Support

Trouble Report

For immediate assistance browse through our support center. You can find answers to many questions in just a few minutes.

If still experiencing problems, send us a report.

required
Why the math question?

Online Simulation

And More

Top Tags

  1. DEM
  2. discrete element model
  3. particle adhesion
  4. van der waals force
  5. particle-based computations
  6. hamaker constants
  7. molecular modeling
  8. pharmaceutical informatics
  9. statistical model building
  10. ontology
  11. information modeling
  12. roller compaction
  13. visualization
  14. knowledge-based system
  15. Johanson's model
  16. fast fourier transform
  17. decision support
  18. dry granulation
  19. surface roughness
  20. thin films
  21. informatics
  22. hopper flow
  23. crystal graph
  24. surface forces
  25. drug development

Other

Hopper Flow

Posted 07 Jan, 2008 in Tools

Launch Tool

This tool is closed source.

Version 1.0 - published on 24 Jan. 2008
Contributor(s) dsk  

Avik Sarkar, Carl Wassgren
Purdue University
Description

Hoppers are commonly used devices for handling and storing granular materials. Despite their common use and deceptivelysimple design, hoppers have a number of problems associated with them, including funnel flows, choking, bridging, and flooding.

Some funnel flows are characterized by stagnant regions of material near the walls of the hopper. The first material into the hopper rests close to the hopper walls and is the last to leave. This contrasts with mass flow, where all of the material flows from the hopper simultaneously and the first material into the hopper is the first to leave. Funnel flow problems include

  • materials that degrade or change properties over time
  • large velocity gradients resulting in segregation
  • generated dust, which can increase the possibility of explosion

An extreme version of funnel flow is a rathole, where only a small region of the material discharges from the hopper.

Other common problems are bridging and flooding. Bridging occurs when a stable arch of material forms -- supporting the weight of the material above it. The result is stoppage of flow, which can only be restarted by collapsing the arch of material. Once the bridge collapses, a sudden surge or flood of material attempts to leave the hopper. Bridging and flooding result in inconsistent flows, which may affect processes both upstream and downstream of the hopper.

Visualization and Animation of Hopper Flow Output

The Hopper Flow Discharge tool generates a state file describing the particle positions in the hopper over time. Screenshot #1 above shows a portion of the state file generated by the tool for the default parameters (click thumbnail to enlarge). The BenchmarkHopperMovie attached under Supporting Documents was produced by the ParticleVis visualization software using the generated state file as input.

Any state file produced by the Hopper Flow Discharge tool can be be downloaded to your machine from the output screen of the tool following tool execution. The ParticleVis software can be downloaded to your machine from the pharmaHUB resources page.

Cite this work

If you reference this work in a publication, please cite as follows:

  •   , dsk; Sarkar, Avik; Wassgren, Carl (2008), "Hopper Flow," http://pharmahub.org/resources/hopperflow?v=4.

    BibTex | EndNote