This project enables Danish participation in the IEA Wind Task 42 Wind Turbine Lifetime Extension Assessment - Phase 2. Through knowledge transfer,the IEA task will contribute to improved end-of-life
The project is dedicated to enhancing the efficiency and cost-effectiveness of foundation design for offshore structures such as windfarms and energy islands. The envisioned solution involves the
IEA EBC Annex 89 will aid in steering the transformation of the building sector towards net-zero carbon emissions over the entire life cycle. Taking part in such international collaboration allows
Participating in IEA EOR TCP ensures access to cutting-edge knowledge in geosciences and subsurface engineering for sustainable energy extraction and CO2 storage. This enhances the quality of our
The objective is to represent Denmark in the steering group of IEA 4E PECTA, which organizationally can be equated with an ExCo. Together with representatives from Sweden, Austria and Switzerland
This project enables Danish participation in phase 2 of the IEA Wind Task on Digitalization which aims at addressing major digitalization challenges the wind industry is facing. The Danish industry
The purpose of the project is to support the Danish participation in IEA Wind Task 55, which aims to establish an international collaboration around the development and maintenance of reference wind
The purpose of this project is to support the sustainable and optimal deployment of solar energy in Denmark and abroad by ensuring the availability and accessibility of high-quality solar resource
The objective of the present project is to establish design criteria and operation guidelines for PECS, and to quantify its benefits regarding health, comfort, energy and cost performance. This
The project will explore the opportunities for increased digitalization of the district heating sector. Specifically, data from digital network models and sensor data from the network will be utilized
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 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 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 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
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
The objective of CONTINUE is to develop and demonstrate a novel wind-turbine controller that measures, estimates and reacts to the incoming turbulent field across the entire rotor. This controller