The project objective was to perfect Danish technology in high temperature PEM fuel cells. It lasted two years and addressed the fuel cell components membranes, cells and cell stacks. The primary
The developed CFD model shows qualitative and quantitative correlation between the model and experiments in a lab scale reactor. When the developed model was implemented in the full-scale plant, it
A number of instruments, Internet, media campaigns, boxes displaying electricity prices (SEE1) and spot contract has been tested for households to shift their electricity consumption to times when
From a power conversion point of view it has been demonstrated that solar cell segmentation can be performed and a high performance local cell controller can also be made. The project has developed so
To develop the market for solid biofuels within the EU, standards are urgently needed. Based on a mandate given by the EC, CEN TC 335 "Solid Biofuels" currently develops such standards based on the
The purpose of the project “Customized PEC modules” was to move from the production hand-made individual DSCs in the laboratory to the production of DSC modules in a semi-automated process. At the
The project is a core project of the Danish SOFC programme. The goal of the project was to continue developing SOFC cell and stack technology while reducing production costs, the aim being to meet the
Nanotechnology can provide possibilities for obtaining new valuable information regarding performance and corrosion protection in power plants. In general, the desired performance of the contact
The pier-based Wave Star Energy test system is now ready for installation at Roshage pier in Hanstholm. For security reasons, the unit was moved into open waters west of the pier. A high footbridge
The goal of the project is to develop, test, validate and evaluate a novel control architechture for optimised operation and seamless integration of micro CHP based on a generic virtual plant (VPP)
The project will focus on establishing a foundation for the production of cost-efficient PVs and modules meeting the architectural requirements. The value chain from silicon crystals to the production
Further to ELforsk project 335-026, the project developed two control systems for demand-controlled ventilation of single-family houses – one simple system and one more sophisticated system. The
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