Molecular weight distribution broadening of polypropylene by periodic switching of hydrogen and catalyst additions

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Abstract

This study presents a feasibility study of the broadening of the polypropylene molecular weight distribution produced using a multisite Ziegler-Natta catalyst in a continuous liquid-pool polymerization reactor. The broadening is achieved by operating the reactor under periodic forcing of both hydrogen and catalyst feed flows. Model-based dynamic optimization is used to determine the cycle period and peak width for these inputs. Through simulation it is shown that limited widening (∼ 30%) of the molecular weight distribution can be achieved in case of a limited removal of hydrogen from the reactor. The results also show that the forced removal of hydrogen from the reactor could potentially double the polydispersity index of the produced polymer. © 2008 Wiley Periodicals, Inc.

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Ali, M. A. H., Stroomer, J., Betlem, B., Weickert, G., & Roffel, B. (2008). Molecular weight distribution broadening of polypropylene by periodic switching of hydrogen and catalyst additions. Journal of Applied Polymer Science, 108(4), 2446–2457. https://doi.org/10.1002/app.27649

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