BioUpgrade is aiming at developing an innovative, efficient and robust technology for biological biogas upgrade, utilising the indigenous hydrogenotrophic cultures of the anaerobic digestion process
The project will develop fuel cell backup power solutions for use at transformer stations in the electric grid. It will demonstrate the new backup solution in connection with transmission stations and
HyScale is to develop and demonstrate a new 3. gen hydrogen fueling station for Fuel Cell Electric Vehicles. HyScale is to double the fueling capacity and reduce costs with 50% with the aim to make
EEEHy aims to generate the knowledge that will result in the demonstration of a game- changing high temperature and pressure alkaline electrolyzer. The novel materials, electrode architecture, stack
The project aim is to develop an integrated SOFC module (standard module) which can be based on the most cost effective materials and manufacturing processes in order to reduce SOFC plant expenses.
A combined systems development and demonstration programme has been initiated in order to be able to identify the necessary and adequate preconditions of a profitable production of fuel willow (salix)
The digestion and detoxification of pyrolysis condensate and wet oxidised pyrolysis condensate was studied in different reactor systems: combined anaerobic and denitrifying UASB reactors, conventional
A dynamic model describing the anaerobic degradation of complex organic material, and codigestion of different types of wastes, was developed based a previously described model.
The aim of the project is to encourage the exchange of experience, transfer know how to R and D in connection to extraction and utilization of landfill gas for energy purposes.
The main aim of the project is to establish knowhow about thermal gasification of biomass - especially straw. This project will be focused on: 1) Decomposition of tar by non-catalytic processes. 2)