Attainment of Kinetic Parameters and Model Validation for Nylon-6 Process

Attainment of Kinetic Parameters and Model Validation for Nylon-6 Process

This work presents the simulation of the hydrolytic polymerization process of Nylon-6in a lab-scale semi-batch reactor, using e-caprolactam as monomer and acetic acid as monofunctional acid chain terminator. The kinetic scheme comprises 6 reactions: 3 main reactions, 2 side reactions associated with...

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Bibliographic Details
Published in:Computer Aided Chemical Engineering Vol. 33; pp. 1483 - 1488
Main Authors: Funai, Vanessa I., Melo, Delba N.C., Lima, Nádson M.N., Pattaro, Ana F., Liñan, Lamia Zuñiga, Bonon, Anderson J., Filho, Rubens Maciel
Format: Book Chapter
Language:English
Published: 2014
Subjects:
optimization
poliamide-6
polymerization
simulation
poliamide-6
polymerization
optimization
simulation
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Summary:This work presents the simulation of the hydrolytic polymerization process of Nylon-6in a lab-scale semi-batch reactor, using e-caprolactam as monomer and acetic acid as monofunctional acid chain terminator. The kinetic scheme comprises 6 reactions: 3 main reactions, 2 side reactions associated with the cyclic dimer formation and one monofunctional acid termination. Operating conditions were obtained from previous definitions and kinetic parameters were estimated from experimental data. The proposed optimization problem to estimate the kinetic parameters was solved by the Sequential Quadratic Programming (SQP) and Genetic Algorithm (GA). It was shown that both methods are able to determine the final solution with good precision. The validity of the model was confirmed by comparison of the results obtained by computer simulation using the software Aspen Polymer Plus® and the process real data.
ISBN:9780444634344
0444634347
ISSN:1570-7946
DOI:10.1016/B978-0-444-63455-9.50082-9