Development of biotechnological processes for textile processing to dramatically reduce consumption of resources and environmental pollution without incurring expensive investments.
Development of the use of a combination of chemical reagents and constructed wetlands to de-colour textile wastewaters which currently cause environmental and financial problems.
New bioactive nanostructured composite implant materials will be developed for human bone substitutes. Development is based on the plasma processing of ceramic nanopowders and chemical technology for the production of nanosized hydroxyapatite powders.
Assisting european industry to implement the eurocodes for steel construction quickly and efficiently through the development and use of a cooperative, internet based discussion and advisory forum on best implementation practice.
The mission of "euroagri+" is to assist the application of innovation and technologies within the agriculture, food and feed sectors in order to strengthen european competitiveness.
Providing the tools needed by water bio-treatment designers and operators to manage tailor-made innovations in order to create more efficient wastewater treatment processes to remove very complex and rare mixtures of organic water contaminants.
Development of a blended learning system that meets the requirements of harmonized european guidelines for the education of welders. The system will cover the theoretical content as well as practical welding tasks.
To develop specific processing systems, as reduced chrome, nonchrome, aldehyde, oxazolidine and heavy vegetable combination and /or resin tannage which gives desired blend of properties for the restauration of antique leathers.
Investigation of the production parameters (fibres, yarns, weaving, knitting, dyeing and finishing) for woven and knitted fabrics of high upf (ultraviolet protection factor) and optimum resistance to weather conditions.
To increase productivity and cost-efficiency with flexible robots that meet industry requirements for shortening set up times in production.