The mission of EGRD is to provide analytical support to decision-makers on new energy technologies, more specifically on R&D priority-setting, methods and approaches for evaluating impact and benefits
The purpose of the project is to develop a tool for assessing the risk of legionella in domistic water installations and the assess energy and ressource consumption in the fight fagainst legionella
The project is linked to the annex on digitization and IoT in the IEA Technology Collaboration Programme for Heat Pumping Technologies. In this annex, opportunities and challenges of IoT enabled heat
The purpose of the project is to gain access to low priced green hydrogen based on renewable electricity is of key importance for realising the transition to a fossil free energy system.
The eWorkVehiclePower project develops and demonstrates a modular and scalable concept for flexible, cost-competitive and energy efficient electrical powering of professional working vehicles
The scope of the project is to develop and test an injector technology that will enable the use of alternative fuels in combination with conventional diesel fuel oils. The combustion of methanol and
The renovation wave is about to reach public schools and institutions. These buildings are not only challenged in terms of energy efficiency but also by insufficient indoor environment, as for example
The project develop a new method to reduce the electricity consumption to ventilation, heating and cooling in large high ceilinged rooms by using controlled draft/mixture by mixing fans.
The project aims at utilising existing gas-fired CHP plants for balancing and peak-load services to the power markets. These types of plants most probably represent a much higher potential than
SUNTHERM has developed a prototype of a heating battery, providing 12 hours heating for an average single-family house, with a space requirement of 60x60x200 cm. This project is a further development
The project will develop a technology that enables the production of synthetic natural gas by using biogas and wind power. In this way the technology will create a connection between the electricity
Energy from biomass will be indispensable for a Danish energy system based on 100 % renewables. This project will provide solutions to use the available biomass most efficiently with a high
XEL2Gas develops long-term storage of excess renewable electricity by a biorefinery concept integrated with excess CO2 production. The concept involves biological conversion of hydrogen and carbon
The objective of the project is to develop a new concept for upgrading biogas to natural gas by an electrochemical methanisation of the CO2 contained in the gas. The proposed concept is expected
The aim of this project is to develop the technical foundation for a polygeneration plant based on LT-CFB gasification and zeolite tar-reforming. The system co-produce electricity, heat, bio-oil and
The PossPOW project developed a verified real-time power curve for offshore wind power plants, also applicable under downregulation. Concert will enrich this to a full asset optimisation package
Improved active network management and automation is necessary for future distribution grids. This project develops robust and cost-effective solutions to enhance the observability, controllability
The project aims to develop a PV lab that can be used for the purpose of testing, research and education so the latest technologies and regulations on PV integration are brought together with the
This project addresses the security of future renewable power systems by further developing and integrating real time assessment methods into a state-of-the art hardware platform. This will
NetVind aims toward the green transition in Denmark, by rethinking the way of using wind power plants in distribution systems. NetVind analyses and demonstrates in a large experimental facility, which