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Journal article

Model-based analysis of a twin-screw wet granulation system for continuous solid dosage manufacturing

By Kumar, Ashish1; Vercruysse, Jurgen1; Mortier, Severine T. F. C.1; Vervaet, Chris1; Remon, Jean Paul1; Gernaey, Krist2,3; De Beer, Thomas1; Nopens, Ingmar1

From

Ghent University1

Department of Chemical and Biochemical Engineering, Technical University of Denmark2

CAPEC-PROCESS, Department of Chemical and Biochemical Engineering, Technical University of Denmark3

Implementation of twin-screw granulation in a continuous from-powder-to-tablet manufacturing line requires process knowledge development. This is often pursued by application of mechanistic models incorporating the underlying mechanisms. In this study, granulation mechanisms considered to be dominant in the kneading element regions of the granulator i.e., aggregation and breakage, were included in a one-dimensional population balance model.

The model was calibrated using the experimentally determined inflow granule size distribution, and the mean residence time was used as additional input to predict the outflow granule size distribution. After wetting, the first kneading block caused an increase in the aggregation rate which was reduced afterwards.

The opposite was observed in case of the breakage rate. The successive kneading blocks lead to a granulation regime separation inside the granulator under certain process conditions. Such a physical separation between the granulation regimes is promising for future design and advanced control of the continuous granulation process. (C) 2016 Elsevier Ltd.

All rights reserved.

Language: English
Year: 2016
Pages: 62-70
ISSN: 18734375 and 00981354
Types: Journal article
DOI: 10.1016/j.compchemeng.2016.03.007
ORCIDs: Gernaey, Krist
Keywords

Continuous pharmaceutical production Granule size analysis Population balance modelling

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