The DreamWind project is a collaboration between Vestas, Aarhus University and the Danish Technological Institute aiming at the development of novel recyclable composite materials for future wind
In the current project we introduce a novel, knowledge-based principle for the design of enzymes that effectively degrade biomass at high temperatures (over 50 C).
The vision of HiGradeGas is to overcome the barriers towards a wide-spread and
sustainable use of biogas in the Danish energy system by improving the cost
efficiency of (i) biogas upgrading and (ii)
The project SYNFUEL is reasearching how to combine electrolysis and gasification of biomass in a way that produces more biofuel from the same ammount of biomass.
ElectroGas develops knowledge and technology which can take surplus electricity from renewable energy and use it to upgrade CO2 to CH4 by feeding it to microorganisms present in biogas reactors.
SYNFERON aims at establishing a new technology platform that combines thermochemical and biological processing of biomass in order to make the production of biogas easier.
Air traffic will be dependent on liqued fuels in all foreseeable future. The goal of FLABBERGAST is to develop an environmentally sustainable production of bioethanol that also fulfills the physical
The foundation for wind turbines at sea needs to withstand occational extreme waves. Extreme waves are a well known phenomenon, however the exact stress they put on under water foundations are not
LM WIND POWER A/S
Innovationsfonden
2015
2018
The project OPTI_MADE_BLADE has as its goal to develop and commercialize a new concept for procuction of large (>70m) wings for offshore windmills.
Innovationsfonden
2014
2018
The project INNOMILL works towards development of a more profitable and ultra flexible high precision system for fabrication of big elements in the wind mill industry. The goal is to reduce the cost
The project seeks to develop the key to commercial bio refineries that through compression and plug-flow treatment of biomass can facilitate cost and energy effecient storage, transportation, and pre
ABYSS develops novel mathematical models and numerical optimization techniques for advanced optimal design of cost effective offshore wind turbine support on deep waters. The ABYSS techniques take
The project aims at developing a new process for producing high quality bio oil which can be used as fuel for the transportation sector using current infrastructure. The process is catalytic
As fossil reserves run out, and global as well as local climate issues become very real, it is necessary to identify technologies and technology platforms that can aid in making the transition to
The goal of BioCap project is to develop novel technologies to open underutilized biomass, so they can be used for biogas production. The University of Southern Denmark has initiated an exciting
A novel microbiological platform encompassing extensive microbial community analysis will be established. New knowledge will provide improved solutions for enhanced methane production from manure with