The project aims to explore the possibilities to store and retrieve heat from relevant geological formations in Denmark to be used at larger and smaller district heating plants etc. when needed
The objective of the project is to demonstrate how end consumers through demand response can provide service that help the operation of the power system and overcome challenges introduced by renewable
in the project performance of the pit heat storage in Gram will be followed. The monitoring results and experiences from operation of the storage until 2018 will be analyzed and published.
The aim of the project is to accelerate the use of large electric heat pumps for district heating through industrial cooperation, research and experimental development. This is the second phase of a
Work on "Intergrated Solar Envelope Systems for HAC and Lighting" is both the aim of the IEA-SHC project, several on going Nordic Built and EUDP projects, so the synergy is strong.
The company SolarVenti has patented an improved version of the well known air collector. Using a moisture-absorbing substance, the dehumidifying effect is enhanced and the device to be controlled by
The project aim is to establish proof-of-concept and proof-of-business for black silicon solar panels for building integration based on leading Danish technology within the field.
The objective is to develop and demonstrate a new generation of low energy housing that fulfills the coming 2020 regulations with Near Zero Energy Consumption, and where solutions are presented to
The project objective comprises participation in the international IEA Annex 30 on electrolysis. The work covers preparation and international meeting attendance twice a year, in a 5-year period. The
Proof of concept development of material for post-insulation of existing buildings with
• 5-10 times better lambda value
• Insulation 1 cm thin so your don't need to modify existing window frames
The objective of this project is to develope a test machine, a rain erosion tester, on which rain erosion af wind turbine blades can be simulated. The rain erosion tester can acelerate simulate
A close collaboration between LM Wind Power and DTU aims to demonstrate a business case and map risks of new load alleviating blade technologies combined with multi-disciplinary optimization. A larger