RU46495U1 - WATER DISINFECTION SYSTEM - Google Patents

Abstract

Installation for water disinfection is intended for use in a water supply system. A utility model capable of disinfecting water simultaneously with ultraviolet radiation and ozone. To do this, holes are provided in the lamp holder of the argon-arc lamp, and the installation case is equipped with fittings for supplying and exiting air. An arc mercury fluorescent lamp (for example, a DRL type) was used as a source of ultraviolet radiation and an ozone generator, in which an external glass cylinder filled with carbon dioxide was removed. Inside the lamp there is only a quartz gas discharge tube filled with argon and mercury, as well as high-voltage supply electrodes. When a quartz tube is fed with a high voltage, a gas discharge occurs in a mixture of mercury vapor with argon with the release of ultraviolet radiation. And between the open electrodes of the quartz tube there is a glow discharge generating ozone.

Description

Installation for water disinfection is intended for use in a water supply system.

A known method of disinfecting water by chlorination. However, the use of this method, due to the toxicity of chlorine, requires special precautions during transportation, storage and dosing. In addition, chlorine acts only on vegetative bacteria. Spore-forming bacteria do not die with commonly used doses of chlorine.

A more effective way of disinfecting water is to treat the water with bactericidal rays. The effect of bactericidal exposure is almost instantaneous. Disinfection of water occurs as a result of photochemical exposure to bacteria in the water with ultraviolet bactericidal energy emitted by special lamps. For example, low-pressure argon-mercury lamps of the BUV-30 and BUV-60P type, as well as high-pressure mercury-quartz lamps of the PRK-7 and RKS-2.5 type (V.F. Kozhinov, "Purification of Drinking and Industrial Water". Publishing house of building literature, Moscow, 1971). Based on this principle, the operation of the installation with sources of bactericidal radiation of the type OV-1P-RKS is based. The installation includes a housing, inside of which there is a mercury-quartz lamp in a quartz case. The purified water through the inlet pipe is fed into the cavity of the installation, and after irradiation is discharged through the outlet pipe. To intensify the mixing of water, a spiral is provided. And for cleaning the quartz lamp cover from plaque, rotating brushes are provided. A cabinet and high-voltage cables are designed to power the installation and the mercury-quartz lamp.

It is also known that ozone is used to disinfect water. Ozone has the property of rapidly decomposing in air, and especially in water. The solubility of ozone in water is significantly affected by pH and the amount of substances dissolved in water; a small content of acids and neutral salts enhances the solubility of ozone, and the presence of alkalis reduces it. Due to the high oxidative potential, the bactericidal effect of ozone introduced into water is stronger than that of other chemical agents. Ozonation causes a sudden sharp and complete bactericidal effect, is much more active than chlorine in relation to viruses, eliminates smacks and smells of water. The ozonizer acts on this principle. The design of the ozonizer consists of two electrically conductive electrode surfaces located at a small distance from each other. If you connect the electrodes to a current source with a voltage of, for example, 20,000 volts, a violet light appears between them, which is a visible manifestation of an electric discharge. When passing conditioned air into the interelectrode space, the formation of ozone begins. This discharge is accompanied by heat, so there is a need for cooling

electrodes with water. Since ozone is a poisonous substance, in order to prevent the ozone concentration from exceeding the permissible norm, the ozonizer is equipped with an automatic control system.

The disadvantage of both designs is that they are used separately.

The purpose of the proposed utility model is to create a universal installation for water disinfection, capable of treating water simultaneously with ultraviolet radiation and ozone.

This goal is achieved by supplying air to the cavity of the quartz cover, in which mercury lamps are placed. To do this, holes are provided in the lamp holder, and the installation housing is equipped with fittings for supplying and exiting air. At the same time, an arc mercury fluorescent lamp (for example, a DRL type) was used as a source of ultraviolet radiation and an ozone generator, in which an external glass cylinder filled with carbon dioxide was removed. Inside the lamp there is only a quartz gas discharge tube filled with argon and mercury, as well as high-voltage supply electrodes. When a quartz tube is fed with a high voltage, a gas discharge occurs in a mixture of mercury vapor with argon with the release of ultraviolet radiation. And between the open electrodes of the quartz tube there is a glow discharge generating ozone.

The design of the installation for disinfecting water is shown in the figure. The installation consists of a housing 1 with water 2 and output 3 nozzles for supplying water. Lamp holders 4 with lampholders 5 and quartz gas discharge tubes 6, with high-voltage supply electrodes (not shown in the drawing) are placed on two sides of the housing inside the housing. Quartz tubes are placed in a quartz cylindrical case 7, with o-rings 8. Holes are made in the lamp holders around the circumference 9. From the ends, the installation body is equipped with nuts 10 with input 11 and output 12 fittings. 13- water shirt.

Installation works as follows:

Through the inlet pipe 2, water previously purified from impurities is supplied to the water jacket 13. Water, having filled a water jacket placed between the unit casing and a quartz cylindrical cover, and subjected to irradiation with ultraviolet rays generated by quartz gas discharge tubes 6, enters the drive through the outlet pipe 3. Additionally, water cools the quartz case.

At the same time, through the inlet nipple 11, the air pre-filtered by filters is supplied to the installation casing by the compressor. Air, having passed through the openings 9 of the lamp holder and the cavity of the quartz cover 7, is supplied through the outlet nipple 12 to ozonize the water in the drive that has undergone UV treatment.

Thus, water undergoes double disinfection: ultraviolet rays and ozone.

Claims (1)

Installation for water disinfection, including water and air purification filters, an air compressor, a high-voltage voltage source, an electrical equipment control and monitoring system, a housing with water inlet and outlet pipes, inside which there are argon-mercury lamps with lamp holders, a quartz casing with o-rings, brushes for cleaning the surface of the quartz casing, a spiral for mixing water, characterized in that the lamp holder is made with holes, and the casing of the installation is equipped with input and output fittings for air supply, and an argon-mercury fluorescent lamp without a glass protective balloon was used as a source of ultraviolet radiation and an ozone generator.