COORDICY is a Danish-American interdisciplinary research project that investigates how to bring down the energy usage of public and private industrial facilities.
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.
The overall price of polymer fuel cells is falling, but the cells are still highly dependent on platinum as catalyst material. The project NonPrecious aims at developing active catalysts based on more
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.
The researchers of LEDSiC is exploring how wavelength conversion using fluorescent silicon carbide can produce white light-emitting diodes (LEDs). LEDs looks to be the market leading light source of
The researchers of e-STORE seeks to improve our ability to store energy by using power-to-gas technology.
Danmarks Tekniske Universitet (DTU)
Innovationsfonden
2015
2019
Along with engine designers Danish and international researchers are looking to adress and explain how sulfuric acid forms and condensates in ship engines. The problem with "cold corrosion" caused by
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
Innovationsfonden
2014
2018
SimpLight Aps
Innovationsfonden
2014
2018
The ambition of the project TinyPower is to develop the worlds smallest power supply consisting of a single integrated chip and only few external components needed.
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.
A new nano-base material can make catalysts in diesel engines far cheaper than today. The saving springs from a lower need for precious metals in the catalysts. CatProDiesel is looking to develop a
Qeye Labs Aps
Innovationsfonden
2014
2018
The project Probalistic Seismic Prospect Assessment (PSPA) will develop software as an effecient tool for computing models of the underground from the massive amounts of geophysical data that modern
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