The project developed an econometric model capable of predicting car model combination of new car sales, including in particular cars using fuels produced with renewable energy, i.e. electric cars
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
OPUS will study bio-available carbon in sraw from wheat. The project applies a multidisciplinary structure compriing expertise in molecular biology, plant breeding, 'white biotechnology'
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.
In this project next generation fuel cells are developed towards commercial applications. The projects is based on efficient and robust metal-based fuel cell technology.
A three-dimensional chemical mapping of active plastic PV cell layers has generated new knowledge of degradation causes for PV cells. Based on the mapping, more stable PV cells were made, which in
The project generated results in selected areas of flexible multibody wind turbine modelling. Monte Carlo statistical response simulations and failure probabilities require significantly reduced
In DTU's and LM Wind Power's wind tunnel, the project performed several measurements of the flow behind vortex generators (VG). The project proved that the induced vortices effectively counteract
The project highlighted markets and instruments aimed at promoting renewable energy in Denmark, the EU and internationally, while also identifying key risks and uncertainties related to renewable
The project will continue developing a computer model capable of predicting defect concentrations and distributions as a function of parameters during the float-zone process that produces silicon for
The project aimed to find new electrode materials for hydrogen development able to replace the costly and rare platinum normally used in PEM fuel cells. The project succeeded in demonstrating that
By setting up an experimental facility - SYSLAB – the project studied aspects of the basis for distributed resources such as wind turbines, photovoltaics and not least consumers participating in power
The project aimed substantially to strenghten the scientific basis for the wind turbine sector in general with particular focus on the Danish sector’s position in offshore wind farms. To meet these
Using catalysts, enzymes and bacterial cultures, the project uncovered promising methods for converting biomass into more valuable products such as fuels in the form of ethanol, methane and hydrogen
The feasibility of utilizing energy crops (willow and miscanthus) and agriculture residues (wheat straw and corn stalker) in an anaerobic digestion process for biogas production was evaluated