MEAs constitute the costliest key component and are also crucial to performance and lifetime of the total system. The project focused on developing basic materials and technologies for MEA improvement
The objective of the project was to study new deNOx catalysts with improved alkali resistance in relation to flue gas from biomass-fired facilities. Alkali resistance of three types of catalysts is so
Experimental investigations were conducted on two identical small-scale SI gas engine generator sets operating on biomass-produced gas from thermal wood gasification. The engines operated with two
The project was the first of a total of five phases, aimed at better understanding and modelling of the dioxin-formation mechanisms in waste-incineration plants. New insight was gained, which may
One of the main results in this project is the breakthrough in the development of 2.5G cells, which are now leading in terms of performance and stability. Moreover, increased understanding of the
In connection with thermal gasification of solid biomass, the pollution level of the gas must often be determined. Undesirable components in the gas may include solid matter (particles, salts, soot)
X-ray analysis is a conditional method usable for characterising biomass and biomass ash. The most striking finding is that analysis values for the element silicon deviated consistently and
Methanol and ammonia based on biomass may become highly attractive in a future hydrogen system. Methanol can be produced from biomass with total efficiency of 50%. The same number cannot be reached
The operating responsible for the Danish electricity grid (Energinet.dk) asks for more competitors in the liberalised market for fulfilling national obligations for contracts of standby regulating
The project developed technology for demand frequency controlled reserve (DFR) implementation, a system that automatically stops or starts electricity consumption in response to system frequency
The project suggest a multiagent based flexible control architecture (subgrid control) suitable for the implementation of innovative control consepts. The subgrid architechture is tested on a novel
Den langsigtede vision med projektet er et fuldautomatiseret system, som udnytter en bred front af avanceret måleinformation, avancerede dynamiske modeller til forudsigelse af driftsforløb og
The aim of the HYSCENE project is to improve our understanding of the environmental impacts and related socio-cultural and welfare economic impacts of a renewable energy system where hydrogen is an
By studying the chemisorption state of hydrogen binding on the surface of nanostructured materials, the project will investigate whether hydrogen can be stored on carbonaceous materials. Experiments