As international shipping is a significant greenhouse gas emitter - if counted as a country, it would be on a ca. sixth place of energy-related CO2 emissions - the international maritime organization
The eWorkVehiclePower project develops and demonstrates a modular and scalable concept for flexible, cost-competitive and energy efficient electrical powering of professional working vehicles
The aim of the PlateCell project is to develop and demonstrate roll-2-roll electrodeposition of thin film photovoltaics based on the earth-abundant and non-toxic, CZTS, semiconductor with at least 8%
The project is on membrane-based fuel cell systems using methanol as a ftuel and converting it to electricity with very high (45%) efficiency. The fuel cells and the plates connecting them in a stack
The purpose of the project is to gain access to low priced green hydrogen based on renewable electricity is of key importance for realising the transition to a fossil free energy system.
The purpose of this project is to…
1) design, build and demonstrate a high temperature fuel cell system for green fuels with an effi-ciency more than 40 % higher than state-of-the-art gensets for
The project will be the Danish part of the recently started IEA (International Energy Agency) SHC (Solar Heating & Cooling Programme) Task 64 on Solar Process Heat. The key components of solar heating
The scope of the project is to develop and test an injector technology that will enable the use of alternative fuels in combination with conventional diesel fuel oils. The combustion of methanol and
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 aim of the project is to work with Danish housing associations to organise sketch designs and realisation of building integration of PV solutions (BIPV). The total proposed implementation for roof
The purpose of the project is through applied research and development to demonstrate and develop a building-integratable, transparent PV module harvesting direct sunlight, acting as intelligent
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