UA139136U - MOBILE DRINKING WATER TREATMENT PLANT - Google Patents

Abstract

The mobile installation for drinking water treatment is made in the form of an insulated van mounted on the highway, in which the equipment is mounted and connected by pipelines in the technological sequence, which includes a mechanical water treatment unit, a deep water treatment module, a storage tank, a UV disinfection unit and a tool. dispensing water for consumption, the module of deep water purification includes a membrane filtration device and a sorption treatment unit, and a water intake device is connected to the inlet of the mechanical treatment unit. The deep purification module is additionally equipped with a water softening unit, the membrane filtration device is made in the form of a reverse osmosis unit, and the module equipment is connected in sequence - a sorption purification unit, a water softening unit, a reverse osmosis unit, before the storage tank a circulating pump is connected, and a tee is connected to its outlet, in which a means of distributing purified water to consumers is connected to the first outlet through a carbon filter, and a pipeline equipped with a means for mineralizing water and a second means of distributing purified water to consumers is connected to the second outlet.

Description

This useful model applies to equipment for the purification and preparation of water for human consumption, and more specifically, it applies to mobile installations for obtaining drinking water with a quality at the level of the requirements of SanpiN 2.1.4.1074-01 in places where there is no centralized water supply or there are no local (natural or created by people) sources of high-quality drinking water.

It is known that for the temporary provision of drinking water to groups of people in the field, or to individual objects that have accidentally lost the possibility of water supply from permanent sources, tankers are traditionally used, for example |1| "Method of delivery and storage of potable artesian water". However, with significant distances, roadlessness, adverse weather and possible car breakdowns, this is an inconvenient and rather expensive method. In addition, even well-prepared water loses its qualities during long-term delivery and storage and needs to be purified before use.

Mobile drinking water treatment plants are relatively low-power plants mounted on mobile (self-propelled or trailed) platforms that can be easily transported to the right place and quickly deployed in "field conditions" or in emergency situations to quickly solve drinking water supply problems . Such installations are necessary for military units temporarily located outside the bases of permanent deployment, or rescue and repair teams of the Ministry of Emergency Situations, engaged in liquidation of the consequences of emergency situations. Mobile installations for the preparation of drinking water can temporarily provide individual objects during the elimination of accidents in centralized water supply networks, as well as at objects of seasonal operation, such as summer recreation camps, food establishments on beaches, or summer recreation areas.

Since mobile installations use water of various origins, chemical composition and properties as input water, high demands are placed on their design in terms of versatility. In other words, these installations must provide quality drinking water both from surface sources, i.e. water from streams, rivers, lakes, ponds, and from underground sources, such as wells and boreholes, without reconfiguration.

From the state of the art, mobile installations for obtaining drinking water are known, for example (21 "Installation of complex water treatment universal mobile automated". Equipment

This installation is mounted in an insulated van body, mounted on a high-capacity chassis, and consists of water treatment, water treatment and automatic control and control modules. At the same time, the water treatment module includes as a means for water intake two water pressure pumps connected by water to an aeration column operating on ozone, which is dosed by a Venturi system connected to a membrane filtration system. This system is equipped with hollow fiber microfilters and ultrafiltration membranes and is connected to a storage tank. The water treatment module includes a sequentially installed storage tank with a dispenser for adding an inhibitor and biocide, a reverse osmosis purification system, a mineralizer and an ultraviolet lamp for antibacterial water treatment.

A significant drawback of the described installation is the use of consumables during operation (ozone, inhibitor and biocide), the stocks of which must be replenished in a timely manner. In addition, during the operation of the installation, it is necessary to ensure the coordinated operation of pumps and dispensers of three consumables, which requires a complex and reliable module for automatic management and control of all processes in the installation.

More perfect is a mobile complex water treatment station |Z), made in the form of serially connected pipelines, a water intake device, a membrane filtration unit equipped with hollow-fiber ultrafilters and sterilizing microfilters, a sorption unit, a water sanitation unit, containers for initial and filtered water, pumps for pressurized water supply from containers. At the same time, sterilizing microfilters are made on the basis of a positively charged membrane with a modified charge to remove viruses and endotoxins from water, and the molecular weight retained by ultrafilters does not exceed 30,000

Dalton. All the equipment of the station is mounted inside an insulated van body equipped with a heating device, and the van body is mounted on a heavy-duty chassis. At the same time, the containers for the source and filtered water are installed on the longitudinal axis of the van body so that there are passages for personnel between the containers and the walls of the van body, and all the equipment of the station is evenly distributed and mounted on the side surfaces of these containers.

The described mobile complex water purification station is able to effectively purify water based on any surface and underground sources. However, the lack of means of mechanical cleaning of the incoming water in front of ultrafilters and microfilters leads to the fact that the membranes of these filters quickly lose their efficiency, as they are quickly contaminated by mechanical impurities contained in the water and require frequent replacement or regeneration.

The closest among the known ones to the proposed installation for obtaining drinking water, in terms of technical essence and the achieved result, is a mobile water purification installation |4|, which includes working equipment installed in a technological sequence and interconnected by pipelines, which includes a water intake device based on a centrifugal multistage pump, mechanical water purification unit, fine water purification module, which includes a unit of ultrafiltration devices, an adsorptive water purification unit, a filtrate tank and a unit for ultraviolet disinfection of the source water, in the form of a UV lamp. All installation equipment is placed in a heat-insulated container mounted on a car chassis. At the same time, the unit of mechanical water purification is equipped with feedback 3 units of ultrafiltration devices and has two filters installed in parallel to ensure continuous operation. To clean the ceramic membranes of the ultrafiltration unit, the filtrate tank is connected by feedback to an additional centrifugal multistage pump with the filtrate outlet of the ultrafiltration unit. A flow meter is connected to the pipeline connecting the adsorption filter to the filtrate tank, and the ultraviolet disinfection unit is equipped with a UV lamp.

This installation, unlike the ones mentioned above, is equipped with a unit for mechanical cleaning of the incoming water, which provides protection of the membranes of the unit of ultrafiltration devices from their rapid clogging with mechanical dirt contained in the water. The disadvantage of the installation is that water of different origin and composition undergoes the same treatment, that is, deep cleaning and disinfection. At the same time, both harmful pollution and useful minerals are removed from the water. In the case of treatment of underground mineralized waters, the residual mineralization most often meets the requirements for drinking water and can be directed to consumption without problems, and in the case of treatment of surface water (from rivers, ponds, lakes), the residual mineralization of water is lower than the level required for drinking water. Such water must be additionally treated by mineralization before use.

The purpose of the proposed useful model is to improve the known installation by expanding its functional capabilities to ensure the ability to obtain high-quality drinking water from both open and underground sources.

The task is solved by the fact that in a mobile installation for the preparation of drinking water, which is made in the form of an insulated van mounted on a car chassis, in which the equipment, which includes a mechanical water purification unit, a deep water purification module, is mounted and connected by pipelines in a technological sequence. a storage tank, a UfFf disinfection unit and a means of issuing water for consumption, while the deep water purification module includes a membrane filtration device and a sorption purification unit, and a water intake device is connected to the entrance of the mechanical purification unit, it is proposed to additionally equip the deep purification module with a water softening unit , the membrane filtration device should be made in the form of a reverse osmosis unit, and the equipment of the module should be connected in sequence - a sorption purification unit, a water softening unit, a reverse osmosis unit, at the same time, connect a circulation pump to the outlet of the storage tank, and connect to its outlet tee, which has up to the first ex ode through a carbon filter and a means of distributing purified water to consumers, and a pipeline equipped with a means for water mineralization and a second means of distributing purified water to consumers is connected to the second outlet.

The technical result of the proposed improvements is that the installation, together with deep cleaning and disinfection, provides correction of the mineral composition of the water and the level of its physical characteristics without significantly reconfiguring the operation of the devices and units of the installation.

The essence of a useful model is illustrated by drawings: Fig. 1. The diagram of the proposed installation is shown. In Fig. 2 The general view of the proposed installation is shown.

The proposed mobile installation for the preparation of drinking water includes a heat-insulated container 1, equipped with windows, doors and a means of heating and installed on a self-propelled or trailed platform, for example, on a car chassis (see Fig. 1). All the equipment of the installation is placed in the container, and through the walls of the container, the connector 2 for connecting the source of incoming water, the connectors for the output of ready-to-use drinking water, and the connector for removing the dirt removed from the water. The container is equipped with a connector for connecting to the external electrical network C and a connector for connecting to the internal electrical network of the car. A water intake device 4 and an inlet pump 5 are connected to the inlet fitting 2 of the installation using hoses. The proposed installation consists of 60 sequentially connected unit 6 of mechanical water purification, unit 7 of sorption purification, unit 8 of water softening, unit 9 of reverse osmosis, and storage capacity 10. The mentioned units of sorption purification, water softening and reverse osmosis form a deep water purification module. A circulation pump 11 is connected to the storage tank, and a tee 12 is connected to its outlet pipe. At the same time, a means of distributing purified water to consumers, of any known design for this purpose, is connected to the first outlet of the tee through a carbon filter 13 and pipeline 14, and to the second outlet of the tee pipeline 15 is connected, with water mineralizer 16 attached to it. The storage tank is equipped with a UV lamp 17 and a circulation pump 18, which are connected between the inlet and outlet pipes of this tank.

The proposed installation is equipped with water samplers 19 for rapid analysis, pressure gauges 20 installed at characteristic points of the installation, and shut-off fittings 21.

The sorption purification unit, the water softening unit and the reverse osmosis unit are equipped with drains 22, connected to the pipeline for the removal of dirt, which is removed from the water during the stages of its fine cleaning. The specified mineralizer 16 includes a container 23 with mineralizing additives for water and a pump-dispenser 24. All units of the installation are made of quick-removable and equipped with replaceable cartridges. The sorption purification unit is equipped with an activated carbon cartridge, and the water softening unit is equipped with a cation exchange resin cartridge, for example, "Ieuay 5 1567" brand. The reverse osmosis unit is equipped with a semi-permeable membrane, through the pores of which water is passed under pressure. The storage tank is made of food-grade plastic and is designed to store water that has already undergone purification at previous stages. As a filter for mechanical cleaning, it is advisable to use a filter equipped with a foamed polypropylene cartridge with a pore size of 20 microns, such as the "BB20" model.

The dosing pump, for example, the "ZeKo IMMIKTA 630" model, has analog control and is designed for metered supply of additives to the purified water pipeline. An ultraviolet radiation lamp, for example, "Eiegiidnie OA" model, together with a circulation pump, is connected between the inlet and outlet fittings of the storage tank and is designed to prevent the appearance of microflora in the water that is in this tank.

Before the start of work, the proposed installation is delivered to the designated place. At the same time, it is advisable to dismantle and transport the UV lamp before transporting the installation in conditions that exclude vibrations and shocks. After the installation is delivered and placed on the designated site, its equipment is connected to the electrical network C and to the source of incoming water, and the UV lamp is set to the working position. At the same time, the pump 5 and the water intake device 4 are connected with hoses to the connector 2 of the container. During the operation of the proposed installation, water from the intake device from a surface (see Fig. 2) or underground source is supplied by a pump to the pre-cleaning unit 6, which is a filter that cleans water from mechanical pollution.

When using a cartridge made of foamed polypropylene with a pore size of 20 microns, such as the "BB20" model, cleaning from sand, silt, rust, etc. is ensured in this unit. From the pre-treatment unit, water flows to the deep purification module, i.e. to the inlet of the sorption purification unit 7, equipped with an activated carbon cartridge, which removes chlorine, organic and chlor-organic compounds from the water, and also improves the taste, color and smell of water.

After that, the water enters the water softening unit 8, equipped with a cartridge with a cation exchange resin, for example, brand "I Yemaii 5 1567". Water softening is carried out by the method of ion exchange. At the same time, calcium and magnesium ions are exchanged for an equivalent number of sodium ions, as a result of which the hardness decreases without a significant change in the total salinity of the water. Thus, blocks 7 and 8 of the proposed installation provide water purification from free chlorine, organic substances, pesticides, residues of oil products, iron, heavy metals, correct the smell, color and taste, but at the same time, a significant amount of contamination by microorganisms, primarily viruses, remains in the water. That is why, after softening, the water enters the reverse osmosis block 9, which is equipped with a semi-permeable membrane, through the pores of which water is passed under pressure. By interacting with the ZO-membrane, the water is freed from bacterial and viral contamination and at the same time excess hardness salts and iron are removed from it. If the installation received water from underground sources, after being treated in the units of the deep purification module, it meets the regulatory requirements for drinking water in terms of its chemical composition and physical parameters (Phn level and ORP). This is due to the fact that water from underground sources often already meets the requirements for drinking water in terms of the content of dissolved mineral substances and the level of physical parameters and does not require correction. Thus, the water after the block with the ZO-membrane, which accumulates in the container 10, is completely usable. If the incoming water had an excessive salt content, then in the softening unit and in the reverse osmosis unit, the salt content is brought to the required level, and such water from the storage tank is sent to consumption through a carbon filter, where the pH level is corrected to 60. If the installation received water from surface sources that has a low salt content, after being treated in the deep purification module, the salt content in the water is reduced even more. The chemical composition of such water does not meet the requirements for drinking water and requires additional treatment. This is due to the fact that water from surface sources is mostly too "soft", that is, it contains few dissolved mineral substances that are necessary for the human body and must be present in drinking water. Thus, in the case of water treatment from surface sources, the water is additionally mineralized. For this purpose, a mineralizing solution is added to the pipeline 15 with a dosing pump 24 from the container 23. At the same time, the water is saturated with minerals and microelements and acquires the structure and taste of natural water and is consumed. To maintain the performance of the installation at the required level, the working properties of the blocks, which are gradually lost when interacting with water, are periodically restored. To do this, at a time convenient for water consumers, cartridges are regenerated or replaced.

The proposed facility for receiving drinking water fully meets the requirements for mobile installations, as it can be easily transported to a designated location and quickly deployed in the field. This installation provides deep cleaning of water from pollution, disinfection and correction of its chemical composition in accordance with the requirements of sanitary and hygienic standards. The installation is able to process water of various origins, chemical composition and properties equally successfully and without reconfiguration.

The proposed facility has a long term of reliable operation due to the protection of the reverse osmosis membrane from contamination and its loss of performance. It does not require consumables, except for mineralizing additives, and is easy to maintain.

Sources of information: taken into account: 1. USA 36672 according to IPC СО2 RI/32, СО2Е 1/50. 2. VO 2656049 according to IPC СО2Е 9/112, 2058 13/00, 1050 11/08; 3. VO 94570 according to IPC СО2Е 9/00; 4. B 2606991 according to IPC CO2 E 9/00 - analogue.

Claims (1)

USEFUL MODEL FORMULA Zo Mobile installation for the preparation of drinking water, which is made in the form of an insulated van mounted on a chassis, in which equipment is mounted and connected by pipelines in a technological sequence, which includes a mechanical water purification unit, a deep water purification module, a storage tank, a UV disinfection unit and means of issuing water for consumption, while the deep water purification module includes a membrane filtration device and a sorption purification unit, and a water intake device is connected to the entrance of the mechanical purification unit, which differs in that the deep purification module is additionally equipped with a softening unit water, the membrane filtration device is made in the form of a reverse osmosis unit, and the module equipment is connected in sequence - a sorption purification unit, a water softening unit, a reverse osmosis unit, while a circulation pump is connected to the outlet of the storage tank, and to its outlet a tee is connected, in which to the first output che a means of distributing purified water to consumers is connected to the carbon filter, and a pipeline equipped with a means for water mineralization and a second means of distributing purified water to consumers is connected to the second outlet.