The aim of the project was to analyze the environmental effects of wind turbines during manufacturing and after disposal in a long term perspective and to give societal recommendations in relation to
Light tar is a significant contaminant in gas thermally produced from biomass using updraft gasifiers. This tar represents a server risk with respect to formation of deposits within the gas-driven
Utilisation of biomass and waste is generally expensive and not very efficient on small and medium scale plants. For gasification systems the main problem is the gas cleaning, where severe
Uneven char conversion and in extreme cases channels have been observed in the char bed of down draft gasifier. This might lead to a reduced efficiency of the gasifier.
The purpose of the project is to verify, refine and develop micrometeorological tools for the estimation of load-critical wind conditions in landscapes in Denmark and Europe, where wind turbines (and
The aim of the project was to optimize the biogas process of high ratios of the organic fraction of municipal solid waste (OFMSW) in co-digestion with manure. Optimization was aimed with regard to
Microbiologically induced corrosion (MIC) in district heating systems is a well-known phenomenon, which to a large extend has been associated with sulphate-reduging bacteria (SRB). Detection of these
The aims of the project was enhancing and further developing a model system capable of analysing and predicting the wind and the potential wind energy in Denmark.
The goal of the project is to collect, promote, and communicate the knowledge of pyrolysis and related thermal conversion processes for production of fuels and chemicals from biomass.
The overall objective with the project has been to develop and verify a model for assessment of the interaction between a wind farm and the power systern.
The aim leading to the LT-CFB concept is to create better access for the efficient, clean and economic utilization of bio-fuels and waste products having a high content of slag forming and/or
The objective of this research project is to improve the electric energy efficiency of biomass fired boilers (specifically straw). The main focus of the project is on deposit formation on walls and