Percolation Breakdown in Binary and Ternary Monodisperse and Polydisperse Systems of Spherical Particles
Author:
Schneider Johannes JosefORCID, Faggian AlessiaORCID, Weyland Mathias SebastianORCID, Jamieson William DavidORCID, Li JinORCID, Matuttis Hans-Georg, Holler SilviaORCID, Casiraghi FedericaORCID, Diaz Aitor PatiñoORCID, Cebolla Sanahuja Lorena, Hanczyc Martin MichaelORCID, Flumini DandoloORCID, Eggenberger Hotz Peter, Barrow David AnthonyORCID, Dimitriou PantelitsaORCID, Castell OliverORCID, Füchslin Rudolf MarcelORCID
Abstract
AbstractWe perform computer simulations of an agglomeration process for monodisperse and polydisperse systems of spherical particles in a cylindrical container, using a simplified stochastic-hydrodynamic model. We consider a ternary system with three particle types A, B, and C, in which only connections of the type $$A-B$$
A
-
B
can be forged, while any other connections with particles of the same type or with C-particles are forbidden, and for comparison a binary system with two particle types A and C, in which only connections of the type $$A-A$$
A
-
A
can be formed. We study the breakdown of the percolation in the agglomeration at the bottom of the cylinder with an increasing fraction of C-particles.
Publisher
Springer Nature Switzerland
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