As a specific Danish contribution during the project period, the Bioenergy Group at the University of Southern Denmark updated the report ‘Source separation of organic fraction of household waste’.
The annex will give the participants an overview of the technical and environmental assessment challenges encountered in offshore applications and help them to understand the areas of further R and D
Dust will be produced during production and use of wood pellets. The most critical situations will be identified and changes in routines and equipment will be suggested. Both central heat plants and
The Danish experiences with the Stirling engine and updraft gasification was combined with application of the FLOX gas burner technology for the development of the SEDIOX (Stirling Engine with Diluted
The project analysed ash from eight different agro-industrial biomasses. The ash was examined in physical-chemical analyses and in leaching analyses. The aim was to study and evaluate usability of ash
The wind farm output of an offshore-farm such as Horns Rev changes between nearly constant output to highly variable power output. A balance responsible would benefit from knowing the variability of a
The project will study the effects of using biofuels in the Danish transport sector. The analyses will cover both resources and application of biofuels and include a raft of impacts, eg emissions, air
BioREF project provides an integrated and innovative approach to produce a multi-product biofuel from oilseed crops. The overall purpose is to develop a sustainable, cost-effective and competitive
Investigations making it possible to evaluate and further develop concepts to improve electrical efficiency in a waste combustion plant were performed. Furthermore, it was the objective to investigate
The project is a joint European project, the main objective of the Gasification Guide project being to accelerate the market penetration for small-scale biomass gasification systems ( 5 MW fuel power)
The object of the project was to determine the wave impact on wind turbines and test ways to reduce such impacts. The project showed that all major wave loads are caused by breaking waves and that
The Integrated Biomass Utilisation System (IBUS) is a new process for refining lignocellulosic waste biomass. The process is energy-efficient due to very high dry matter content in all process steps
Contact-free, fast optic measurements of NO and other gas concentrations at high temperatures in boiler rooms, burners and engines are of particular interest. In this context, the infrared (IR) and UV
The project developed a computer method for quantifying wind turbine structural loads caused by fault ride-through (FRT) requirements. Exemplified in the case of an active stall wind turbine this
It is the goal to increase the fundament for optimising pellet production and give relations between the quality of the pellet and the conditions during the production.