RU41722U1 - WATER DECONTINUATION PLANT - Google Patents

Abstract

Installation for iron removal water refers to the field of non-reagent treatment of natural or waste water and can be used in water treatment technology at enterprises of housing and communal services, agriculture, in the chemical and other sectors of the economy, as a stationary device. In order to improve the production process and thereby increase the degree of high-quality deferrization of water to European standards when taking water from virtually any freshwater sources of the water supply network, artesian wells and open reservoirs, a water deferrization unit containing a submersible pump connected in series, an oxidizing agent for water deferrization, an electric pump, fine cleaning unit and nozzles for supplying and discharging water, characterized in that in order to increase the efficiency of the process ok ferrous iron into ferric iron and water purification up to European standards when taking water from virtually any freshwater sources of water supply network, artesian wells and open reservoirs, it is equipped with a pre-treatment unit, a washing system and an ultraviolet water disinfection device, are installed in series between the oxidizing agent and the input of the fine-purification unit the connected electric pump of the second rise and the pre-treatment unit, while the oxidizing agent is made in the form of a water-air injection ra set at the inlet of the water reservoir oxidant, wherein the damper is located precipitate fine cleaning unit is designed as a container in which are located the microporous materials of the cartridges spatially globular strukt

Description

The invention relates to the field of non-reagent treatment of natural or wastewater and can be used in water treatment technology at enterprises of housing and communal services, agriculture, in the chemical and other sectors of the economy, as a stationary device.

It is known that the purification and disinfection of heavily polluted natural waters is usually carried out in several stages, the first stage of rough cleaning, and then fine mechanical filtration, the second stage - the removal of toxic anions and cations using ion-exchange resins, the third stage of treatment - on activated carbon, the fourth stage of sterilization using UV radiation and the final stage - conditioning (giving preservative properties) by passing water through silver-coated sand.

This process is lengthy, costly and complex in design.

A known installation for iron removal of water, containing pipelines with shutoff valves for supplying the source and drainage of clean water, a water tower including a tank with a hydrodynamic cavitator located above the flocculation chamber with a vertical pipe equipped with inclined elements of a thin layer sedimentation module, and a barrel with a sedimentary part, a diaphragm and a catalytic filter charge, according to the present invention, a thin-layer sediment compactor with inclined elements is installed in the sedimentary part of the barrel, located between each other and the barrel with gaps, forming a peripheral inlet and central outlet channels, and under the layer of filter loading there is a cap drainage with a vertical riser connected to the additional aperture of the barrel and a drain pan connected to the piping system of the source and clarified water, the latter is connected to disinfecting bactericidal units equipped with a control unit and a waste water discharge pipe, and in

The tower is equipped with an overflow pipe, air vents and a mounting hatch.

Placing a thin-layer precipitator with inclined elements in the sedimentary part of the tower barrel contributes to the rapid compaction of the freshly precipitated iron hydroxide precipitate and its collection in the lower part of the sealant. An additional diaphragm device with a vertical riser connected to the cap drain provides flushing of the filter load due to the supply of water in the barrel and tank of the tower, and the disinfection bactericidal unit installed on the clarified water pipeline destroys pathogenic bacteria in the water (see RF patent No. 2134660 )

The disadvantage of this device is the inability to use this solution for existing drinking fences without reconstruction of construction works.

The closest technical solution to the claimed one is an oxidizing device for iron removal of water, comprising a housing with a chamber for collecting water, nozzles for supplying and discharging water and air, a vacuum chamber connected to the housing with a mixer, a fencing device and an ejector for venting gases, characterized in that , in order to increase the efficiency of the process of oxidation of ferrous iron, it is equipped with a pressure chamber of the source water located in the upper part of the body and a pressureless intermediate chamber for removing gases, with lined with an ejector for exhaust gases, made in the form of a water-jet ring pump with a mixing chamber, a neck, an annular chamber for air intake, a diffuser and a perforated air distributor, as well as a cylindrical annular chamber with two overflow walls with the formation of three annular channels, the external of which communicate with a diffuser of water-jet ring pumps with necks, and the middle with a chamber for collecting water. In order to eliminate losses of source water during the oxidation process, a pressureless intermediate chamber for removing gases is connected to the external channel by means of a pipe (see RF patent No. 20088275, 02.28.94.).

The basis of the invention is the task of creating such an installation in which a new implementation of design features, their new location

would improve the production process and thereby increase the degree of high-quality deferrization of water to European standards when withdrawing from almost any freshwater sources of the water supply network, artesian wells and open water bodies.

This object is achieved in that the known installation for deferrization of water, containing a series-connected submersible pump, an oxidizing agent for deferrization of water, an electric pump, a fine purification unit and nozzles for supplying and discharging water, characterized in that in order to increase the efficiency of the process of oxidation of ferrous iron to ferric and water purification to European standards when withdrawing from virtually any freshwater sources of the water supply network, artesian wells and open reservoirs, it is equipped with a pre-treatment unit, a washing system and an ultraviolet water disinfection device, between the oxidizing agent and the inlet of the fine-cleaning unit, series-connected electric pump of the second lift and a preliminary cleaning unit are installed, while the oxidizing agent is made in the form of a water-air injector installed at the inlet of the oxidizing water tank, in which a sedimentation damper is located, the fine-cleaning unit is made in the form of a reservoir in which microporous cartridges from materials are located nano-globular structures that divide the reservoir respectively into external and internal cavities, each of which has a drain to remove sediment, in addition, the washing system contains nozzles installed at the inlet of the fine cleaning unit and located at the same distance from each other and at an angle relative to each other the vertical axis of the block, which are connected by a pipeline to the lower cavity of the output of the fine block, which is also connected to the input of the cavitator, the output of which is connected respectively to the input of the block cleaning and with an entrance to the lower cavity of the fine cleaning unit.

In addition, the pre-cleaning unit is made in the form of a series-connected magnetic filter, a mesh washing filter and a hydrocyclone, the mesh washing filter containing a stainless steel mesh, while the mesh washing filter and a hydrocyclone have a drain to remove sediment.

The invention is illustrated in the drawing, which shows a General view of the installation.

Installation for deferrization of water, containing a series-connected submersible pump 1, an oxidizing agent 2 for deferrization of water, an electric pump 3, a fine-purification unit 4 and nozzles 5 for supplying and discharging water, it is equipped with a preliminary purification unit 6, a washing system 7 and an ultraviolet water disinfection device 8 between the oxidizing agent 2 and the input of the fine cleaning unit 4, a second-lift electric pump 3 and a preliminary cleaning unit 6 are connected in series, while the oxidizing agent 2 is made in the form of water-air engineering ctor 7 installed at the inlet of the oxidizer 2 water reservoir, in which sediment settler 8 is located, the fine-purification unit 4 is made in the form of a reservoir in which microporous cartridges 9 are made of spatially globular structure materials that separate the reservoir respectively into the external and internal cavities, each of which has a drain to remove sludge, in addition, the washing system 7 contains nozzles 10 installed at the inlet of the fine cleaning unit 4 and located at the same distance from each other and d angle relative to the vertical axis of the block 4, which are connected by a pipe to the lower cavity of the output of the block 4 fine cleaning, which is also connected to the input of the cavitator 11, the output of which is connected respectively to the input of the block 6 pre-treatment and to the entrance to the lower cavity of the block 4 fine cleaning.

The pre-cleaning unit 6 is made in the form of a series-connected magnetic filter 12, a mesh washing filter 13 and a hydrocyclone 14, the mesh washing filter 13 containing a stainless steel mesh, while the mesh washing filter 13 and the hydrocyclone 14 have a drain to remove sediment.

The proposed device operates as follows. A well pump 1 delivers water (see the drawing) to a water-air injector 2, as a result of gas saturation of the water stream, ferrous iron dissolved in water is converted to ferric (insoluble in water) iron, as well as its decarbonization.

After that, water enters sediment sediment 3, installed inside the water tank of oxidizer 2. In the water supply system, there can be one

a tank with a damper, as well as several additional ones without a damper, for example, two, then the subsequent tanks are filled with water by flowing the last from the first tank to the second, from the second to the third, etc. The most complete occurs in the second and third tanks (up to 90 %) the transition of divalent iron dissolved in water to ferric (water insoluble) iron and its decarbonization, as well as precipitation of iron and alumina. The pump of the level of the 2nd rise 3, the water from the third tank is supplied to the pre-treatment unit 6, which includes a magnetic filter 12, a mesh washing filter 13 and, a hydrocyclone 14.

The magnetic filter 12 concentrates the microimpurities of ferric iron, some of which are deposited in the strainer 13, from which a stream of water enters the hydrocyclone 14, in which there is an additional increase in the concentration of precipitated ultrafine impurities. Pre-purified water is supplied to the fine filter 4, and then to the ultraviolet disinfection device 8, from which water is supplied to the consumer.

The fine cleaning unit 4 is made in the form of a reservoir, in which microporous cartridges 9 are located, which separate the reservoir into the outer and inner cavities, respectively, along the flow of the incoming stream, each of which is equipped with a drain into the drainage system to remove sediment.

As cartridges in the block 4 fine cleaning can be used such as cartridges type GEYSER firm SIMENS (Germany), which are made of microporous polymer with a spatially globular structure, i.e. with a highly developed inner surface, on which sedimentation of suspended particles (rust, clay, etc.) as well as dissolved chemical impurities (chlorine, organic compounds, etc.) occurs. Since active silver is introduced into the polymer, bactericidal purification of water is also achieved.

During the water treatment in the mesh washing filter 13, in the hydrocyclone 14 and the fine-purification unit 4, deposits of ultrafine ferric iron and alumina are observed, which require periodic washing off. In order not to disassemble the entire installation as deposits accumulate, a washing system 7 is provided in it, made in the form of nozzles 10 installed in the upper cavity of the fine cleaning unit and cavitator 11.

Washing of the fine block 4 is carried out in two stages separately. At the first stage, pure water from the lower cavity of the fine-cleaning unit 4 is supplied to the nozzles 10, as a result, the precipitate is washed off from the external surface

cartridges 9, for example, using 4 nozzles (there may be 6, and 8 and 12, depending on the requirements of the consumer) installed uniformly around the circumference in the upper cavity of the fine cleaning unit 4 and inclined at an angle of 20 ° to the tank axis and through the drain is removed into the drainage system of water treatment.

At the second stage, pure water from the internal cavity of the fine block is also fed to the cavitator inlet. Cavitated clean water is supplied to the internal cavity of the cartridges, as a result, the cartridges of the fine-purification unit 4 are washed by reverse current.

Rinsing cavitated clean water of the inner cavity is also a mesh washing filter 13.

Thus, the use of a water-air injector 2, sediment settler 3, cascade overflow from tanks, a pre-treatment unit, a fine-purification unit 4 with cartridges 9 made of a material with a spatially globular structure, and the use of a system 6 for flushing the plant with clean water in two stages - it allows to increase the efficiency of the process of oxidation of ferrous iron to ferric and water purification to European standards when withdrawing from virtually any freshwater sources water network, artesian wells and open reservoirs, which significantly increases the service life of fine filters and allows reconstruction of water intakes without significant capital investments.

Claims (2)

1. Installation for deferrization of water, containing a series-connected submersible pump, an oxidizing agent for deferrization of water, an electric pump, a fine filter unit and nozzles for supplying and discharging water, characterized in that, in order to increase the efficiency of the process of oxidation of ferrous iron to ferric and water purification to European standards for water intake from virtually any freshwater sources of the water supply network, artesian wells and open reservoirs, it is equipped with a pre-treatment unit, a flushing system ki and a device for ultraviolet water disinfection, between the oxidizing agent and the inlet of the fine-cleaning unit, series-connected electric pump of the second lift and the preliminary cleaning unit are installed, while the oxidizing agent is made in the form of a water-air injector installed at the inlet of the oxidizing water tank in which the sediment damper is located, the fine-cleaning unit made in the form of a tank in which microporous cartridges are made of materials of a spatially globular structure that separate the cut the bore hole, respectively, on the external and internal cavities, each of which has a drain to remove sediment, in addition, the washing system contains nozzles installed at the inlet of the fine cleaning unit and located at the same distance from each other and at an angle relative to the vertical axis of the unit, which are connected by a pipeline with the lower cavity of the output of the fine cleaning unit, which is also connected to the input of the cavitator, the output of which is connected respectively to the input of the preliminary cleaning unit and to the entrance to the lower cavity of the fine th cleaning. 2. Installation according to claim 1, characterized in that the pre-cleaning unit is made in the form of a magnetic filter, a mesh filter and a hydrocyclone connected in series, the mesh filter containing a stainless steel mesh, while the mesh filter and a hydrocyclone have a drain to remove draft.