The development of an analytical tool and algorithmes based on the propagation and reflection of acoustic waves to characterize the structure of porous matrices and apply this technique to determine rapid and non-invasive certain changes.
Will support further development of abatement strategies within europe by providing an improved scientific basis for the quantification of source-receptor relationships for photo-oxidants and acidifying substances.
Creation of a platform to stimulate r&d/technology transfer dealing with laser/optics technologies/their applications, e.G. In processing industries, in order to initiate projects emphasizing cooperation between industry/r & d instititions.
Description, comparison with clinical data and clinical exploitation of a non-invasive and relatively inexpensive method for screening cardiovascular systems based on multi-parameter analysis of heart haemodynamics and vascular perfusion in selected areas of the body.
Qualitatively new production techniques for heat resistant aerated concretewill be developed. For this purpose, human-caused waste from industrial enterprises will be used. This is currently removed to dumping grounds and pollutes the environment.
To design equipment for organic waste recycling which is designed for small farms and food processing companies.
To develop a distributed platform that would enable migration of all aspects of conferences or meetings to a virtual environment as well as enhancement of traditional events with innovative collaboration, content authoring, knowledge sharing and semantic web technologies.
To develop and realise new functionalised textiles with high added value, barrier and filter properties impressing on specially designed and customised textile constructions and technologies of (multi)functional treatments, incl. Nano-fibre and nano-surface structures.
Natural gas substitution for alternative fuels. Selection the substituting gases. Fuel saving by profound waste heat recovery due to preheating both combustion air and lcv gases. Development of advanced concept and designs of high temperature recuperators of increased 2-5 times service life
Project is focused on the leather technology development using less hazardous salts: sulfides and chromium. The project aims to meet the demands of increasing market for new environmental technologies and high quality products.