Development of a high yield fermentation where residual flows are no longer a by-product but more raw materials for other industries. Valuable minerals such as potassium and phosphate are recovered. Organic remains are converted into biomass for incinerators to produce green electricity.
With this project we will develop a geothermal gravity heat pipe for the exploitation of geothermal energy from unproductive wells 3,000 meters deep and at a temperature of 155 degrees celsius.
The european directive 2009/28/ce promotes the participation of biomass from renewable sources. The goal of the project is to investigate the aplication of poplar as an energy crop for electricity generation from biomass, in order to increase the percentage of biomass in the energy mix.
To develop a commercial prototype of a vehicle exhaust gas biosorbent filter (biosoex). Filter will use the biosorbent which distinguishes by high sorption capacity and filtration efficiency.
The project is focused on the development of a 5 kwe stirling dish employing a new concept of concentrator, a new generation of solar receiver that may include hybrid operation and/or storage option, and a free piston stirling engine; allowing a reduction of the system's cost down to 2 euros/watt.
Development of breakthrough applications for integrating a microturbine with a solar power system, by cooperation with an italian team, experienced in aspects of microturbine development, fabrication and installation, and an israeli team with extensive expertise in solar energy technology
New flat photovoltaic panel with low sun concentration and one axis tracking.
To bring and implement inkjet digital printing for front side metallisation, produce a fully working solar cell with a newly developed inkjet printed nano silver based ink, increased efficiency and reduced manufacturing cost.
The pyrolysis of biomass or mixture of biomass and municipal waste generates a gas mixture with a lot of solid particles. Our goal is to create a system of hot gas dedusting and tar decomposing in order to gain final gas which is more efficient and easy to use as fuel for cogeneration unit.
To develop revolutionary new generation of wind turbines with use of advanced technology of chlorosulfonated polyethylene based inflatable components. Such turbines will be mobile, very cheap, could be transported in extremely small packs, energy efficient and have huge global market potential.