Development of an innovative passive system for increasing the efficiency of solar panels
GEOthermal power system cLoud computing Aided Design
Cost-effective production process for innovative high-performance electric motors
Flexible and adaptable illuminators for the automotive market will be developed. Thin films of electro-emitting organic materials will be studied and used as new light sources. Als0, integration with suitable micro-optics.
Development of a multi-colour-process for traceability and decoration on glass, metal and ceramics by a laser sintering process. This process will be based on ink jet, gluing and laser sintering technologies.
New boiler capable of working with any of the gas families (nat gas and lpg) as well as with biogas and hydrogenated mixtures of the aforementioned gases, compensating for gas composition variations,gas pressure,mains voltage and clogging.
Developing light-technological planning foundations and components with which future sunlight installations could be implemented to solve the problems of urban regions suffering from a prolonged deficit of sunlight.
Power-led 'sealed for life' explosion-proof medium intensity obstacle light with an intensity of 2,000 cd; especially built (designed) with a clear lens and depending on the situation, a number of white or coloured (red) led's.
Isel is a concept, which is to ensure the uninterrupted running of emergency lighting during a fire alarm, without being dependent on the network supply.
The project will drastically improve an existing sodium borohydride (sbh) production method. Together with additional ip owned by the main participant, the project will enable usage of sbh as hydrogen storage material for automotive and other applications.