This project explores the new idea to use hydrogen, produced with excess power from wind turbines, together with CO2 to increase and enhance production of biogas. This will make biogas production
Efficient heat pumps running on renewable energy can contribute significantly in reducing Danish CO2-emissions. This project extends the knowledge in the field of heat pumps based on magnetic
ASHBACK explores environmental and ecological consequences of distributing ash from combustion of biomass back into nature. This will allow backloading of a larger amount of ash in an ecologically
Biochain analyzes the value chains from collection and gasification to energy production and final use of the residue of biogas production. The aim is to identify and overcome the barriers to
The building sector can deliver large energy savings, yet lack of user understanding and accept is a limiting factor. UserTEC studies various users’ response to building technologies in order to
The development of new, highly efficient and compact catalysts for diesel vehicles will ensure an improved air quality and create jobs within this, the world’s fastest growing catalyst market.
The objective is to increase the offshore oil & gas production efficiency and ensure a better utilization of the oil recovered at sea by employing the advanced plant-wide control methodology.
It is risky to develop deep oil and gas reservoirs at extreme temperatures and pressures in the Danish North Sea. We try to reduce the technical risks to unlock those abundant energy resources.
The scope of PV GRID is to address the large potential for stimulating commercial investment in PV in DK. The project purpose is to address identified barriers and assign possible solutions. A central
The project will focus on how to improve the integration of solar energy in urban planning with a high
architectural quality that respects the quality of the urban context.
Danmarks Tekniske Universitet (DTU)
ForskEL
2012
2014
The purpose is to achieve an energy pay-back time of less than one year for a complete grid-connected installation with polymer solar cells. The project comprises development of polymer solar modules
Torrefaction is considered worldwide as a promising key technology for boosting large-scale implementation of bioenergy. It involves heating biomass in the absence of oxygen to a temperature of 200 to
Through dynamical plant simulation and demonstration of primary control (frequency reserves) from WtE plants to the power grid is investigated from a plant techno-economic point of view. The goal is