Experimental and theoretical determination of the distribution of primary and secondary air pollutants in order to understand and predict their chemical transformation and their transport over europe.
This project aims to improve the mechanical properties, wear corrosion and resistance of sintered stainless steel components by careful control of processing parameters and investigating effects on the powder mixes to reduce porosity
The application of laser technology for the environmentally- safe cleaning of industrial objects. The final goal is to manufacture dedicated workstations able to perform the developed processes.
The aim is to monitor solid particle atmospheric pollution using laser radar techniques in the visible and infrared band of the spectrum as well as calibrate the results using local measurement methods.
Polymers are already applied in the tanning industry to improve aesthetic characteristics. By utilizing different polymers (technopolymers) we intend to obtain new composite leather products with higher mechanical performances.
In order to better recycle scraps and depuration sludges generated in the tanning industry, free-chrome compounds will be utilised in the industrial process.
The objective of this strategic project is to apply new biotechnological tools and agronomic technologies to improve the european forestry sector.
During this project, the treatment and re-utilization of tanning industry by-products will be studied so that large quantities of solid waste can be exploited. The aim is to reduce disposal costs and produce re-usable products.
The aim is to develop a distributed infrastructure and services system (ikf framework) with appropriate toolkits and techniques, for knowledge discovery/fusion and presentation in different application areas.
Improve depuration technology in the tanning industry,reduce manufacturing costs/environmental impact through a drastic reduction of used chemical products, a significant decrease in final sludges and an improvement in their quality.