In the work considered the impact on water pumping saline lavinostrimernyh digits. Discharge formed above the surface of the water, bit interval of 100 mm at atmospheric pressure.
It is shown that the level modifies the size of the ions and free radicals in solution, translating them into insoluble compounds. Demonstrated reduction of heavy metal ions in solution and the destruction of the colloids. Experiments have shown that as a result of exposure to lavinostrimernyh bits free ion concentration decreases in the lead. Control measurements of the free ion concentration of lead showed a minimal number of them in distilled water and the maximum in underground (basement) waters.
When processing solution with cerium ions lavinostrimernym discharge (LSR) received the allocation of cerium on zazemlennom electrode reactor. This effects characterizes electrolysis process of deposition of heavy metals ions.
Shows the lightening solution potassium margancevokislogo and the formation of insoluble precipitate if exposed to LSR colloidal solutions. This can be attributed to the influence of ozone on the grout, which is formed by lavinostrimernom. It is established that sustainable colloidal solutions lavinostrimernyj level influences in such a way that from the gel formed deep and increasing exposure time particle size hydrosols increases.
It is shown that the use of lavinostrimernogo discharge above the surface of the solution in air at atmospheric pressure leads to the purification of metal ions, organic and inorganic compounds of colloids.

This study has been supported by the Ministry of Education and Science of the Russian Federation, Contract N14В25.31.0023.


Lavinostrimernye level; the impact of charges on solutions; heavy metal ions; dodge colloids; purification of saline groundwater from metal ions and colloids.

Issue number: 11
Year: 2016
UDK: 628.337
Authors: Makal’skiy L. M., Kukhno A. V., Tsekhanovich O. M.

About authors: Makal’skiy L.M., Candidate of Technical Sciences, Assistant Professor, Senior Researcher, e-mail:, National Research University «Moscow Power Engineering Institute», Moscow, Russia, Kukhno A.V., Graduate Student, e-mail:, National Research University «Moscow Power Engineering Institute», Moscow, Russia, Tsekhanovich O.M., Candidate of Technical Sciences, Assistant Professor, e-mail:, Gzhel State University, Gzhel, Russia, National Research University «Moscow Power Engineering Institute», Moscow, Russia.

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