The project produced innovative methods and software tools needed to simulate, validate and optimise carbon capture from, e.g., flue gas, concrete production or pharmaceutical fermentation.
During training of two research students, the project developed new thermocleavable polymer materials for PV cells with a narrow optical band gap, allowing simple production of multilayer structures
More than 50% of Danish oil is unattainable because the pores in chalk reservoirs are so small. Nano-Chalk explores ways to enhance particle growth thus increasing pore size and oil pro-duction.
An integrated PV cell–solar heating roof solution called PV Optitag was developed in close cooperation between architects and engineers to make new CO2 neutral solutions for urban development projects
The object of this project was to determine the relationship between emissions from gas engines, start/stop procedures and market terms. The project showed that emission factors for natural gas
The main purpose of PV Denmark is to continue and enhance the positive development initiated by previous national projects such as Sol-300, Sol-1000 and Sol-2000. The activities shall facilitate, that
The project demonstrated and documented the RECCAT system in full scale on the 1.5 MW Rolls Royce engine of Rask Mølle heating plant. Too small reactor size entailed reduced ability to maintain the
GAIA SOLAR A/S
ForskEL
2006
2011
The project aims at developing a window solution, with integrated solar cells in the glazing, which is 30% cheaper than similar products on the market. Development and production of components is
The work documented in this thesis has had its focus on two main sections. The first part is centred around Maximum Power Point Tracking (MPPT) techniques for photovoltaic arrays, optimised for fast