Quantifying the coating yield by modeling heat and mass transfer in a Wurster fluidized bed coater

[Display omitted] •Full-physics CFD-DEM simulation of a pharmaceutical coating process.•Models for multicomponent spray evaporation and spray drying.•Possible reduction of coating losses from 28.2% to 6.1%•Evaluation of process robustness for various parameters. During the coating process of medicin...

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Vydané v:Chemical engineering science Ročník 252; s. 117505
Hlavní autori: Madlmeir, S., Forgber, T., Trogrlic, M., Jajcevic, D., Kape, A., Contreras, L., Carmody, A., Liu, P., Davies, C., Sarkar, A., Khinast, J.G.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 28.04.2022
Predmet:
CFD-DEM
Coating
Coating yield
Multicomponent evaporation
Spray drying
Wurster coater
Spray drying
CFD-DEM
Coating yield
Coating
Multicomponent evaporation
Wurster coater
ISSN:0009-2509, 1873-4405
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Popis
Shrnutí:[Display omitted] •Full-physics CFD-DEM simulation of a pharmaceutical coating process.•Models for multicomponent spray evaporation and spray drying.•Possible reduction of coating losses from 28.2% to 6.1%•Evaluation of process robustness for various parameters. During the coating process of medicines, premature drying of the spray droplets may cause losses, as the droplets do not stick to the product. This work addresses two mechanisms that are central to predicting the heat and mass transfer in coating processes: (i) the evaporation of multicomponent spray liquids and (ii) the quantification of losses due to spray drying. We modeled a Wurster coating process via CFD-DEM simulation and validated the results based on temperature and coating-yield measurements obtained in lab-scale experiments. We assessed the effects of the inlet air flow rate, inlet air temperature and spray rate on the drying performance in a set of virtual experiments. Our calculations show that spray-drying losses can be reduced from 28.2% to 6.1% by selecting appropriate values of the input parameters. Implementing these results in a real coating system will maximize the coating yield and can reduce the process time by up to 75%.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2022.117505