Solid oxide fuel cells (SOFCs) are a flexible and efficient power production technology well suited to the demands of a Smart Grid. This project will make significant progress towards smart grid ready
SOFCs improve energy usage by providing high efficiency and dynamic operation. The METSAPP project will demonstrate that metal-supported SOFCs enhance robustness and lifetime, as a strategic
SPOK Consult ApS
ForskEL
2012
2012
The project examines the predictability of theoretical and sea-measured power productions of 3 wave technologies (Pelamis, Wave Dragon and Wavestar), working alone, in combinations of 2, all together
Project "Crest Wing final test follow-up offshore" covers building, laying and offshore test of a Crestwing WEC in a scale of 1-5 full-scale Hanstholm. The purpose of the test run is based on DHI test
Alkaline electrolysers provide the potential to store large amounts of electrical energy as hydrogen. RESelyser will enable coupling to renewable energy sources in order to stabilise future Smart
A generic fuel cell backup power platform is developed, aimed at meeting early fuel cell market
requirements. The unique modular platform is scalable from 1 to 5kW, and the resulting systems are
fuell
The obejctive is to develop a second generation climate kit for extreme climate region. The starting point is
a first generation system from Dantherm Power. There is a niche market for such systems
MegaDrive has developed a fuel cell systems for large material handling vehicles. For material handling actual system designs has been developed and laboratory-testes confirm the reach of targets
The project aims to design and integrate a range extender concept into the modular vehicle platform in the
Qbeak battery electrical car. Hereby, a flexible configuration, clean emission, short
The project aims to develop improved stack modules and integrated units (Topsoe PowerCores) based on ceramic fuel cells (SOFC), making them suitable for use in field demonstration projects in Europe
The focus of the current project is to develop cost effective foundation and installation systems for Wave Energy Converters (WEC), by investigating and optimizing novel foundation systems recently
The vision of the project is to develop a durable, efficient and safe fuel cell (FC) technology, which is suitable for larger scale peak shaving systems in relation to wind mills and SMART grid
FLOAT2 continues the development of the promising results obtained in FLOAT (2011-1-10649) where significant cost reduction for the WaveStar converter was achieved by substituting the building
The project aims at demonstrating the feasibilitt of integrating the gas and electricity systems by generating Green Natural Gas by the use of efficient Solid Oxide electrolysis. This integration is