The solid oxide fuel cell (SOFC) is an attractive technology for the generation of electricity with high efficiency and low emissions. This project will improve the power density, durability, and
The aim of project is to investigate the combination of biomass gasification with SOFC in an efficient decentralized and flexible energy system for small scale combined heat and power production. The
The objective of this project is on basis of simple measurements on 6 turbine towers in the Rødsand 2 wind farm to identify, model and verify the basic mechanisms driving the increased loading
The main aim of the project is to investigate and further document the current need for research application on improved electrical efficiency in CHP plants fired with waste on a grate. (Energy 10)
The purpose of the present project is to synthesize, characterize and test new catalysts for Selective Catalytic Reduction of NOx using hydrocarbons instead of ammonia as reductant, including their
Development of control strategy & demonstration of heat pumps (HP) to react on varying electricity prices and deliver regulating power in a flexible power system. Investigation of several HPs
HALDOR TOPSØE A/S
ForskEL
2010
2011
PlanSOEC is to develop a R&D and commercialization roadmap for hydrogen and CO production plants based on the solid oxide electrolysis cell (SOEC) technology. This involves analyzing state-of-the-art
TOPSOE FUEL CELL A/S
ForskEL
2010
2011
The aim of this project is to develop a highly durable (>5 years) and a significantly more price competitive SOFC technology, and at the same time develop the basis for demonstrating up-scaling from 1
Waveenergyfyn v/ Henning Pilgaard
ForskEL
2010
2011
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New command and control mechanisms are to prevent wind power from destabilising the power grid. This is an important prerequisite for meeting the goals of 42 pct. wind share for 2020.
The proposed project will investigate a new wind power system, includiing a direct drive low speed Switched Reluctance Generator (DL-SRG) and a DC network connecting the DL-SRGs. It is expected that
By collaboration between Danish and Chinese experts in wind turbine aerodynamics, optimisation and control, and atmospheric turbulence, aim is to develop an integrated apporach, which provides
The goal of this project is to create a scientific basis for the development of advanced, strong materials for wind blades by optimising their structures at microlevel. This goal is achieved by
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
We propose to further the availability of high quality bio-oils for transportation and energy use. The focus is on locally available biomass resources, in Denmark and China, and the selection of
Maritime diesel engines emit vast amounts of harmful substances. A reduction takes better knowledge of emission formation inside engines. RADIADE advances further the theoretical models of large
The energy efficiency of many industrial processes can be imprived by converting waste into electrical energy using so-called thermo electrical materials. OTE-POWER develops ceramic modules for high
Photovoltaic technology has a huge potential in a renewable energy system. Today, however, solar cells are expensive and not very efficient. THINC seeks to develop a new type of solar cells, using
Wind turbine components such as gears and naves are exposed to large and very dynamic loads. The typical modes of production have difficulties handling this. REWIND focuses on materials, processes