SU597173A1 - High-frequency ozonizer - Google Patents

Description

This invention relates to devices for producing ozone. A high-frequency ozonizer is known, comprising a cylindrical housing with a jacket for cooling fluid, a cylindrical low-voltage electrode with a dielectric coating, a high-voltage electrode fixed in the housing with a high-voltage insulator, between the surfaces of which a discharge space is formed, and located along the axis of the housing tube for introducing coolant into the cavity of the high-voltage electrode. However, in a well-known ozonator with insufficiently intensive cooling of the dielectric, the productivity of the ozonizer decreases, the replacement of a failed dielectric is difficult, and there is no reliable centering relative to the location of the low-voltage and high-voltage electrodes. In order to improve the performance of the ozonizer by increasing the intensity of cooling of the dielectric, simplify the design and improve operational reliability in the proposed ozonizer, the high-voltage electr is made of two parts, one of which is placed in the high-voltage insulator, and the other is made of a dielectric or dielectric coated on the outer surface, placed in the discharge zone and provided with a centering device, rigidly connected to the coolant inlet tube and resting on the center Stripping liner of dielectric material located in the housing. The drawing shows the proposed high-frequency ozonizer. It consists of a housing 1, the shell of which 2 forms with a low-voltage electrode 3 a jacket for coolant, equipped with inlet 4 and outlet 5 nozzles. On the inner surface of the low-voltage electrode 3 may be applied a layer of silicate enamel or other dielectric material. Electrode 3 at the ends has roundings. The high voltage electrode is made of two parts 6 and 7. Inside the high voltage electrode, a coolant tube 8 is installed, terminating at one end with fitting 9, and at the other end with a pin plug 10 and having 11 holes for water flow. With a pin strip: pin 10, nuts 12 and clamp 13, parts 6 and 7 of the high-voltage electrode are pressed against each other through sealing washers. Nut 12. is located in the recess of the centering insert 14, made of a dielectric ozone resistant material.

In the upper part, the fastening of the tube 8 with a high-voltage electrode is implemented with the nuts 15 and 16, and the nut 15 is equipped with a fitting 17 for draining the coolant and with its thickness produces part 6 of the high-voltage electrode in the high-voltage insulator 18.

The inlet and outlet of the gas to be treated are through fittings 19 and 20.

A layer of dielectric material, such as silicate enamel, must be applied to the outer surface of part 7 of the high-voltage electrode, or it may be made of a dielectric material, such as glass.

Ozonizer works as follows.

Before turning on the ozonizer, you must apply a liquid that cools the electrodes. Moreover, the supply of liquid and its withdrawal from the high-voltage electrod is made through long dielectric tubes. Then, air or oxygen is supplied through the nozzle 19, while it passes through the discharge gap formed by the low-voltage electrode 3 and part 7 of the high-voltage electrode and leaves the ozonizer through the nozzle 20.

The body of the ozonizer is grounded. The high voltage of the frequency is up to

10 kHz is supplied to the high voltage electrode, and the voltage is gradually increased. In the discharge gap, a discharge occurs and a chemical reaction takes place. Rounding the ends of the low-voltage electrode 3 is necessary to avoid dielectric breakdown and edge effects.

Claims (1)

Invention Formula High-frequency ozonizer containing a cylindrical housing with a jacket for coolant, cylindrical low-voltage dielectric electrode coated coaxially inside it, a high-voltage electrode fixed in the housing with a high-voltage isolator, between the surfaces of which a discharge zone is formed, and a tube located along the axis of the housing for introducing a coolant into the cavity of a high voltage electrode, characterized in that, in order to increase the performance of the ozonizer by increasing the The high-voltage electrode is made up of two parts, one of which is placed in the high-voltage insulator, and the other, made of a dielectric or with a dielectric coating on the outer surface, is placed in the discharge zone and provided with a centering device, rigidly connected to the coolant inlet tube and supported on a centering insert of a dielectric material located in the housing. sixteen 15 nineteen