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Journal of Microencapsulation
Micro and Nano Carriers
Volume 36, 2019 - Issue 4
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Original Articles

Development of a continuous reactor for emulsion-based microencapsulation of hexyl acetate with a polyuria shell

Sven R. L. GobertFaculty of Industrial Engineering, KU Leuven, Diepenbeek, Belgium; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-6595-9835
ORCID Icon,
Marleen SegersFaculty of Industrial Engineering, KU Leuven, Diepenbeek, Belgium;
,
Stijn LucaDepartment of Data Analysis and Mathematical Modelling, Ghent University, Ghent, Belgium;
,
Roberto F. A. TeixeiraR&D, Devan Chemicals, Ronse, Belgium;
,
Simon KuhnDepartment of Chemical Engineering, KU Leuven, Leuven, Belgium
,
Leen BraekenFaculty of Industrial Engineering, KU Leuven, Diepenbeek, Belgium; ;Department of Chemical Engineering, KU Leuven, Leuven, Belgium
&
Leen C. J. ThomassenFaculty of Industrial Engineering, KU Leuven, Diepenbeek, Belgium; ;Department of Chemical Engineering, KU Leuven, Leuven, Belgium
 show all
Pages 371-384 | Received 30 Nov 2018, Accepted 13 Jun 2019, Published online: 27 Jun 2019
 
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Abstract

Microencapsulation is almost exclusively performed in batch processes. With today’s chemistry increasingly performed in flow reactors, this work aims to realise a continuous reactor setup for the encapsulation of an ester with a polyuria (PU) shell. The generation of an emulsion template is performed in a recirculation loop driven by a pump and equipped with static mixers, screen type and Kenics®. Calorimetric measurements are performed to characterise the energy dissipation rate inside the loop. The curing step is performed in a coiled tube reactor with two geometric configurations. Number based capsule size distributions are derived from micrograph analysis. Results indicate that the recycle pump is the main contributor to determine the capsule size distribution. A continuous setup is achieved for PU microcapsules containing hexyl acetate with a production rate of 198 g/h dry capsules, and a mean capsule diameter of 13.3 µm with a core content of 54 wt%.

Acknowledgements

The author would like to thank Devan Chemicals for their support. This work was performed with internal KU Leuven funding StG/15/029.

Disclosure statement

No potential conflict of interest was reported by the authors.

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