The objective of this project is to improve the numerical models which are used in connection with simulations of wind farms as well as to establish guidelines for how to use these models. Furthermore
The project aims to demonstrate use fo the road support layer as well as the shallow soil layers for retaining surface water and for collective heating and cooling supply of nearby buildings. The
The goal of 3R is to develop an efficient process for environmentally friendly recovery of precious metals to make them available for reuse in fuel cells and electrolysers, which will be in great
The purpose of the project is to demonstrate how energy production from offshore wind can be utilized to produce renewable hydrogen through electrolysis in an integrated system, where the hydrogen
STAC Technology will demonstrate on-site cooling using District Heating as the energy source for
driving the cooling solution for temperatures above zero.
The objective of the LICOREIM project is to demonstrate lidar-assisted wind turbine control strategies for robust and reliable improvements on both currently operating (i.e. retro-fit solutions) and
Street lighting accounts for approximately 25% of public energy budgets, in modern cities around the world
including Denmark. Due to the significant proportion of a public energy budget dedicated to
The purpose of this project is to test/demonstrate the proof of concept of the developed lifetime extension concept for offshore wind turbines. It is expected that by using the developed concept it
The BE-Clean project will demonstrate a new cleaning process. The process will remove unwanted
sulfur from biogas. The new process is cheaper than currently available technologies and uses
electricity
The project aims at increasing the efficiency of new and operating wind tubines by developing innovative vortex generators, i.e., small devices attached to the surface of blades, improving their
The overall objective of this project is to identify and explore studies of particular Danish interest of Distributed Wind (DW) for cost effective technology development and integration into an
This project focuses on providing solid proof that a) 3D printing can be used to manufacture tall wind turbine towers, b) it can be done economically and technically feasible, c) 2 design concepts for
The objective of BIO-ReFuel is to design, produce and test a small biogas to methanol modular
demonstration plant that can produce 426 liters of methanol from approx. 240 m3 of biogas per
day.