RU1808353C - Water purification device - Google Patents

Abstract

The invention relates to the field of water supply to various consumers by groundwater and can be used in the design of water treatment plants for drinking and industrial water supply. The installation comprises an oxidation aeration unit 1, made in the form of an ejection-mixing unit 2, interlocked with a vortex reactor 3 having a spherical shape, the air inlet of which is equipped with a purification and enrichment unit 4, made in the form of a membrane-selective filter and connected to the ejection-mixing unit 2 through the valve 5. The output of the vortex reactor 3 through an adjustable choke 6 is connected to the purification side, consisting of a filter chamber 7, equipped with porous cartridge filters 8 and a degassing chamber 9, last. connected through a flow divider made in the form of 2

Description

adjustable chokes 10 and 11, with a vacuum chamber of the ejection-mixing unit 2 and with the atmosphere through the choke 11, and the filter chamber 7 is connected through an adjustable choke b to the outlet of the vortex reactor 3 through the valve 12 with the vacuum chamber 13 of the ejector and equipped with a controlled output (valve 14 ) a hydraulic accumulator 15, from which the regeneration system of the filtering unit is supplied, including a pipeline 16 and valves 17, 19. A pump 19 is installed to collect the source water from the water source and supply it to the ejection-mixing unit 2. If necessary After increasing the water pressure after cleaning, a pump of 20.2 ps can be used. f-ly, 1 silt,

The invention relates to water supply to various consumers by groundwater and can be used in the design of water treatment plants for drinking and industrial water supply.

The goal is to improve the quality of water treatment and reduce capital costs for the construction of the installation.

The drawing shows the installation, section.

The installation comprises an aeration-oxidation unit 1, made in the form of an ejection-mixing unit 2, interlocked with a vortex reactor 3 having a spherical shape, the air inlet of which is equipped with a purification and enrichment unit 4, made in the form of a membrane-selective filter and connected to an ejection - to the mixing unit 2 through the valve 5. The output of the vortex reactor 3 through an adjustable choke 6 is connected to a cleaning unit consisting of a filter chamber 7 equipped with porous cartridge filters 8 and a degassing chamber 9, connected through a flow divider, made in the form of two adjustable chokes 10 and 11, to the vacuum chamber of the ejection-mixing unit 2 and to the atmosphere through the choke 11, and the filter chamber 7 is connected through the adjustable choke 6 to the outlet of the vortex reactor 3, through the valve 12 to the vacuum the chamber 13 of the Ejector, and with an adjustable output 14 by means of a valve - accumulator 15, from which the regeneration system of the filtering unit, including the pipeline 16 and valves 17, 18, is fed. To collect the source water from the water source and supply it pump 19 is installed in the ejector-mixing unit 2. If it is necessary to increase the water pressure after cleaning, the pump 20 can be used. The ejection-mixing unit 2 has a nozzle 21.

The operation of the installation is as follows.

The source water from the water source is pumped to the nozzle 21 by the pump 19 into the ejection-mixing unit 2. The water leaves the nozzle 21 at a high speed and forms a zone of reduced pressure, which leads to the suction of air from the atmosphere through the purification and enrichment unit 4 made

in the form of a membrane selective filter. The coordination of the operation of the ejection-mixing unit and the purification and enrichment unit is carried out by valve 5. The oxygen-enriched water emerging from the ejection-mixing unit enters the vortex reactor 3, where the quality of mixing water with air is improved by swirling, atomizing the water-water stream. Necessary mixing quality

it is regulated by a throttle 6 and a valve 12 by supplying water through a bypass line: ejection-mixing. unit - vortex reactor-filter chamber - vacuum chamber of the ejector.

Oxygen-enriched water enters the filtration chamber 7, where iron is oxidized and hydrolyzed. When water passes through a layer of hydroxide previously formed on the surface of the cartridge filter 8, these processes are completed and iron is removed from the water. The purified water enters the degassing chamber 9, where air is separated from it and accumulates in the upper part of the chamber 9, and through

the throttle 11 is removed from the chamber 9. If there is insufficient air flow through the throttle 11, excess air from the degassing chamber 9 through the throttle 10 is sucked by the ejection-mixing unit 2.

The purified water from the degassing chamber 9 enters the accumulator 15 and to the consumer. At insufficient pressure, after the water leaves the degassing chamber 9, a pump 20 is connected.

With a decrease in the throughput of the cartridge filters 8 and, as a result, a drop in the productivity of the installation, regeneration is carried out as follows. Valves 14,12 are closed, chokes 6,10, 11 are opened, valves 17, 18 are opened. At that, water from the hydraulic accumulator 15 enters the degassing chamber 9. passes through the pairs of cartridge filters 8, filter chamber 7, valve 18 and together with the sediment from the chamber filter 7 is disposed of in a waste disposal system. The unit is ready for operation with restored parameters.

The use of the apparatus provides an improvement in the quality of water purification by increasing the degree of mixing of water with air; reduction of capital costs for the construction of the installation due to its compactness; reduced maintenance labor due to simplified regeneration system.

Claims (3)

1. Installation for water purification, containing means for supplying water, aeration and purification, characterized in that, in order to improve the quality of water purification and to reduce capital costs for the installation of the installation, the installation is equipped with a hydraulic accumulator, and the aeration means are made in the form of a two-stage aeration-oxidation unit, including an ejection-mixing unit, interlocked with a vortex reactor, the output of which is connected via an adjustable choke to a cleaning unit including filter chambers degassing, the last of which is connected through a flow divider to the vacuum chamber of the ejection-mixing unit and to the atmosphere, and the filtering chamber is connected to the outlet of a fresh reactor and a hydraulic accumulator with an adjustable output. 2. Installation pop. 1, characterized in that the air inlet of the ejection-mixing unit is provided with an oxygen purification and enrichment unit mounted at its air inlet, made in the form of a membrane-selective filter. 3. A plant according to claim 1, characterized in that the filtering unit has a regeneration system powered by a hydraulic accumulator.