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44,10 €ISBN 978-3-8191-0492-3160 pages90 figuresEnglishThesis
February 2026
eBook (PDF)
Jonas Degenkolb
Systematic Design of Predictive Models of the LDPE Polymerization up to the Industrial Scale
This dissertation presents a comprehensive modeling framework for LDPE production, bridging the gap between laboratory experiments and industrial optimization. By correlating boundary layer thickness with fluid dynamics, the work establishes a robust tool for process enhancement. Through the integration of modular tube reactor data and innovative CFD featuring trajectory-based Monte-Carlo simulations, individual particle paths are tracked to resolve behavior in the near-wall region. This approach provides a powerful method to identify the drivers behind high-molecular weight material formation and fouling, specifically analyzing the impact of local kinetics and diffusion effects.
Keywords: Polymer Reaction Engineering; Modeling; Fouling; CFD; Mini-Plant; Boundary Layer; Tubular Reactor
Darmstädter Schriftenreihe der Polymerisationstechnik
Edited by Prof. Dr. Markus Busch, Darmstadt
Volume 33
Other formats
Print version: 978-3-8191-0543-2
DOI 10.2370/9783819104923
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