The purpose of the Technology Collaboration Program for Ocean Energy Systems (OES) under the International Energy Agency (IEA) is to exchange information on Ocean Energy Activities in member countries
The project focuses on “Power-to-Heat and Heat Integrated Carnot Batteries for Zero Carbon (industrial) heat supply”, a critical area of investigation for advancing sustainable and resilient energy
The project covers Danish participation in the ExCo activities of the IEA Industrial Energy-related Technologies and System TCP. The activities from the Danish delegates will be concerned with work in
The purpose of the Danish participation in the IEA Technology Collaboration Programme on Heat Pumping Technologies is to promote and implement projects of interest to Denmark and the Danish business
The purpose of the project is to ensure Danish participation in IEA DHC Annex TS6. The Annex is fo-cused on "Status Assessment, Ageing, Lifetime Prediction, and Asset Management of District Heating
PHESS aims to finalize the development of MacroCaps' patented supercapacitor, establish a number of modular cable-free 1 MW modular rack systems, and conduct tests under real operating conditions
The project aims to develop a facade integrated decentralized micro ventilation solution for apartments. The solution becomes renovation friendly, energy efficient and affordable compared to other
Measurement components, mounted in ducts in a ventilation system, increase the system’s pressure drop and hence energy use. This pilot project introduces a newly developed sensor type for measuring of
Steam production in the industry is currently primarily based on traditional fossil fired boiler solutions. The green transition from fossil to renewable energy sources requires technologies for
Heat pumps do not use the management options available today, which can help ensure an energy cost efficient operation, where it interacts with the company's energy systems and the electricity grid
he project develops instructions for correct combination of ventilation principles as well as choice of control strategy based on the load and the rooms geometry and furnishing. Consultations show
The project investigates and demonstrates how office environments can be efficiently utilized, thereby reducing energy consumption while simultaneously increasing user satisfaction and improving the
The project is aimed at decision makers in the built environments and proposes power-saving lighting systems suitable for offices and classrooms. The lighting scenes are examined through research. The
Adaptive light is installed in select teaching spaces through a one-year co-design process, involving
teachers and students. Across the seasons and user scenarios, the installations are
tested for
Several Danish hospitals use night lighting without short wavelengths to restore/maintain patients’/shift workers’ circadian rhythm. However, different installations apply very different lighting de
Danish municipalities have new great opportunities to monitor, register, process, coordinate
and make use of data from their building portfolios. However there is great variation in how well
the
The project develops "IoT-iBMS" - an IoT based solution for intelligent control and monitoring of HVAC installations in existing and new office buildings. The flexible IoT-based intelligent control
In this project, a new generation af air to water heat pump will be developed, using propane (R290) as refrigerant. The aim is to increase the energy efficiency with 5-10 %. The new produet will be in
Through optimization of machining processes, primarily turning and milling processes, this project aims at reducing industry's energy consumption. Modal analysis optimizes machining parameters for
Through a successful Elforsk project, we have demonstrated a reduction of energy consump-tion by up to 99% using VSR for normalization of materials instead of heat treatment (TSR). As pointed out by