Continued participation in the international model community within International Energy Agency on development and use of local, national, regional and global optimisation models, data bases and
The project develops international state of the art knowledge on energy technology policies, strategies and mechanisms and therby contributes to the Danish knowledge base on energy, technology
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
Today, it is common practice in offshore gas production to add an excess amount of toxic hydrogen sulfide scavanger to meet gas quality specifications. By designing a sensor based system, which only
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 aim is to have influence on the IEA implementing agreement IEA Energy Technology Data Exchange (ETDE) through participation in ETDE's executive committee and in ETDE's technical working group.
A core group of Danish researchers and industrial companies has establised considerable know-how in the gasification field with the aim of producing gasifiers for CHP purposes. In France a similar
In recent years, focus on rural CHP plants and their financial difficulties and problems concerning i.a. electricity overflow has led to a number of different measures that should be able to
The aim is to disseminate information about Danish energy research and development and its results both nationally and internationally. Furthermore, it is the aim to give Danish institutions, industry
For at reducere CO2 udslip har den danske regering besluttet at fra 2010 skal 29% af al strøm leveres fra alternative energikilder. Vindenergi indgår som et væsentligt led i opnåelsen af dette mål
Identification and study of a number of central scientific problems – especially concerning interfaces between the different components in the systems. The economical aspects of the technology is also
The aim of the PEP project is to construct molecular components potentially useful for supramolecular or nanoscale devices for the light-induced production of electricity. The design of this system is
The project deals with novel materials for an advanced polymer membrane fuel cell system, which produces electricity and heat from natural gas, biomass or other environmentally friendly fuels. The