RU1770268C - Ozonator - Google Patents

Abstract

Usage: the creation of ozone used in the medical industry, agriculture and other areas of the economy where it is necessary to obtain ozone. SUMMARY OF THE INVENTION The ozonizer contains a housing in the form of a pipeline in which two electrodes connected to a high-voltage source of alternating current are laid in alternating layers to form a checkerboard grating. In this case, the electrodes are made in the form of conductors covered by a flexible dielectric sheath filled with running water, or in the form of flexible metal tubes coated with an insulating layer filled with running water, or one of the electrodes is made in the form of a conductor with an insulating coating, and the other electrode in the form of a pipe made of soft metal filled with running water. 1 s.p. f-ly. 4 ill.

Description

The invention relates to plasma chemistry and can be used in those areas where ozone is required.

A quiet ozone generating discharger is known, comprising two electrodes connected to an AC source (1). One electrode is made in the form of two coaxial cylindrical dischargers made perforated. The second electrode is an insulated wire spirally wound around an inner cylinder.

The ozonizer is a compact design. However, the need to purge air through a narrow gap between the electrodes makes the process of producing ozone inefficient, associated with high energy costs.

Closest to the proposed one is an ozonizer operating on the principle of corona discharge and contains two electrodes connected to a high voltage AC source (2). Structurally, the ozonizer is a dielectric conduit, inside which two conductors are connected, connected to an AC source. The conductors are covered by an insulating layer, and at the moment of applying a high voltage to them along the insulating layer, a barrier surface discharge arises between the conductors, which bombards the air transported through the internal volume. The resulting ozone is blown out of the pipe by a stream of air.

The ozonizer is simple in design, however, it has low productivity due to the inefficient placement of electrodes inside the pipe / conduit.

The aim of the invention is to increase productivity by efficiently

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the use of the internal volume of the pipeline.

Structurally, this is realized because D of the known ozonizer containing a pipeline, inside which two conductors covered by an insulating layer are drawn, connected to a high-voltage source of alternating current, conductors with an insulating layer are laid along the pipe in the form of a checkerboard grid. Such a combination of design features allows not only effectively sealing the interior of the pipeline with electrodes, which ultimately affects the increase in the specific power of the ozonizer, but also improve heat removal during air cooling by improving the air contact with the heat source. In this case, the number of layers is determined only by the value of the set power.

In addition, effective cooling of the electrodes can be achieved. Structurally, this is ensured by the fact that one of the electrodes is made in the form of a conductor with insulation, the second electrode is made in the form of a metal pipe filled with running water. Either both electrodes are made filled with running water in the form of flexible metal tubes coated with an insulating layer, or in the form of conductors located inside flexible dielectric shells filled with running water

Figure 1 shows a diagram of an ozonizer; in Fig. 2 - an ozonizer in which one of the electrodes is made in the form of a conductor with insulation, and the second - in the form of a metal pipe filled with water, in Fig.Z - an ozonizer with electrodes in the form of flexible metal tubes with water: in Fig, 4 - an ozonizer with electrodes in the form of conductors located inside flexible dielectric shells filled with water.

The ozonizer comprises a housing 1 made in the form of a square cross-section pipe of dielectric material, in the internal volume of which two electrodes 2,3 are placed, which are conductors with an insulating coating. Conductors 2,3 are connected to a high-voltage source of alternating current 4. Inside the pipeline 1 along its length, the conductors are laid in the form of a checkerboard (figure 1).

The ozonizer works as follows. When a high-voltage power supply 4 is turned on along electrode 2,3, a barrier surface discharge is generated between the insulating layers covering the conductors. When air is blown through line 1, it is bombarded by a discharge and the resulting ozone is blown outward along the air flow path.

The proposed ozonizer is simple in design, has improved heat, due to improved contact of air with a heat source, has a higher performance compared

0 with famous. The electrode 2 can be made in the form of a metal pipe filled with running water (figure 2). The electrode 3 in this case is a metal conductor coated with an insulating

5 layer.

The ozonizer works as follows. When a high-voltage alternating current source 4 is turned on between electrodes 2,3, a surface barrier discharge is generated over their surface, which comes into interaction with the air pumped through pipeline 1. The product of the interaction - ozone is carried out by the air transported through the pipeline.

The next embodiment of the ozonizer is possible. Electrodes 2,3 are made identical in the form of flexible metal tubes coated with an insulating layer filled with running water and laid in alternating layers 1 in the form of a checkerboard (Fig. 3). Air is blown through line 1.

To ensure maximum interaction between the purged air and the discharge, in the ozonizer, the electrodes are made in the form of conductors, drawn in a flexible dielectric sheath filled with running water, and laid in a pipeline along

0 its length in layers in the form of a chess grid (Fig. 4). Air is blown through line 1.

The ozonizer is simple in design, technologically advanced in assembly. In addition, it has low material consumption. A successful heat removal solution combined with the ability to densely stack electrodes along the length of the pipeline made it possible to dramatically increase the performance of the ozonizer

0 also increase the concentration of ozone produced.

Claims (2)

SUMMARY OF THE INVENTION 1. An ozonizer comprising a dielectric housing made in the form of a pipe, with two electrodes located inside it and connected to a high-voltage AC source, which is aimed at increasing productivity by efficiently using the internal the volume of the pipeline, the electrodes are installed along the length of the pipeline in the form of a checkerboard grid in alternating layers. 2. Ozonizer pop. 1, characterized in that, in order to ensure efficient heat removal, one of the electrodes is made in the form of a conductor with an insulating coating I it, and the other electrode is in the form of a tube made of soft metal filled with running water, or both electrodes are filled with running water in the form of flexible metal tubes coated with an insulating layer, or in the form of conductors located inside an intricate dielectric sheath. 4 blowing FIG. 2. LA hh t x - bg ™ sg /) in V. -r- - t. B - v G -L.11 T -, /;  - vr -, in yv g i h., “.- k lV / VVi“ .-  .-p.   rT i V V /; h „. r: r iX.  ,, r f /  V yvyt T tttg, - 7 - v s / - and- "r Ou" lA.V .t t-t-jt, / J: sjdb- I , / f§ blowing U-r-r w-.r, -, - i .. -f "r-K w r-" r- .. s. , i, t. 7 v7 /  ITIZL - „. -j-y r-; . L / , t - 4 1 4 r «V xrTiT 4 r, , i ..- .1 j-4-i. l j xi. "I- .s / 7y   ЖГ - Г v, v, 7 --f ../-. e / V IR - “s“ 1 J, L.T A Ј..J, V LG-s - -0 r: r iX. , / f§  J I / - € -4 --f