The vision of this project is to develop a new wind turbine tower of steel and Ultra High Strength Concrete (UHPC). With this new technology it will be possible to produce towers of a height that
The ''Smart Water'' injection strategy is based on laboratory experimental observations that variation of the injected water salinity and of its ion balance may result in large additional recovery
De Nationale Geologiske Undersøgelser for Danmark og Grønland
EUDP
2011
2014
The objective is to pave the way for a wider application in Denmark of heat pump systems based on closed loop boreholes - a technology with potential for CO2 reductions and energy efficiency. The
The result is the construction of a Mobile Assembly Unit, which ensures the assembly of shell towers on site in a rational and safe way. On the basis of the development work 8 Mobile Assembly Units
The objective is to develop the experimental platform needed to design stronger and more reliable wind turbine blades. This will be achieved by developing new test and measuring methods. A design
This project utilize the wind and wave energy conversion platform, Poseidon37, for pioneering theoretical and experimental work on modeling and understanding combined floating wind and wave energy
The project vision is to provide wind power with similar grid system interaction characteristics as the conventional generation units. The new technical solutions developed in this project will expand
Traditional Comressed Air Energy Storage (CAES) is seen as one of the most cost effective technologies for the bulk energy storage in the future flexible grid. The project will investigate the
In this project, validated thermal models will be developed and used for a proposed condition monitoring method of wind turbine generators, using thermal imaging. The live thermal data will be
The project will evaluate the potential of reducing harm caused by emission from gas fired engine based CHP plants. This is done by combining measurements on engines at different engine setting with
This project seeks to demonstrate the methane reduction at gas engine CHP plants is possibel with technology previosly used on large dual fuel engines. Methane emission from gas engines raise the
This project will identify and analyze the primary causes for formation particles in exhaust gas from gas engines at CHP plants. The project will be performed in close co-operation with manufacturers
Based on the results achieved in Phase 1 and 2 (the practical experiments and theoretical calculations of a 5x5 m energy membrane), this project shall further clarify and assess the technical and