RU2116959C1 - Ozone generator - Google Patents

Abstract

FIELD: production of ozone used to treat air and aqueous media at industrial and agricultural enterprises. SUBSTANCE: proposed ozone generator has electrodes and dielectric cylinder. Electrodes-cylinders are placed one into another and dielectric cylinder is positioned between them. Dielectric cylinder is mounted on shaft of motor for rotation. EFFECT: enhanced productivity and operational reliability of ozone generator. 2 dwg

Description

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

 The invention is known (ed. St. N 2040461 class. C 01 B 13/10). In order to increase the specific productivity of the process, the ozonizer has a dielectric cylinder as a rotating dielectric and electrodes mounted at an angle to the surface of the dielectric.

 Closest to the invention is the invention (ed. St. USSR, 864724, class C 01 B 13/11). The gas-discharge tube element of the ozonizer consists of an external, low-voltage, coaxial, metal electrode with a dielectric coating deposited on its inner surface and a metal, high-voltage, coaxial electrode located inside it, as well as an element of the current lead and centering shock absorbers.

 An electric discharge is excited between the external and internal electrode. Air is supplied in the space between the electrodes.

 A disadvantage of the known ozonizer is its low productivity.

 The technical solution to the problem is to increase productivity.

 The task is achieved in that in an ozone generator containing electrodes, a dielectric, a high voltage current source and an electric motor, electrodes and a dielectric are made in the form of cylinders located one in another, the dielectric is located between the electrodes, while the dielectric is rotatably mounted on the motor shaft.

 The novelty of the invention is seen in the fact that due to design features, the device allows to increase the performance of the electric gap.

 In FIG. 1 is a schematic view of an apparatus for generating ozone; figure 2 is a transverse section of the device.

 The device (ozonizer) consists of an inductor (ozone-air mixture), consisting of electrodes made in the form of cylinders 1, a conductive material connected to a source of alternating high-voltage current 2 and a dielectric cylinder 3 (located between the electrodes), mounted on the motor shaft.

 The device operates as follows.

When you turn on the source 2 between the electrodes, discharge-ionization processes occur, leading to the formation of O ₃ . Turning on engine 4, we make dielectric cylinder 3 rotate.

 As you know, the efficiency of ozone generation increases when the luminous spots of electric discharges on the dielectric move. The ozone output increases significantly with the rotation of the electrodes compared with stationary. This design avoids the rotation of high voltage electrodes without changing the essence of the process. This is achieved due to the fact that before the spark jumps through, the channel formed in the dielectric mechanically moves around the circumference of the cylinder, thus stretching the microdischarge.

Claims (1)

 An ozone generator containing electrodes, a dielectric, a high voltage current source, an electric motor, the dielectric and the electrodes being made in the form of cylinders arranged one in the other, and the dielectric is located between the electrodes, characterized in that the dielectric is rotatably mounted on the motor shaft.

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