Chemical & Biochemical Process Technology & Control (BioTec+) KU Leuven
Chemical & Biochemical Process Technology & Control (BioTec+)
Chemical & Biochemical Process Technology & Control (BioTec+)
Technology Cluster Sustainable Chemical Process, Technology Campuses Ghent and Aalst
Chemical & Biochemical Process Technology & Control (BioTeC+)
Scientific research in BioTeC+ concentrates on model based optimization and control of microbial conversion processes. The underlying motivation is that model based solutions to process optimization and control problems are superior in performance and robustness as ...
Technology Cluster Sustainable Chemical Process focuses on the domain of resource recovery and the production of renewable chemicals and energy carriers from waste, side and biomass streams. Examples of studied processes include wastewater treatment processes, mixed-culture microbial processes and the production of renewable chemicals by thermal, chemical and biochemical conversion technologies.
Lab4U performs research on the development of new technologies and their implementation in existing (bio) chemical processes aiming a transformation from batch to flow. The research group focuses on characterization, development and control of chemical reactors and separation units. Keywords include ultrasound and alternative energy, process intensification, green chemicals, milli-flow reactors, separation processes and inline process ...
Chemische procestechniek Modelling of gas-solid chemical reactors. Bubble flow, heat transfer and conversion in fluidized bed reactors. Numerical analysis of the bifurcation behavior of non-linear systems. Catalytic reduction of NOx in automotive exhaust gases. Modelling of multistage separation processes. Computer-aided design of chemical processes: development of simulation programs. Energy integration in chemical processes.
Chemische procestechniek Modelling of gas-solid chemical reactors. Bubble flow, heat transfer and conversion in fluidized bed reactors. Numerical analysis of the bifurcation behavior of non-linear systems. Catalytic reduction of NOx in automotive exhaust gases. Modelling of multistage separation processes. Computer-aided design of chemical processes: development of simulation programs. Energy integration in chemical processes.
The aim of the Soft Matter, Rheology and Technology (SMaRT) division is to foster and conduct research on soft matter and the rheology of complex fluids on a fundamental level as well as their application to technical processes. Such complex fluids span a wide range of materials, including polymer solutions, melts and blends, emulsions, colloidal dispersions, surfactant solutions, etc.
A characteristic feature of such complex fluids and ...
The aim of the Soft Matter, Rheology and Technology (SMaRT) division is to foster and conduct research on soft matter and the rheology of complex fluids on a fundamental level as well as their application to technical processes. Such complex fluids span a wide range of materials, including polymer solutions, melts and blends, emulsions, colloidal dispersions, surfactant solutions, etc.
A characteristic feature of such complex fluids and ...