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 project included the following milestones: 1) Wind tunnel measurements on a NACA 63-415 airfoil with a modified leading edge. 2) Detailed verification of 3D Computational Fluids Dynamics (CFD)
The project will contribute to the basis for connecting large wind farms to power transmission grids regarding voltage quality and power system stability.
On short term the aim with this project is to collect and analyse knowledge about wind and sea, to make it possible to make the tenders for the first offshore wind farms ultimo 1999. In finalised form
The goal was to get optimum benefits of the wind farm technically and financial. The better information about the wind farm status and the better forecast of the production the better prize you get
Tech-wise A/S has conducted a life cycle assessment of a 2 MW offshore wind turbine. A life cycle assessment (LCA), also known as a cradle to grave analysis, is an inventory of all environmental