In ths ule²-project, extensions to the dect ule protocol will be insteigated and developed. These extension will push network and application layers, as wella as hardware and verification platforms to a new level, integrating and leveraging wake-on-radio-(wor)-technologies.
The scope of this project is the development of a new ultrafiltration reverse osmosis filtration process for water reuse with an emphasis on organic and biofouling control. This goal will be addressed using an integrated process including enhanced uf and ro membranes.
During nanomod project the partners will develop and test new and improved wires for ductile iron inoculation, the wires will be developed by cedie
To define solutions to arrange precision clamping and position and angle adjustment of a micro- or thin-walled workpiece near the working area directly in a new type of adaptive workpiece holder with clamping force control and pattern recognition for higher repeatability.
High quality cost efficient foam with cutting edge defensive shields know how and ceramic tiles technology
Development of gluten-free egg-substitudes and products made with, to ensure unique textured gluten free, vegan bakery products, plant-based meat-substitutiudes. Development of gentle process and bioanalytical guten free verifying method.
To develop a smart electrochlorination system by optimizing the required chlorine dosages. The decreased and optimized chlorine dosage system will improve the organoleptic properties of the drinking water while maintaining the low risk water quality.
This project aims at developing the manufacturing technology of new simo alloys with higher corrosion resistant and mechanical properties at competitive prices. Activities will be focused in integrating technologies in different manufacturing systems supported by sample and prototypes manufacturing.
To develop new subsurface irrigation systems with antiroot properties for use in short and long-term crops, by the use of natural/non-toxic additives, avoiding contamination of soil and any negative effect on the cultivated plants.
Ultrablack surfaces with novel functional properties shall be developed, which have so far have been unprecedented: - high durability and environmental and mechanical stability; - flexibly adjustable wetting properties for water and oil up to superhydrophobicity and self-cleaning