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Development of high-performance hybrid ANN-finite volume scheme (ANN-FVS) for simulation of pharmaceutical continuous granulation
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Date
2020
Abstract
A hybrid model was developed for simulation of continuous wet granulation of pharmaceu tical formulations via twin-screw granulator. The model was based on population balance model (PBM) for prediction of particle size distribution, while artificial neural network (ANN) was used for estimation of mean residence time which is required for numerical solution of PBM. A new numerical scheme based on finite volume approach was developed for solution of one dimensional PBM to predict granule size distribution obtained in a twin-screw gran ulator. The model takes into account liquid and feed flow rates, and screw speed, while the granule size distribution is the model’s main output. Aggregation and breakage were consid ered as the main mechanisms in the process, and the model was developed and solved for different zones of extruder, i.e. conveying and kneading ones. The model’s predictions were validated through comparing with experimental data collected using a 12mm twin-screw extruder for granulation of microcrystalline cellulose. The results indicated that the model is facile, robust and valid, which can predict the performance of twin-screw granulator for pharmaceutical formulations.
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Description
peer-reviewed
Publisher
Elsevier
Citation
Chemical Engineering Research and Design;163, pp. 320-326
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Funding Information
Science Foundation Ireland (SFI), Marie Curie-Sklodowska Action (MCSA)