SOFC technology potentially offers a clean and efficient way of producing electricity and heat from a wide selection of fuels. However, before SOFC can be introduced for larger stationary applications
WEPROG ApS
ForskEL
2009
2012
The project aims to develop objective methods to allocate reserve and utilize the intra day market in order to reduce the risk of system imbalance during periods of high uncertainty of the weather
The HotMEA consortium focuses on HT-PEM fuel cells. Denmark enjoys a position of strength in terms of HT-PEM and may become a leader in the field. The work comprises a broad spectrum from development
Given the goals of 50% of electricity production being generated as wind energy and typically from large offshore wind farms in 2025, Denmark needs more exact forecasts - especially forecasts looking
The project aims at developing a meteorological software tool for large wind farm planning. The project is based on data from previous projects on large wind farm shadow effect. The existing tools
The project focuses on a theoretical and experimental study of floating platforms for wind turbines, wave power systems and the relationship between wind and wave power. The project basis is the
To fulfill the next target goals of MEA performance, amount (mass) of platinum used, cost and lifetime defined in the national Danish strategy on PEM FC, it is of utmost importance to develop material
The cooperation project is conducted with a PhD study as its central element and its research will be used directly in wind turbine and wnd farm development so as to prepare common guidelines under
This project aims to develop a cost-effective high temperature electrolysis technology based on SOECs. The technology development started from the technology developed for SOFCs and takes advantage of
The purpose of the project is to provide the continued research and development which is necessary to improve the cell components and to implement them with industrially relevant production methods
Aalborg Universitet (Fredrik Bajers Vej)
ForskEL
2008
2011
The primary objective of this project is to initiate research activities to support the very successful demonstration project “Dansk Mikrokraftvarme” in two es-sential aspects: 1. As the fuel cell
Acoustic measurements will be performed at various degrees of wake using several measuring techniques. The results will be compared with aerodynamic measurements to enhance knowledge of wind turbine
In this project, by means of computer simulations, flow conditions of wing tips were investigated for a number of wing designs for wind turbines. Various numeric design methodologies were developed
For the first time ever, this project integrated three design areas in a simulation: electrical design and
optimisation of wind turbines (generator and gearbox), aerodynamic design (material and
This project developed methods and tools for modelling various ruptured wind turine blades and for analysing the residual strength of the blades if they crack. This provides a foundation for assessing
This project involved the first two phases in establishing a knowledge centre for wind turbine components. In the first phase, the knowledge centre was officially established, and it was decided that
The project continued the activities under the Danish-Canadian project on more cost-efficient second-generation fuel cell systems for the UPS markets and materials handling. In the UPS segment, a 10
Dantherm Power has produced fuel cell systems as emergency power for a large national radio network for emergency preparedness communication. A total of 117 fuel cell systems have been produced on
The project aims to provide the necessary basis for deciding to establish a knowledge centre promoting Danish innovation in the field of wind turbine components. The purpose of the tesst centre will