MeGA-stoRE is a Power-to-Gas concept for producing methane from CO2. By operating on electricity, the system enables storage of considerable amounts of RE-resources from the electricity grid as
Electrochaea is developing an efficient and robust biological process to store low-cost electricity as renewable gas in the existing natural gas infrastructure. The P2G-BioCat project will allow us to
Proton exchange membrane (PEM) fuel cells will play a significant role in the energy systems of the future. The technology is in the process of being introduced into a number of early markets. The
An improved understanding of the main degradation issues of the PEM FC has been obtained. Single cells have been operated in excess of 10,000 hours, but with unacceptable high degradation rates. The
Solid oxide fuel cells (SOFCs) are a flexible and efficient power production technology well suited to the demands of a Smart Grid. This project will make significant progress towards smart grid ready
SOFCs improve energy usage by providing high efficiency and dynamic operation. The METSAPP project will demonstrate that metal-supported SOFCs enhance robustness and lifetime, as a strategic
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
Alkaline electrolysers provide the potential to store large amounts of electrical energy as hydrogen. RESelyser will enable coupling to renewable energy sources in order to stabilise future Smart
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
The vision of the project is to develop a durable, efficient and safe fuel cell (FC) technology, which is suitable for larger scale peak shaving systems in relation to wind mills and SMART grid
Based on the Stirling engine technology the goal is to demonstrate how small scale RE based CHP plants can be the solution for many small and medium sized companies to reach a more green production
The purpose of the project is to improve the understanding of dioxin formation i WtE-boilers. The project will e.g. include investigation of the possibilities to reduce the part of ash with high
The project will develop and demonstrate a new full ceramic SOFC cell concept in a joint approach between materials and processing experts closely together with SOFC cell and stack manufacturers. The
The project has focus on spectroscopy analysis of low-molecular-weight trace gases important in biomass gasification and combustion (e.g. sulphur, PAH’s, chlorine compounds). The purpose of the
Top up funding for an EU project with European partners. The project is concerned with the details of continuous degradation of SOFC components. Models predicting degradation phenomena and their
This project aims to contribute substantially to the development of a cost effective high temperature electrolysis technology based on solid oxide electrolysis cells (SOECs). The focus will be on
The aim of the Catchcrop2biogas project is to investigate the potential of using catch crops as feedstock for biogas production. This will be done by screening 12 different catch crops samples
Top up funding to the EU CATION project with Wärtsilä and other European partners. Building on experience with 50 kW demonstration systems, the cathode subsystem is developed and solutions verified