RU2590543C1 - Block-modular water treatment station for water supply systems - Google Patents

Abstract

FIELD: water supply.

SUBSTANCE: invention relates to water supply, namely to water treatment plants of underground water, in particular for highly muddy sources and highly muddy water, and can be used in water supply systems of recreation, cottage settlements, horticultural associations and other consumers drinking water quality. Block-modular water treatment station for water supply systems provides consumers pure drinking water at simultaneous reduction of consumption of reagents for purification and volume of formed as result of treatment of contaminated industrial effluents, released in sewerage, due to fact that it contains arranged in moving container mechanical cleaning unit consisting of water intake unit with automatic control system of flow rate and pressure of water and mechanical filter connected with aeration unit compressor and aeration column. Aeration unit is connected in series with set of filter-clarifier, containing pressure filter de-ironing, unit for ion-exchange filter with regeneration unit, unit for batching reagents, pure water tanks, pump station of second lift with decontamination unit, which employs ultraviolet disinfection, and accumulating tank. Unit of regeneration of ion-exchange filter unit is equipped with two tanks regeneration salt solution, pump feed regeneration salt solution in ion exchange filter, on discharge line of which there is mesh filter, and connected with mechanical sediment dewatering.

EFFECT: technical result consists in ensuring degree of purification of water to SanPiN standards of quality while reducing consumption of reagents for purification and volume of formed as result of treatment of contaminated industrial effluents, released in sewerage is clogged.

3 cl, 1 dwg

Description

The invention relates to the field of water supply, namely, groundwater water treatment plants, in particular sources of high-color and high-water water, and can be used in water supply systems of recreation centers, cottage villages, horticultural partnerships and other consumers of drinking quality water.

The population’s need for a sufficient amount of drinking water and other liquid products of the required quality was and remains vital.

Numerous installations are known for the water treatment of natural waters, including groundwater, by purifying them from various types of impurities (hardness salts, dissolved, colloidal and organic iron, sulfides, hydrogen sulfide and others, which give an unpleasant odor, color and turbidity to water) and disinfection from pathogenic microflora - pathogenic bacteria and viruses.

The chemical composition of groundwater is very diverse, which leads to the completeness of certain blocks in water treatment plants and water supply stations for source water of various quality composition.

A well-known water supply installation, including a container and a unit for changing the phase-dispersed state of the treated water, a water clarification unit, consisting of a flocculation contact chamber, a thin-layer sedimentation tank, a floating filter and a superfilter space, an automatic monitoring and control unit for water purification and water supply, pipelines the supply of the source, removal of purified, wash water and sediment, a block for chlorination of water, a block for receiving and distributing ozone-air th mixture, sorption filter, ultraviolet irradiation unit with an ultraviolet radiation source mounted on a pipeline connecting the water clarification unit and the sorption filter / RF Patent No. 2103230, C02F 1/52, C02F 9/00, C02F 1/00, 1998 / .

The disadvantages of the installation include a rather large flow rate of washing water and the amount of wastewater generated as a result of treatment, discharged into the sewer.

The closest in technical essence to the proposed one is a modular water treatment station located in a transported container and containing a first-lift borehole pump with a relay for regulating the borehole pump pressure, a mechanical filter, an air dispenser, an aeration column, a disinfection device, a filter deflector, and a softener filter with ion exchange resin, an automatic control unit and a container for filter regeneration, regeneration unit, sorption finish filter, a reservoir of pure polymeric water of black material and a pumping station of the second rise with a frequency regulator / RF patent for utility model No. 128608, C02F 1/00, 2013 /.

The disadvantage of this installation is the high consumption of reagents for cleaning, high water consumption for washing filters and, as a result, a large amount of effluent resulting from the treatment, as well as its limited functionality, since the station is focused on cleaning underground water from various forms of iron.

The objective of the proposed technical solution is to create a universal water treatment station for water supply systems with the purification of high-color and low-turbid waters, including from hardness salts and iron, to SanPin standards.

The technical result consists in ensuring the degree of water purification to SanPin standards while reducing the consumption of reagents for purification and the volume of contaminated technological effluents resulting from the treatment, discharged into the sewer.

The problem is solved, and the technical result is achieved due to the fact that in the block-modular water treatment station for water supply systems containing a mechanical treatment unit, consisting of a water intake unit with an automatic control system for water flow and pressure and a mechanical filter, an aeration unit, consisting of air supply unit and aeration columns, filter clarifier unit consisting of a pressure deferrization filter with an automatic control unit, an ion exchange filter unit with an automatic block filter regeneration control unit and unit, reagent dosing unit, disinfection unit, clean water tank, second lift pumping station, process pipelines for supplying raw water for treatment, washing water supply, purified water discharge and washing water discharge located in the transported container, air supply unit the aeration unit contains a compressor, the ion-exchange filter regeneration unit is equipped with two regeneration salt solution tanks with agitators, a salt solution stirring pump, a feed pump In order to disinfect the saline solution into the ion-exchange filter, on the pressure line of which a strainer is installed, and the mechanical sludge dewatering unit containing a bag dehydrator, at least one ultraviolet disinfection unit installed on the purified water discharge pipe is used as the disinfection unit, and the pumping station of the second lifting is equipped with a storage tank.

In special cases, the execution of the block-modular station as a mesh filter of the regeneration unit of the ion-exchange filter using a bag filter, and the disinfection unit contains two ultraviolet disinfection units.

The block modular station for water treatment for water supply systems is shown in the drawing.

For clarity, the relationship between the individual nodes and elements of the station changed.

Block-modular water treatment plant for water supply systems contains a mechanical treatment unit 1, located in the transported container, consisting of a water intake unit with an automatic control system for water flow and pressure and a mechanical filter connected to an aeration unit containing a compressor 2 and an aeration column 3. Aeration unit 3 is connected in series with a filter-clarifier unit containing a pressure deferrization filter 4, an ion-exchange filter unit 5 with a regeneration unit, a reagent dosing unit 6, clean water tanks 7, a pumping station of the second lift 8 with a disinfection unit 9, which use ultraviolet disinfection units, and a storage tank 10. The regeneration unit of the ion-exchange filter unit 5 is equipped with two tanks of regeneration saline solution 11, a pump for the supply of regeneration saline solution 13 into the ion exchange filter 5, on the pressure line of which a strainer 14 is installed, and is connected to the mechanical dewatering unit of sludge 12.

The station operates as follows.

The water to be purified is fed through a feed water supply pipe to a mechanical treatment unit 1 made of a combined water intake assembly installed at the station inlet containing a fine filter with an automatic rinse, check and pressure valves, a shut-off valve, input and output pressure gauges, and designed to maintain constant pressure and protect the water treatment system from the ingress of suspended particles and countercurrent water. Air 2 is pumped into the source water purified from mechanical suspended particles by the compressor 2, which is necessary for oxidation of the iron present in the water and separation of associated gases from it, and then sent to the aeration column 5, where the physicochemical processes of water degassing take place - removal of free carbon dioxide and ( the presence) of other dissolved gases (hydrogen sulfide, methane, etc.), which creates favorable conditions for the oxidation of ferrous iron to ferric, and the dissolution of air (and, accordingly, oxygen) in water. Thus, aeration and degassing of water occurs in the aeration unit, and in the aeration column 5, the process of oxidation of ferrous iron to ferric iron also begins. Water saturated with oxygen enters the filter clarifier block, namely, the pressure deferrization filter 4, where the final oxidation of iron to hydroxide occurs and the particles formed are retained in the thickness of the filter charge.

An autocatalytic aluminosilicate sorbent, in particular Ecoferox, which belongs to natural zeolite tuffs and which is not consumed during operation and is a very durable material, is used as a deferrization filter load.

The filter control unit allows you to automatically switch the operating modes of the filter "filtering" and "flushing". The filter is flushed at a given point in time by the signal of the built-in timer.

The water purified from iron is fed to an ion-exchange filter unit consisting of an ion-exchange filter 5 with a control unit and a salt-solvent tank (not shown in the drawing). A monodispersed strongly acidic cation exchange resin, for example Levatite, is preferably used as the charge of the ion exchange filter. When filtering the treated water through a layer of ion-exchange resin by the sodium cation method, hardness salts (calcium and magnesium) are removed. Regeneration of the ion exchange resin is carried out with a solution of sodium chloride automatically at a certain frequency, which is set depending on the volume of treated water. Regeneration brine is supplied from the regeneration unit of the ion-exchange filter 5, containing two tanks of regeneration saline 11, equipped with mixers and a pump for mixing brine (not shown in the drawing), a regeneration saline pump 13, on the discharge line of which a strainer 14 is installed, quality of which a bag filter equipped with a polypropylene filter bag can be used.

When the station is operating in one of the tanks 11, a saline solution is prepared, for which purified water is poured into it after the pumping station of the second rise 8 and tableted table salt is poured, then mixing is carried out using an electric mixer, which is equipped with a tank for regenerating salt solution 11, and a mixing pump saline solution. Then, the regeneration solution from the tank 11 is fed into the ion exchange filter 5 by means of a regeneration salt solution supply pump 13. A mesh filter 14, mounted on the pressure line of the pump 13, is designed to protect the ion exchange resin from particles of sediment of hardness entering it. During the preparation of the saline solution in one of the tanks 11, the other tank of the regeneration salt composition is empty and the spent salt solution is fed into it after regeneration of the ion exchange filter 5. After the regeneration of the ion exchange resin, the spent salt solution enters the empty tank 11. After filling this tank with the spent regeneration solution, reagents such as lime, soda ash and a flocculant are added thereto, followed by stirring with an electric stirrer and a salt solution stirring pump. As a result of chemical and physico-chemical reactions with added reagents, an insoluble precipitate is formed containing hardness salts and (if there is any source of toxic metal ions).

The tanks of the regeneration salt solution 11 are also connected to the mechanical dewatering unit of the sludge 12 formed in them. After sedimentation in the conical part of the tank 11, insoluble sediment is removed under hydrostatic pressure from the tank 11 onto the bag dehydrator of the mechanical sludge dewatering unit 12. After processing on the bag dehydrator, the compacted sediment is disposed of with solid household waste. The water released from the sediment is discharged into the sewer. Purified water is added to the tank 11 with the residues of the treated regeneration salt solution and tableted salt is added to supplement the solution, mixed with an electric mixer and a salt solution mixing pump. The regeneration solution is ready for use again. In the next cycle of regeneration of the ion exchange filter 5, the spent salt solution is filled with another tank, where it is treated with reagents. Thus, the tanks of the regeneration solution 11 are used alternately in the operation of the station. The regeneration unit of the ion-exchange filter block 5 constructed in this way can significantly save the reagent — salt, as well as reduce the amount of contaminated process effluents discharged into the sewer.

Sodium water hypochlorite is supplied to the water after the ion-exchange filter 5 is purified from iron and hardness salts and is disinfected from the container for preparing sodium hypochlorite solution (not shown in the drawing) of the reagent dosing unit 6; The disinfected water is supplied to the clean water tank 7 (plastic containers), designed to store clean water supplies and coordinate the water treatment system and second lift pumps, from where the second lift pump station 8 delivers water through the purified water pipeline to the water supply network. For complete disinfection of drinking water, a disinfection unit 9 is installed on the water supply line to the water supply network, at least one ultraviolet dehydration unit is used, and a pressure accumulator tank 10 is used to smooth out pressure pulsations. Two ultraviolet disinfection units are preferably used: one working, one backup.

Block-modular water treatment plant for water supply systems is located in a metal transported container equipped with lighting, ventilation and heating systems.

Thus, the use of the proposed block-modular water treatment plant for water supply systems allows consumers to provide clean drinking water while reducing the consumption of reagents for treatment and the volume of contaminated process effluents discharged into the sewer resulting from the treatment.

Claims (3)

1. Block-modular water purification station for water supply systems, comprising a mechanical purification unit, consisting of a water intake unit with an automatic water flow and pressure control system and a mechanical filter, an aeration unit, consisting of an air supply unit and an aeration column, a clarifier filter unit, consisting of a pressure deferrization filter with an automatic control unit, an ion-exchange filter unit with an automatic control unit and a filter regeneration unit, a reagent dosing unit, a disinfection unit of sewage, a clean water tank, a pumping station of the second rise, technological pipelines for supplying raw water for purification, supplying washing water, discharging purified water and discharging washing water, placed in a transportable container, characterized in that the air supply unit of the aeration unit comprises a compressor, a regeneration unit the ion-exchange filter is equipped with two tanks of regeneration salt solution with mixers, a pump for mixing salt solution, a pump for supplying regeneration salt solution to the ion exchange filter, and the pressure line of which is mounted a strainer assembly and a mechanical sludge dewatering, with bag containing dehydrator, as decontamination unit using at least one ultraviolet disinfection unit, provided by the withdrawal of the purified water and the pumping station is provided with a second rise storage tank. 2. The block-modular station according to claim 1, characterized in that a bag filter is used as a mesh filter of the ion-exchange filter regeneration unit. 3. Block-modular station according to claim 1, characterized in that the disinfection unit contains two ultraviolet disinfection units.

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