New Energy Times

Technologies

  • Cavitational water processing in the vertical generator.


  • Volumetric-diffused discharge and it’s use.


Plasma technology of sewage treatment.


At the laboratory of physical and chemical hydroaerodynamics investigations of the anode electric discharge within the boundaries of a problem of cold nuclear transmutation are carried out. During these experiments the direction which can be introduced in a national economy was uncovered.

In the given technology is used the method of disinfection of microporous liquids of volumetric-diffusive plasma discharge on the surface of phase section of gas-liquid (bubbles surface). In the microporous environment this surface is developed enough. Therefore processing by a heat, radiation, acoustics, shock waves, ozone (in the case of water barbotage by air), chlorine (for salty water), an electric current is exposed simultaneously enough great volume biologically or chemically polluted liquid.

This explains, that the bactericidal effect higher enugh in comparison with other methods.

It is volumetric-diffusive discharge in porous electrolit as the version of the anode discharge ideally approaches for processing biologically and chemically strongly polluted waters. The developed surface in bubbled environment where on water-air border goes discharge, allows to make deep water purification with the minimal power expenses even at presence of highly resistant microorganisms and chemical reagents which deactivation by other methods is problematic.

Conclusive advantage of the given method consists that all energy pumped in the discharge goes on destruction of microflora and destruction of chemical pollution of organic and inorganic character.

The plant of productivity by 1 cubic metre per hour is in work.

Seaweed and daphnids alive.

Seaweed and daphnids after processing by plasma.

Working part of plant at 100 cubic metre per hour.

Working part in an initial condition.

Working part with bubbles.

The plant is in work.

Dependence of quantity of bacteria on an operating time of plant.


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