The aim of the project is to develop better design basis for large wind turbine blade of composite materials by a combination of materials research, structural mechanics, involving both modelling and
The project was carried out as a part of DK-SOFC 2000 - 20004. The DK-SOFC b line is targeted towards: 1) decrease of the operation temperature without increasing the area specific resistance, 2)
Lignocellulosic biomass is an abundant and renewable source of sugars that can be fermented into high value products like ethanol. Ethanol may be used as an octane booster, fuel extender or neat fuel
The objective of the project is to verify or falsify the recently published results claiming high hydrogen storage capacities of nanostuctured carbon materials, like for example single-walled carbon
A number of ash samples where collected at four Danish municipal solid waste incineration (MSWI) plants. Samples of bottom ash/slag, 2nd-3rd pass ashes and ESP/E-filter ash were collected at the
The main objectives are the following: a) development of a design tool for analysis of dynamic stability. b) investigations of blade tip aerodynamics and blade tip design on basis of 3D CFD
This pre-project had the aim of establishing the basic technical knowledge to evaluate whether remote surveillance of the rotor blades of large off-shore wind turbines has technical and economical
Ice loading on wind turbine foundations is a design load in the inner Danish seas and straits. Relatively conservative design requirements/guidelines have so far been used for prediction of ice loads