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Robust Calorimetric Estimation of Semi‐ C ontinuous and Batch Emulsion Polymerization Systems with Covariance Estimation
Author(s) -
Rincón Franklin D.,
Esposito Marcelo,
de Araújo Pedro Henrique Hermes,
Lima Fernando V.,
Le Roux Galo A. C.
Publication year - 2014
Publication title -
macromolecular reaction engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.37
H-Index - 32
eISSN - 1862-8338
pISSN - 1862-832X
DOI - 10.1002/mren.201300151
Subject(s) - covariance , autocovariance , polymerization , emulsion polymerization , reaction calorimeter , mathematics , computer science , thermodynamics , statistics , chemistry , calorimetry , polymer , physics , organic chemistry , mathematical analysis , fourier transform
In this paper, the state estimation of semi‐continuous and batch processes for a set of emulsion polymerization reactions is addressed. Specifically, the autocovariance least‐squares (ALS) and the moving horizon estimation (MHE) techniques are implemented to determine the covariance matrices and monitor the reactions in two steps, respectively. A collection of four polymerization reaction data sets that include gravimetric analysis are considered and used for validation of the proposed methods. The major process states estimated are the overall heat transfer coefficient and the conversion. The estimation results are in good agreement with the experimental data, independently of the initial overall heat transfer coefficient employed. They also indicate that a unique set of covariance matrices can represent the four reactions studied. The developed procedure offers a robust alternative for state estimation of industrial and experimental polymerization systems.