The project will produce new knowledge on thermal activation of building structures that will form the basis for developing new concepts for building energy optimisation. The project will also
De Nationale Geologiske Undersøgelser for Danmark og Grønland
Innovationsfonden
2010
2014
This project aims at developing environmental technologies for reducing the atmospheric CO2 concentration. The first part of the project evaluates the potential environmental impacts of leaks from CO2
ELBA develops small energy harvesters that use ambient vibrations as power supply. A complete wireless system including energy harvesters, electronics and sensors, has been developed.
Novel electronic chips could be a cost-effective solution to the electronic bottleneck between data servers and computers. Advanced elec- tronics strengthen optical technologies to address the
Phase change materials (PCM) and surface struc- turing combined enable storing and release of heat in the concrete. This will remarkably reduce energy consumption in concrete buildings in the future.
Zn-air batteries in hearing aids to be replaced by methanol based micro fuel cells. The fuel cells will refill within 30 seconds and only need changing once a year.
There is an increasing demand for insulation, in- cluding energy saving windows. The project aims to develop a new generation of high-insulating window frames from composite material.
Research and demonstration of a new pretreatment method - wet explosion - for increasing the biogas yield of manure fibers. The produced biogas will be used in a combined heat and power plant. The wet
In this project the potential for SNG based on biomass gasification has been sought elucidated. As part of the project a model for simulation of biomass in Denmark has been developed. The conclusion
The purpose of this project is to design a demonstration plant based on the Low Temperature Circulating Fluidised Bed (LT-CFB) gasification technology. The demonstration plant is based on 2 test
The aim of this project is to find a suitable titration method for measuring volatile fatty acids (VFA) to use for process monitoring of the Danish biogas plants. In the study, several titration
The contents of biogenic (biomass) and fossil carbon in fuels affect the sustainability of the energy production based on these fuels. Today, municipal solid waste contributes with a significant share
Biogas has been pointed out as one of the most profitable renewable technology based on socioeconomic analysis. Expansion of the biogas applications demands however, further optimization and
This annex extends the cooperation between 5-7 IEA member countries on electric motor systems for use in industry, infrastructure and major constructions to promote efficiency enhancement by using
The project designs and erects a demonstration plant with an annual output capacity of 5 million litres of bioethanol that can be followed at www.biogasol.com. The plant must under semi-industrial
The RETROGAS project aims at demonstrating viable production of biogas solely based on animal manure and methods of achieving balance of plant nutrients from animal slurry and manure at farm level
The purpose of the project was to demonstrate that by using new technologies, materials and operation parameters, the heat losses, the heat flow rate and the total costs of district heating can be
Danish Gas Technology Centre has been carrying out a feasibility project to clarify the possibilities of in-stalling gas expanders at M/R-stations (Measuring and Regulating) in the Distribution system