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
The aim of the HYSCENE project is to improve our understanding of the environmental impacts and related socio-cultural and welfare economic impacts of a renewable energy system where hydrogen is an
Design and planning of wind turbines involves considerable uncertainties related to estimating the energy production and to assessment of loads and load carrying capacities.
The project aimed at studying the effect of inflow turbulence in blade calculations by using CFD and with several Delayed Detached-Eddy simulations (DDES) for blade profiles, both profiles in free
By studying the chemisorption state of hydrogen binding on the surface of nanostructured materials, the project will investigate whether hydrogen can be stored on carbonaceous materials. Experiments
The project developed a microbial fuel cell (MFC), capable of generating electricity by degrading the organic matter in wastewater. The bacteria absorb energy by extracting electrons and protons from
The project developed probabilistic methods for optimum operation and planning of contemporary distribution systems, including probabilistic models for wind power, small-scale CHP plants and load. It
During the project, we developed oxygen membranes based on ion-conducting ceramics. They allow pure oxygen to be extracted from air and be used in ceramic processes.
In the context of the project, new concepts were developed to produce proton-conducting polymer membrane fuel cells for use in a wide temperature interval over 100°C. The project synthesised new super