The goal of the project is to develop a barge to jack-up vessel loading technology, which can operate in wavw height of 2.5 m, and that will increase the operation window significantly.
WindCal2.0 will develop and demonstrate a nacelle-mounted lidar calibration method where highly accurate lidars replace cup anemometers as the calibration reference and robots automate and speed up
The project develops a drone inspection solution and digital documentation that recognize and categorize surface errors and measure parts of industrial structures with high precision.
The objective is to ensure future large-scale nacelle test facilities are technical and economically feasible for the wind industry. This will be done by further developing and demonstrating R&D Test
The project partners aim to develop and demonstrate a subsea robot, ACOMAR - Auto COmpact MArine growth Remover, which increases atomization of the marine growth removal process on offshore structures
The project purpose is to deliver easily accessible metocean siting data for design and planning anywhere offshore. Through a scalable quality/cost structure ranging from free general data analytics
The project objectives of GOTWind is the optimization of bolt technology for wind turbines from production until end-of-life. Overall, this project will ensure that there are set out general rules in
The project ” Multi-level medium voltage” converter is a development and demonstration project, which by proposing at new design aims at optimizing one of the most important subsystems in a wind
To learn how to build the hybrid UHPC tower in praxis and prepare the technology for commercialization. Further development to up-scale the towers to larger heights, to make the towers entirely from
Task 35 will focus on wind turbine blade and drive train testing and assess their performance and failure criteria in different operating scenarios. The subtasks are: l) Relevant wind turbine
Our objective is to demonstrate an efficient, rugged, low-cost lidar for wind turbine blade pitch control. The new sensor will monitor the wind in front of the turbine using 4 lines-of-sight. This
The purpose of the project is to investigate the future testing strategies for the leading wind turbine manufacturer, to design, develop, assemble and demonstrate the future testing facility to
The New European Wind Atlas wiII as a minimum include: wind resources and their associated uncertainty; extreme wind and uncertainty; turbulence characteristics; adverse weather conditions together
The project aims to develop a new node for offshore wind foundations. Objectives are: 1) New design for process and assembly of jacket foundations; 2) Cost-efficient welding of nodes; 3) Mass
The project objective is to test, verify and document the radar control installation aiming at defining the minimum requirements for this type of system capability. The project will also investigate
The objective of the project is on basis of participation in the IEA Task 29 MeXNext III to utilize the results from a new wind tunnel measurement campaign on a 4.5m rotor (summer 2014) for validation
Seagar aims to develop and demonstrate a device that enables bolts in wind turbine towers to be tightened automatically. The robot moves from bolt to bolt, tightens each bolt and documents all
Goals:
Improve knowledge of the market potential for Small Wind. Identify industrial business plans for
manufacturing and marketing. Improve knowledge of export by means of practical training and
issu
Blade replacement in wind turbines is costly due to the large cranes needed. The Single Blade Exchange without crane system will be able to do the replacement of blades without a mobile crane and with
To be able to install wind turbines and for these to operate in Denmark or in Danish waters, they must be certified and serviced in accordance with the technical certification scheme for wind turbines