Experimental proof of the existence of mass‐transfer resistance during early stages of ethylene polymerization with silica supported metallocene/MAO catalysts |
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| Authors: | Muhammad Ahsan Bashir Vincent Monteil Christophe Boisson Timothy F L McKenna |
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| Affiliation: | 1. Universite′ de Lyon, Univ. Lyon 1, CPE Lyon, CNRS, UMR 5265, Laboratoire de Chimie Catalyse Polymères et Proce′de′s (C2P2), Villeurbanne, France;2. Dutch Polymer Institute DPI, The Netherlands |
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| Abstract: | The size of a silica supported metallocene/MAO (methylaluminoxane) catalyst plays an important role in determining its productivity during ethylene polymerization. From a chemical engineering point of view, this size dependency of catalytic activity of supported metallocenes is mathematically connected with the different levels of mass‐transfer resistance in big and small catalyst particles but no experimental evidence has been provided to date. The results of this systematic experimental study clearly demonstrate that the intraparticle monomer diffusion resistance is high in bigger catalyst particles during initial instants of ethylene polymerization and diminishes with the polymer particle growth. Two different silica supported metallocene/MAO catalysts provided the same results while highlighting the fact that catalyst chemistry should be carefully considered while studying complex chemical engineering problems. © 2017 American Institute of Chemical Engineers AIChE J, 63: 4476–4490, 2017 |
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| Keywords: | olefin polymerization silica supported metallocene catalyst particle size mass‐transfer resistance in situ hydrogen |
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