DECREASE OF ORGANIC COMPONENT OF APPROACH WATERWAYS BY AUXILIARY BARRIER DISPLAY PLASMA

Authors

Keywords:

plasma, adsorption, organics, radionuclides, discharge, barrier, COD.

Abstract

As usual radioactively contaminated water in Ukraine is purified by distillation. Conditioning of the formed salt melt requires complex and expensive technological operations. Therefore, the researches of foreign scientists concerning the treatment of liquid radioactive waste are directed at minimiz-ing the radioactive water volume. One of the most promising areas for extracting substances from liquid media is sorption technologies. Their ad-vantages include simplicity of hardware design, low power inputs and high efficiency. The necessity of the preliminary reduction of the organic com-ponent in NPP drain water before the process of adsorption of dose-forming radionuclides is disclosed. The efficiency of oxidation of the organic constituent of these waters by means of plasma treatment is achieved when plasma is obtained by a barrier discharge on the surface of a thin layer of water. It is established that the first two energy contributions are the most effective. Owing to them the efficiency of water treatment at the first stages was about 50%, with the general efficiency 51.3%. It is revealed that further increase of energy contribution without change of external conditions is ineffective and leads to increase of concentrations of nitrogen compounds. Due to this effect, a significant increase in the concentrations of nitrogen oxides in the treated liquid initiates an increase in total COD. A regression model of COD – applied energy has been developed and directions for further intensification of these processes are outlined. To use oxygen - inert gas without nitrogen mixture or to carry out the process in an oxygen atmosphere is possible as ways to increase the efficiency of electrodischarge processing. It is also possible to neutralize the nitrogen compounds and their acids by introducing alkalis and increasing the pH of the treated solutions to 10-12.

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Published

2023-04-14