A breakage model for DEM based on a probabilistic particle replacement with Voronoi fragments
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in: Minerals engineering, Jahrgang 203.2023, Nr. November, 108328, 17.08.2023.
Publikationen: Beitrag in Fachzeitschrift › Artikel › Forschung › (peer-reviewed)
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TY - JOUR
T1 - A breakage model for DEM based on a probabilistic particle replacement with Voronoi fragments
AU - Denzel, Michael
AU - Prenner, Michael
AU - Sifferlinger, Nikolaus August
AU - Antretter, Thomas
PY - 2023/8/17
Y1 - 2023/8/17
N2 - Due to mechanical stress, bulk material is crushed and fines are produced. This can either be desired in comminution processes or undesired in conveying and storage processes. In this work a novel breakage model for the Discrete Element Method is presented to allow a prediction of the resulting particle size distribution after damaging events. The breakage model is based on a probabilistic particle replacement strategy. Depending on the load, the initial particle is replaced by a breakage pattern tessellated with the Voronoi algorithm. Replacement probabilities and breakage patterns follow results from breakage tests. In contrast to other replacement models, mass and volume remain constant. Initial particles are polyhedral and can be of any shape. Crushing processes with multiple breakage can be simulated. The computational scheme is described in detail. The model was verified and validated with trials of shatter tests and two conveying processes with blast furnace sinter from two different industrial partners.
AB - Due to mechanical stress, bulk material is crushed and fines are produced. This can either be desired in comminution processes or undesired in conveying and storage processes. In this work a novel breakage model for the Discrete Element Method is presented to allow a prediction of the resulting particle size distribution after damaging events. The breakage model is based on a probabilistic particle replacement strategy. Depending on the load, the initial particle is replaced by a breakage pattern tessellated with the Voronoi algorithm. Replacement probabilities and breakage patterns follow results from breakage tests. In contrast to other replacement models, mass and volume remain constant. Initial particles are polyhedral and can be of any shape. Crushing processes with multiple breakage can be simulated. The computational scheme is described in detail. The model was verified and validated with trials of shatter tests and two conveying processes with blast furnace sinter from two different industrial partners.
KW - Breakage Model
KW - DEM based
KW - Probabilistic Particle Replacement
KW - Voronoi Fragments
KW - Particle Breakage
KW - Comminution
KW - Polyhedral Particles
KW - Discrete Element Method
KW - Progeny Distribution
U2 - 10.1016/j.mineng.2023.108328
DO - 10.1016/j.mineng.2023.108328
M3 - Article
VL - 203.2023
JO - Minerals engineering
JF - Minerals engineering
SN - 0892-6875
IS - November
M1 - 108328
ER -
