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
Investigations of long term exposure of SCR catalysts to flue gas from coal-straw co-firing has been carried out in two units of the Studstrup Power Plant with an average fraction of 10% straw on an
The objective was to investigate the safety conditions of the Viking system and to develop and implement a new operating system for flexible heating and electricity demand. The project improved a
In Europe, a number of standards for characterising biofuels are under development. The standards are to promote trade in biofuels on equal terms. The long-term objective of this project is to
In this project a number of industrial and agricultural waste products have been characterised and evaluated in terms of alkali-getter performance. The intended use is for biomass-fired power stations
Københavns Universitet
ForskEL
2004
2011
Recycling of nutrients in wood ash is currently made difficult by the Danish bio ash notice (2004). The aims of this project is to develop and compile a well-documented concept for recirculation of
The project aimed at developing additives that will minimise corrosion during biomass combustion. To determine the impact of additives on SCR catalysts, the project tested potential additives in the
The aim of this project is to contribute to the development of a new generation of grate fired straw plants that comply with stringent emission regulations and offer stable operation as well as
In the EU subsidised project, under the Fifth Framework Programme, a gasification plant was established in Gjøl based on TK Energi’s staged gasification technology.
The project aimed to evaluate a waste gasification facility concept and plan selected components for a pilot facility. The project constructed a horizontal facility in which fuel and oxygen are
Identification and study of a number of central scientific problems – especially concerning interfaces between the different components in the systems. The economical aspects of the technology is also
The aim of the PEP project is to construct molecular components potentially useful for supramolecular or nanoscale devices for the light-induced production of electricity. The design of this system is
The objective of this project was to investigate and increase dark fermentative hydrogen production from organic wastes by optimizing important process parameters (reactor type, pH, temperature
The project deals with novel materials for an advanced polymer membrane fuel cell system, which produces electricity and heat from natural gas, biomass or other environmentally friendly fuels. The