Eco-friendly production of plastic solar cells in Denmark. Plastic solar cells are almost capable of competing with commercial solar cells. The processing method has environmental consequences in
The research concerns reduction of the CO2 emission in the energy sector by using ceramic membranes in preparation of pure oxygen. The membranes make biomass conversion more efficient and reduce the
Diodes as a replacement of incandescent lamps. The project will increase the light intensity in diodes by making progress within nanophotonics. Besides they will develop a low-cost method to fabricate
The vision is to be able to develop sustainable types of cement which can be produced at lower temperatures, and thereby reduce the need for fossil fuel which the environment in the end will benefit
The scientists want to double the energy yield and the CO2-mitigation per unit land area by optimising the conversion from solar energy into biomass and the utilisation of biomass for biofuel, power
The project concerns development of new enzymes for decomposition of biomass as a way of optimising the production of bioethanol. This implies an analysis of the properties and limitations of the
Research in reutilisation of waste and development of tools for assessment of quality and environmental consequences of recovery of resources in waste. The project provides an essential platform for
Can consumers be induced to adopt varying tariffs and automatic response technology for common household appliances at costs that make this socially attractive? The project implements a large scale
Switching to energy from fluctuating energy sources such as sun and wind requires invention of new energy carriers for the transport sector. The project will develop reversible lithium-air batteries
Focus is on how control of the power system, at transmission level, needs to be changed to meet the needs of stable and uninterrupted power, despite the fluctuating energy sources in the grid of the
SET4Future aims to introduce a paradigm shift in the technology for screening and characterising enzymes and their biomass substrates by introducing a special robot system that can quickly discover
Improved district heating technology is important for utilisation of power planted heat, geothermal energy, waste, biomass, sun and wind and contributes to making Denmark independent of fossil fuel
The project concerns development of new concepts for storage of hydrogen in the gas-state (high pressure) and solid-state, as well as new methods for hydrogen compression which are more efficient and
Inspired by the way bioconversion of biomass takes place in nature, we have designed a concept for consolidated bioprocessing of biomass into advanced biofuels and biochemicals for oil replacement
The mission of the project is to radically improve integration of wind energy in the power grid through effective coordination of both electricity generation and consumption. Specifically, the project
In this project, an integrated biorefinery concept will be developed for conversion of two carefully selected (based on their sugar and amino acid composition) candidates of brown macroalgae, into
Sustainable production promoting jobs, growth, improved environment and less pollution – new technology aims at the markets for advanced processing and supply of biomass to fuels and chemicals.
Ammonia can be used for cleaning the exhaust from diesel cars as well as fuel for fuel cells. Safe storage of the ammonia is important in both applications.