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
A major technical development is required if Danish heat and power plants are to replace fossil fuels with biomass in the future. GREEN will facilitate this development by optimizing the agricultural
Accumulation of excess hydrogen in the production of biogas from manure is a problem, because it slows down the process. HYCON investigates the influence and distribution of hydrogen in the conversion
Subterranean layers of sandstone can be an important storage of heat energy from renewbale energy sources by pumping down hot water. HEHO develops an integrated model for predicting how pumping down
Waste as a flexible energy source and wast recycling are important elements of a greener society. TOPWASTE will develop new and advance existing models for planning the treatment of waste, in part
Electronics that control and convert electricity (power electronics) is a cornerstone in our energy systems and the conversion to sustainable energy. CORPE seeks to develop tools for design of cheaper
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
With the key performance criteria for the project in mind (dynamics and energy efficiency) the requirement specification for the 2nd generation Solar Array Simulator has been finalised.
Despite existing modern technologies about 70% of Danish oil resources are considered unrecoverable. Advanced biotechnology could improve oil recovery and reduce transport systems downtime.
Particle accelerators bring atomic particles close to the speed of light using high current electromagnets. The project aims to develop magnets that will significantly reduce power consumption.