International audienceWe present an experimental characterization of preferential concentration and clustering of inertial particles in a turbulent flow obtained from Voronoï diagram analysis. Several results formerly obtained from various data processing techniques are successfully recovered and further analyzed with Voronoï tesselations as the main single tool. We introduce a simple and nonambiguous way to identify particle clusters. We emphasize the maximum preferential concentration for particles with Stokes numbers around unity and the self-similar nature of clustering and we report new unpredicted results concerning clusters inner concentration dependence on Stokes number and global seeding density. Some of these experimental observat...
This work experimentally examines the geometric characterization and spatial distribution of particl...
Using one-way coupled direct numerical simulations of inertial particles in homogeneous isotropic tu...
International audienceWe investigate the preferential concentration of particles which are neutrally...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
International audienceWe present an experimental study of the preferential concentration of sub-Kolm...
International audienceVoronoï diagrams are used to analyze one-way coupling direct numerical simulat...
International audienceParticle laden flows are of a great interest in many industrial and natural sy...
Three-dimensional Voronoï analysis is used to quantify the clustering of inertial particles in homog...
We analyze one-way coupling DNS of heavy particles in homogeneous turbulent flow over a large range ...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]SPEEInternational audienceThe turbulent mixing of sm...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
We study the two main phenomenologies associated with the transport of inertial particles in turbule...
We report experimental evidence of spatial clustering of dense particles in homogenous, isotropic tu...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
This work experimentally examines the geometric characterization and spatial distribution of particl...
Using one-way coupled direct numerical simulations of inertial particles in homogeneous isotropic tu...
International audienceWe investigate the preferential concentration of particles which are neutrally...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
International audienceWe present an experimental study of the preferential concentration of sub-Kolm...
International audienceVoronoï diagrams are used to analyze one-way coupling direct numerical simulat...
International audienceParticle laden flows are of a great interest in many industrial and natural sy...
Three-dimensional Voronoï analysis is used to quantify the clustering of inertial particles in homog...
We analyze one-way coupling DNS of heavy particles in homogeneous turbulent flow over a large range ...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]SPEEInternational audienceThe turbulent mixing of sm...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
We study the two main phenomenologies associated with the transport of inertial particles in turbule...
We report experimental evidence of spatial clustering of dense particles in homogenous, isotropic tu...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
This work experimentally examines the geometric characterization and spatial distribution of particl...
Using one-way coupled direct numerical simulations of inertial particles in homogeneous isotropic tu...
International audienceWe investigate the preferential concentration of particles which are neutrally...