Large-scale confinement and small-scale clustering of floating particles in stratified turbulence | Zendy

Alessandro Sozza | Zendy; F. De Lillo | Zendy; S. Musacchio | Zendy; G. Boffetta | Zendy

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Large-scale confinement and small-scale clustering of floating particles in stratified turbulence

Author(s) -

Alessandro Sozza,

F. De Lillo,

S. Musacchio,

G. Boffetta

Publication year - 2016

Publication title -

physical review fluids

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.244

H-Index - 37

eISSN - 2469-9918

pISSN - 2469-990X

DOI - 10.1103/physrevfluids.1.052401

Subject(s) - stratification (seeds) , dimensionless quantity , turbulence , statistical physics , scale (ratio) , physics , cluster analysis , mechanics , stratified flows , meteorology , stratified flow , mathematics , statistics , seed dormancy , botany , germination , quantum mechanics , dormancy , biology

International audienceWe derive a simple model, valid within the Boussinesq approximation, for the dynamics of small buoyant particles in stratified turbulence, in presence of a mean linear density profile. By means of extensive direct numerical simulations, we investigate the statistical distribution of particles as a function of the two dimensionless parameters of the problem. We find that vertical confinement of particles is mainly ruled by the degree of stratification, with a weak dependency on the particle properties. On the contrary, small scale fractal clustering is found to depends on the particles relaxation time and is only slightly dependent on the flow stratification. The implications of our findings for the formation of thin phytoplankton layers are discussed

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