An experimental evaluation of powder flow predictions in small-scale process equipment based on Jenike's hopper design methodology

Søren Vinter Søgaard, Niels Erik Olesen, Cosima Hirschberg, Morten Hannibal Madsen, Morten Allesø, Joergen Garnaes, Jukka Rantanen*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

21 Citations (Scopus)

Abstract

This study presents an evaluation of the predicted and experimentally observed flow behavior, i.e., flow pattern and critical outlet diameter, in a tablet press hopper. Three grades of a commonly used pharmaceutical additive, microcrystalline cellulose, were used for this purpose. The prediction of the flow behavior was made by first extrapolating shear and wall friction data and, subsequently, applying these extrapolation-based data as input variables to Jenike's hopper design method. Predictions were then compared with empirical discharge experiments from a tablet press hopper and a funnel with varying outlet diameters. By application of a mixed-effect 2nd order polynomial model for the extrapolation of the wall yield locus, accurate flow pattern predictions for the tablet press hopper was made. However, the observed flow patterns were very sensitive to the powders' moisture content. The comparison of the observed and predicted critical outlet diameters showed good agreement for the powder with the best flowability when linear extrapolation of the flow function was applied. In contrast, the predicted critical outlet diameter was slightly overestimated compared to the experimentally observed diameter for the two more cohesive powders. A likely reason for this overestimation is that the flow function probably has a non-linear convex upward shape for these two powders at very small consolidation stresses. These findings illustrate the relevance of measuring shear and wall shear stresses at very small consolidation stresses to improve the flow behavior predictions for small-scale process equipment typically used during production of solid state pharmaceuticals.

Original languageEnglish
JournalPowder Technology
Volume321
Pages (from-to)523-532
Number of pages10
ISSN0032-5910
DOIs
Publication statusPublished - 2017

Keywords

  • Critical outlet diameter
  • Flow pattern
  • Hopper design
  • Microcrystalline cellulose
  • Powder flow properties

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