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Particle morphology and shrinkage in spray dryers: A review focused on modeling single droplet drying

Diego Henrique de Souza Chaves, Viviane Santos Birchal, Esly Ferreira da Costa

2024Drying Technology13 citationsDOI

Abstract

Spray dryers have a wide range of applications in the industry for obtaining powder products. Precise control of the process is crucial, as a variety of particles can be formed through atomization, resulting in particles with different sizes, shapes, and properties. The morphology and shrinkage of the particles can be influenced by various factors such as drying rate, temperature, solution concentration, and characteristics of the drying fluid. This review covers both experimental and theoretical studies. Practical experiments involve techniques such as X-ray diffraction and camera monitoring to analyze the particles, while theoretical and mathematical models are developed to predict the drying behavior, considering factors such as drying rate and temperature. In the context of the single droplet drying (SDD) process, major phenomenological models of SDD have been discussed along with their considerations emphasizing the need for further in-depth research and more precise measurements to advance in this field.

Topics & Concepts

ShrinkageSpray dryingMaterials scienceParticle (ecology)Composite materialParticle sizeProcess engineeringChemical engineeringEngineeringOceanographyGeologyMicroencapsulation and Drying ProcessesFluid Dynamics and Heat TransferCombustion and flame dynamics
Particle morphology and shrinkage in spray dryers: A review focused on modeling single droplet drying | Litcius