Defence Tim M. Kousemaker: "Numerical Modelling of Multiphase Flow and Transport Phenomena in Screw Extruders"

Promotors: 1^st promotor: prof. Francesco Picchioni, 2^nd promotor: prof. Antonis Vakis, co-promotor: dr. Pablo Druetta

Abstract: Many polymeric products are processed in extruders. These devices exhibit complex flow phenomena, especially when multiple phases are present, as seen in processes such as grafting and foaming. This thesis introduces comprehensive, multiphysics computational fluid dynamics models of multiphase flow in extruders. The couplings between mass transfer, heat transfer, shear and concentration dependent viscosity and chemical reactions are accounted for - together with various multiphase flow models - to model the complex flows present in extruders. Results show that this multiphysics approach is necessary to predict complex phenomena such as e.g. backflow, plasticization and sputtering at the die. Additionally, the final chapter, which discusses life cycle assessment, shows that linear and static models may lead to erroneous conclusions and incorrect policy insights.

Dissertation