The project is the Danish part of the second and third year of the IEA project, International Energy Agency Solar & Cooling Programme Task 42 project Compact Thermal Energy Storage: Material
The objective of the project is to assure that Danish solar thermal products follow European state of the art in quality standards and product development in order to increase sale of Danish products
Meteorological mini-sensors placed on, for example, small model planes constitute a rapidly advancing area. The project will produce a clear picture of existing mini-sensors and the planes and examine
The objective is to develop better extreme wind condition wind atlases usable for wind turbine manufacturers and for locating wind turbines. The key method of the project uses mesoscale modelling to
Development and testing different methods to fasten mono crystalline solar cells to a standard zinc roof system and finding different mono crystalline solar cells to find the optimal configuration.
PolyStaR aims at demonstrating large-area processing of polymeric solar cells with improved stability and reliability. A transnational consortium addresses the problem of unifying power conversion
The project etablishes a large-scale PV cell system in a completely new canvas structure above the roof of the stand at Hvidovre Stadium as part of the development of a ground-breaking concept for
WEPROG ApS
ForskEL
2009
2012
The project aims to develop objective methods to allocate reserve and utilize the intra day market in order to reduce the risk of system imbalance during periods of high uncertainty of the weather
The project develops a simulation platform, including wind, wind turbine main components and power grid. The platform will enable the study of wind turbine performance, and will support key components
What causes cracks and damage on different length scales to become major cracks and damage which may develop into fractures in e.g. the blade of a wind turbine? DCCSM tests this aspect through
The Centre conducts basic research in wind turbine aerodynamics and wind turbulence with emphasis on their interaction. The aim is to develop reliable and verified simulation tools for design and
The project will be realised by Beijing Solar Energy Research Institute Co. Ltd, China, and the Department of Civil Engineering, Technical University of Denmark. Focus will be on solar combi systems
The project is developing a nano-structured high efficiency solar cell. Unique production process ensures that costs will be competitive compared to cells with similar efficiency.
In the lifespan of a wind turbine, the gearbox is replaced on average four times due to wear and tear. All together this is almost the cost of a new turbine.
In June 2011, a hitherto unparalleled demonstra- tion of wind lidar performance was obtained in the calibrated wind tunnel belonging to LM Wind Power, Kolding Denmark:
The purpose of this project is to disseminate information and knowledge about the use of solar cells in houses. In the project BIPV solutions has been developed, installed and tested in four new
The roofing layout for the new office building is designed with roof surface with single slope in one direction. All roof structures will be with aluminium sheet cladding sufficient for adding solar
Given the goals of 50% of electricity production being generated as wind energy and typically from large offshore wind farms in 2025, Denmark needs more exact forecasts - especially forecasts looking