The main objectives are the design, development and manufacturing of a special electrometrical complex modelling device for the geological and environmental study of the baltic shelf and coastal zone.
New, ecologically friendly and effective lignin-based soil conditioners for the prevention and control of forest soil erosion and related application technology will be developed.
The objective is to elaborate, complete, test and implement to production a system for complex monitoring of combined environmental hazards in deep mines based on modern methods of measurement, data transmission and processing.
Conception and construction of long duration self-contained breathing apparatus for emergency escapes
Metals in municipal and industrial wastes are removed using a combination of advanced models based on the theoretical fundamentals of fluid dynamics and molecular physics with innovative process integration and intensification techniques.
A new well regeneration system is to be developed. In comparison to the latest available technology, it will require a maximum 50% use of chemicals whilst doubling the regeneration cycle time.
System and simulator for optimal control of incineration system will be developed and tested. It will be based on process data gathered during pilot plant test trials. The empirical knowledge collected will be transferred in the efficient management system, which will be used for full-scale plants.
The advanced system for purification of drinking water will be developed and tested. The pilot system will be constructed and used to prepare for transfer to production. The system will be based on recent achievements in nanotechnology and research in the field of denitrification of ground water.