RU184928U1 - System for purifying water from artesian wells from natural radionuclides - Google Patents

Abstract

The installation is designed to purify water from artesian wells from natural radionuclides. It contains a coarse filter 1, an aeration unit 2, a second lift pump station 3 and an ultraviolet sterilizer 4, a reverse osmosis unit 5 installed in front of the aeration unit, separating the water flow into the filtrate, accumulated in the aeration unit and highly mineralized concentrate discharged into the drainage and a complex 6 for dosing a reagent for feeding a scale inhibitor on the membrane elements, located before the installation of reverse osmosis 5. Under normal conditions, As a source of water, the installation includes an additional line 7 of the mixture of source water, located after the coarse filter 1, on a dedicated separate piping system, bypassing the reverse osmosis unit 5 and including the adjustment mechanism 8 for filling the aeration unit 2. Air is pumped into the aeration unit 2 using a low-pressure compressor 9. The system eliminates the risk of an emergency stop of the system due to the formation of deposits in the tank, pumping equipment and distribution network. The piping system of the installation consists of two parts connected in series through an aeration unit. 1 ill.

Description

The utility model relates to installations for purifying water from sources of drinking water supply and drinking water and can be used to purify water from artesian wells.

Known installation for purification and bringing water to drinking quality: "Rainbow" MPO for water purification of artesian wells. The following can be used in the installation design: mechanical cleaning filters, deferrization, clarification, hydrogen sulfide removal filters, reverse osmosis systems, ultraviolet sterilizers; self-priming and booster pumps; manual and automatic control units, sensors and control devices (see http://www.amac.md/Literatura/Sborniki/CD/04._Com_Teh/04.04.2.pdf). The capacity of local modular plants is from 200 to 500 l / h.

A known installation for water purification from natural radionuclides, selected as the closest analogue, containing sequentially arranged disk type coarse filter, aeration unit, second-lift pumping station, fine filter, ultraviolet sterilizer (see http://water2you.ru/solutions / dlya-chastnykh ~ domov /).

Due to the fact that the aeration unit in the known installation is operated on underground water with a standard value of the “Stiffness” indicator (for example, for the Chelyabinsk region this indicator is 3-8 mEq / l), precipitation occurs in the aeration unit tank due to aeration carbonate precipitate, which contributes to the pollution of the aeration unit and, as a result, increases the risk of an emergency shutdown of the installation.

In addition, the known installation does not always provide the output of drinking water quality. In some cases, due to the low quality of the source water with the acceptable value for the total mineralization indicator for mixing, it is impossible to organize mixing in volumes sufficient to raise the pH to ranges of 6–9 units. (according to the norms of SanPin "Drinking Water" 2.1.4.1074-01). Desalted water at a reverse osmosis unit has a pH (pH value) of 5.3–5.7, which does not comply with SanPin standards “Drinking water” 2.14.1074-01.

To obtain drinking-quality water using a known device, it is necessary to additionally place an artificial water mineralization unit or an alkalizing agent dosing complex at the system outlet, which increases the pH value (pH level).

The known installation also has the risk of water with residual concentrations of radon entering the final consumer.

The technical result, which the claimed utility model is aimed at, is the creation of a compact (located in one unit) installation that excludes the possibility of deposits in the tank, pumping equipment and distribution network and, as a result, eliminates the risk of an emergency stop of the installation for this reason.

The specified technical result is achieved by the fact that in the installation for purification of water from artesian wells from natural radionuclides, containing a coarse filter, an aeration unit, a pumping station of the second rise and an ultraviolet sterilizer in series in a pipeline system, in which the pipeline system of the installation consists of two parts connected through an aeration unit, while the first part of the pipeline system includes a pipeline supplying raw water to the coarse filter and the pipeline connecting the coarse filter to the aeration unit, and the second part of the pipeline system includes a pipeline connecting the aeration unit to the pump station of the second water lift, a pipe connecting the pump station of the second water lift with an ultraviolet sterilizer and a discharge pipe for collecting purified and disinfected water , according to a utility model, it is made in the form of one unit and further comprises a reverse osmosis unit installed in front of the aeration unit, separating sweat water to the filtrate, accumulated in the aeration unit and highly mineralized concentrate, discharged into the drain and a reagent dosing complex for supplying a scale inhibitor on the membrane elements, located before the reverse osmosis installation, and therefore, the first part of the pipeline system additionally contains a pipeline for the source water mixing line including a pipeline, starting with a drain from the pipeline located between the coarse filter and the reverse osmosis unit, then cut into the pipe a gadfly between the reverse osmosis unit and the aeration unit, the pipeline connecting the reverse osmosis unit with the aeration unit and the drainage pipe for highly mineralized concentrate from the reverse osmosis unit to the sewage system, while the pipeline supplying water from the coarse filter to the reverse osmosis unit is configured to feeding into it through a valve with a dosing complex of a reagent - a scale inhibitor on membrane elements.

Also, the installation may additionally contain located after the coarse filter, on a separate separate pipeline system, bypassing the reverse osmosis installation, a line for mixing the source water, including the adjustment mechanism for filling the aeration tank.

And the aeration unit is configured to pump air into it from a low-pressure compressor.

The claimed installation eliminates the possibility of deposits in the tank, pumping equipment and distribution network and, as a consequence, eliminates the risk of an emergency shutdown of the system for this reason.

The inventive installation allows you to significantly increase the service interval and reduce the accident area of the system to install reverse osmosis. This is ensured by performing aeration only after the desalination step. Hardness salts extracted at the desalination stage do not precipitate during prolonged aeration of the water, as a result of which formation of deposits in the tank, pumping equipment and distribution network is excluded.

The presence of an additional reverse osmosis installation, its installation in front of the aeration unit, also allows to achieve the claimed technical result. This is achieved due to the fact that in the reverse osmosis unit, which is additionally installed in front of the aeration unit, the water flow is divided into the filtrate accumulated in the aeration unit and highly mineralized concentrate, which is discharged into the drainage. At the same time, natural radionuclides standardized for drinking water SanPin 2.1.4.1074-01 "Drinking water" in the form of indicators "Alpha-radioactivity", "Beta-radioactivity" and due to such elements as uranium, radium, lead, bismuth, thorium, polonium remain in the concentrate and are discharged into the drainage, the filtrate contains the minimum amount of these elements (meets the requirements of SanPin 2.1.4.1074-01 standards).

The achievement of the technical result also contributes to the presence in the inventive installation of a dosing complex of a reagent for feeding a scale inhibitor on the membrane elements, located before the installation of reverse osmosis. The purpose of the reagent used indicates the achievement of the claimed technical result: the scale inhibitor is intended to prevent the deposition of sediment, which is formed by water-insoluble compounds of iron, alkaline earth carbonates and some other metals, on the surface of the membranes.

The presence of an additional pipeline for the source water mixing line, including a pipeline beginning with a drain from the pipeline located between the coarse filter and the reverse osmosis unit, then cut into the pipeline, between the reverse osmosis unit and the aeration unit, as well as the pipeline connecting the reverse osmosis unit with the aeration unit and the pipeline for the removal of highly mineralized concentrate from the reverse osmosis unit to the sewage system and, the implementation of the pipeline supplying water from fi coarse purification liter to the reverse osmosis unit with the possibility of supplying it through the valve with a dosing complex of a reagent - a scale inhibitor on membrane elements, also ensures the achievement of a technical result.

So an additional pipeline of the source water mixing line, including a pipeline starting with a drain from the pipeline located between the coarse filter and the reverse osmosis unit, then cut into the pipeline, between the reverse osmosis unit and the aeration unit, ensures the achievement of the technical result due to the fact that the initial mixture water is carried out only in the case of normal water quality, which eliminates the risk of deposits on the piping system and installation units.

The achievement of the technical result due to the presence of the pipeline connecting the reverse osmosis unit with the aeration unit and the drainage pipe for highly mineralized concentrate from the reverse osmosis unit to the sewage system follows from the purpose of these structural elements: the flow of the filtrate into the aeration unit and then free of substances that can cause deposits on the walls of the pipeline and the installation nodes and the removal of highly mineralized concentrate completely eliminating the risk to the sewer Aries emergency stop due to its removal from the system.

The implementation of the pipeline supplying water from the coarse filter to the reverse osmosis unit with the possibility of feeding into it through the valve a dosing complex of a reagent - scaling inhibitor on the membrane elements also testifies to the obviousness of the achievement of the claimed technical result: precisely because the reagent - inhibitor is introduced into it scaling, deposition of salts on the membrane elements of the installation is excluded.

At the same time, depending on the quality of the source water, in particular, at its normal quality, the possibility of additional installation of the mixing line in the aeration unit of the source water located after the coarse filter on a separate separate piping system, bypassing the reverse osmosis unit, allows to saturate the water in the unit with mineral salts in the amount of 15-30%, without processing it at the reverse osmosis unit, excluding the use of artificial mineralizers.

The use of a reverse osmosis unit of calculated capacity with the presence of an adjusting mechanism on the mixing line of the source water, together with a rigorous calculation of the speed of radon stripping obtained as a result of pilot tests, leads to a guaranteed absence of radon in the water entering the consumer.

The use of a low-pressure compressor for injecting air into the aeration unit, firstly, reduces the energy consumption of the installation, and secondly, it provides mixing of water during installation downtime (lack of water consumption), when radon is already removed from the water, which eliminates the formation of stagnant zones and, as a result reduces the risk of germs, which ultimately increases the efficiency of the system.

The claimed installation provides the possibility of compact location, which allows you to place it in almost any room, which is not unimportant, especially when installed in private households.

The figure shows a schematic diagram of the inventive installation.

The inventive installation comprises a coarse filter 1, an aeration unit 2, a pumping station of the second lift 3 and an ultraviolet sterilizer 4, connected in series with the pipeline system, a reverse osmosis unit 5 installed in front of the aeration unit, dividing the water flow into the filtrate, accumulated in the aeration unit and highly mineralized concentrate discharged into the drainage and reagent dosing complex 6 for feeding a scale inhibitor on the membrane elements, located before the installation of the reverse osm sa 5.

With the normal quality of the source water, the installation includes an additional line 7 for mixing the source water, located after the coarse filter 1, on a dedicated separate piping system, bypassing the reverse osmosis unit 5 and including the adjustment mechanism 8 for filling the aeration unit 2.

Air in the aeration unit 2 is pumped using a low-pressure compressor 9.

The piping system consists of two parts connected in series through the aeration unit 2.

The first part of the pipeline system includes:

- a pipeline supplying source water to the coarse filter 1;

- a pipeline supplying water from the coarse filter 1 to the reverse osmosis unit 5, into which a reagent - a scale inhibitor on membrane elements (antiscalant) is supplied through a valve with a reagent dosing complex 6;

- the pipeline of the source water mixing line, including the pipeline, beginning with the discharge from the pipeline located between the coarse filter 1 and the reverse osmosis unit 5, then cut into the pipeline, between the reverse osmosis unit 5 and the aeration unit 2.

- a pipeline connecting the reverse osmosis unit 5 and the aeration unit 2;

- a pipeline for discharge of concentrate (highly mineralized runoff) from a reverse osmosis unit 5 to a sewage system.

The second part of the pipeline system includes:

- a pipeline connecting the aeration unit 2 with the pumping station 3 of the second rise of water;

- a pipeline connecting the pumping station 3 of the second rise of water with an ultraviolet sterilizer 4;

- outlet pipe for the selection of purified and disinfected water.

In some cases, the installation may contain a fine filter (not shown in the diagram), which is installed on the pipeline system section between the pump station of the second lift 3 and the ultraviolet sterilizer 4. This structural element is installed to purify water from particles that can enter the aeration unit through the neck of the aeration tank 2, particles entering the water through the coarse filter 1 and then along the line 6 of the mixture of the source water if it is present. The likelihood of negative consequences from these events is usually minimal. In the case of a compact installation (in the form of a single unit), most likely the filter can be “sacrificed” by the cleaning race due to not too important tasks that it performs within the framework of this system

The inventive installation operates as follows.

At the first stage, the water is mechanically cleaned on the coarse filter 1. Then, the water is fed to the dosing complex of reagent 6 to supply a scale inhibitor on the membrane elements (antiscalant). Next, the water is supplied to the reverse osmosis unit 5, where the flow is divided into the filtrate, which accumulates in the aeration unit 2 and. highly mineralized concentrate discharged into drainage. Natural radionuclides standardized for drinking water SanPin 2.1.4.1074-01 "Drinking water" in the form of indicators "Alpha-radioactivity", "Beta-radioactivity" and due to elements such as uranium, radium, lead, bismuth, thorium, polonium, remain in concentrate and discharged into the drainage, the filtrate contains the minimum amount of these elements (meets the requirements of SanPin 2.1.4.1074-01 standards).

After installing reverse osmosis 5, water enters the aeration unit 2, in which radon is blown off.

At the second stage, using the pump station of the second lift 2, water is supplied to the consumer.

The final stage of cleaning is the third stage - disinfection of water using an ultraviolet sterilizer 4.

With the normal quality of the source water through the mixing line 7 into the aeration unit 2 of the source water, the mixture is mixed with water in the aeration unit 2 of the source water to saturate it with mineral salts in the amount of 15-30%, without treatment on the reverse osmosis unit 5.

Claims (3)

1. Installation of water purification from artesian wells from natural radionuclides, containing a coarse filter, an aeration unit, a second lift pump station and an ultraviolet sterilizer connected in series to the pipeline system, while the installation piping system consists of two parts connected in series through the aeration unit, the first part The pipeline system includes a pipeline supplying source water to the coarse filter, and a pipeline connecting the coarse filter with aeration m unit, and the second part of the pipeline system includes a pipeline connecting the aeration unit to the pumping station of the second water rise, a pipeline connecting the pumping station of the second water rise with an ultraviolet sterilizer, and an outlet pipe for selecting purified and disinfected water, characterized in that it is made in in the form of one unit and additionally contains a reverse osmosis unit installed in front of the aeration unit, dividing the flow of water into the filtrate accumulated in the aeration unit, and high unralized concentrate discharged into the drain, and a reagent dosing complex for feeding a scale inhibitor on the membrane elements, located before the reverse osmosis installation, and therefore the first part of the pipeline system additionally contains a pipeline for mixing the source water, including a pipeline that begins to drain from a pipeline located between the coarse filter and the reverse osmosis unit, then cut into the pipeline between the reverse osmosis unit and the aeration unit, pipe the wire connecting the reverse osmosis unit to the aeration unit, and the highly mineralized concentrate drain pipe from the reverse osmosis unit to the sewage system, while the pipeline supplying water from the coarse filter to the reverse osmosis unit is configured to supply an inhibitor reagent dosing complex through the valve scaling on membrane elements. 2. Installation according to claim 1, characterized in that it further comprises a primary filter located after the coarse filter on a separate separate piping system, bypassing the reverse osmosis installation, a line for mixing the source water, including the adjustment mechanism for filling the aeration tank. 3. Installation according to claim 1, characterized in that the aeration unit is configured to pump air into it from a low-pressure compressor.

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