Dynamic model development based on experimental investigations of acoustically levitated suspension droplets

The investigation and modeling of the evaporation rates and particle formation for spray drying processes is usually performed on the scale of single droplet drying experiments. Especially the solidification processes of suspension drops and the resulting evaporation rates in the second drying stages are not yet fully understood. In an extensive parameter study, the drying mechanisms in an insulated acoustic levitator are evaluated at varying gas temperatures, relative humidities and drop compositions. Based on design of experiments, a methodical approach for the empirical model development of the drying rates in the first and second drying stages is presented. It is shown, that the drop deformation has to be considered when modeling the evaporation. A qualitative analysis of the resulting particle morphologies is given and a dynamic model for the complete single droplet drying experiment is presented. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

The investigation and modeling of evaporation rates and particle formation in spray drying processes are usually done through single droplet drying experiments. The solidification processes of suspension drops and resulting evaporation rates in the second drying stages are not fully understood. A systematic approach for empirical model development of drying rates in the first and second drying stages is presented based on a parameter study in an insulated acoustic levitator.