In this project next generation fuel cells are developed towards commercial applications. The projects is based on efficient and robust metal-based fuel cell technology.
Metal supported solid oxide fuel cells were developed for operation in temperature interval 550 – 650 degrees C. Fabrication techniques suitable for large scale production of half cells comprising of
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.