The dynamics of homogeneous, isotropic turbulence seeded with finite sized particles or bubbles is investigated in a series of numerical simulations, using the force-coupling method for the particle phase and low wavenumber forcing of the flow to sustain the turbulence. Results are given on the modulation of the turbulence due to massless bubbles, neutrally buoyant particles and inertial particles of specific density 1.4 at volumetric concentrations of 6%. Buoyancy forces due to gravity are excluded to emphasize finite size and inertial effects for the bubbles or particles and their interactions with the turbulence. Besides observing the classical entrapment of bubbles and the expulsion of inertial particles by vortex structures, we analyze...
The flow of a planar free shear layer with cylindrical bubbles is simulated using a finite differenc...
Despite decades of investigations, there is still no consensus on whether inertial particles augment...
The effect of particles on turbulence is a key phenomenon in many practical industrial applications ...
Bubble dynamics in turbulent flows has been extensively studied using the point-bubble approximation...
The momentum exchange of bubble and particle laden incompressible turbulent flows is investigated by...
The motivation for the present work is to investigate particle-laden turbulent flows using accurate ...
Direct numerical simulations of turbulent suspension flows are carried out with the force-coupling m...
We investigate the modulation of turbulence caused by the presence of finite-size dispersed particle...
International audienceThe free rise of isolated, deformable, finite-size bubbles in otherwise homoge...
International audienceDirect numerical simulations of particle laden flow are carried out with the F...
Direct numerical simulations of a bubbly laden homogeneous shear flow have been carried out using th...
Bubbly flows involve bubbles randomly distributed within a liquid. At large Reynolds number, they exp...
The motion and the action of microbubbles in homogeneous and isotropic turbulence are investigated t...
Turbulent flows are nonstationary in nature. Since the turbulent fluctuations of most flow parameter...
The flow past one or nine spheres arranged in a plane lattice held fixed in a stream of decaying hom...
The flow of a planar free shear layer with cylindrical bubbles is simulated using a finite differenc...
Despite decades of investigations, there is still no consensus on whether inertial particles augment...
The effect of particles on turbulence is a key phenomenon in many practical industrial applications ...
Bubble dynamics in turbulent flows has been extensively studied using the point-bubble approximation...
The momentum exchange of bubble and particle laden incompressible turbulent flows is investigated by...
The motivation for the present work is to investigate particle-laden turbulent flows using accurate ...
Direct numerical simulations of turbulent suspension flows are carried out with the force-coupling m...
We investigate the modulation of turbulence caused by the presence of finite-size dispersed particle...
International audienceThe free rise of isolated, deformable, finite-size bubbles in otherwise homoge...
International audienceDirect numerical simulations of particle laden flow are carried out with the F...
Direct numerical simulations of a bubbly laden homogeneous shear flow have been carried out using th...
Bubbly flows involve bubbles randomly distributed within a liquid. At large Reynolds number, they exp...
The motion and the action of microbubbles in homogeneous and isotropic turbulence are investigated t...
Turbulent flows are nonstationary in nature. Since the turbulent fluctuations of most flow parameter...
The flow past one or nine spheres arranged in a plane lattice held fixed in a stream of decaying hom...
The flow of a planar free shear layer with cylindrical bubbles is simulated using a finite differenc...
Despite decades of investigations, there is still no consensus on whether inertial particles augment...
The effect of particles on turbulence is a key phenomenon in many practical industrial applications ...