RU2179151C2 - Electrical discharge thermoadaptive element of ozonizer - Google Patents

Abstract

FIELD: production of ozone, applicable at industrial and agricultural enterprises for treatment of air and aqueous media. SUBSTANCE: the ozonizer element has a high-voltage AC source, conducting cylindrical electrode with a dielectric coating, with a corona-forming electrode in the form of a flat spiral made of bimetallic alloy Invar H36 0 a nickel-molybdenum steel placed over it in a spaced relation. EFFECT: adjustable of discharge gap, depending on temperature variation, enhanced reliability of ozonizer. 1 dwg

Description

 The invention relates to the field of ozone production and can be used in industrial and agricultural enterprises for the processing of air and water environments.

 Known invention N 564258, cl. On 01/13/11, 1977, in order to simplify the design, the type of rubbed ozonizer is made of a radio frequency coaxial cable with an air channel.

 Closest to the proposed invention is A. with. N 1627506, cl. From 01 to 13/11, 1991, where the ozonizer contains a conductive cylindrical electrode with a dielectric coating, on top of which a corona electrode made in the form of a flat spiral is located with a gap to reduce energy consumption and simplify the design of the ozonizer by providing effective cooling of the electrode.

 The ozonizer selected as a prototype has significant drawbacks, in particular, the need to use a liquid cooler complicates and accordingly makes the design more expensive, in addition, if water is used as a cooling liquid, which leads to the deposition of salts (Ka, Mg) on the inner walls dielectric pipe, resulting in poor heat transfer, reducing the performance of the ozonizer.

 The technical solution to the problem is to stabilize the operating modes, simplify the design of the ozonizer and increase its reliability.

 The problem is achieved in that in an electric-discharge thermo-adaptive element of an ozonizer containing a high-voltage source of alternating voltage, a conductive cylindrical electrode with a dielectric coating, on top of which a corona electrode is arranged in the form of a flat spiral, the latter is made of a bimetallic alloy, for example, Invar H36 - nickel-molybdenum steel.

The novelty of the claimed invention lies in the fact that due to design features at certain sizes of the discharge gap, adjustable using a bimetallic conductive spring, depending on the change in I ^{o, the} device allows to ensure the stability of the output parameters regardless of changes in the temperature of the gas mixture, as well as the constancy of dielectric properties insulator, which makes it possible to increase the reliability of the device and, accordingly, the life of the ozonizer.

 The proposed technical solution is illustrated by the drawing, which shows a General view of the device.

 The electric-discharge thermo-adaptive element of the ozonizer contains a conductive cylindrical electrode 1 coated with a dielectric 2, as well as a corona electrode in the form of a bimetallic conductive spring 3. Electrodes 1 and 3 are connected to a high voltage source 4.

 The proposed design works as follows. When the high voltage source 4 is turned on, high voltage is applied to the electrodes 1, 3, as a result of which a discharge occurs in the discharge gap, leading to the formation of ozone. In the process, when the temperature of the bimetallic electrode 3, as well as the ozone-air mixture increases, the bimetallic electrode 3 deforms, increasing the working space between the electrode 3 and the dielectric coating 2, which leads to a decrease in the discharge intensity due to an increase in the resistance of the discharge gap and, therefore, to reduce the temperature of the structure, and provides stabilization of the parameters of the device.

 The proposed technical solution allows to stabilize the operating modes of the ozonizer, simplify the design, significantly increase its reliability.

Claims (1)

 An electric-discharge thermo-adaptive element of an ozonizer containing a high-voltage source of alternating voltage, a conductive cylindrical electrode with a dielectric coating, on top of which with a gap there is a corona electrode in the form of a flat spiral, characterized in that the spiral is made of Invar H36 bimetallic alloy - nickel-molybdenum steel.