2011
DOI: 10.1002/mren.201100021
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Application of Parameter Selection and Estimation Techniques in a Thermal Styrene Polymerization Model

Abstract: A model is developed to describe thermally‐initiated polymerization of styrene between 100 and 170 °C. The model accounts for generation and consumption of styrene adduct. Chain transfer to adduct is the only transfer reaction used. Autoacceleration is modeled using the break‐point method of Hui and Hamielec. Using formal ranking and parameter selection techniques that account for parameter sensitivity, correlation and uncertainty, 4 of the 40 model parameters are selected for estimation to improve fit between… Show more

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Cited by 24 publications
(19 citation statements)
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“…The first model is the w p ‐model (entry 1 in Table ), which is a purely empirical model with an exponential decay for the (average) apparent termination rate coefficient depending only on the polymer mass fraction w p . The second model also relates to an average apparent termination coefficient and is the one previously used by Woloszyn et al for the simulation of the same EPS process . It is a free volume‐based diffusion model (entry 2 in Table ), following the Vrentas and Duda free volume theory and making a differentiation between translational, segmental, and reaction diffusion .…”
Section: Kinetic Modelmentioning
confidence: 99%
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“…The first model is the w p ‐model (entry 1 in Table ), which is a purely empirical model with an exponential decay for the (average) apparent termination rate coefficient depending only on the polymer mass fraction w p . The second model also relates to an average apparent termination coefficient and is the one previously used by Woloszyn et al for the simulation of the same EPS process . It is a free volume‐based diffusion model (entry 2 in Table ), following the Vrentas and Duda free volume theory and making a differentiation between translational, segmental, and reaction diffusion .…”
Section: Kinetic Modelmentioning
confidence: 99%
“…For completeness, it is mentioned here that the other FRP data, that is, those in the absence of blowing agent, were taken from the work of Woloszyn and McAuley. 65…”
Section: Frp Experiments In the Presence Of N-pentanementioning
confidence: 99%
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“…A higher Pterm leads to an increase in Ð but also to a lowering of EGF. In the case of the NMP of styrene, the reaction probability for chain transfer to dimer (PtrD; Figure 7f) needs also to be considered, specifically at elevated temperature [62,74].…”
Section: Variation Of Temperaturementioning
confidence: 99%