SU480641A1 - Ozonator - Google Patents

Description

one

The proposed device is intended to obtain ozone and treat it with drinking and water.

An ozonizer is known that contains internal and external electrodes with smooth surfaces separated by a dielectric barrier.

However, a known ozonizer only allows to obtain ozone of low pressure, up to 1 MPa.

In order to increase the pressure of the resulting ozone-oxygen mixture in the proposed ozonizer, the surface of one of the electrodes is provided with corrugations. This makes it possible to obtain high pressure ozone, up to 9 MPa, and, consequently, increase the rate of ozone dissolution when ozonating drinking water.

The drawing shows a general view of the proposed ozoator.

The ozonizer consists of an internal cylindrical electrode 1 and an external electrode 2 located coaxially. The outer electrode 2 is a metal coating deposited on a hollow cylindrical insulator 3, a dielectric barrier made, for example, of porcelain.

One of the electrodes, e.

To supply oxygen to the ozonizer, there is a nozzle 4 with radial holes, and an ozone-oxygen output is a nozzle 5 with the same holes.

From the ends, the ozonizer is closed with covers 6 of a dielectric material.

The ozonizer electrodes are connected to a voltage source, such as a pulse. The outer electrode is connected directly, and the inner - through the pipe 4.

During operation, oxygen is supplied through the nozzle 4 under pressure of up to 10 atm, which, the passage crowning the space between

the corrugated outer surface of the inner electrode 1 and the insulator 3 are ozonized. The ozone-oxygen mixture is removed through the pipe 5. The occurrence of the corona discharge in

The proposed ozonator is possible due to the fact that on the corrugated surface of the internal electrode 1, the accumulation of charges occurs on the corrugation tips (protrusions). The initial nrob is due to

local increase in the intensity of the electric field on the corrugation tips. Then the sample spreads over the entire surface. The presence in the proposed ozonizer of local increases in the intensity of the electric field makes it possible to obtain a corona discharge at elevated oxygen pressures. The supply voltage at the same time remains unchanged, as in the case of using an internal electrode that does not have a groove

SRI.

It has been established experimentally that the optimum depth of corrugations is in the range of 0.05-1 mm.

Subject invention

An ozonizer containing two electrodes and a dielectric barrier located between them, characterized in that, in order to increase the pressure of the resulting oxygen-oxygen mixture, the surface of one of the electrodes is provided with corrugations.

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