A previously published two-dimensional discrete particle simulation model for radial mixing behavior of various slowly rotating drums for solid-state fermentation (SSF) has been extended to a three-dimensional model that also predicts axial mixing. Radial and axial mixing characteristics were predicted for three different drum designs: (1) without baffles; (2) with straight baffles; and (3) with curved baffles. The axial mixing behavior was studied experimentally with video- and image-analysis techniques. In the drum without baffles and with curved baffles the predicted mixing behavior matched the observed behavior adequately. The predicted axial mixing behavior in the drum with straight baffles was predicted less accurately, and it appeare...
The mixing process of binary granular systems in a short rotating drum was investigated by performin...
The mixing and motion of particles were analyzed in a rotary drum as part of the development of a so...
Granular materials are ubiquitous in our daily life and inherent in multitudinous industrial process...
A previously published two-dimensional discrete particle simulation model for radial mixing behavior...
A soft-sphere discrete particle model was used to simulate mixing behavior of solid substrate partic...
Helical-blade solids mixers have a large potential as bioreactors for solid-state fermentation (SSF)...
Helical-blade solids mixers have a large potential as bioreactors for solid-state fermentation (SSF)...
In previous work we reported on the simulation of mixing behavior of a slowly rotating drum for soli...
The development of mathematical models facilitates industrial (large-scale) application of solid-sta...
To study the non-circular effect, the mixing of polygonal particles in a rotating drum is simulated ...
Mixing of granular solids is a processing step in a wide range of industries. The fundamental phenom...
The impact of particle properties on segregation and mixing of bidisperse granular beds in a rotatin...
The mixing process of binary granular systems in a short rotating drum was investigated by performin...
The mixing and motion of particles were analyzed in a rotary drum as part of the development of a so...
Granular materials are ubiquitous in our daily life and inherent in multitudinous industrial process...
A previously published two-dimensional discrete particle simulation model for radial mixing behavior...
A soft-sphere discrete particle model was used to simulate mixing behavior of solid substrate partic...
Helical-blade solids mixers have a large potential as bioreactors for solid-state fermentation (SSF)...
Helical-blade solids mixers have a large potential as bioreactors for solid-state fermentation (SSF)...
In previous work we reported on the simulation of mixing behavior of a slowly rotating drum for soli...
The development of mathematical models facilitates industrial (large-scale) application of solid-sta...
To study the non-circular effect, the mixing of polygonal particles in a rotating drum is simulated ...
Mixing of granular solids is a processing step in a wide range of industries. The fundamental phenom...
The impact of particle properties on segregation and mixing of bidisperse granular beds in a rotatin...
The mixing process of binary granular systems in a short rotating drum was investigated by performin...
The mixing and motion of particles were analyzed in a rotary drum as part of the development of a so...
Granular materials are ubiquitous in our daily life and inherent in multitudinous industrial process...