<p>Transport of aerosol particles is a fundamental phenomenon in many environmental and industrial applications. Among the several computational fluid dynamical schemes used to study this problem, the lattice Boltzmann methods (LBMs) have shown great promise. Using a 2-D LBM model coupled with a Lagrangian formalism, this study investigates an early stage of particle–surface collisions in a free-stream flow over a semi-infinite array of staggered obstructions at operating conditions of woven-wire screens. After an initial validation of the model, the particle–surface collision efficiency with different diameters is then examined as functions of the number of staggered obstructions, obstruction morphology, and separation distance between two...
Particle resolved direct numerical simulations (PR-DNS) of particle-laden turbulent flow in a channe...
Wang, Lian-PingTurbulent flows laden with finite-size solid particles are found in a variety of natu...
Direct numerical simulations of turbulent flow past stationary particles in a channel are carried ou...
International audienceThe transport and deposition of particles over a fixed obstacle set in a fluid...
Particle-laden flows are important owing to their relevance to many engineering devices such as coal...
Particle-laden flow occur in a wide range of engineering applications such as combustors, gasifiers,...
We perform direct numerical simulation of three-dimensional turbulent flows in a rectangular channel...
The lattice-Boltzmann Method (LBM) is employed to directly simulate the transport of particles appro...
We report on lattice-Boltzmann simulations of slow fluid flow past mono- and bidisperse random array...
We simulate particles suspended in a fluid by means of the lattice-Boltzmann method and its extensio...
We report on lattice-Boltzmann simulations of slow fluid flow past mono- and bidisperse random array...
2013-01-31The transport and deposition of inertial particles in unsteady flows were investigated usi...
Abstract. Numerical simulation of dispersion and deposition of aerosol particles in a channel flow o...
Particle resolved direct numerical simulations (PR-DNS) of particle-laden turbulent flow in a channe...
Wang, Lian-PingTurbulent flows laden with finite-size solid particles are found in a variety of natu...
Direct numerical simulations of turbulent flow past stationary particles in a channel are carried ou...
International audienceThe transport and deposition of particles over a fixed obstacle set in a fluid...
Particle-laden flows are important owing to their relevance to many engineering devices such as coal...
Particle-laden flow occur in a wide range of engineering applications such as combustors, gasifiers,...
We perform direct numerical simulation of three-dimensional turbulent flows in a rectangular channel...
The lattice-Boltzmann Method (LBM) is employed to directly simulate the transport of particles appro...
We report on lattice-Boltzmann simulations of slow fluid flow past mono- and bidisperse random array...
We simulate particles suspended in a fluid by means of the lattice-Boltzmann method and its extensio...
We report on lattice-Boltzmann simulations of slow fluid flow past mono- and bidisperse random array...
2013-01-31The transport and deposition of inertial particles in unsteady flows were investigated usi...
Abstract. Numerical simulation of dispersion and deposition of aerosol particles in a channel flow o...
Particle resolved direct numerical simulations (PR-DNS) of particle-laden turbulent flow in a channe...
Wang, Lian-PingTurbulent flows laden with finite-size solid particles are found in a variety of natu...
Direct numerical simulations of turbulent flow past stationary particles in a channel are carried ou...