This article presents a two-dimensional study of the gas-solid flow in a vertical pneumatic conveying pipe by means of a hard-sphere model where the motion of individual particles can be traced. Simulations were performed for a pipe of height 0.9 m and width 0.06 m, with air as gas phase and particles of density 900 kg/m(3) and diameter 0.003m as solid phase. Periodic boundary conditions it-ere applied to the solid phase in the axial direction. Different cases were simulated to examine the effects of the number of particles used, superficial gas velocity, and restitution coefficient. The results show that the main features of plug flow, can be reasonably captured by the proposed simulation technique. That is, increasing the number of partic...
The dense phase mode may be advantageous over the dilute phase mode, for some pneumatic conveying pr...
The characteristics of the particle flow in a horizontal pipe following a 90° vertical-to-horizontal...
Research Doctorate - Doctor of Philosophy (PhD)Compared to high velocity dilute phase, low velocity ...
Experiments are described on the pneumatic conveying of 2.7mm alumina particles up a vertical riser ...
AbstractThe pressure drop of gas-solid flow for absorber sphere pneumatic conveying is important for...
In the paper the movement characteristics of a special plug moving in the pneumatic pipe are descri...
The research of vertical two-phase gas-solid and liquid-solid flow is generally important in chemica...
This paper presents a steady state one-dimensional two-fluid model for gas-solid two-phase flow in a...
In the present study, vertically upward dilute phase pneumatic conveying flow was predicted using Eu...
The two-layer concept developed previously for a liquid–solids flow has been adapted to model dense ...
In this paper physical parameters necessary to dimensioning equipment of pneumatic conveying of grea...
AbstractA finite-domain procedure for simulating the hydrodynamics of vertical pneumatic conveying i...
In this work, the effects of particle size and density on the fluid dynamic behavior of vertical gas...
Pneumatic conveying systems are employed across different industries with its routing flexibility be...
The present contribution summarizes research related to the numerical computation of pneumatic conve...
The dense phase mode may be advantageous over the dilute phase mode, for some pneumatic conveying pr...
The characteristics of the particle flow in a horizontal pipe following a 90° vertical-to-horizontal...
Research Doctorate - Doctor of Philosophy (PhD)Compared to high velocity dilute phase, low velocity ...
Experiments are described on the pneumatic conveying of 2.7mm alumina particles up a vertical riser ...
AbstractThe pressure drop of gas-solid flow for absorber sphere pneumatic conveying is important for...
In the paper the movement characteristics of a special plug moving in the pneumatic pipe are descri...
The research of vertical two-phase gas-solid and liquid-solid flow is generally important in chemica...
This paper presents a steady state one-dimensional two-fluid model for gas-solid two-phase flow in a...
In the present study, vertically upward dilute phase pneumatic conveying flow was predicted using Eu...
The two-layer concept developed previously for a liquid–solids flow has been adapted to model dense ...
In this paper physical parameters necessary to dimensioning equipment of pneumatic conveying of grea...
AbstractA finite-domain procedure for simulating the hydrodynamics of vertical pneumatic conveying i...
In this work, the effects of particle size and density on the fluid dynamic behavior of vertical gas...
Pneumatic conveying systems are employed across different industries with its routing flexibility be...
The present contribution summarizes research related to the numerical computation of pneumatic conve...
The dense phase mode may be advantageous over the dilute phase mode, for some pneumatic conveying pr...
The characteristics of the particle flow in a horizontal pipe following a 90° vertical-to-horizontal...
Research Doctorate - Doctor of Philosophy (PhD)Compared to high velocity dilute phase, low velocity ...