Code
01D33318
Duration
01 October 2018 → 16 October 2022
Funding
Regional and community funding: Special Research Fund
Promotor
Fellow
Research disciplines
-
Engineering and technology
- Automotive engineering not elsewehere classified
- Heterogeneous catalysis
- Chemical product design and formulation not elsewhere classified
- Chemical kinetics and thermodynamics
- Process engineering not elsewhere classified
- Separation and membrane technologies not elsewhere classified
- Transport phenomena not elsewhere classified
- Other (bio)chemical engineering not elsewhere classified
Keywords
Zeolite catalyst
Diels-Alder reaction
aldol condensation
kinetic model
reactor model
continuous flow
Project description
A multi-scale continuous flow reactor model will be designed and optimised for the challenging Diels-Alder reaction and hydroxymethylation, both zeolite-catalysed. A kinetic model is developed for fundamental understanding of the reaction kinetics. From this kinetic model, a reactor model is developed, by applying conservation laws, for different reactor types. Ultimately, a multi-scale model is obtained for industrial reactor optimisation.