The mission of the project is to radically improve integration of wind energy in the power grid through effective coordination of both electricity generation and consumption. Specifically, the project
Wind power and other variable production constitute a significant share of a future renewable energy system. This requires flexible and intelligent solutions. IPOWER focuses on flexible electricity
Hydrogen from electrolysis is a reliable and clean medium for energy storage. However, the technology for electrolysis is inefficient and expensive. MEDLYS will develop and test efficient, cheap and
A future energy system based on sustainable energy requires flexible production, consumption and transmission of electricity. We are to make large investments in the infrastructure. ENSYMORA will
These years, Denmark is banking on green growth and innovation. However, our understanding of energy innovation systems is limited. EIS explores and analyses the dynamics of knowledge-sharing within
Through a combination of historical analysis, case studies and action research, the research alliance will analyse the roles of socio-technical experiments, creation and utilisation of ''windows of
The project develops a number of new concepts and intelligent approaches for a modern power system which includes renewable energy, storage units, distributed generation, plug-in hybrid electric
The purpose of the project was to develop materials and structures for compact, low cost fuel cells by a combination of solid state protonic conductors with the technology of thin films.
The research has resulted in new PEM-membranes structures both with and without fluor with a wider temperature window and good mechanical strength. The PEM may be used in both hydrogen- and direct
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.
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
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
The CEEH will develop a system to support the planning of Denmark's future energy systems integrating both direct costs and indirect costs for environment, climate and health. The CEEH will apply a
The output of the project can be divided into three main areas: Firstly, results related to the further development and integration of existing tools and methodologies into coherent energy and
SERC was carried out during the period from primo 2007 until end of 2012 I cooperation with leading Danish and International research institutes plus a wide spectrum of industrial partners. The
The aim of the HYSCENE project is to improve our understanding of the environmental impacts and related socio-cultural and welfare economic impacts of a renewable energy system where hydrogen is an
By studying the chemisorption state of hydrogen binding on the surface of nanostructured materials, the project will investigate whether hydrogen can be stored on carbonaceous materials. Experiments