The results of studying a dispersed airflow around a single porous cylinder are presented. The flow field of carrying medium outside the cylinder is described within the framework of the Navier-Stokes equations for incompressible gas; inside the porous cylinder the Darcy-Brinkman extended equations for averaged velocity are used. The numerical solution of the medium equations is achieved in the FLUENT package. In the found field of carrying medium velocities the suspended particle trajectories are calculated. Also given are the dependences of the particle inertial deposition effectiveness on the Stokes number at various values of the Darcy number. © 2012 Allerton Press, Inc
The inertial impaction of Lycopodium spores on single wires lying transverse to the direction of flo...
A numerical investigation is presented into the relation between finite sized, inertial particle tra...
Abstract:- Particle trajectory and deposition in a channel flow with a rectangular cylinder was stud...
The results of studying a dispersed airflow around a single porous cylinder are presented. The flow ...
© 2015 American Association for Aerosol Research. The aerosol flow through a periodic row of paralle...
© Published under licence by IOP Publishing Ltd.The problem of the gas suspension flow around a poro...
International audienceThis paper discusses the transport and deposition rate of suspended particles ...
Flow of solid fluid suspensions with deposition in porous media occurs in many natural, industrial a...
© Published under licence by IOP Publishing Ltd. The behaviour of high-inertia aerosol particles' co...
In this thesis, a computational model was developed for the simulation of aerosol formation through ...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...
A new numerical approach is presented for simulating the movement of test particles suspended in an ...
The flow-field and solute transport through and around a porous cylinder is investigated numerically...
Abstract: Passive flow control around circular cylinder using porous media is studied by means of tw...
Many important natural processes involving flow through porous media are characterized by large filt...
The inertial impaction of Lycopodium spores on single wires lying transverse to the direction of flo...
A numerical investigation is presented into the relation between finite sized, inertial particle tra...
Abstract:- Particle trajectory and deposition in a channel flow with a rectangular cylinder was stud...
The results of studying a dispersed airflow around a single porous cylinder are presented. The flow ...
© 2015 American Association for Aerosol Research. The aerosol flow through a periodic row of paralle...
© Published under licence by IOP Publishing Ltd.The problem of the gas suspension flow around a poro...
International audienceThis paper discusses the transport and deposition rate of suspended particles ...
Flow of solid fluid suspensions with deposition in porous media occurs in many natural, industrial a...
© Published under licence by IOP Publishing Ltd. The behaviour of high-inertia aerosol particles' co...
In this thesis, a computational model was developed for the simulation of aerosol formation through ...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...
A new numerical approach is presented for simulating the movement of test particles suspended in an ...
The flow-field and solute transport through and around a porous cylinder is investigated numerically...
Abstract: Passive flow control around circular cylinder using porous media is studied by means of tw...
Many important natural processes involving flow through porous media are characterized by large filt...
The inertial impaction of Lycopodium spores on single wires lying transverse to the direction of flo...
A numerical investigation is presented into the relation between finite sized, inertial particle tra...
Abstract:- Particle trajectory and deposition in a channel flow with a rectangular cylinder was stud...