Through this project Danish energy research and its results have been made available to users in Denmark and abroad. International research and its results have been made available to Danish research
Under the IEA-ETDE (Energy Technology Data Exchange) agreement a common database is produced containing descriptions of journal articles, reports, books, conference papers etc. published in the member
The project is an international IEA - cooperation project. The project will embrace a problem which is often overseen when it comes to reduction of the energy need in buildings – and that is the end
The aim of the project was to participate in IEA Hydrogen Implementing Agreement (HIA), in order to stimulate hydrogen R&D activities in Denmark and to co-ordinate Danish and international scientific
This project develop new comfort ventilation solutions for buildings with a reduced use of energy. The user will experience better comfort and reduced costs for electricity and heating.
The project's aim was to develop system solutions to extensive additional insulation and air tightening of the building envelope in the renovation of existing buildings and to develop methods for the
This IEA project aims at promoting international collaboration and knowledge exchange through the participation in two task forces (39 and 42). Those task forces aim to tackle the issues related to
Through participation in the executive committee and a number of annexes in IETS, comprising 13 countries, Denmark has contributed to developing technologies for energy-efficiency enhancement in
The objectives of the project is to break down the barriers for energy renovation of private owned houses in Denmark by: assisting in further development of 4 key energy technologies, exploiting their
It is theoretically possible to achieve a reduction of 19% of the total agriculture's energy consumption by reducing the energy consumption for heating and for electric motors according to reduction
The purpose of the project is to develop technologies, which can optimize the thermal storage of concrete constructions. The concrete is being tested in full scale in EnergyFlexHouse at the institute
The main purpose of the EUDP-project is to develop and demonstrate an LED based prototype lighting fixture that will revolutionize greenhouse lighting as we know it. This objective will be reached
The project is to investigate oxy-combustion of natural gas via advanced modeling. The main contents are: (1) to develop new models for gaseous radiative properties applicable to oxy-fuel combustion;
This project quantified losses in the distribution grid and in directly connected motors due to harmonics. The extent of harmonic distortion was measured in 10 companies, and it was determined that
EnergiMidt will use their head quarter with 200 workplaces to demonstrate how modern, representive offcie building can be build and used a low energy class 1 building.
By combining solar cells, LED lighting, intelligent electronic and a newly developed inverter a functional model of a new outdoor lighting concept is produced. In the summertime it produces more
Hybrid fibre lighting systems comprise light-emitting diodes (LEDs) in combination with a solar fibre optic system and they have great energy savings potential. Over the expected lifetime of the light
The project has developed a method of how to integrate solar cells in inddor applications, called ''The iPV TOOL''. Three prototypes have been developed with different solar cells and different
The Master Class project was an educational programme for pupils from Gentofte and Fredensborg-Humlebæk municipalities involving a special course on energy production, on energy technology and on