It is agreed to realise a EUDP supported project aimed at development, test and documentation of ''Solar Energy Roofs for Energy Renovation'', where there is a special focus on how to obtain the
The overall purpose is to support the development of low temperature district heating (LTDH) (35-45 deg. C). The specific purpose is to analyse suitable low temperature concepts, and develop and
The UpsEco is a ground-breaking, new technology that provides cleaner energy with better performance at lower costs than current technologies in a wide range of applications. The objective is to
The purpose of this project is to develop a new generation of a hydrogen-fuelled PEM-fuel-cellbased micro combined heat and power (μCHP) system, to demonstrate it in an end-user community, and to
Transform energy consuming commercial greenhouses into solar energy production units with lightweight solar absorbers interconnected and serviced by an electrical heat pump.
The objective of the project 'Industrialisation of polymer solar cells' is to establish low-cost, massproduction of solar cells in Denmark, and furthermore to demonstrate the potential of polymer
The project will develop and demonstrate a new full ceramic SOFC cell concept in a joint approach between materials and processing experts closely together with SOFC cell and stack manufacturers. The
Top up funding for an EU project with European partners. The project is concerned with the details of continuous degradation of SOFC components. Models predicting degradation phenomena and their
This project aims to contribute substantially to the development of a cost effective high temperature electrolysis technology based on solid oxide electrolysis cells (SOECs). The focus will be on
Top up funding to the EU CATION project with Wärtsilä and other European partners. Building on experience with 50 kW demonstration systems, the cathode subsystem is developed and solutions verified
This project aims to support the integration and higher penetration of PV systems into the electrical power systems by advanced grid condition monitoring and grid control, Diagnostics and failure
Eco-friendly production of plastic solar cells in Denmark. Plastic solar cells are almost capable of competing with commercial solar cells. The processing method has environmental consequences in
The research concerns reduction of the CO2 emission in the energy sector by using ceramic membranes in preparation of pure oxygen. The membranes make biomass conversion more efficient and reduce the
Diodes as a replacement of incandescent lamps. The project will increase the light intensity in diodes by making progress within nanophotonics. Besides they will develop a low-cost method to fabricate
The vision is to be able to develop sustainable types of cement which can be produced at lower temperatures, and thereby reduce the need for fossil fuel which the environment in the end will benefit
The project concerns development of new concepts for storage of hydrogen in the gas-state (high pressure) and solid-state, as well as new methods for hydrogen compression which are more efficient and