Positive Energy Districts (PEDs) are groups of buildings that produce more energy than they use. The purpose of the project is to develop information/guidance on how to plan and implement PEDs
The aim of the project is to participate in IEA Hydrogen TCP, in order to stimulate hydrogen R&D activities in Denmark and to co-ordinate Danish and international scientific work on hydrogen and
This project for the 4E annex PECTA, maps the performance and timeline of deployment for the use of new components in the wind turbine, engine and pump control industry with the objective of providing
The project will continue the Danish participation in IEA-ETSAP (Energy Technology Systems Analysis Programme), under the new Annex XV 2020-2022, emphasising the use of the ETSAP tools and modelling
GreenCem’s aim is to develop the full technical layout and documentation for energy efficient, integrated, carbon capture system at the Aalborg Portland cement plant and a CO2 utilization plant (PtX)
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 aim of the PlateCell project is to develop and demonstrate roll-2-roll electrodeposition of thin film photovoltaics based on the earth-abundant and non-toxic, CZTS, semiconductor with at least 8%
The purpose of this project is to construct, commission and operate a cost-effective pilot scale Carbon Capture plant at ARC, demonstrate satisfactory operation targeted at net zero energy consumption
The aim of IEA ECES Annex 37 is to investigate the present situation of smart design and control strategy of energy storage systems for both demand side and supply side.
The main goal of the Annex 85 is to provide the application feasibility of the IEC technologies, and the technology roadmap for using IEC systems in different types of buildings located in different
With this project, AI-IDP (Artificial Intelligence - Import Dwelltime Prediction), Blockshipping is applying sophisticated artificial intelligence and machine learning techniques to optimize the
The project is on membrane-based fuel cell systems using methanol as a ftuel and converting it to electricity with very high (45%) efficiency. The fuel cells and the plates connecting them in a stack
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 purpose of this project is to…
1) design, build and demonstrate a high temperature fuel cell system for green fuels with an effi-ciency more than 40 % higher than state-of-the-art gensets for
EBC Annex 84 investigates the social and technical challenges of demand management of buildings in DHC systems, and how these can be overcome for various building typologies, climate zones and local
The project will be the Danish part of the recently started IEA (International Energy Agency) SHC (Solar Heating & Cooling Programme) Task 64 on Solar Process Heat. The key components of solar heating
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