Project purpose is to develop, test, demonstrate and mature a solution, that by supply of green energy from wind turbines, solar panels, and a battery system, with and without grid connection, can
The FrontFuel project aims to revolutionize production of sustainable aviation fuels (SAF) by pioneering a path for industry first-movers by showcasing an innovative, highly efficient value chain. By
The overall objective of the IEA Annex ‘Heat Pumps in a circular economy’ is to provide an overview of the status of heat pumps in relation to a circular economy, to highlight the technological
The MEGA (Modular Efficient power Generation with Advanced fuel cell power converters) project aims at developing high-efficiency high-density DC-DC power converter for fuel-cell based applications
The DK-SOFC b line is targeted towards: 1) decrease of the operation temperature without increasing the area specific resistance, 2) increase of the ro-bustness of the cell, 3) better understanding of
The goal of the project was to develop and demonstrate a 3 kWe DMFC generator aimed for Uninterruptible Power Supply. How-ever, a detailed concept evaluation based on the present Danish DMFC stack and
The goal of the project is to develop and test small (2 kW) reformers for converting natural gas into hydrogen for use in Proton Exchange Membrane (PEM) fuel cell cogen units for single-family houses
The project co-financed Danish participation in a European partnership under the 6th framework programme to test whether gas from thermal biomass gasification can be purified sufficiently to be used
The aim of the work is to participate in the IEA Implementing Agreement on Hydrogen (IAH), in order to stimulate and co-ordinate hydrogen activities in Denmark. The work includes: 1) Participation in
The project co-financed Danish participation in a European partnership under the 6th framework programme to test whether gas from thermal biomass gasification can be purified sufficiently to be used
The main purposes of the project were 1) to develop new catalyst materials by applying ‘flame spray deposition’ (FSD); 2) to optimise state-of-the-art MEA materials and electrode structure; 3) to
The project aimed to find new electrode materials for hydrogen development able to replace the costly and rare platinum normally used in PEM fuel cells. The project succeeded in demonstrating that