Evaluation of the kinetics of unseeded batch cooling crystallization using population balance modeling: Sucrose and KNO3 case studies

[Display omitted] •Evaluation method for crystallization kinetics of unseeded batch crystallizations by measuring the average size and mass of crystals as a function of time was developed.•Reformulation of PBE for average size and mass of crystals as a function of time.•Developed method can be appli...

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2023, 118(0), , pp.544-554
Main Authors: Kim, Seunghwan, Lee, Sang Yeol, Chang, Ji Woong, Yang, Dae Ryook
Format: Article
Language:English
Subjects:
Batch cooling crystallization
Crystallization kinetics
Population balance equation
Unseeded crystallization
화학공학
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Summary:[Display omitted] •Evaluation method for crystallization kinetics of unseeded batch crystallizations by measuring the average size and mass of crystals as a function of time was developed.•Reformulation of PBE for average size and mass of crystals as a function of time.•Developed method can be applied various scales.•Simulation results for various conditions are provided to predict crystallization behaviors. A facile method for estimating the kinetics of unseeded batch crystallization via mass and average size measurements was developed. The population balance equation (PBE), reformulated as a function of both mass and average size, was employed to determine the mass balance and obtain crystallization kinetics. An evaluation of the kinetic parameters of inorganic and organic (sucrose and KNO3) compounds was demonstrated through fitting the modified PBE to measured time-dependent average size and mass. The method enabled to extract of kinetic parameters of both crystal nucleation and growth. The different crystallization behaviours in the volume of the crystallizer and supersaturations were predicted using the evaluated kinetic parameters and validated with experiments. The developed method is useful for evaluating lumped kinetic parameters of unseeded batch crystallizations.
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2022.11.038