The interaction between a fixed solid spherical particle and stationary turbulence with zero mean flow is investigated numerically. The object diameter, D, lies in the inertial range (D?0.6L?0.9??8?, where L, ? and ?, respectively, denote the integral scale, the Taylor microscale and the Kolmogorov length) and the particle Reynolds number is close to 20. It is found that the turbulence statistics at different distances from the solid/fluid interface are modified by the presence of the object in a region that extends more than 10 times further than the viscous layer. This estimate is confirmed by the analysis of the correlation between the force and torque on the particle and the force and torque on spherical surfaces surrounding the particl...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
The presence of spherical solid particles immersed in an incompressible turbulent flow was numerica...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
The interaction between a fixed solid spherical particle and stationary turbulence with zero mean fl...
The paper presents results for the resolved numerical simulation of a turbulent flow past a homogene...
The flow past one or nine spheres arranged in a plane lattice held fixed in a stream of decaying hom...
Particles suspended in turbulent fluid flows are common in Nature and in technological applications....
Collisions between particles suspended in a fluid play an important role in many natural and industr...
Direct numerical simulations are used to investigate the individual dynamics of large spherical part...
To clarify the rate at which particles similar in size to the smallest eddies in a turbulent fluid e...
The behavior of small spheres in non-steady translational flow has been studied experimentally' for...
AbstractThis paper describes a complete framework to predict the behaviour of interacting non-spheri...
none5siWe investigate dilute suspensions of Taylor-microscale-sized particles in homogeneous isotrop...
This thesis describes a study on the behaviour of small solid particles in a numerically simulated t...
University of Minnesota M.S. thesis. 2021. Major: Aerospace Engineering and Mechanics. Advisor: Fili...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
The presence of spherical solid particles immersed in an incompressible turbulent flow was numerica...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
The interaction between a fixed solid spherical particle and stationary turbulence with zero mean fl...
The paper presents results for the resolved numerical simulation of a turbulent flow past a homogene...
The flow past one or nine spheres arranged in a plane lattice held fixed in a stream of decaying hom...
Particles suspended in turbulent fluid flows are common in Nature and in technological applications....
Collisions between particles suspended in a fluid play an important role in many natural and industr...
Direct numerical simulations are used to investigate the individual dynamics of large spherical part...
To clarify the rate at which particles similar in size to the smallest eddies in a turbulent fluid e...
The behavior of small spheres in non-steady translational flow has been studied experimentally' for...
AbstractThis paper describes a complete framework to predict the behaviour of interacting non-spheri...
none5siWe investigate dilute suspensions of Taylor-microscale-sized particles in homogeneous isotrop...
This thesis describes a study on the behaviour of small solid particles in a numerically simulated t...
University of Minnesota M.S. thesis. 2021. Major: Aerospace Engineering and Mechanics. Advisor: Fili...
We propose that the collision rates of non-spherical particles settling in a turbulent environment a...
The presence of spherical solid particles immersed in an incompressible turbulent flow was numerica...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...