The overall aim of the project is to enable Danish participation in the International Energy Agency (IEA) Wind Task 46 Erosion of Wind Turbine Blades. The knowledge transfer facilitated by the IEA
Wave energy converters (WEC’s) capture energy from ocean waves to produce electricity. Wave energy converters are intended to be modular and deployed in multi-unit arrays. Today there is a little
The aim with the project is to support the participation of DTU Wind Energy in the new IEA Task 47 “Innovative aerodynamic experiments and simulations on wind turbines in turbulent inflow”. By this
The main objective of the project is to contribute to the international cooperation and knowledge sharing around the very important and current topic of wind integration into the power systems via the
This project aims to enhance both the international visibility and the global application of Danish research on the transition to a sustainable energy future. It will help to keep the Danish wind
IEA Wind Task 44: Farm Flow Control is a unique platform to bring together the international re-search and development focusing on the control strategies to mitigate the wake effects within wind farms
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 objective of Sluge2Fuel is to demonstrate the world’s first full scale integration of a modular Hydro Thermal Liquefaction (HTL) unit in a modern Wastewater Treatment Plant (WWTP) and to validate
The objective is to establish a GreenLab DK Hydrogen Technology Test Centre that delivers services to industry, infrastructure operators and other players within hydrogen technologies. The test
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 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 purpose of this task is to support application-oriented development of innovative compact thermal energy storage. Close collaboration between material scientists and component and system design