Lysine, an important nutrient in dairy formulations, is easily damaged
during spray drying. The quality of spray dried dairy powders can be
enhanced when lysine loss kinetics are coupled with drying kinetics and
computational fluid dynamics of spray. Thin-film drying in a convective
drying channel was applied to study the drying kinetics of the model
dairy-formulation. The drying kinetics was modeled with the reaction
engineering approach which was successfully implemented in the
computational fluid dynamics (CFD) simulation of spray drying. Lysine
loss was modeled by reaction kinetics taking into account the
temperature, water content and physical state of lactose. A 3D CFD model
of spray drying was set up to determine the particle properties along
their residence time. The model was validated with the experimental
results of spray drying on a pilot scale. A good agreement between the
experiments and the simulation was obtained. The reaction kinetics model
was coupled with the particle properties along the particle tracks to
create a predictive tool for the lysine loss. Thus, as it was
hypothesized from the spray-drying experiments, the importance of the
particle residence-time was highlighted. The following optimization
study revealed potential strategies to ameliorate the spray drying
process. In this context, the dryer geometry, air flow pattern and
droplet atomization should be reconsidered carefully. The proposed
approach can be transferred to other spray drying applications, e.g. for
the targeted formation of microcapsules or to enhance the survival of
microorganisms. (C) 2015 Elsevier Ltd. All rights reserved.
«
Lysine, an important nutrient in dairy formulations, is easily damaged
during spray drying. The quality of spray dried dairy powders can be
enhanced when lysine loss kinetics are coupled with drying kinetics and
computational fluid dynamics of spray. Thin-film drying in a convective
drying channel was applied to study the drying kinetics of the model
dairy-formulation. The drying kinetics was modeled with the reaction
engineering approach which was successfully implemented in the
computat...
»
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