynamics of particles trapped in turbulent flows

The long time dynamics of large particles trapped in two inhomogeneous turbulent shear flows is studied experimentally. Both flows present a common feature, a shear region that separates two colliding circulations, but with different spatial symmetries and temporal behaviors. Because large particles...

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Bibliographic Details
Published in:arXiv.org 2015-12
Main Authors: Machicoane, N, López-Caballero, M, Fiabane, L, J-F Pinton, Bourgoin, M, Burguete, J, Volk, R
Format: Article
Language:English
Subjects:
Computational fluid dynamics
Potential barriers
Variation
Online Access:Get full text
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Summary:The long time dynamics of large particles trapped in two inhomogeneous turbulent shear flows is studied experimentally. Both flows present a common feature, a shear region that separates two colliding circulations, but with different spatial symmetries and temporal behaviors. Because large particles are less and less sensitive to flow fluctuations as their size increases, we observe the emergence of a slow dynamics corresponding to back-and-forth motions between two attractors, and a super-slow regime synchronized with flow reversals when they exist. Such dynamics is substantially reproduced by a one dimensional stochastic model of an over-damped particle trapped in a two-well potential, forced by a colored noise. An extended model is also proposed that reproduces observed dynamics and trapping without potential barrier: the key ingredient is the ratio between the time scales of the noise correlation and the particle dynamics. A total agreement with experiments requires the introduction of spatially inhomogeneous fluctuations and a suited confinement strength.
ISSN:2331-8422
DOI:10.48550/arxiv.1512.07760