Dynamic and distributed ammonia plants can create new markets and demand whilst bolstering demand for existing products including turbines, ammonia plants and subsequently creating jobs for the Danish
The aim of the project is to establish an advanced, flexible and robust system for district heating (DH) grid measurements in DH pipe networks by installation in pits and other accessible locations
We see Citizen Energy Communities (CEC) and Renewable Energy Communities (REC) as instruments for connecting local citizens, smart buildings, and renewable energy sources intelligently to the local
The purpose of the present project is to support and boost the collaboration and knowledge sharing between the Danish and international wind energy research communities within the emerging field of
The SkyClean technology combines biofuel production and carbon capture and storage. It is an integrated solution to three major climate change challenges on a global scale: reducing greenhouse
The main goal of IEA-IETS Annex XVIII: Digitalization, Artificial Intelligence and Related Technolo-gies for Energy Efficiency and GHG Emissions Reduction in Industry is to stimulate the technology
The project aims to investigate cost-effective strategies for reducing greenhouse gas emissions and energy use in buildings in cities at district level, combining both energy efficiency measures and
The goal of this project is to demonstrate a novel mobile molten salt thermal storage system, a mobile “thermalbattery”, which is able to: a) store surplus thermal energy, and b) to deliver this
Development of a new energy efficient air handling unit with heat recovery and reversible heat pump technology using the natural refrigerant CO2 for the HVAC market. High ambient models will feature
The purpose of the BetterLiBs project is to improve the performance, safety, and duration of Lithium-ion Batteries (LiBs) by developing electrolyte formulations that use novel zwitterionic monomers
The DynAmmonia project develops a technology that reduces the cost of green fuels by up to 20%. The cost reduction is achieved by prolonging the lifetime of high temperature electrolysis using a new
The objective of BLATIGUE-2 is to develop fast and efficient fatigue testing methods for large wind turbine blades, to develop smart equipment to excite the blades under such tests and to increase