Add to ORKGThe settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity perpendicular to gravity is measured due to the interplay between the homogeneous shear turbulence and gravity acting on the particles. We introduce a model to predict and understand this phenomenon.</p
Particles with different density from the advecting turbulent fluids cluster due to the different re...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
The settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity pe...
The settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity pe...
The settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity pe...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
The settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity pe...
The settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity pe...
The settling of (inertial) particles is studied in homogeneous shear turbulence. A drift velocity pe...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
We investigate the influence of shear on the gravitational settling of heavy inertial particles in h...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
Particles with different density from the advecting turbulent fluids cluster due to the different re...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...