Mathematical modeling of batch emulsion copolymerization processes
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Artigo
Date
2003
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Polymer Reaction Engineering
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11
Authors
Casella E.L.
Araujo O.
Giudici R.
Araujo O.
Giudici R.
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Journal Title
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Volume Title
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Abstract
A general mathematical model for emulsion copolymerization processes in batch reactor is presented. The model predicts the time-history of monomer conversion, average particle size, copolymer composition and number of particles. The model was tested and validated with experimental data of four different copolymerization systems: S/MMA (styrene/methyl methacrylate), S/BA (styrene/butyl acrylate), MMA/BA (methyl methacrylate/butyl acrylate) and MMA/VA (methyl methacrylate/vinyl acetate). The influence of several process variables, such as initiator concentration, emulsifier concentration, monomer-to-water ratio, and composition has been examined. Model predictions presented satisfactory agreement with the experimental data. Despite the model simplicity and the reduced number of adjustable parameters, the model accounts for the basic features of emulsion polymerization processes and can be useful for practical applications.
Description
Keywords
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Batch reactor , Butyl acrylate , Emulsion copolymerization , Methyl methacrylate , Vinyl actate