SU1390182A1 - Multielement electric ozonizer - Google Patents

Description

(21) 3854598 / 31-26

(22) 12/25/84

(46) 04.23.88. Bul. No. 15

(71) All-Union Electrotechnical Institute. V.I. Lenin

(72) L.Yu.Abramovich

(53) 628.162.82 (088.8)

(56) Japanese Application No. 57-200208, cl. From 01 V.1 / 11, 1982.

(54) MULTIPLE-ELECTRIC ELECTRIC OZONATOR

(57) The invention relates to plasma chemistry, in particular to multi-element electric ozonizers. The purpose of the invention is to build up the ozonizer to capacity by ensuring self-disconnection from the electrical power source. the next element in which is pierced

dielectric wall. Each discharge element of a multi-element electric ozonizer consists of two spaced apart from each other and electrodes connected to an electrical power source, one of which is coated with a dielectric wall between the indicated electrodes. The metallic coating is connected to an electrical power source through a discharge gap limited by two other metal electrodes located at a distance from each other, which are located inside a sealed shell formed by the dielectric wall.

filled with gas under 2000 Pa. 1 il.

pressure 40 (L

11390

The invention relates to plasma chemistry, in particular to multi-element electric ozonizers.

Multiple-element electric ozonizers are known, each discharge element of which contains two metal electrodes located at a distance from each other, between which there is a dielectric wall. The electrical wall may form a hermetic enclosed shell filled with gas or an electrically conductive fluid.

The purpose of the invention is the development of the ozo-, from the compressor to the car, by providing the self-disconnection of the discharge element with the dielectric wall punched.

The drawing shows one bit of an ozonizer element.

The ozonizer contains an external cylindrical electrode 1, a hermetic shell 2 formed by a dielectric (in this glass) wall, a metal coating 3, which performs the function of an internal cylindrical electrode, a contact current lead 4, the electrodes 5 and 6 of the discharge gap, the current lead 7.

Electrode spacing times

an interval of 15 mm, and the space inside the hermetic shell 2 is filled with xenon or another gas to a pressure of 600 Pa.

Ozonizer works as follows.

In a discharge cell with an intact dielectric wall, the discharge gap voltage between the electrodes 5 and 6 is 200 V. A drop in the voltage between the electrodes 5 and 6 when the barrier discharge is burning is close to this figure, so the power released The size of the bottom between the electrodes 5 and 6 does not exceed a few watts, which practically does not reflect on the work of the discharge element. During the breakdown of the dielectric wall, a through channel is formed in it, through which an ozonized gas passes through the inside of the sealed envelope, which in a few seconds increases the pressure inside the device.

with

0

five

0

.

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pads to a value of 100 kPa. After that, the breakdown voltage between the electrodes 5 and 6 becomes 30 kV, i.e. exceeds the amplitude of the operating voltage of the ozonizer, and the defective discharge element is disconnected from the power source.

Thus, the self-disconnection of an outdated discharge cell allows, without replacing it, to continue the operation of a multi-element ozonizer on the remaining cells. In those cases when it is necessary according to the requirements of the technological process in which the ozonizer is used, the drop in its performance caused by the disconnection of a part of the discharge elements can be compensated by an increase in the amplitude or frequency of the supply voltage. The ozonator can work up to the failure of 10% of all bit elements, which allows to increase the ozonator production time to failure.

The greatest effect of the invention can be achieved when using an ozonizer in areas where the process does not allow long interruptions in the supply of ozone (for example, in drinking and wastewater treatment and disinfection systems).

Formula Invention

A multielement electric ozonizer, the discharge element of which consists of two spaced apart and connected to an electrical power source of electrodes, one of which is coated with a dielectric wall in the form of a metallic coating, characterized in that the purpose of developing an ozonizer of failure by ensuring the self-disconnection of the discharge element with a punctured dielectric wall, the metal coating is connected to an electrical power source Without a gas discharge gap located inside the chamber.

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-J,

,

Claims (1)

Claim A multi-element electric ozonizer, the discharge element of which consists of two electrodes located at a distance from each other and connected to an electric power source, one of which is applied in the form of a metal coating on a dielectric wall made in the form of a sealed chamber, characterized in that, for the purpose of operating time ozonator failure by providing self-shutdown of the discharge element with a punched dielectric wall, the metal coating is connected to the electric power source through g a discharge gap located inside the chamber.