The project establishes a new model of the Danish electricity system in the form of two buses (east and west Denmark), to which new models of load and production units are connected in the form of
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
The main points of the project are: 1) Improved methods for modelling of vertical and horizontal variation of wind speeds. 2) Verification, calibration and improvement of acoustic sensors for remote
The object of the research-project is to select which methods will give the best simulation of environmental influence in relation to the geographical placing of the mills, to be able to select what
The main objective of the project is to implement controller design of wind turbines in the general design process, on the same level as structural dynamics and aerodynamics. Specific focus is on
Background: Within the Aeroelastic Research Program carried out from 1997 to 2002 by Risø and DTU a coordinated and continuous work has been carried out on the development of advanced computer models