The project develops a number of new concepts and intelligent approaches for a modern power system which includes renewable energy, storage units, distributed generation, plug-in hybrid electric
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 project deals with a new idea where water from a nearby reservoir - sea, river or lake - via a pump/motor pressurizes a closed underground membrane, meaning that excessive electrical energy is
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
The project studies the possibilities of introducing flexible electricity consumption and regulating power among Danish industrial customers though price and control signals from the electricity
The overall purpose of the consortium is to gather research institutions and major industry enterprises which together can cover all stages from research through concept and technology development to
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
The project explores the possibilities for a combination of wind power and a large heat pump for heat production in the district heating system of Århus. The environmental and economic impact – for
Incineration plants may optimize their participation in the electricity spot market and balancing markets by actively and fast bypassing the steam from the steam turbine. The possibility of this is
The starting point for this project is that today the Danish turbines are NOT participating in the electricity system balancing tasks. As an alternative to this present situation we will in this
Project results are very focused on the results generated through interviews with power plants, and its conclusion must be said to be interesting for both power system actors in general, but
The Megavind Partnership was founded in 2006 and the project 2008-2010 is a continuation of the earlier stages of the partnership. It has been the goal of the partnership to establish the foundation
The aim of the project is to demonstrate a full scale pit heat storage (60.000 m3 ) in combination with a large solar collector field (35.000 m2) and heat pumps (3 MW).
The main goal was to improve solar architecture as well as better qualified architects and better communication and interaction between architects, engineers, manufacturers and clients.