Based on the Stirling engine technology the goal is to demonstrate how small scale RE based CHP plants can be the solution for many small and medium sized companies to reach a more green production
The purpose of the project is to improve the understanding of dioxin formation i WtE-boilers. The project will e.g. include investigation of the possibilities to reduce the part of ash with high
The project has focus on spectroscopy analysis of low-molecular-weight trace gases important in biomass gasification and combustion (e.g. sulphur, PAH’s, chlorine compounds). The purpose of the
The aim of the Catchcrop2biogas project is to investigate the potential of using catch crops as feedstock for biogas production. This will be done by screening 12 different catch crops samples
Extrusion as a pretreatment of dry biomasses, including deep litter and straw, to increase methane productivity in biogas reactors will be developed and optimised at a biogas plant. A pilot scale
The aim of the project is to make a final energy optimization of an air staged downdraft gasification plant by measures that reduce the output of charcoal and the consequently energy loss from the
The aim of the project is to ensure a technical and economical strong commencement of the operation of a complete entire CHP biomass gasification plant. The additional feed in tariff from the ForskVE
Denmark has a large untapped potential in biogas. Biogas is a cheap renewable energy source that helps to bring down CO2 emissions and increases Denmark’s independence in energy supply. Biogas
The purpose of the project is to analyse high efficiency bio-SNG production technologies, potential available biomass and different aspects of the interaction between the bio-SNG gases and the natural
Development/demonstration of economically viable small CHP plants based on gasification and steam raising through burning of the clean gas in once through steam boilers at high steam temperatures and
The purpose of the project is to investigate the feasibility of electrochemical upgrading of biogas to pipeline quality in Denmark by means of Solid Oxide Electrolyser Cells (SOEC). Computer modelling
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 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 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.