The modulation of turbulence by the laden particles in swirling flows is studied via direct numerical simulation. The statistical characteristics of turbulence modulation are investigated in detail under the effects of different mass loadings as well as Stokes numbers. It is found that the characteristics of turbulence modulation for different Stokes numbers are very similar to each other when the mass loading is light. As the mass loading increases, small particles seem to modulate turbulence more rapidly than large particles. The number concentration or the number flow rate of particles plays an important role in modulation of turbulence. It induces the preferential attenuation of turbulence for small particles in the near field region. M...
The current study investigates turbulence modication by particles in a backward-facing step flow wit...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
The results of point-particle Eulerian–Lagrangian direct numerical simulation (DNS) calculations of ...
Dynamics of turbulence modulation and particle concentration in rotating flows, at a low particle vo...
Direct numerical simulation method is used to investigate the small scale (dp < η/10) turbulence mod...
The objective of the present research was to extend the Direct Numerical Simulation (DNS) approach t...
We use interface-resolved simulations to study near-wall turbulence modulation by small inertial par...
The effect of an evolving particle size distribution due to particle agglomeration and breakup, and ...
A new particle source term to account for the effect of particles on the turbulence equations based ...
International audienceThe presence of solid particles or water droplets in continuous fluid flow can...
International audienceParticle-resolved numerical simulations based on the Force Coupling Method are...
One of the most interesting problems in fluid dynamics is the prediction of particle-laden turbulent...
The effect of small particles on decaying grid-generated turbulence is studied experimentally. Using...
Discrete Vortex Simulations of a dilute two-dimensional particle-laden shear layer with one-way coup...
Abstract. Direct numerical simulations have been used to investigate the response of the wake of a s...
The current study investigates turbulence modication by particles in a backward-facing step flow wit...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
The results of point-particle Eulerian–Lagrangian direct numerical simulation (DNS) calculations of ...
Dynamics of turbulence modulation and particle concentration in rotating flows, at a low particle vo...
Direct numerical simulation method is used to investigate the small scale (dp < η/10) turbulence mod...
The objective of the present research was to extend the Direct Numerical Simulation (DNS) approach t...
We use interface-resolved simulations to study near-wall turbulence modulation by small inertial par...
The effect of an evolving particle size distribution due to particle agglomeration and breakup, and ...
A new particle source term to account for the effect of particles on the turbulence equations based ...
International audienceThe presence of solid particles or water droplets in continuous fluid flow can...
International audienceParticle-resolved numerical simulations based on the Force Coupling Method are...
One of the most interesting problems in fluid dynamics is the prediction of particle-laden turbulent...
The effect of small particles on decaying grid-generated turbulence is studied experimentally. Using...
Discrete Vortex Simulations of a dilute two-dimensional particle-laden shear layer with one-way coup...
Abstract. Direct numerical simulations have been used to investigate the response of the wake of a s...
The current study investigates turbulence modication by particles in a backward-facing step flow wit...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
The results of point-particle Eulerian–Lagrangian direct numerical simulation (DNS) calculations of ...