The aim of the project is to develop technology and verification methods for the measuring system that would allow for monitoring the foundation and soil behaviour during the construction and exploitation phase.
To comprise research, development, fabrication and characterisation of new generations of miniaturised passive components (inductors, transformers), sensors (pressure, temperature) as well as microsystems for life science applications using the advanced ltcc technology.
To strengthen the competitiveness of the european agri-food sector through facilitating the development of new innovative products and processes as well as supporting technologies.
Uf is an effective and economical method for treating emulsified oily wastewater. It is also a physical treatment process for removing contaminants from oily wastewater. It can be used to comply with strict environmental laws, as well as provide a first step towards water recycling and oil recovery.
To develop a new innovative bus drive using the energy setting free at each braking for driving the bus, thus achieving less fuel consumption, better ecological output, better performance of bus drive, and others. This drive will be applicable by other vehicles too.
Virtual shoe fitting is about replacing the existing footwear sizing systems (french, eu, uk, etc.) With a contemporary system based on 3d scan of a foot and 3d inner dimensions of a shoe. Consumer will scan his/her feet only once and will be able to buy best fitting shoes without trying them on.
This project would deal with knitted fabrics, produced from cotton or wool blended with fr fibres in various ratio. The target is the production of eco-innovative fr knitwear (garments) that can be competitive on the eu and overseas markets.
To develop innovative prototype of environmentally friendlier plastic wheel weight which will be first of its kind, highly production efficient, weather resistant, corrosion and deformation-proof with new design as result of using new "plastic injection insert moulding" technology.
Objective of the project is to improve and quantify the performances of membrane processes uf/nf, as well as mbr, for the treatment of oily wastewater, and to investigate their capabilities of achieving a water quality that meets reuse criteria.
Renewable energy heat station with improved concept of air conditioning and comfort based on renewable energy sources for residential houses. Plug and play modular design. All in one concept with included heat storage and distribution module and smart electronic control unit.