Comparison of techniques for the determination of conversion during suspension polymerization reactions

Comparison of techniques for the determination of conversion during suspension polymerization reactions

The determination of conversion during suspension polymerization reactions is not an easy task due to the heterogeneity of the reaction medium and the tendency of particles to agglomerate rapidly when stirring is stopped. Usually, bulk polymerization in ampoules is employed to study the kinetics of...

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Main Authors: J. C. Santos, C. N. Lopes, M. M. Reis, R. Giudici, C. Sayer, R. A. F. Machado, P. H. H. Araújo
Format: Article
Language:English
Published: Brazilian Society of Chemical Engineering 2008-06-01
Series:Brazilian Journal of Chemical Engineering
Subjects:
Suspension polymerization
Bulk polymerization
Gravimetry
Styrene
Raman spectroscopy
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322008000200017
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spelling doaj-3cf53feded9f4715a749224aae9773392020-11-24T22:01:20ZengBrazilian Society of Chemical EngineeringBrazilian Journal of Chemical Engineering0104-66321678-43832008-06-0125239940710.1590/S0104-66322008000200017Comparison of techniques for the determination of conversion during suspension polymerization reactionsJ. C. SantosC. N. LopesM. M. ReisR. GiudiciC. SayerR. A. F. MachadoP. H. H. AraújoThe determination of conversion during suspension polymerization reactions is not an easy task due to the heterogeneity of the reaction medium and the tendency of particles to agglomerate rapidly when stirring is stopped. Usually, bulk polymerization in ampoules is employed to study the kinetics of suspension polymerization reactions. In this work, a comparison of different techniques for the determination of conversion during suspension polymerization reactions is presented. Results showed a good agreement between the conversion obtained by gravimetry during styrene suspension polymerization and on-line conversion monitoring data using fiber-optic based Raman Spectroscopy. Nevertheless, the polymerization rate of styrene bulk polymerization carried out in ampoules was higher than the real reaction rate of styrene suspension polymerization due to slightly higher reaction temperatures. Simulation results using the experimental temperature data in a mathematical model confirmed these results.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322008000200017Suspension polymerizationBulk polymerizationGravimetryStyreneRaman spectroscopy
collection DOAJ
language English
format Article
sources DOAJ
author J. C. Santos
C. N. Lopes
M. M. Reis
R. Giudici
C. Sayer
R. A. F. Machado
P. H. H. Araújo
spellingShingle J. C. Santos
C. N. Lopes
M. M. Reis
R. Giudici
C. Sayer
R. A. F. Machado
P. H. H. Araújo
Comparison of techniques for the determination of conversion during suspension polymerization reactions
Brazilian Journal of Chemical Engineering
Suspension polymerization
Bulk polymerization
Gravimetry
Styrene
Raman spectroscopy
author_facet J. C. Santos
C. N. Lopes
M. M. Reis
R. Giudici
C. Sayer
R. A. F. Machado
P. H. H. Araújo
author_sort J. C. Santos
title Comparison of techniques for the determination of conversion during suspension polymerization reactions
title_short Comparison of techniques for the determination of conversion during suspension polymerization reactions
title_full Comparison of techniques for the determination of conversion during suspension polymerization reactions
title_fullStr Comparison of techniques for the determination of conversion during suspension polymerization reactions
title_full_unstemmed Comparison of techniques for the determination of conversion during suspension polymerization reactions
title_sort comparison of techniques for the determination of conversion during suspension polymerization reactions
publisher Brazilian Society of Chemical Engineering
series Brazilian Journal of Chemical Engineering
issn 0104-6632
1678-4383
publishDate 2008-06-01
description The determination of conversion during suspension polymerization reactions is not an easy task due to the heterogeneity of the reaction medium and the tendency of particles to agglomerate rapidly when stirring is stopped. Usually, bulk polymerization in ampoules is employed to study the kinetics of suspension polymerization reactions. In this work, a comparison of different techniques for the determination of conversion during suspension polymerization reactions is presented. Results showed a good agreement between the conversion obtained by gravimetry during styrene suspension polymerization and on-line conversion monitoring data using fiber-optic based Raman Spectroscopy. Nevertheless, the polymerization rate of styrene bulk polymerization carried out in ampoules was higher than the real reaction rate of styrene suspension polymerization due to slightly higher reaction temperatures. Simulation results using the experimental temperature data in a mathematical model confirmed these results.
topic Suspension polymerization
Bulk polymerization
Gravimetry
Styrene
Raman spectroscopy
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322008000200017
work_keys_str_mv AT jcsantos comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
AT cnlopes comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
AT mmreis comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
AT rgiudici comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
AT csayer comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
AT rafmachado comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
AT phharaujo comparisonoftechniquesforthedeterminationofconversionduringsuspensionpolymerizationreactions
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