Projects
High efficient and reliable arrangements for crossmodal transport (HERMES). University of Antwerp
Collective Innovation for Public Transport in European Cities. KU Leuven
CIPTEC introduces an integrated approach which draws on the best ideas deriving from marketing (i.e. customer orientation, marketing research, consumer intelligence), consumer behaviour (i.e. advanced motivational research, behavioural experimentation), innovation (i.e. crowd sourcing, collective intelligence, co-creation and co-design of new ideas, fusion of business concepts with social innovation), evaluation (i.e. socioeconomic, ...
H2020:Current Direct: Swappable Container Waterborne Transport Battery. Vrije Universiteit Brussel
Enabling Targeted Fractionation of Ions via Facilitated Transport Membranes KU Leuven
Effective fractionation of ions does not only play a vital role in the functioning of human cell membranes, but also in engineered membranes used to produce drinkable water, extract target minerals and capture energy to address challenges in environmental, resource & energy fields. Nevertheless, most of the state-of-the-art membranes fail to overcome the trade-off between single ion selectivity and throughput. The progress is greatly ...
Smart mitigation of flow-induced acoustic radiation and transmission for reduced aircraft, surface transport, workplaces and wind energy noise KU Leuven
A step change in our noise mitigation strategies is required in order to meet the environmental targets set for a number of sectors of activity affecting people through noise exposure. Besides being a hindrance to our daily life and subject to regulations, noise emission is also a competitive issue in today’s global market. To address these issues, new technologies have been emerging recently, based on radically new concepts for flow and ...
Multi-scale Computational Modeling of Chemical and Biochemical Systems Ghent University
The chemical and biochemical sector are characterized by a wide variety of available tools for the simulation of different phenomena at various scales. An integrated approach towards kinetics, thermodynamics, hydrodynamics, etc… will lead to an enhanced fundamental understanding as well as a more efficient design and operation of (bio)chemical production units.