Den langsigtede vision med projektet er et fuldautomatiseret system, som udnytter en bred front af avanceret måleinformation, avancerede dynamiske modeller til forudsigelse af driftsforløb og
Metal supported solid oxide fuel cells were developed for operation in temperature interval 550 – 650 degrees C. Fabrication techniques suitable for large scale production of half cells comprising of
The project follows up four previous projects on biofuels and health and safety at work and focuses on: 1. Method development for airborne dust capture to study any health effects of biofuel dust. 2
The project focused on improving the Open Core gasification unit, particularly reducing the daily monitoring jobs and ensuring stable, unmanned unit operation. A subproject focused on gaining better
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 project measured switch transients and voltage quality for three different turbine types in three offshore wind farms: Nysted, Horns Rev and Burbo Banks. The project documented voltage conditions
The object of the project was to furnish a dimensioning basis for future offshore wind turbine foundations. This work contributed to greater understanding of erosion conditions around monopole
The primary objective of the project was to improve the understanding of formation and characteristics of waste incineration residue. The project had specific focus on the importance of waste input