Understanding the behaviour of particles entrained in a fluid flow upon changes in flow direction is crucial in problems where particle inertia is important, such as the erosion process in pipe bends.We present results on the impact of particles in a T-shaped channel in the laminar-turbulent transitional regime. The impacting event for a given system is described in terms of the Reynolds number and the particle Stokes number. Experimental results for the impact are compared with the trajectories predicted by theoretical particle tracing models for a range of configurations to determine the role of the viscous boundary layer in retarding the particles and reducing the rate of collision with the substrate. In particular a 2D model based on a ...
Spherical particle collision statistics in multiphase turbulent channel flows are obtained using a L...
AbstractThe problem of a particle impacting on a wall, a common phenomenon in particle-laden flows i...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...
Understanding the behaviour of particles entrained in a fluid flow upon changes in flow direction is...
The behaviour of spherical solid particles in a horizontal channel flow is analysed using numerical ...
The aim of this study is the development and validation of computational fluid dynamics models (CFD)...
Abstract. In this work, a comparison between the results of point-particle direct numer-ical simulat...
In this work, a comparison between the results of point-particle direct numerical simulations and PI...
A numerical study on the erosion of particle clusters in an abrupt pipe was conducted by means of th...
This thesis discusses particle resuspension from surfaces caused by particle impaction. The thesis a...
A comprehensive 3D numerical investigation of hydrodynamics of particles flowing through a horizonta...
The trajectories of particles moving in curved tubes are calculated using a fully developed laminar ...
International audienceThe problem of a particle impacting on a wall, a common phenomenon in particle...
Particle impaction on a cylinder in a cross flow is investigated with the use of Direct Numerical Si...
Large eddy simulation in a four-way coupled system is used to simulate particle collisions and agglo...
Spherical particle collision statistics in multiphase turbulent channel flows are obtained using a L...
AbstractThe problem of a particle impacting on a wall, a common phenomenon in particle-laden flows i...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...
Understanding the behaviour of particles entrained in a fluid flow upon changes in flow direction is...
The behaviour of spherical solid particles in a horizontal channel flow is analysed using numerical ...
The aim of this study is the development and validation of computational fluid dynamics models (CFD)...
Abstract. In this work, a comparison between the results of point-particle direct numer-ical simulat...
In this work, a comparison between the results of point-particle direct numerical simulations and PI...
A numerical study on the erosion of particle clusters in an abrupt pipe was conducted by means of th...
This thesis discusses particle resuspension from surfaces caused by particle impaction. The thesis a...
A comprehensive 3D numerical investigation of hydrodynamics of particles flowing through a horizonta...
The trajectories of particles moving in curved tubes are calculated using a fully developed laminar ...
International audienceThe problem of a particle impacting on a wall, a common phenomenon in particle...
Particle impaction on a cylinder in a cross flow is investigated with the use of Direct Numerical Si...
Large eddy simulation in a four-way coupled system is used to simulate particle collisions and agglo...
Spherical particle collision statistics in multiphase turbulent channel flows are obtained using a L...
AbstractThe problem of a particle impacting on a wall, a common phenomenon in particle-laden flows i...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...