Plasma Refining System

Microwave Plasma Refining System MiPRS allow to create completely new high efficiency gas treatment technologies. 
Plasma gas processing technology is energy-efficient, has a high performance and is environmentally friendly. 

Our gas treatment and purification technology is based on the catalytic properties of microwave plasma. Complex compounds of long-chain molecules enter the plasma plume and are subject to powerful ionization effects, resulting in changes in their structure. In the first instance, complex chemical compounds with low chemical energy are degraded. The result of the treatment is pure gas with low resin content and no carcinogens, dioxins and furans. The MiPRS gas cleaning system effectively removes dust and soot contained in flue gases and reduces sulphur and nitrogen compounds.

The use of plasma thermophysical methods of cleaning substantially simplifies the technological scheme of gas cleaning, reduces the material capacity of the equipment and reduces the energy consumption due to the short-term thermal treatment of the gas in low-temperature microwave plasma. Thermal plasma only operates at high temperatures, while nonequilibrium plasma is effective at medium temperatures.

The MiPRS plasma system creates large volumes of non-equilibrium plasma and allows the execution of high-performance plasma-chemical processes at low gas temperature, but at the same time at higher electron temperatures, implying that the electron temperature is higher than the temperature of the gas ions. The main task of the discharge is to generate and stabilize chemically active particles that initiate the necessary reactions. This feature of unequal microwave plasma gives it properties similar to catalytic ones, which leads to increased speeds of chemical reactions and consequently to increased system productivity and reduced energy consumption.

This is due to the stimulation of chemical reactions by active particles generated by plasma.  

From the point of view of creating a new technology for the treatment of flue and synthetic gases, the plasma chemistry of microwave discharges is very promising. The microwave plasmotron resource is significant and not limited by any material limits. The plasma-chemical microwave reactor itself lacks corrosive elements because the discharge is electrode-free. As a result, the purified gas has a high purity, dependent only on the preparation of the feedstock. Finally, microwave discharges in near-atmospheric pressure make the most effective use in reactions of the energy stored in the molecules, as well as the energy of active particles - atoms and radicals.