To develop technologies enhancing the lifetime of forming and forging dies by means of hard layers deposited and sintered by laser beam. Design concepts of hot working dies will be optimised in order to lower the tooling costs and optimize the material exploitation.
To develop a novel hybrid led/solar algal photobioreactor. This bioreactor will utilize advances in dye solar cells, light delivery and dispersion, and artificial illumination to greatly increase the effectiveness of pond biofuels' algal carbon conversion process.
Introducing the biocide with the participation of the plasma and vacuum technique on surfaces of polymers (both synthetic and natural) and thus obtain materials with biocidal properties. Surface modification is to be made in such a way as to ensure lasting attachment biocide materials.
Bigfact will develop an innovative bi based system to support smes improve sustainability. Capitalizing on structured expert experience and explicit environmental knowledge. Lc and supply chain decisions will be enhanced to improve energy expenditure, waste reduction whilst considering profitability
A system to orchestrate building processes (bp). A collaborative platform enables multiple parties’ information exchange, a groundbreaking exceptions’ manager, co-storage, a built-in analytical module to make sense of the big data, and an innovative engine for dynamic and proactive design of bp
The goal of the present project is the development of a novel and multifunctional instrument panel (ip) according to the automotive industry requirements. The ip will be based on plastic electronics and high thermal dissipation capacity.
In this project the effect of field subterranean irrigation in comparison with surface drip irrigation will be investigated in tomato heinz 1015 variety. Water-management practices aim at mitigating negative effects of climatic change on water use efficiency, tomato production and quality parameters
The aims are research works on multifunctional textiles for shielding electromagnetic fields energy in order to protect men and also sensitive special equipment. New shielding textiles for technical and special applications with added-value properties will be obtained.
The project is focused on the development of an innovative ligthting system based on the assembly of microchips using roll-to-roll manufacturing processes over flexible substrates. The system will include advanced optical designs for uniform luminosity and advanced thermal management.
Joint development of an integrated multiphase datacenter cooling solution based on the principle of latent heat of vaporization combining the benefits of direct chip multiphase and rack liquid cooling.