Add to ORKGWe report the analysis of radial characteristics of the flow of granular material through a conical hopper. The discharge is simulated for various orifice sizes and hopper opening angles. Velocity profiles are measured along two radial lines from the hopper cone vertex: along the main axis of the cone and along its wall. An approximate power law dependence on the distance from the orifice is observed for both profiles, although differences between them can be noted. In order to quantify these differences, we propose a Local Mass Flow Index that is a promising tool in the direction of a more reliable classification of the flow regimes in hoppers.
This paper presents a numerical study of the micro- and macro-dynamic behavior of the unsteady-state...
Hoppers are widely used in many engineering processes. The discharging of granular mate- rials from ...
Hoppers are widely used in many engineering processes. The discharging of granular mate- rials from ...
We report the analysis of radial characteristics of the flow of granular material through a conical ...
A number of problems related to the flow of cohesionless granular materials in hoppers are investiga...
Gravity-driven particle flow through outlets with inclined angles and outlets with off-centred posit...
The information of a hopper flowat a particle scale, obtained from discrete particle simulation, is ...
In this article, we present simulations of 3D hopper flows through conical hoppers, with a focus on ...
In this article, we present simulations of 3D hopper flows through conical hoppers, with a focus on ...
Hoppers are one of the most popular devices implemented to allow precise flow control mechanism when...
The discharge of glass beads from axisymmetric hoppers was experimentally investigated. Two types of...
Numerical investigation of gravity flow of granular solids in a hopper through orifices of different...
An approximate solution to the flow of a cohesionless granular material in a conical hopper is prese...
An approximate solution to the flow of a cohesionless granular material in a conical hopper is prese...
Hoppers are widely applied in process industries mainly because of their capacity to enhance the flo...
This paper presents a numerical study of the micro- and macro-dynamic behavior of the unsteady-state...
Hoppers are widely used in many engineering processes. The discharging of granular mate- rials from ...
Hoppers are widely used in many engineering processes. The discharging of granular mate- rials from ...
We report the analysis of radial characteristics of the flow of granular material through a conical ...
A number of problems related to the flow of cohesionless granular materials in hoppers are investiga...
Gravity-driven particle flow through outlets with inclined angles and outlets with off-centred posit...
The information of a hopper flowat a particle scale, obtained from discrete particle simulation, is ...
In this article, we present simulations of 3D hopper flows through conical hoppers, with a focus on ...
In this article, we present simulations of 3D hopper flows through conical hoppers, with a focus on ...
Hoppers are one of the most popular devices implemented to allow precise flow control mechanism when...
The discharge of glass beads from axisymmetric hoppers was experimentally investigated. Two types of...
Numerical investigation of gravity flow of granular solids in a hopper through orifices of different...
An approximate solution to the flow of a cohesionless granular material in a conical hopper is prese...
An approximate solution to the flow of a cohesionless granular material in a conical hopper is prese...
Hoppers are widely applied in process industries mainly because of their capacity to enhance the flo...
This paper presents a numerical study of the micro- and macro-dynamic behavior of the unsteady-state...
Hoppers are widely used in many engineering processes. The discharging of granular mate- rials from ...
Hoppers are widely used in many engineering processes. The discharging of granular mate- rials from ...