The aim of the project is to develop, design and construct a thermic destructor in which hazardous substances of type pcdd, pcdf and pcb will be destroyed.
Use the proposed wastes with specific sorption properties in process stabilisation of dangerous waste elements. processing/optimising of waste stabilisation methodology using the encapsulation process and chemical sorption.
Technological improvement of erm methods for protection and remediation of polluted environment due to tourism activities in adriatic/alpine regions with specific pollution loadings, water consumption and climate oscillations.
Development of a hot filter for energogas made by gasification of refused derived fuel (rdf). This hot filter will clean the energogas from high molecular pyrolysis products, sulphur, chlorine and fluorine compounds.
Development of scientifically sound and technically feasible procedures to assess human exposure to electromagnetic radiation next to mobile communications base stations to fulfil the requirements of european directives.
Using organic and slaughterhouse waste to produce electrical and thermal energy, and to create a high quality bio-fertiliser that can replace meat-bone-meal on the world market.
Solving the problem of utilising waste materials, such as slag and fly-ash mixtures, stable sewage sludge and other wastes, in the production of artificial soil suitable for land reclamation and remediation of ash deposit sites.
The project deals with finding new materials and technological developments in order to drastrically minimise noise pollution. The central role will be a 1:1 size prototype which provides the required information for future constructions.
Development of biopolymers from waste wood biomass (biopur)
This project will evaluate the effects of phosphate rich granules obtained from the ashes of sewage sludge from which heavy metals have been extracted on plant nutrition and soil fertility, as well as their economic impact.