Numerical and Experimental Studies on Segregation Patterns in Granular Flow From Two Hoppers

Philippe Seil; Jaione Ortega Gómez; Stefan Pirker; Christoph Kloß

Numerical and Experimental Studies on Segregation Patterns in Granular Flow From Two Hoppers

Philippe Seil
, Jaione Ortega Gómez
, Stefan Pirker
, Christoph Kloß

Department of Particulate Flow Modelling

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings

Abstract

Segregation frequently occurs in polydisperse granular flow. Here, flow from two hoppers containing differently-sized spheres is analyzed both experimentally and by simulations using the discrete element method (DEM). Particles are discharged from the hoppers and diverted by chutes, then the two particle strands collide and finally form a mixed bed on the bottom of the facility. First, the method is verified by comparing experiments to simulations. There, it is found that the segregation patterns agree reasonably well. Then, parameter studies on segregation in the bed with varying density, radius and mass of the particles are presented. The results show a clear trend for heavier particles to concentrate in the center of the domain and to push the lighter particles towards the sides. This behaviour is also consistent with the experiments.

Original language	English
Title of host publication	Proceedings of ECCOMAS 2012
Number of pages	12
Publication status	Published - 2012

Fields of science

203024 Thermodynamics
211104 Metallurgy
103032 Fluid mechanics
203021 Fluid-flow machinery
102009 Computer simulation

JKU Focus areas

Computation in Informatics and Mathematics
Mechatronics and Information Processing
Engineering and Natural Sciences (in general)

Cite this

@inproceedings{40fa654347b74692b155cce4e3dec949,

title = "Numerical and Experimental Studies on Segregation Patterns in Granular Flow From Two Hoppers",

abstract = "Segregation frequently occurs in polydisperse granular flow. Here, flow from two hoppers containing differently-sized spheres is analyzed both experimentally and by simulations using the discrete element method (DEM). Particles are discharged from the hoppers and diverted by chutes, then the two particle strands collide and finally form a mixed bed on the bottom of the facility. First, the method is verified by comparing experiments to simulations. There, it is found that the segregation patterns agree reasonably well. Then, parameter studies on segregation in the bed with varying density, radius and mass of the particles are presented. The results show a clear trend for heavier particles to concentrate in the center of the domain and to push the lighter particles towards the sides. This behaviour is also consistent with the experiments.",

author = "Philippe Seil and \{Ortega G{\'o}mez\}, Jaione and Stefan Pirker and Christoph Klo{\ss}",

year = "2012",

language = "English",

booktitle = "Proceedings of ECCOMAS 2012",

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TY - GEN

T1 - Numerical and Experimental Studies on Segregation Patterns in Granular Flow From Two Hoppers

AU - Seil, Philippe

AU - Ortega Gómez, Jaione

AU - Pirker, Stefan

AU - Kloß, Christoph

PY - 2012

Y1 - 2012

N2 - Segregation frequently occurs in polydisperse granular flow. Here, flow from two hoppers containing differently-sized spheres is analyzed both experimentally and by simulations using the discrete element method (DEM). Particles are discharged from the hoppers and diverted by chutes, then the two particle strands collide and finally form a mixed bed on the bottom of the facility. First, the method is verified by comparing experiments to simulations. There, it is found that the segregation patterns agree reasonably well. Then, parameter studies on segregation in the bed with varying density, radius and mass of the particles are presented. The results show a clear trend for heavier particles to concentrate in the center of the domain and to push the lighter particles towards the sides. This behaviour is also consistent with the experiments.

AB - Segregation frequently occurs in polydisperse granular flow. Here, flow from two hoppers containing differently-sized spheres is analyzed both experimentally and by simulations using the discrete element method (DEM). Particles are discharged from the hoppers and diverted by chutes, then the two particle strands collide and finally form a mixed bed on the bottom of the facility. First, the method is verified by comparing experiments to simulations. There, it is found that the segregation patterns agree reasonably well. Then, parameter studies on segregation in the bed with varying density, radius and mass of the particles are presented. The results show a clear trend for heavier particles to concentrate in the center of the domain and to push the lighter particles towards the sides. This behaviour is also consistent with the experiments.

M3 - Conference proceedings

BT - Proceedings of ECCOMAS 2012

ER -