The problem of the motion of a swirling flow in a vortex chamber with particle deposition effects at the lateral surface is numerically investigated. Flowfields with formation of recirculation zones are analyzed on the basis of the Navier-Stokes equations. Two cases of the transport process for solid particles of different sizes with deposition on the lateral surface of the channel are studied (passive impurities are assumed). In the first case, the particles are injected into the peripheral part of the channel together with the swirling flow; in the second case, this process is performed through an annular slot without swirling. The results are compared with available experimental data and asymptotic solutions
Abstract: Accurate prediction of particle deposition indoors is important to estimate exposure risk ...
Since experiments are expensive and often difficult to perform reliable computational fluid dynamics...
AbstractThe present analysis is based upon the numerical solution of the full Navier-Stokes equation...
The problem of the motion of a swirling flow in a vortex chamber with particle deposition effects at...
Swirling flow with particle deposition effects at the lateral surface is numerically investigated. T...
This paper deals with particle deposition onto solid walls from turbulent flows. The aim of the stud...
Abstract:- Particle trajectory and deposition in a channel flow with a rectangular cylinder was stud...
A direct numerical simulation of fully-developed, time-dependent, three-dimensional turbulent flow i...
This paper presents a simple aerosol transport model together with specific boundary conditions, whi...
A numerical model for the simulation of aerosol flows via an Eulerian-Eulerian, one-way coupled, two...
Particle dispersion and deposition in man-made enclosed environments are closely related to the well...
International audienceThe air is modeled as incompressible flow in a ribbed channel. The existence o...
The vortex particle method is an easy and attractive tool to analyze flow phenomena by investigating...
Abstract: The vortex particle method is an easy and attractive tool to analyze flow phenomena by inv...
Previous research on particle deposition in channels has emphasized the mass transfer aspects of the...
Abstract: Accurate prediction of particle deposition indoors is important to estimate exposure risk ...
Since experiments are expensive and often difficult to perform reliable computational fluid dynamics...
AbstractThe present analysis is based upon the numerical solution of the full Navier-Stokes equation...
The problem of the motion of a swirling flow in a vortex chamber with particle deposition effects at...
Swirling flow with particle deposition effects at the lateral surface is numerically investigated. T...
This paper deals with particle deposition onto solid walls from turbulent flows. The aim of the stud...
Abstract:- Particle trajectory and deposition in a channel flow with a rectangular cylinder was stud...
A direct numerical simulation of fully-developed, time-dependent, three-dimensional turbulent flow i...
This paper presents a simple aerosol transport model together with specific boundary conditions, whi...
A numerical model for the simulation of aerosol flows via an Eulerian-Eulerian, one-way coupled, two...
Particle dispersion and deposition in man-made enclosed environments are closely related to the well...
International audienceThe air is modeled as incompressible flow in a ribbed channel. The existence o...
The vortex particle method is an easy and attractive tool to analyze flow phenomena by investigating...
Abstract: The vortex particle method is an easy and attractive tool to analyze flow phenomena by inv...
Previous research on particle deposition in channels has emphasized the mass transfer aspects of the...
Abstract: Accurate prediction of particle deposition indoors is important to estimate exposure risk ...
Since experiments are expensive and often difficult to perform reliable computational fluid dynamics...
AbstractThe present analysis is based upon the numerical solution of the full Navier-Stokes equation...