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Passage^® DEM - Granulation Process Capabilities

For modeling approach for granulation process, a practical solution may require computation of motion of billions of particles. Just using DEM models are not practical for full scale modeling. We use both DEM Models (micro-scale) and Continuum Models (macro-scale) for granulation. We predict macroscopic material properties of from microscopic properties.

Technalysis offers engineering services and software for both fluidized bed granulation and high shear granulation processes:

Fluidized Bed Granulation

• In the fluidized bed granulation, the powder to be granulated is suspended in the heated air of a fluid bed, and a liquid binder sprayed from nozzles positioned above.
• An impeller is used for agitation of particles.
• Agglomeration or layering of particles provide granule growth which occurs in following steps:
  • A wet particle collides with another particle and a bound is formed by a liquid bridge.
  • Bond is solidified during the subsequent drying period.
• A two-fluid-nozzle can spray upwards into the fluidized bed, and wetted particles may be transported pneumatically by the nozzle air.
• Particles dry and fall down in the outer regions of the bed. Hence, a drying zone above the fluidized bed is formed.

High-Shear Granulation

• The high-shear granulation process combines the active powder with a binder solution using a high-speed mixing blade and chopper.
• Extremely high shear forces compared with other granulators.
• It may be applicable to powders which can not be processed in low shear mixers/fluid bed granulators.
• An impeller is used for mixing, a chopper is used for chopping of particles. Liquid is added to the container.
• Drying process follows the wet granulation process.
  

Passage DEM granulation process capabilities

• Mixing of dry and wet particles
• Chopping and agglomeration of particles
• Multi-phase flows with liquid and solid.
• Containers with multiple impellers with complex shapes

Steps for Modeling of Granulation

• Run simple computational experiments with DEM models using the material properties required for DEM analysis,
• Run continuum models for the same simple experiments,
• By comparing two solutions determine the material properties for the continuum model,
• Run the continuum model with these properties.
• These simple numerical experiments can also be supported with physical experiments.

Related Software

Passage Flow		Passage DEM

Contact Technalysis to learn more about Technalysis^® Engineering granulation capabilities.

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