artículo de publicación periódica.page.titleprefix Predicting phase inversion in agitated dispersions with machine learning algorithms
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Date
2020-09
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Abstract
"In agitated systems, the phase inversion (PI) phenomenon – the mechanism by which a
dispersed phase becomes the continuous one – has been studied extensively in an
empirical manner and few models have been put forward through the years. The
underlying physics are still to be fully understood. In this work, the experimental
evidence published in literature is used to train machine learning models that may infer
the inherent rules that lead to a given dispersion type (O/W or W/O), as well as predict
the value of the dispersed phase volume fraction at the edge of the inversion point.
Decision trees, bagged decision trees, support-vector machines and multiple perceptrons
are implemented and compared. Results show that it is possible to infer an ensemble of
physical rules that explain why a given dispersion is O/W or W/O, where a strong
“turbulence constraint” is identified. The intuitive rule that PI occurs at 50% dispersed phase almost never holds. Moreover, neural networks have shown a better performance
at predicting the PI point than the other algorithms tested. Finally, a theoretical study is
performed in an effort to produce a phase inversion map with the relevant operating
variables. This study showed a strong non-linear effect of the impeller-to-vessel size
ratio, and an asymmetrical behavior of the interfacial tension on the phase inversion
points."
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Keywords
REDES NEURONALES, APRENDIZAJE AUTOMATICO, SEPARACION, EMULSIONES