To study the non-circular effect, the mixing of polygonal particles in a rotating drum is simulated by the soft sphere imbedded pseudo-hard-particle model (SIPHPM method). Eight particle shapes (N-s = 3-10) are filled in the drum at rotating speeds (omega = 0.5-3 pi/s) respectively. The mixing process, quality, velocity and kinetic energy are analyzed by the mixing index and entropy. A cluster-like upcasting motion is found especially for square particles at the rapidest rotation. The mixing index and entropy show consistent variations of mixing degree. Two mechanisms can affect the mixing entropy, through either the static covering related to shapes or the concentration reduction in rolling/cascading/cataracting process related to the roll...
A previously published two-dimensional discrete particle simulation model for radial mixing behavior...
The mixing of non-spherical particles is often encountered in various industrial fields, but its mec...
The rich phase behavior of granular beds of bidisperse hard spherical particles in a rotating horizo...
Rotating drums are widely used in industry for mixing, milling, coating and drying processes. In the...
A soft-sphere discrete particle model was used to simulate mixing behavior of solid substrate partic...
The mixing characteristics of cubic particles in a cylinder mixer are analyzed by the SIPHPM simulat...
The mixing of granular material in a two-dimensional slowly rotating container is studied using a k...
Granular materials are mostly polydisperse, which gives rise to phenomena such as segregation that h...
This study aims at unveiling the effect of particle shape on granular flow behavior. Discrete elemen...
The impact of particle properties on segregation and mixing of bidisperse granular beds in a rotatin...
Various experimental and numerical studies have been carried out to study the mixing processes insid...
A thermal discrete element method (DEM) is used to simulate particle mixing and heat conduction insi...
A previously published two-dimensional discrete particle simulation model for radial mixing behavior...
The mixing of non-spherical particles is often encountered in various industrial fields, but its mec...
The rich phase behavior of granular beds of bidisperse hard spherical particles in a rotating horizo...
Rotating drums are widely used in industry for mixing, milling, coating and drying processes. In the...
A soft-sphere discrete particle model was used to simulate mixing behavior of solid substrate partic...
The mixing characteristics of cubic particles in a cylinder mixer are analyzed by the SIPHPM simulat...
The mixing of granular material in a two-dimensional slowly rotating container is studied using a k...
Granular materials are mostly polydisperse, which gives rise to phenomena such as segregation that h...
This study aims at unveiling the effect of particle shape on granular flow behavior. Discrete elemen...
The impact of particle properties on segregation and mixing of bidisperse granular beds in a rotatin...
Various experimental and numerical studies have been carried out to study the mixing processes insid...
A thermal discrete element method (DEM) is used to simulate particle mixing and heat conduction insi...
A previously published two-dimensional discrete particle simulation model for radial mixing behavior...
The mixing of non-spherical particles is often encountered in various industrial fields, but its mec...
The rich phase behavior of granular beds of bidisperse hard spherical particles in a rotating horizo...