The aim is reducing electricity consumption for telesites by 15% and reduce costs by a further 2% through peak shaving with local battery storage and renewable energy integration, making sites an
The purpose of the AQUADA-GO project is to develop a methodology for automated, noncontact, near real-time blade damage detection and risk evaluation in a single step using thermography and computer
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
The project develops a new ventilation and cooling principle for typical offices. Rather than lowering the temperature in rooms with energy intensive air conditioning systems, cooling and a good
The purpose of the project is to develop and test a software tool that enables the user to perform a detailed energy mapping in a matter of a couple of days in comparison to the current time frame of
SaltPower will partielpate in IEA Hydrogen TCP Task 42 with knowledge about energy efficiency in building new caverns for storage of hydrogen in the future. We will work with ether partners to develop
The project objective is to increase the uptime of wind turbines by reducing the number of un-planned stops and service due to hydraulic pitch system faults. By gaining a better understanding of the
The overall objective of the eSAF-AAL project is to fast-track the development and demonstration of a very promising technology that converts raw e-methanol (undistilled) to Sustainable Aviation Fuel
The project aims to develop and demonstrate a novel type of prefabricated standard building elements called “iTB” or “integrated Triple energy Building elements” for the building industry. These iTB
The OptiCore Platform project targets development and prototype demonstration of a new digital design platform for optimized core kits for wind turbine blades. The overall project objective and
The main goal of the IEA Energy Storage (ES) Technology Collaboration Programme (TCP) Task 41 is to evaluate the economic efficiency of energy storage systems on a theoretical basis using scientific
The purpose of this project is to implement the next phase in the Exowave strategy, which is to be able to establish a 250 MW wave power plant together with an offshore wind farm before 2030 in Danish
The purpose of the project is to support Christian Bang’s work as as project leader of the IEA Bioenergy BECCUS Inter-task project in the current triennium 2022-2024, thus enabling a well-coordinated
Forudsigelse af vindkraft og anden vedvarende energi gør det muligt at køre elnettet sikkert og billig. Den Internationale Energi-Agentur har en samarbejde som del af deres vindaktiviteter, hvor ca
The overall objective of the H2-BOOST project is to improve the efficiency of alkaline electrolyser technologies by min. 10%. By using a novel patent-pending in-situ electrode activation method, it
The health industry uses large numbers of Bio Banks for vital medical research and drug development. Of late, several automated systems were developed with robot handling at temperatures of -20°C or
The purpose of the project is to conduct a field demonstration of a 0.15 MW dynamic electrolyser unit. The demonstration will be used for further scaling DynElectro’s dynamic electrolyser technology
The purpose of this project is to make Crestwing completely ready for its first commercially viable device. With the final demonstration of Crestwing’s 30-meter, 65 tons prototype “Tordenskiold”, the
Renewable energy, including the wind industry, is a key to a fossil-fuel-free future. For industries such as wind turbine manufacturers and their sub-suppliers, testing is an essential part of