The idea behind the concept is to activate the reduction of NOx and the oxidation of soot and hydrocarbons by the use of an all solid state electrochemical cell based on an oxide ion conductor. The
The focus of the centre consists of several pioneering techniques for understanding the relationship between biomass structure, proteins and process stages needed to convert it to mainly liquid energy
The strategic research centre will in cooperation with the industry, by the development of zero emission buildings and related technologies, create the necessary basis for a long-term sustainable
The vision is that the increased research on main wind turbine uncertainties and risk & reliability will lead to less conservative designs and more cost-efficient wind energy. Therefore, careful
The usage of new reinforcement fibre and resin systems allows for novel forms of blade design, cost optimisation and production methods that significantly reduces the production time.
The HyLIFT-C3 project develops and commercial- ises hydrogen propelled fuel cell hybrid systems for pollution free and time efficient propulsion of forklifts for warehouses and distribution centres.
A platform has been developed for production of enzymatic biodiesel. The production is made flexible to enable the use of a wide range of oil qualities. The processes have been document- ed
Allocation of extra heat is essential for the survival of newborn piglets. Sensors in each farrowing pen provide information about the animals’ welfare and control allocation of heat according to
Break-through new technology has led to a functional prototype with “Switch Mode Power Supply” based on “Piezoelectric Transformer” including energy recovery.
Sensors based on new, patented optical measurement techniques enable extreme ruggedness and the ability to measure several parameters at the same time.
Employing a porous metal structure enhances the robustness of new high temperature fuel cells. Stack modules are being developed with these novel cells, initially for applications such as truck APUs.
The project develops proton-conducting and mixed proton-electron conducting materials stable in atmospheres containing CO2. The materials will be used in future energy-efficient and environmentally
The objective of the project was to improve the durability of the membrane electrode assemblies of PEM fuel cells by studying the basic degradation phenomena of carbon supported Pt catalysts and
Center for Energy Materials develops materials which play key roles in the creation, storage or conversion of energy, thus underpinning future energy systems. The Center has focused on five areas
The EU's and the Danish government's goal of replacing major parts of fossil fuels with sustainable energy sources requires new processes to be developed for conversion and storage of energy, for
Use of cellulose for biofuel production requires the cellulose to be degraded into small molecules. Several different enzymes can be used for this prupose. The project aims to develop a method for
Today, wind turbine control systems are designed separately from its structural, aerodynamic qualities, but to achieve cheaper, more reliable wind turbines, the design phases need to be united into