Torrefaction is considered worldwide as a promising key technology for boosting large-scale implementation of bioenergy. It involves heating biomass in the absence of oxygen to a temperature of 200 to
Through dynamical plant simulation and demonstration of primary control (frequency reserves) from WtE plants to the power grid is investigated from a plant techno-economic point of view. The goal is
Aalborg Universitet (Fredrik Bajers Vej)
ForskEL
2012
2015
The 2stageBiogas project will increase efficiency of the biological conversion of organic waste into biogas for combined heat and power production. The focus will be on the improvement of the
Gas from biomass gasifiers contains both dust and tars, and both components are serious challenges for the downstream equipment as gasturbines and catalytic reactors. This project will test
One main objective has been to co-ordinate the Danish activities within the IEA Bioenergy Agreement. Another international activity has been then chairmanship in the bioenergy processes/photosynthesis
The purpose of this project is to measure the reactivity of char from biomass (straw) during gasification. Especially catalytic effects will be examined.
The goal of this project is to clarify to which extent the indirectly fired gasturbine (IFGT) in the future can be expected to contribute to the production of power and heat from biomass.
In this project the prospect of implementing a UASB reactor (Up-flow Anaerobic Sludge Blanket reactor) for detoxifing recirculated process water has been examined.
This work focused on the connection between char reactivity, ash agglomeration and sintering and the gas composition in the turbid environment in a circulating fludised bed gasification process, where
The project has included the Danish Representation during the period 1998-2000 in the Technical Committee for Biomass Utilisation, Biomass Combustion Activity referring to the IEA Bioenergy Agreement.
The main purpose of the project was to identify measures for lowering the price of straw delivered to power plants, mainly by developing a new high density straw press for Hesston size bales. The aim