The objective of this project is to demonstrate that a system for biological cleaning industrial wastewater placed on the seabed is technically, operationally and economically viable to achieve zero
The aim of the project is to participate in IEA Hydrogen TCP, in order to stimulate hydrogen R&D activities in Denmark and to co-ordinate Danish and international scientific work on hydrogen and
SaltPower will partielpate in IEA Hydrogen TCP Task 42 with knowledge about energy efficiency in building new caverns for storage of hydrogen in the future. We will work with ether partners to develop
The overall objective of the eSAF-AAL project is to fast-track the development and demonstration of a very promising technology that converts raw e-methanol (undistilled) to Sustainable Aviation Fuel
The overall objective of the H2-BOOST project is to improve the efficiency of alkaline electrolyser technologies by min. 10%. By using a novel patent-pending in-situ electrode activation method, it
The purpose of the project is to conduct a field demonstration of a 0.15 MW dynamic electrolyser unit. The demonstration will be used for further scaling DynElectro’s dynamic electrolyser technology
The goal of the FC-COGEN project is to demonstrate e methanol-based fuel cell system that can generate both heat and electricity for residential and industrial application. The solution will ulti
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
The project continued the activities under the Danish-Canadian project on more cost-efficient second-generation fuel cell systems for the UPS markets and materials handling. In the UPS segment, a 10
Dantherm Power has produced fuel cell systems as emergency power for a large national radio network for emergency preparedness communication. A total of 117 fuel cell systems have been produced on
The project funds Danish participation in two tasks under the IEA's Hydrogen Implementing Agreement, which in addition to the EU member states counts Japan, The USA, Canada and Australia. In Denmark
Optimising the production of SOFC cells and stacks opens up possibilities for testing and demonstrating products in three market segments, distributed electricity production, micro CHP and APU
In this project, tools were developed which offer the possibility of quickly designing layers of fuel cells for various markets and uses. In addition, two reformers were developed which can convert
Experience from the CHP units in phase 2 will be put to use in the final phase of mCHP to test an additional 100 units at the premises of the two project host teams in Sønderborg and Lolland
During phase 2 of mCHP, 13 beta type CHP units with LT-PEMFC, HT-PEMFC and SOFC-type fuel cells will be tested in Sønderborg and Lolland, respectively. The project industrial team will design and
The project develops components with a new composition of materials and more cost-effective production processes for PEM fuel cells to boost performance and reduce costs. The results are demonstrated