The emphasis of this thesis is to investigate how inertial point particles are clustered and dispersed in the wake of a circular cylinder with an uniform free stream. The numerical simulations that directly solved Navier-Stokes equations were carried out to achieve the single-phase carrier flows in a range of Reynolds number (Re). The movement of spherical particle is one-way coupled to the fluid element and solely subjected to the viscous drag force. The continuous study of particle concentration starts from the 2D unsteady laminar wake. The particle-cylinder impaction at the front-side cylinder induces a peculiar bow shock cluster convected downstream. The radial component of viscous drag force, as balancing the centrifugal force, alters ...
Most real-world flows are multiphase, yet we know little about them compared to their single-phase c...
Large eddy simulation (LES) is developed to study particle preferential concentration, in which an i...
Inertial particles transported in unsteady flows will not be able to follow the fluid motion perfect...
Dispersion and mixing of inertial point particles in the unsteady and three-dimensional wake of a ci...
The inhomogeneous distributions of inertial particles in the unsteady flow around a wetted circular ...
Inertial point particles suspended in a two-dimensional unsteady circular cylinder flow at Re = 100 ...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
International audienceWe present an experimental characterization of preferential concentration and ...
A numerical investigation is presented into the relation between finite sized, inertial particle tra...
The presence of solid rigid particles alters the global transport and rheological properties of the ...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
Direct numerical simulations were performed to study the effects of free-stream turbulence on differ...
Inertial and interceptive .impaction of spherical particles on circular cylinders was investigated t...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
Suspensions of small heavy particles in turbulent flows are found in a variety of natural and indust...
Most real-world flows are multiphase, yet we know little about them compared to their single-phase c...
Large eddy simulation (LES) is developed to study particle preferential concentration, in which an i...
Inertial particles transported in unsteady flows will not be able to follow the fluid motion perfect...
Dispersion and mixing of inertial point particles in the unsteady and three-dimensional wake of a ci...
The inhomogeneous distributions of inertial particles in the unsteady flow around a wetted circular ...
Inertial point particles suspended in a two-dimensional unsteady circular cylinder flow at Re = 100 ...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
International audienceWe present an experimental characterization of preferential concentration and ...
A numerical investigation is presented into the relation between finite sized, inertial particle tra...
The presence of solid rigid particles alters the global transport and rheological properties of the ...
International audienceParticle laden flows are of relevant interest in many industrial and natural s...
Direct numerical simulations were performed to study the effects of free-stream turbulence on differ...
Inertial and interceptive .impaction of spherical particles on circular cylinders was investigated t...
Particles that are heavy compared to the fluid in which they are embedded (inertial particles) tend ...
Suspensions of small heavy particles in turbulent flows are found in a variety of natural and indust...
Most real-world flows are multiphase, yet we know little about them compared to their single-phase c...
Large eddy simulation (LES) is developed to study particle preferential concentration, in which an i...
Inertial particles transported in unsteady flows will not be able to follow the fluid motion perfect...