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

•Analysis of influence of drop deformation and drying parameters on drying rates.•Qualitative assessment of influence of drying parameters on particle morphologies.•Use of acoustic levitation for model development and validation in second stage.•Implementation of combined of dynamic drying models fo...

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Bibliographic Details
Published in:International journal of heat and mass transfer 2021-06, Vol.171, p.121057, Article 121057
Main Authors: Buchholz, Moritz, Haus, Johannes, Polt, Fritz, Pietsch, Swantje, Schönherr, Michael, Kleine Jäger, Frank, Heinrich, Stefan
Format: Article
Language:English
Subjects:
Acoustic insulation
Acoustic levitation
Design of experiments
Droplets
Dynamic modeling
Dynamic models
Empirical analysis
Evaporation rate
Modelling
Morphology
Particle formation
Qualitative analysis
Single droplet drying
Solidification
Spray drying
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Summary:•Analysis of influence of drop deformation and drying parameters on drying rates.•Qualitative assessment of influence of drying parameters on particle morphologies.•Use of acoustic levitation for model development and validation in second stage.•Implementation of combined of dynamic drying models for both drying stages. 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.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2021.121057