RU190581U1 - MOBILE WATER TREATMENT STATION - Google Patents

Abstract

The utility model relates to mobile water treatment plants to the level of drinking. The mobile water treatment plant is mounted inside a heated van box mounted on a high-traffic auto chassis, contains a series-connected means for collecting water, a reagent treatment unit, a sorption unit, a membrane filtration system, an ultraviolet unit and a purified water tank, while additionally comprising a thin layer sedimentation unit installed sequentially behind the water intake facility. The technical result is the purification of source water taken from any source of water supply, to a level that meets sanitary standards. 1 fig., 1 tab.

Description

The utility model relates to the field of water purification from various sources to drinking, corresponding to the quality of SanPiN 2.1.4.1074-01 Drinking water.

A number of mobile (mobile) installations for water purification are known in the art.

Thus, the installation of integrated water treatment is a universal mobile automated UMKVA-1 mounted inside an insulated heated habitable van-body mounted on a high-traffic vehicle chassis, and consisting of water treatment, water treatment and automatic control and monitoring modules (RF patent 2656049, IPC C02F 9 / 12, G05B 13/00, G05D 11/08, published on 02/20/2018) [1]. A water treatment module of a known solution includes two pumps connected by water to an aeration column operating on ozone, dosed by the Venturi system, hydrochloric a membrane filtration system, equipped with a hollow fiber microfilters and ultrafiltration membranes and then to a storage tank. The water treatment module contains a cumulative tank installed in series with the addition of an inhibitor and a biocide, a reverse osmosis purification system, a mineralizer and an ultraviolet lamp. The control and monitoring module contains a system of self-tuning of equipment management programs, as well as sequential monitoring systems for the collection, processing, and production of drinking water. The absence in the known solution of structural elements responsible for the stage of uptake of source water leads to the fact that the purification of water from surface sources becomes extremely difficult due to the content in the water of a large amount of sludge, which clogs the filters and membranes, which makes the operation of the installation when cleaning surface water in fact impossible.

Closest to the claimed is a mobile station for complex water purification, containing a means for water intake, a membrane filtration unit equipped with hollow fiber ultrafilters and sterilizing microfilters, a sorption unit, a water sanitation unit, initial and filtered water tanks, pumps for pressure feed water from tanks. At the same time, blocks, pumps and station capacities are mounted inside an insulated heated habitable van body mounted on a high-passing auto-chassis, with the means for collecting water connected in series to the source water tank, membrane filtration unit, filtered water tank, sorption unit, sanitary unit water treatment, ultrafilters are evenly placed on the side surfaces of the original and filtered water tanks installed along the longitudinal axis of the van body, so that between the tanks and between the tanks and the walls of the body-van, passages are provided, while the retained molecular weight of ultrafilters does not exceed 30,000 Da, and sterilizing microfilters are made on the basis of a positively charged membrane with a modified charge to remove viruses and endotoxins from water (RF Patent 94570, IPC C02F 9 / 00, published on 27.05.2010) [2]. The process of water purification in the well-known solution also does not include the stage of settling, which does not allow to use the installation for purifying water from surface sources. Such water is characterized by high color, low alkalinity, a large number of suspended substances, including sludge, the presence of various pesticides (as a result of washing out from the fields), bacterial contamination, the presence of flavors and odors. At the same time, silt and the smallest shells, which penetrate into the structure of the source water in the structural elements, litter them and do not allow to obtain water of the required quality.

The objective of the proposed utility model is the development of a mobile water treatment plant to the level of drinking, which allows purifying water from both an underground and surface water source.

The task will be solved by the fact that the mobile water treatment plant, mounted inside a heated van body mounted on a high-traffic auto chassis, contains means for collecting water sequentially connected, a reagent treatment unit, a separation unit, a membrane filtration system, an ultraviolet installation and a purified water tank, at the same time, the station additionally includes a thin layer sedimentation unit installed sequentially behind the water intake means.

The reagent processing unit of the inventive model includes dosing units using flocculant, coagulant, water disinfectant (sodium hypochlorite, hydrogen peroxide, etc.) and reagent that prevents salt deposition (antiscalant, inhibitor).

The treatment of the source water with a coagulant contributes to a decrease in the degree of oxidizability of the treated water masses, to a decrease in the content of suspended particles in them. The use of flocculant leads to sticking of unstable aggressive particles and thereby intensifies the process of the formation of flakes. Thus, these substances lighten the initial water masses and improve their quality. The treatment of water masses with a water disinfecting agent (sodium hypochlorite, hydrogen peroxide) is necessary for water disinfection, oxidation of dissolved iron, manganese, residual organic compounds and extension of the service life of the filter loading of pressure filters. Use in the inventive device of a dosing unit with an inhibitor-based salt-inhibiting reagent (antiscalant) allows to obtain water of the required quality with increased salinity of source water (up to 5000 mg / l), while preventing salt deposition in reverse osmosis membranes and as a result prolongs the service life membranes.

The claimed utility model includes a block of thin layer settling. It is here that the source water is cleaned from the sludge, algae and other organic matter contained in them, which makes it possible for all the elements of the plant to function without clogging and fouling with the organic content of the source water. Under the action of reagents in a thin-bed settling tank, primary disinfection and clarification of water and sedimentation take place.

The first section of the thin layer sedimentation unit - the thin layer sedimentation chamber - is necessary for the intensive separation of the bulk of suspended solids, sludge and oil products. The introduction of parallel plates in the living section of this chamber allows you to effectively use its volume by uniformly distributing the flow of water, which reduces the time of settling by 60%. At the same time, in the second section, a filtering chamber consisting of inert loading of different fractions and a supporting layer of quartz gravel, a deeper clarification of water occurs. It also uses the dosing means for disinfecting water, oxidizing dissolved iron, manganese, residual organic compounds and prolonging the service life of the filter loading pressure filters.

The inventive solution also contains a sorption unit that removes the residual content of suspended solids, hardly soluble hydroxides and complex metal compounds resulting from the treatment of clarified water with water decontamination agent from the water.

Use in the proposed utility model membrane filtration system - in the form of a reverse osmosis unit - is necessary for maximum water purification from salts, heavy metal ions, as well as removal of organic molecules. Under the action of pressure, greater than osmotic, applied from the side of the separated solution, only water passes through the semipermeable membranes and a filtrate or permeate is formed, and 95-99% of ions and other solutes are trapped by the membrane and form a concentrate discharged from the plant.

The technical result achieved by the claimed utility model is to clean the source water taken from any source of water supply to a level that meets sanitary standards.

The proposed solution is illustrated in FIG. 1, which shows the installation of water purification, as well as a table reflecting the receipt of the desired result - purified source water to the level of drinking.

A mobile water treatment station mounted inside a heated van body (not shown in the figure) mounted on a high-traffic auto chassis contains a pump for collecting water 1 connected to the source water supply pipeline 2 with coagulant dosing units 3, flocculant 4, disinfection means water 5 and a reagent that prevents the deposition of salts 6. The specified pipeline is connected to the block thin-layer sedimentation 7, as well as pumping equipment 8, which supplies water to the sorption unit, including sand filters 9 and coal th filter 10. These filters are connected to a reverse osmosis plant 11, the ultraviolet setting 12 and the purified water tank 13.

Declared mobile water treatment plant operates as follows. For the intake of water using the pump 1 - drainage or self-priming centrifugal. At the same time, with a surface open source, a drainage pump with a mesh that delays large mechanical inclusions is installed on the floating pontoon. When drawing water from an underground source uses a centrifugal self-priming pump, and the pump capacity is 3 cubic meters. m / h, the water pressure in the system is 3 bar.

The source water extracted by pump 1 through the source water supply pipeline 2 enters the thin layer sedimentation unit 7, where it is processed by means of coagulant dosing units 3, flocculant 4, water disinfectant 5, for example, sodium hypochlorite, reagent that prevents salt deposition 6, for example, antiscalant . At that, the thin layer sedimentation unit 7 contains three sections: a thin layer sedimentation chamber, a filtering chamber consisting of inert loading of different fractions and a supporting layer of quartz gravel and a pumping chamber in which a submersible pump is installed that supplies water to pressure filters (not shown in fig.) .

After processing and settling of water in the block of thin-layer settling 7 water through pumping equipment 8 is fed into the sorption unit, which includes sand filters 9 and a coal filter 10. Water washing of the filtering material from the clean water tank is periodically held. When washing the filters 9 and 10, the upward movement of the water creates a fluidized bed, the grains of the expanded filter material collide with each other, the contaminants detained by them are scrubbed and enter the wash water, which is removed outside the water treatment plant. After that, water is supplied to the reverse osmosis unit 11, where it is maximally purified from salts, heavy metal ions and organic molecules. After that, the water is fed to the disinfection by means of ultraviolet installation 12, after which it enters the clean water tank 13 and then in gravity mode to the consumer.

The data in the table indicate that the claimed solution has a high efficiency of water purification from various pollutants.

Thus, the claimed utility model allows you to clean the source water taken from any kind of source to a level that meets sanitary standards.

Claims (1)

Mobile water treatment plant mounted inside a heated van body mounted on a high-traffic auto chassis, containing series-connected means for water intake, reagent treatment unit, sorption unit, membrane filtration system, ultraviolet installation and purified water tank, characterized in that it additionally includes a thin layer sedimentation unit installed in series behind the water intake means.

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