Hydrogen is envisioned to become a key enabler and energy carrier in the future 100% renewable energy system with predicted applications within transportation, grid stability, industry, re
HT-PEMFC with Danish industry in the lead is on the threshold of market entry and consortium partners are committed to establish a production line of cell components at a production rate of 1
Hydrogen is envisioned to become a key energy carrier in the future 100% renewable energy system with predicted applications within transportation, grid stability, industry, re
The starting point of the project is DTU’s development of a phosphate solid hydrogen ion conducting membrane which is “ionic-protonic-superconducting” in the temperature range 230 – 350 °C
The scope of the project is to recycle high value precious metal catalyst and polymer components from HT-PEMFC MEAs, implement inhouse MEA production using alternative components and test the
EEEHy aims to generate the knowledge that will result in the demonstration of a game- changing high temperature and pressure alkaline electrolyzer. The novel materials, electrode architecture, stack
Solid oxide electrolysis cells (SOECs) are a promising technology for energy storage and synthetic fuel production and it has a unique potential for grid regulation in the Danish power system. This
The overall goal of the project is to launch a novel hearing instrument, which can be recharged by the user within 30 seconds. Widex, Sonion and DTI have previously demonstrated the technology where
The project wil make it possible to produce hydrogen in smaller systems using induction heating in catalytic processes. This makes hydrogen production flexible in terms of use of the surplus power
Power-to-gas (“P2G”) is an innovative and disruptive energy storage solution ideally suited for the Danish energy system. The P2G-BioCat Project is led by a consortium of highly qualified
The SmartMEA project aims to develop the next generation high temperature PEM electrodes for improved durability and performance working under SmartGrid conditions. Focus is on electrode optimization