The project report is the contribution from the industry to an action plan for development and demonstration of CHP technology for solid biomass. The report aims to serve as inspiration and basis for
The central goal of the project is to increase access to the international research results, technological breakthrough and work partners within biomass and energy purpose. The purpose of this is to
The purpose was to ensure a better and more rewarding communication between researchers and practicians, to illustrate which projects may become good business, to follow up the ongoing projects and to
The objective is to demonstrate on existing centralised biogas plants how biogas production can be increased and regulated by supplying solid fractions from manure and storable plant material
During this project an up-scaled, near commercial CatLiq plant has been designed. The plant is capable of converting low value feedstock such as pig manure into a high value bio oil, which can be used
There has been a further development regarding the manufacturing of bio ethanol from straw and other residues, were the production prices has been reduced to 2 kroners per liter bio ethanol.
The objective of the project was to improve the efficiency of anaerobic digestion of dairy cattle manure. The NiX® treatment improved by 48% the methane yield of the second step of the biogas process
One of Dong Energy's subsidiaries, Inbicon, has developed a technology that manufactures bio ethanol from non food sources, such as wheat straw. A demonstration plant is made in this purpose. Markets'
In the project, a chemical reactor system, called OBATE reformer, has been developed to convert ethanol to diethyl ether and water in order to make it into a diesel fuel. It is shown that the
To obtain cost-efficient and environmental-friendly heat supply focus is put on district heating. Requirements to cost-effective biomass combustion technologies for district heating are: 1) High
Development of 2D infrared spectroscopic tomography system for in situ studies of flames and hot gasses. The starting point is 2D reconstruction of temperature and concentration profiles as well as
The objective of the project is to investigate the process during heat treatment of biomass at 230-300 Centrigrades without air, so-called torrefaction, for potential upgrading of biomass for Danish
This project commissions the 500 kW gasifier in the town of Hillerød. The aim is to utilise the experience gathered from the pilot system in the town of Hadsund and develop the system to increase
The objective of the project is to add a time-limited amount to the electricity production settlement price from biomass gasification to allow the project group to demonstrate that, long term, the
The overall objective of the project is to provide a precise determination of the biogas potential and the ultimate methane yield of manure from a broad range of animal categories and how it is
The project is implemented by the Danish part of a consortium of partners from Sweden, Germany, Denmark, Norway, Finland and Estonia, and is a project of the N-INNER program. The aim was to develop
The stringent European and Danish environmental regulations represent a significant challenge for the livestock industry and demand the development of cost-effective mitigation technologies. The new
Research and demonstration of a new pretreatment method - wet explosion - for increasing the biogas yield of manure fibers. The produced biogas will be used in a combined heat and power plant. The wet
In this project the potential for SNG based on biomass gasification has been sought elucidated. As part of the project a model for simulation of biomass in Denmark has been developed. The conclusion