The objectives of this project is to improve on the current practice of basing performance evaluation on a single point measurement of wind speed and instead introduce a method where the wind field
This project has investigated noise emissions from large-scale wind turbines in relation to small-scale wind turbines. In addition, noise nuisance at low frequencies was investigated, noise
The aim of the project is to develop a simulation platform for generation of relevant wind fields applicable for aeroelastic design simulations. This is achieved by development, verification, and
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 present R and D will be used to build a 1:10 scale model of a single AquaBuOY and test and measure its performance in a range of sea conditions at the testsite in Nissum Bredning on 5 meters deep
The wind farm output of an offshore-farm such as Horns Rev changes between nearly constant output to highly variable power output. A balance responsible would benefit from knowing the variability of a
The CEEH will develop a system to support the planning of Denmark's future energy systems integrating both direct costs and indirect costs for environment, climate and health. The CEEH will apply a
The output of the project can be divided into three main areas: Firstly, results related to the further development and integration of existing tools and methodologies into coherent energy and
The project has shown that there is potential for particularly demand response energy consumption within the industry. If businesses offer this potential on markets it is required that the payment is
Danish greenhouses have a relatively high level of electricity consumption for grow light. Part of the electricity consumption is flexible, and the main purpose of the project was to find out if the
The object of the project was to determine the wave impact on wind turbines and test ways to reduce such impacts. The project showed that all major wave loads are caused by breaking waves and that
More than 500 households with electric heating participated in a demonstration project about demand response. Participants paid for electricity based on spot prices. The groups notified of the next
The project developed a computer method for quantifying wind turbine structural loads caused by fault ride-through (FRT) requirements. Exemplified in the case of an active stall wind turbine this
The project studies two issues in distribution systems 1)Normal Operation Optimization models the load optimal response to electricity price, power system constraint impacts. 2)Control Strategies in