The project developed a computer method for quantifying wind turbine structural loads caused by fault ride-through (FRT) requirements. Exemplified in the case of an active stall wind turbine this
The project studies two issues in distribution systems 1)Normal Operation Optimization models the load optimal response to electricity price, power system constraint impacts. 2)Control Strategies in
The purpose of this project has been to extend the foundation module in HAWC and FLEX to be able to simulate the frequency dependent stiffness and damping of the foundations.
The Project is a preliminary study of the possibilities for realization of 'Wind Power Academy' on Lolland. The vision of a Wind Power Academy was made as Energi E2 decided to establish a new park of
The operating responsible for the Danish electricity grid (Energinet.dk) asks for more competitors in the liberalised market for fulfilling national obligations for contracts of standby regulating
The project developed technology for demand frequency controlled reserve (DFR) implementation, a system that automatically stops or starts electricity consumption in response to system frequency
The project suggest a multiagent based flexible control architecture (subgrid control) suitable for the implementation of innovative control consepts. The subgrid architechture is tested on a novel
The project measured switch transients and voltage quality for three different turbine types in three offshore wind farms: Nysted, Horns Rev and Burbo Banks. The project documented voltage conditions
The object of the project was to furnish a dimensioning basis for future offshore wind turbine foundations. This work contributed to greater understanding of erosion conditions around monopole
It is technically possible to manage and activate the potential for flexible electricity consumption in the segment of large office blocks and public buildings. Practical experiments have shown that
The object of the project was to develop an experimental method for estimating the modal properties of wind turbines during operation. OMA (Operational Modal Analysis) proved suitable for
This project is one of several projects with the common purpose of predicting electricity generation from a wind farm for up to 48-60 hours based on meteorological forecasts.
The annex will give the participants an overview of the technical and environmental assessment challenges encountered in offshore applications and help them to understand the areas of further R and D
The project included the second phase of a process aimed at establishing a platform for wind turbine simulation as a prerequisite for advanced electrical design and optimisation.
The aim of the project is to develop, verify and implement a detailed physical model for the wind field in a wind farm. The model will allow for detailed aeroelastic simulation of wind turbines sited
The overall objective of the project is to ensure the development of an aetoelastic design complex, which can create the basis for the nest generation of wind turbines and make new design trends
This project, HAVDIM2004, aimed primarily at analysing already accessible measurement data from the two Danish offshore wind farms Horns Rev 1 and Nysted Offshore Wind Farm. The project focused on