Add to ORKGDispersion of particles in a turbulent wall-bounded flow is an important topic in many applications in industry and environment. Think for instance of small particles in exhaust gases which pollute heat exchangers in biomass furnaces or of turbulent mixing processes in chemical and pharmaceutical industry. For numerical simulation of particle-laden turbulent flow various approaches are available.
Particle dispersion in turbulent channel flow is investigated through Lagrangian tracking of inertia...
The results of point-particle Eulerian–Lagrangian direct numerical simulation (DNS) calculations of ...
The Euler-Lagrange approach, based on Direct Numerical Simulation (DNS) and Large-Eddy Simulation (L...
In this paper, the results of an international collaborative test case relative to the pro-duction o...
The purpose of this paper is to understand the capability and consistency of large eddy simulation (...
The incentive for this research is to gain insight into fundamental aspects of turbulent fluid-parti...
One of the most interesting problems in fluid dynamics is the prediction of particle-laden turbulent...
Transport and deposition of aerosol particles in a plane channel with a ribbed wall are studied in o...
In the present paper, we evaluate the performances of three stochastic models for particle dispersio...
Large eddy simulation (LES) is developed to study particle preferential concentration, in which an i...
Large eddy simulation and a discrete element method are applied to study the flow, particle dispersi...
Deposition and resuspension mechanisms in particle-laden turbulent flows are dominated by the coher...
The effect of subgrid scales on motion of particles is studied in this work. The case of particle-la...
The work described in this paper employs large eddy simulation and a discrete element method to stud...
Theoretical models for particle dispersion in turbulent wall layers are based on closure assumptions...
Particle dispersion in turbulent channel flow is investigated through Lagrangian tracking of inertia...
The results of point-particle Eulerian–Lagrangian direct numerical simulation (DNS) calculations of ...
The Euler-Lagrange approach, based on Direct Numerical Simulation (DNS) and Large-Eddy Simulation (L...
In this paper, the results of an international collaborative test case relative to the pro-duction o...
The purpose of this paper is to understand the capability and consistency of large eddy simulation (...
The incentive for this research is to gain insight into fundamental aspects of turbulent fluid-parti...
One of the most interesting problems in fluid dynamics is the prediction of particle-laden turbulent...
Transport and deposition of aerosol particles in a plane channel with a ribbed wall are studied in o...
In the present paper, we evaluate the performances of three stochastic models for particle dispersio...
Large eddy simulation (LES) is developed to study particle preferential concentration, in which an i...
Large eddy simulation and a discrete element method are applied to study the flow, particle dispersi...
Deposition and resuspension mechanisms in particle-laden turbulent flows are dominated by the coher...
The effect of subgrid scales on motion of particles is studied in this work. The case of particle-la...
The work described in this paper employs large eddy simulation and a discrete element method to stud...
Theoretical models for particle dispersion in turbulent wall layers are based on closure assumptions...
Particle dispersion in turbulent channel flow is investigated through Lagrangian tracking of inertia...
The results of point-particle Eulerian–Lagrangian direct numerical simulation (DNS) calculations of ...
The Euler-Lagrange approach, based on Direct Numerical Simulation (DNS) and Large-Eddy Simulation (L...