The purpose of the project was to create 3 architectural well functioning PV retrofit low-cost solutions. This was done in collaboration with well-known and estimated architect firms and Danish
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, 'Transparent PV modules - shading devices of the future' is based on the vision of a shading device which is energy producing, sun shading and transparent. This solar cell can be achieved
The project concerns the modelling of aerodynamically generated sound from wind turbines with the aim of predicting and reducing noise emission from wind turbines.
Organic solar cells hold promise as a sustainable energy source and for energy cost reduction. They represent a cost-efficient alternative to silicon-based cells. However, current technologies still
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
In the work concerning experimental verification of thick airfoils, the focus has been on airfoils used by the industry. The method has been verified with measurements on a NACA 63-215 airfoil
The project objective is to develop more generally applicable assessment and design criteria for isolated power supply systems, and the expected result is a guideline for design of such systems.
The purpose of the project was to investigate how the rotor design of an existing wind turbine can be extrapolated to a 4 MW turbine. Within the project two optimization codes for optimizing a large
Transfer of technology and industrial cooperation require a common framework, thus a compilation and analysis of Russian wind load and other external conditions in relation to European wind turbine
The project constitutes a continously running 5 years research programme on aeroelasticity with the objectives to improve the basis for design and optimization of wind turbines, and establish an