The project dealt with many aspects of the interplay between wood burning, user and the environment. It conducted a series of surveys on health effects of firewood smoke particles.
The main goal of the project was to achieve improved understanding of the interaction between cell-wall-degenerating enzymes and lignocellulose at increased solid matter content. Pre-treatment of
The project developed an econometric model capable of predicting car model combination of new car sales, including in particular cars using fuels produced with renewable energy, i.e. electric cars
OPUS will study bio-available carbon in sraw from wheat. The project applies a multidisciplinary structure compriing expertise in molecular biology, plant breeding, 'white biotechnology'
The project follows up four previous projects on biofuels and health and safety at work and focuses on: 1. Method development for airborne dust capture to study any health effects of biofuel dust. 2
The project focused on improving the Open Core gasification unit, particularly reducing the daily monitoring jobs and ensuring stable, unmanned unit operation. A subproject focused on gaining better
The primary objective of the project was to improve the understanding of formation and characteristics of waste incineration residue. The project had specific focus on the importance of waste input
Ørsted A/S
ForskEL
2005
2011
The purpose of this project was to develop materials with higher resistance to the corrosive elements, in order to reduce the cost of maintenance, increase the availability, and increase the
The objective was to assess the potential of addition of sulphur with a view to emission control in connection with natural gas-firing in swirl-stabilised diffusion burner and in engines and, if
The objective of the overall project was to develop a system for online optimisation of waste incineration. Phase 2 worked to design a measuring programme at Haderslev CHP plant to determine the key
The PSO Project 5820 aimed to study deposit-induced Cl corrosion under well-controlled laboratory conditions, simulating the conditions in biomass-fired boilers. This was done by exposing pieces of
The aim of this project is to implement an online volatile fatty acids (VFA) sensor developed at E and R DTU for monitoring, control and optimization of the biogas process.
The aim of the project was to test the recently developed VFA online sensor under long-term operation at a large-scale biogas plant (Lintrup). The goal was to identify requirements of the system for
A model of a updraft gasifier was established. Problems about solving the system of equations was realized. Experimental results about heating up and pyrolising wood chips was created.
The project has included the Danish Representation in the Technical Committee for biomass Utilisation, task 32, Biomass Combustion and Cofiring during 2001. The Activity is referring to the IEA
The main objective is to achieve higher combustion efficiencies and lower environmental impacts of biofuelled boilers by improving process control to take into account variations of the moisture