The aim of the project is to utilize Denmark's position and to develop international collaborations in order to optimize four major steps in the Danish Bioethanol concept.
The gasproduction from liquid manure in terms of volume is low and the economy of the plants are often very dependent on the supply of easy degradable waste products and at the moment the extension of
The main objective of the project was to improve biogas production from manures. This objective was addressed by investigating: 1) the effect of different reactor configurations, 2) operational
The purpose of the project is to clarify advantages and disadvantages, potentials and possible problems when burning or gasifying the separated fibre fraction from biogas production, before the fibre
1) Analyse the country-level, regional and global potential of bioenergy, forestation, and other biomass-based mitigation strategies, including implications for the atmospheric CO2 concentration and
Objective: To synthesise and transfer to stakeholders important international knowledge and new technical information concerning conventional forestry systems for sustainable production of bioenergy.
The aim of this project is to promote research results within bioenergy to researchers, advisers, factories and public authorities among others. The promotion is to be done through a newsletter, six
Fødevareøkonomisk Institut. Jordbrugets Driftsøkonomi - KU
EFP
2004
2006
The main objective of the project was the identification and analysis of new technical concepts for centralized biogas plants, which would make them less dependant on organic waste supplies, and this
The political and technical objective of the project is to ensure an efficient outcome of the Danish participation in the international work group IEA Bioenergy Agreement, Thermal Gasification of
A substantial know-how within pre-treatment of biomass and production of bioethanol has accumulated in Denmark over the past years, and increasing international focus has been brought to the Danish
Through Danish participation in the group the country gains access to high level knowledge on the latest technology and markets developments as well as Rand D activities and results.
This project was meant to develop TK Energi’s stepwise gasification concept and improve full-scale demonstration at a plant in Gjøl. The pilot system was almost completed, but due to a delay, the
The objective of this project was to establish a wood-chip gasification system with a rated input of 600 kW. The system is an upgraded version of the Viking two-step gasifier developed at the
Using catalysts, enzymes and bacterial cultures, the project uncovered promising methods for converting biomass into more valuable products such as fuels in the form of ethanol, methane and hydrogen
The feasibility of utilizing energy crops (willow and miscanthus) and agriculture residues (wheat straw and corn stalker) in an anaerobic digestion process for biogas production was evaluated
The project studied oxidation behaviour of TP 347H and X20 in steam in field/laboratory testing and thermodynamic/kinetic modelling. TP 347H: The interior of the alloy grains oxidise internally