A complex mathematical system of optimization of electrical energy production with decision making support will be developed and tested in a real environment. It will improve the efficiency of electrical energy production and sales.
The project objective is the development, construction and optimisation of advanced laser renovation systems with automatic control of level cleaning and laser beam scanning.
The proposed project is devoted to the development of a complex yet easy-to-use parametrised data (mathematical) model with optimal user interface which will allow for effective cost management and be uniformly applicable.
The purpose of the project is to investigate the economical feasibility of cleaning young and aged leachate wastewaters by using membrane technology - reverse osmosis and nanofiltration.
Synthesis of au nano-particles with well-controlled shapes, sizes and structures, by ultrasonic spray pyrolysis including the comparative analysis of particles' characteristics and investigating their biocompatibility in-vitro and in-vivo for dental/medical purposes.
Uf is an effective and economical method for treating emulsified oily wastewater. It is also a physical treatment process for removing contaminants from oily wastewater. It can be used to comply with strict environmental laws, as well as provide a first step towards water recycling and oil recovery.
The project objective is to design a mode of application of the x-ray fluorescent spectrometry as a field analytical method that is able to provide analytical data instantly and at exploration site.
To develop chromatographic tools which will enable the rapid purification/concentration of large herpes virus vaccines. Developed process will facilitate downstream applications by increasing purity and potency.
The goal of the project is development and construction of the equipment for preparing the reference material for dissolved gas analysis used for prediction of faults in power transformers.