Path 4 HyPPr The HyPPr project seeks to prepare solar hydrogen technology for upscaling. This requires a production site and a living lab that serves as a proving ground for research on a panel and system level.
Path 1 PILLAR Unique PILot infrastructure for innovative catalytic biorefinery of Lignocellulosic material to functional bio-ARomatics.
Path 2 CoRe² Circular Use of Step-Growth End-of-Life Polymers for Monomer/Oligomer Recovery and Re-use. The CoRe2 project seeks to upgrade a larger fraction of polymer mass waste into high-quality materials that can be used by industries.
Path 2 ReSet Circular Thermosets by Design: Recycling the Unrecyclable. The objective of the ReSet project (recyclable thermosets) is to implement dynamic crosslinking chemistries in common epoxy- and polyester-based thermosets by making use of the principle of covalent adaptable networks (CANs).
Path 3 P2C Power to Chemicals. The aim of this project is to demonstrate CO2-neutral olefin and ammonia production by renewable electricity-driven processes via a novel power-to-heat, electrocatalytic and plasma-based routes. For each trajectory 5 scientific objectives have been defined.
Path 4 InduFlexControl Design for flexibility for carbon-free energy-intensive industry. Control algorithms for flexibility in power-to-X and industrial processes.
Path 3 D2M The D2M project seeks to study, explore and develop different technologies to accelerate the conversion of CO2 into CO, which can then be used as a building block for new chemicals.
