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 project concerns the modelling of aerodynamically generated sound from wind turbines with the aim of predicting and reducing noise emission from wind turbines.
Background: Planning wind farms offshore are generally based on little knowledge of the wind speeds. It is due to the limited amount of offshore meteorological observations worldwide. This again has
The aim of the project was to analyze the environmental effects of wind turbines during manufacturing and after disposal in a long term perspective and to give societal recommendations in relation to
The purpose of the project is to verify, refine and develop micrometeorological tools for the estimation of load-critical wind conditions in landscapes in Denmark and Europe, where wind turbines (and
The aims of the project was enhancing and further developing a model system capable of analysing and predicting the wind and the potential wind energy in Denmark.
The overall objective with the project has been to develop and verify a model for assessment of the interaction between a wind farm and the power systern.
The project has comprised the following six milestones: a) status on 2D and 3D CFD computations, b) implementation of improved aerodynamic and structural sub models in the aeroelastic codes FLEX4 and