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
The project studied sediment bed conditions, scour/erosion, and quick-sand-like conditions that may occur due to the effects caused by wave and current action. Illustration from laboratory experiment
It has been investigated how best to design heating units for one family houses consisting of solar collectors, electric heating element(s)/a heat pump, a smart heat storage and control system based
On a hot windy summer day, with beautiful clouds in the sky, the air is full of turbulence, like a hot pot of boiling water. In these unsteady surroundings a bird of prey is hovering, completely still
Identification and study of a number of central scientific problems – especially concerning interfaces between the different components in the systems. The economical aspects of the technology is also
The aim of the PEP project is to construct molecular components potentially useful for supramolecular or nanoscale devices for the light-induced production of electricity. The design of this system is
The objective of this project was to investigate and increase dark fermentative hydrogen production from organic wastes by optimizing important process parameters (reactor type, pH, temperature
The project concerns the modelling of aerodynamically generated sound from wind turbines with the aim of predicting and reducing noise emission from wind turbines.
The project deals with novel materials for an advanced polymer membrane fuel cell system, which produces electricity and heat from natural gas, biomass or other environmentally friendly fuels. The