We aim at a production of 150 tons of algae per year per ha and an energy balance of 4 times as much useful algae energy output as fossil energy input to make the process running. this project focuses on optimistion of the chain of cultivating, harvesting and valorising algae biomass.
To develop and demonstrate prototype production equipment for an economically viable module assembly line, which is suitable for high handling yield and high throughput of thin and high-efficiency solar cells, and which is ready to be put on the market at project-end.
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.
In cooperation airec and bekaert develop and introduce to an international oem-market a system with hex and burner for gas fired instantaneous water heaters with large advantages as: higher condensing efficiency, quicker heating process, low nox, reduced co2-emissions and a compact design.
Wetren aims to research, develop and validate the waste energy driven air conditioning system (wedacs)-technology. This add-on technology for gasoline engines reduces co2 emissions and fuel consumption up to 15% by eliminating the conventional alternator and offering air conditioning support.
Ddeveloping an innovative prototype of all-in-one energy-providing unit for passive houses which will provide air and water heating and air-conditioning all in unit which will be remotely regulated through the specially developed "intelligent" central monitoring system.
The main project effort is to develop synchronous compact drives. Final product should be the line of drives within the range of 20 to 315 kw. This will be developed by stavus a.S., Dutch company dac electric and slovak vonsch s.R.O.
The overall objective of the project is to design a low cost textured substrate with integrated light extraction. With these substrates energy efficient oled lighting and backlighting panels will be demonstrated, without affecting the lifetime of the oled.