Mapping of regimes for the key processes in wet granulation: Foam vs. spray |
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Authors: | Melvin X.L. Tan Karen P. Hapgood |
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Affiliation: | Dept. of Chemical Engineering, Monash Advanced Particle Engineering Laboratory, Monash University, , Clayton, VIC, 3800 Australia |
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Abstract: | The evaluation of foam and spray granulation mechanisms and their performances in achieving uniform liquid distribution in a high‐shear mixer‐granulator is presented. A regime map is presented to describe the granulation mechanisms for the foam and spray systems. Foam and spray granulation are shown to successfully create granules of well‐distributed moisture at the end of wet massing despite there was a deviation from the theoretical moisture content at the end of binder addition. In the wetting and nucleation regime, spray granulation involves drop penetration nucleation outside of the drop‐controlled regime, whereas foam granulation operates favorably in the mechanical dispersion regime. For foam granulation, mechanical dispersion produces more uniform granule‐size distributions below the overwetting limit. Spray granulation exhibits steady granule growth, whereas foam granulation shows induction granule growth followed by rapid granule growth. The regime map provides a basis to customize formulations and compare the different foam and spray granulation mechanisms. © 2013 American Institute of Chemical Engineers AIChE J, 59: 2328–2338, 2013 |
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Keywords: | foam granulation high‐shear mixer nucleation regime map wet granulation |
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