RU2606991C1 - Mobile water treatment plant - Google Patents

Abstract

FIELD: water treatment.

SUBSTANCE: invention relates to water treatment and, in particular, to process equipment, enabling to obtain drinking water, extracted from natural sources, containing all types of contaminations seen in surface and underground (artesian) water and falling in said sources as a result of natural and manmade disasters. Mobile water treatment plant comprises installed in sequence and communicated with each other via pipelines working equipment, including centrifugal multi-stage pump, mechanical water cleaning unit, unit of ultrafiltration apparatus, filter for adsorption purification of water, filtrate tank and ultraviolet disinfection unit, wherein mechanical water cleaning unit is equipped with feedback with unit of ultrafiltration apparatus and for continuous operation is provided with two parallel mechanical purification filters, and for cleaning of ceramic membranes of unit of ultrafiltration apparatus filtrate tank unit feedback with additional centrifugal multi-stage pump is communicated with filtrate output of unit of ultrafiltration apparatus, wherein pipeline for communication of filter for adsorption purification with filtrate tank is connected a flow meter, and ultraviolet disinfection unit is equipped with a quartz lamp.

EFFECT: higher efficiency of water treatment.

1 cl, 1 dwg

Description

The invention relates to the field of water purification and, in particular, to technical equipment that provides the ability to obtain drinking water produced from natural sources containing pollution of all kinds found in surface and underground (artesian) waters and falling into these sources as a result of natural and man-made disasters .

A known method of purification of natural water and installation for its implementation, which consists in processing the source water at the main facilities, including treating the water with a reagent, volume coagulation, clarification, filtering, supplying clean water to the consumer, supplying washing water to the averaging tank, removing sediment as it is accumulation from the averaging tank, characterized in that the washing water from the averaging tank is sent to a special additional mixer for processing with aluminum oxychloride, and volumetric coagulation and lighting is performed in a dedicated block of the main structures horizontal settler more washing water is filtered at the fundamental structures rapid filters and clean water is sent to the consumer. According to the second embodiment, the method of purifying natural water, which consists in treating the source water at the main facilities, including reagent water treatment, volume coagulation, clarification, filtering, supplying clean water to the consumer, flushing water to the averaging tank, removing sediment as it accumulates from averaging tank, characterized in that the washing water from the averaging tank is sent to a special additional mixer for processing with aluminum oxychloride, and volumetric coagulation, clarification and filtering the wash water is performed on the selected and highlighted horizontal decanter near the filter core structures, and the purified washing water is sent to the consumer, secondary washings after washing dedicated fast filter is directed into the reservoir averager wash water.

According to the third embodiment, the method of purifying natural water, which consists in treating the source water at the main facilities, including reagent water treatment, volume coagulation, clarification, filtering, supplying clean water to the consumer, flushing water to the averaging tank, removing sediment as it accumulates from averaging tank, characterized in that the washing water from the averaging tank is sent to a special additional mixer for processing with aluminum oxychloride, and volumetric coagulation is clarified e and filtering the wash water is carried out on the selected horizontal sump and dedicated quick filter of the main facilities, the clean wash water is sent to the tank of cleaned wash water and then to the quick filter wash of the main and dedicated facilities, the secondary wash water after washing the dedicated quick filter is sent to the averaging tank wash water (US Pat. RF No. 232054, CL C02F 1/00, 03/27/2008). The disadvantage of the proposed technical solution is that the design of the equipment for implementing the proposed method is unnecessarily material-intensive.

A known method of activating a fluid, including exposure to water by a physical factor, uses longitudinal electromagnetic waves, acoustic waves of pre-ultrasonic and ultrasonic frequencies that arise during hydrodynamic cavitation under the conditions of turbulent movement of water masses or solutions along one or more circles relative to the activated fluid, which are used as a physical factor: can be located in a vessel (periodic activation) or in a pipeline (continuous activation), (RU No. 2333155, class C02F 1/36, 09/10/2008).

The disadvantages of this method are low productivity (the height of the liquid in the vessel should be 1 cm) and the efficiency of the activation process due to their structural and technological disadvantages that do not take into account the features of the contactless activation process.

A known method of water treatment, including purification of water from mechanical impurities and dissolved pollutants, its irradiation with light in the ultraviolet region of the spectrum, characterized in that to saturate water with active dissolved oxygen, its irradiation with light in the ultraviolet region of the spectrum is produced in batches, then the irradiated water is passed through a disintegrated unclassified mineral material consisting of quartz sand and clay-containing mineral complex, and provide a hydrogeological regime igratsii water, corresponding spring waters forming conditions, wherein light irradiation in the ultraviolet region of the spectrum, and passing through the unclassified disintegrated mineral material of each portion is performed repeatedly (RU №2278830, Cl. C02F 9/04, 27.06.2008). The disadvantages of this method: reproduced only one of the complex processes of groundwater formation - infiltration through soils containing soluble components (chlorides, sulfates, carbonates). In nature, water is preliminarily (in the form of drops of precipitation) irradiated with ultraviolet rays and saturated with active oxygen. Water is not activated in this method as in a natural source when it falls from the soil layer into an aquifer consisting of sparingly soluble clastic material. Migrating in this layer for a long time, water is divided into unequal microjets, forming clusters of water molecules in the surface layer, and is saturated in microdoses with silicon, iodine, selenium, etc. After passing through the soil, water partially dissolves not only mineral complexes, but also organic ones. which are naturally sorbed by clay minerals in the soil and roof of the aquifer. In the same method, such protection against organic matter is not provided.

A known water purifier containing means for supplying purified water, an electric purification unit and means for outputting purified water, characterized in that it further comprises a coarse purification unit configured to retain mechanical impurities larger than 20 microns, a fine purification unit configured to detain mechanical and colloidal contaminants larger than 5 microns in size, a flocculation chamber configured to allow the treated water to remain in it for at least 4 minutes, a UV processing and electrical unit ktrichesky unit, wherein the electrical unit is designed as a cleaning unit electrocoagulation with plate electrodes made of aluminum and / or alloys thereof and having a common area of contact with the cleaning water 1 m ² flow 0.5-1.5 m ³ / h, the output of the electrical unit is connected to the terminals of the UV processing unit and to the electrodes of the electrocoagulation unit with the possibility of supplying voltages up to 20 V to the electrodes of the electrocoagulator unit while ensuring the polarity of the electrodes is changed for at least 30 s, the output of the purified water supply means is connected to the input of the coarse block, the output of the coarse block is connected to the input of the electrocoagulation block, the output of the electrocoagulation block is connected to the input of the flocculation chamber, the output of the flocculation chamber is connected to the input of the fine block, the output of the fine block is connected to the input of the UV processing unit, the output of the UV processing connected to the output means of the purified water. Coarse cleaning blocks, an electrocoagulator, fine cleaning and UV processing, as well as a flocculation chamber, are installed in a single housing. Means of supplying purified water and removal of purified water are made in the form of fittings mounted on the housing, each of these means contains means for regulating the flow of water. The electrical unit contains a step-down transformer, an AC voltage rectifier and means for switching polarity on the electrodes of the electrocoagulator unit. The purified water supply means is configured to supply water at a speed of 200-400 l / h, in the lower part of the electrocoagulator block and / or in the flocculation chamber, controlled drains are installed to remove impurities, a set of screens and / or a volume filter are used as a coarse filter, as a fine filter used cartridge filter element.

In the UV block, a 6-20 W UV source was used (RU No. 2171787, class C02F 1/18, 08/10/2001). The disadvantage of the proposed invention is that the equipment used in it is unnecessarily complicated in design and not efficient enough in operation.

The closest technical solution is the method of preparing drinking water and an installation for its implementation, including electrochemical anodic oxidation, catalytic oxidation of organic impurities and cathodic reduction, titanium dioxide is used as a catalyst, the process is carried out at a current density at the anode greater than the current density at the cathode and water when pumping from the anode chamber to the cathode is subjected to a magnetic field. A potable water preparation unit containing a mechanical filter, an electrolyzer consisting of an anode and cathode chambers separated by a nanoselective membrane and connected by a pipe for pumping water from the anode chamber to the cathode, a direct current source and a sorption filter, while the apparatus is equipped with an annular magnet mounted concentrically to the pipeline the pipeline is made of non-magnetic material, the anode and cathode are made of titanium, part of the surface of the anode has an electrically conductive anticorrosive coating, and the area of the anode section having this coating is smaller than the cathode area, the anode conductive anticorrosive coating is made of cobalt oxide and manganese dioxide, the anode conductive anticorrosive coating has a spiral shape, and the installation is equipped with an annular permanent magnet with magnetic induction 100 200 mT (RU No. 21095959, class C02F 1/46, 02.20.1998). The disadvantage of the proposed technical solution is the lack of efficiency and limited functionality of water treatment.

The technical task of the proposed invention is to expand the functionality and increase the cleaning efficiency, primarily due to the fact that the installation is compact, it is made in the form of separate compatible modules, as well as in container design, convenient for transportation by various modes of transport, and is intended for receiving drinking water from natural surface and underground sources in areas of emergency and natural disasters associated with natural disasters, it is intended for purification water from solid, dissolved organic compounds (including petroleum products), minerals (including heavy metal radionuclides), microorganisms. At the same time, the treated water is disinfected first through ceramic membranes that trap pathogenic microflora, including Escherichia coli, and then by control ultraviolet radiation, which destroys all types of microorganisms, both vegetative and spore-forming.

The technical problem is ensured by the fact that the mobile water treatment plant comprises working equipment installed in a technological sequence and connected by pipelines, containing a centrifugal multistage pump, a mechanical water purification unit, an ultrafiltration unit, an adsorption water purification filter, a filtrate tank and an ultraviolet disinfection unit, the mechanical water purification unit is equipped with feedback with the ultrafiltration unit and for continuous operation made with two parallel mechanical cleaning filters, and for cleaning ceramic membranes of the block of ultrafiltration apparatuses, the filtrate capacity by feedback with an additional centrifugal multistage pump is communicated with the output of the filtrate of the block of ultrafiltration apparatuses; moreover, a flowmeter is connected to the adsorption purification filter communication pipeline with the filtrate capacity, and the ultraviolet block the disinfection is equipped with a quartz lamp.

The invention is illustrated in the drawing, where in FIG. 1 is a plan diagram of a mobile water treatment plant.

A mobile water treatment plant contains working equipment installed in a technological sequence and interconnected by pipelines 1, containing a centrifugal multistage pump 2, a mechanical water purification unit 3, an ultrafiltration unit 4, an adsorption water purification filter 5, a filtrate capacity 6, and an ultraviolet disinfection unit 7, this unit mechanical cleaning of water 3 is equipped with a feedback 8 with the unit of ultrafiltration apparatus 4 and for continuous operation is made with two parallel mechanically cleaned filters 9, 10, and for cleaning ceramic membranes of the unit of ultrafiltration apparatus 4, the filtrate capacity 6 has a feedback 11 with an additional centrifugal multistage pump 12 connected to the output of the filtrate of the unit of ultrafiltration 4, and in the adsorption purification filter communication pipeline 5 with the filtrate capacity 6 a flow meter 13 is connected, and the ultraviolet disinfection unit 7 is equipped with a quartz lamp 14.

The installation is equipped in such a way that, using a three-stage cleaning scheme and a disinfection unit, to receive drinking water from natural sources containing pollution of all kinds found in surface and underground (artesian) waters and falling into these sources as a result of natural and man-made disasters.

Water is pumped sequentially through a pump 2 through one of the mechanical filters 9 or 10, devices with ceramic membranes of the ultrafiltration unit 4 (FUV), an adsorption filter 5 and an ultraviolet disinfectant 7.

During the operation of the installation, the concentrate formed in the BUF apparatus is returned for repeated purification from mechanical impurities to the filter 9 or 10, and the filtrate is sent to the adsorption filter 5, for purification from organic impurities.

Control protection against viral and bacterial infection of purified water, which works for a long time without disassembling the adsorption filter, is carried out by an ultraviolet disinfectant 7. It uses a quartz lamp with a wavelength of 253.7 nm, which destructively affects all types of microorganisms, including spore-forming ones. Disinfected water is sent to consumable containers 6 (2 pcs.).

To ensure continuity of operation, two parallel filters of mechanical cleaning 9 and 10 are installed: when the resource of one filter is depleted, the second filter is switched to work. A dirty cartridge is rinsed or replaced with a new one.

The performance of purified water is measured by a flow meter (rotameter 13). The ceramic membranes of the BUF are cleaned of sediment automatically (taking into account the contamination of the source water) with the filtrate flow in the opposite direction. The filtrate from tanks 6 under the necessary pressure, controlled by a pressure gauge, is fed into the outlet outlet of the BUF filtrate by pump 12 without turning off pump 2 with the solenoid valve open to drain the wash water.

Depending on the properties of the contaminated water, its purification can be carried out during the operation of the BUF in both flowing and deadlock modes (in the absence of return of the concentrate). In the second case, the pollution load of the filter cartridge is reduced. The main mode of operation is the flow mode.

Claims (1)

A mobile water treatment plant, characterized in that it contains working equipment installed in a technological sequence and interconnected by pipelines, comprising a centrifugal multistage pump, a mechanical water purification unit, an ultrafiltration unit, an adsorption water purification filter, a filtrate tank and an ultraviolet disinfection unit, the mechanical water purification unit is equipped with feedback with the ultrafiltration apparatus unit and for continuous operation is made with thinking about the installed mechanical cleaning filters, and for cleaning ceramic membranes of the block of ultrafiltration apparatuses, the filtrate capacity is feedbacked with an additional centrifugal multistage pump with the output of the filtrate of the block of ultrafiltration apparatuses; moreover, a flow meter is connected to the adsorption purification filter piping connection to the filtrate tank, and the ultraviolet disinfection unit is equipped with quartz lamp.

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