SU133560A1 - Ozonator with flow-through cooling of both electrodes - Google Patents

Description

Flow-cooled ozonizers are known and described in the patent literature.

The proposed ozonizer differs from the known ones in that it is made in the form of three coaxially arranged tubes, which makes it possible to create the necessary discharge gap between the electrodes with their intensive cooling and to obtain high ozone concentrations.

The novelty and usefulness of the proposal is confirmed by the conclusions of the Research Institute of the Rubber Industry, the Moscow Institute of Fine Chemical Technology named after Lomonosov and the Chemistry Department of the Moscow State University.

The proposed ozonizer is operated from alternating current of increased frequency with cooling of both electrodes by running water, made in the form of three coaxial tubes, of which the inner tube of alternating cross section and medium grounded tube are electrodes, and the space between the middle tube and the outer one serves water from the water supply is supplied. Water is also supplied to the inner tube through a glass coil or some other dielectric material. There are bends from the middle tube for ozonizable gas.

The design of the ozonizer with flow-through water cooling of both electrodes is shown in the drawing, from which it can be seen that to the outer (grounded) electrode 2 of the ozonizer water for cooling is supplied directly from the water supply system. At the same time, an internal electrolyte / ozonizer, made structurally in the form of a tube of variable cross section and located under high voltage, is supplied through a spiral tube made of glass or other dielectric material.

The electrical resistance of such coils should be in the order of 4-5 Moi, which is enough to prevent a HIGH-VOLTAGE electrode from short-circuiting through the cooling water.

The loss of electricity in the coils is approximately 10-20 watts with a voltage across the ozonizer of 7-9 square meters.