RU2652705C1 - Water purification and disinfection unit - Google Patents

Abstract

FIELD: technology of water and air purification.

SUBSTANCE: invention relates to technology of cleaning and disinfecting water from naturally heavily polluted sources. Water purification and disinfection unit comprises a water pre-filter, an inlet of which is connected to a source of source water and an outlet of which is connected to a contact vessel, to which the ozone source is connected, and by the output of the ozone treated water the contact vessel is contacted with an ultrafiltration module with an ultrafiltration membrane installed therein, and by the outlet of the purified water, the ultrafiltration module is communicated with a reverse osmosis module, wherein the contact vessel is provided with an ozone treated water supply pump and an ejector whose nozzle is connected to the outlet of the ozone treated water supply pump, the ejector is connected to the contact vessel in the zone, below a predetermined water level in the contact vessel, wherein the contact vessel is connected to an ozone source through the ejector, which is communicated with the ozone source by the inlet to its mixing chamber, ultrafiltration module is connected by its inlet to outlet of the ozone treated water supply pump from the contact vessel through the ozone treated water supply pipeline, at the latter in series, in the course of the ozone treated water, a check valve and an ozone-treated water supply control valve are installed, cavity of the ultrafiltration module in front of the ultrafiltration membrane through the discharge valve is connected with the sewage system, and the cavity after the ultrafiltration membrane is connected via a second check valve and a regulator of the ratio of desalted and non-desalted water to the storage tank and through the charcoal filter and bypass valve to the inlet of the purified water supply pump, latter, by its output, is connected to a reverse osmosis module that is connected to the storage tank and a water outlet of 38 to 42 % (volume) from the water fed to the reverse osmosis and not through the reverse osmosis membrane with concentrated impurities in it, communicated via the discharge valve with a sewage system, through a third check valve – with the inlet to the reverse osmosis module and via a stop valve – with a vessel of reagents for washing the reverse osmosis membrane, which is connected via a washing pump to the inlet to the reverse osmosis module, and the ultrafiltration module, by the purified water outlet, is connected to the intermediate storage tank with a washing pump.

EFFECT: increased depth of water purification with the possibility of obtaining water at the outlet of the unit that meets the requirements for drinking water.

1 cl, 1 dwg

Description

The invention relates to techniques for cleaning and disinfecting water from naturally heavily contaminated sources and can be used for cleaning and disinfecting to obtain drinking water and for other purposes where it is necessary to use purified water from impurities.

A known installation for water purification, containing a reaction chamber of ozone connected to the output of the aeration unit by air of purified water, which is connected to a biological filter by the output, and the latter is connected to an ultrafiltration device, which is connected to a reverse osmosis filter device by the output of purified water (see JP patent No. 7-185546, CL C02F 1/44, publ. 07.25.1995).

However, this installation does not provide the required cleaning depth, which narrows the scope of its use.

Closest to the invention in terms of technical nature and the achieved result is a water purification and disinfection unit, comprising a water pre-filter, connected by an input to a source of source water and an output to a contact tank to which a source of ozone is connected, and a contact tank connected to the output of water treated with ozone an ultrafiltration module with an ultrafiltration membrane installed in it, and the ultrafiltration module is in communication with the reverse osmosis module with the outlet of purified water (see Awning RU №2404140, cl. C02F 9/04, publ. 20.11.2010).

However, this installation is intended for the treatment of recycled water for its subsequent use in the technological cycle at non-ferrous metallurgy enterprises or for dumping used water onto the terrain, which limits the possibility of using this installation.

A technical problem is the expansion of the possibilities of using the installation for cleaning and disinfecting water.

The technical result consists in the possibility of increasing the depth of water purification with the possibility of obtaining water at the outlet of the installation, which meets the requirements for drinking water.

This problem is solved, and the technical result is achieved due to the fact that the water purification and disinfection unit contains a water pre-filter connected to the input source of water and the output to the contact tank to which the ozone source is connected, and the contact capacity is communicated by the output of the ozone-treated water with an ultrafiltration module with an ultrafiltration membrane installed in it, and the outlet of purified water, the ultrafiltration module is in communication with the reverse osmosis module, while the contact The capacity is equipped with an ozone-treated water supply pump and an ejector, the nozzle of which is connected to the outlet of the ozone-treated water supply pump, the ejector is connected to the contact capacity in the zone below the specified water level in the contact capacity, while the contact capacity is connected to the ozone source through the ejector, which communicated with the ozone source by entering its mixing chamber, the ultrafiltration module is connected by the input to the outlet of the ozone-treated water supply pump from the contact tank through the feed pipe water ozone, and on the last in the course of the ozone-treated water, a check valve and a control valve for supplying ozone-treated water are installed, the cavity of the ultrafiltration module in front of the ultrafiltration membrane is connected to the sewage system through the discharge valve, and the cavity after the ultrafiltration membrane is connected through the second non-return valve and the ratio regulator demineralized and not demineralized water to the storage tank and through a charcoal filter and a bypass valve to the inlet of the feed pump purified in On the other hand, the latter is connected by an output to the reverse osmosis module, which is connected by the output of permeate to the storage tank and the output of water, constituting from 38 to 42% (volume) of water supplied to the reverse osmosis and not passed through the reverse osmosis membrane with impurities concentrated in it, communicated through a waste tap with sewerage, through a third non-return valve - with an entrance to the reverse osmosis module and through a stopcock - with a reagent tank for flushing the reverse osmosis membrane, which is connected to the inlet by a washing pump a reverse osmosis module, and output module ultrafiltration purified water is connected to the intermediate collecting vessel with the washing pump.

The drawing shows a schematic diagram of an installation for cleaning and disinfecting water.

Installation of water purification and disinfection contains a pre-filter of water 1, connected by the input to the source of the source water and the output through the electromagnetic valve 2 to the contact tank 3, to which the ozone source is connected (not shown in the drawing). The contact capacity 3 is connected to the ultrafiltration module 4 with an ultrafiltration membrane (not shown in the drawing) installed by the output of ozone-treated water, and the ultrafiltration module 4 is connected to the reverse osmosis module 5 (RO module in the drawing) by the outlet of purified water.

The contact tank 3 is equipped with a pump 6 for supplying ozone-treated water and an ejector 7, the nozzle of which is connected to the outlet of the pump 6 for supplying ozone-treated water, with an outlet the ejector 7 is connected to the contact tank 3 in the zone of the water level in the latter, but below the water level. The contact tank 3 is connected to the source of ozone through an ejector 7, which is in communication with the source of ozone by entering its mixing chamber (not shown in the drawing).

The ultrafiltration module 4 is connected by the inlet to the outlet of the pump 6 for supplying ozone-treated water from the contact tank 3 through a pipeline 8 for supplying ozone-treated water, and a check valve 9 and a regulating valve 10 for supplying ozone-treated water are installed in series with the last one treated with ozone.

The cavity of the ultrafiltration module 4 in front of the ultrafiltration membrane is connected through the drain valve 11 to the sewer, and the cavity after the ultrafiltration membrane is connected through the second check valve 12 and the regulator 13 for the ratio of demineralized and non-demineralized water to the storage tank 14 and through the charcoal filter 15 and the bypass valve 16 to the inlet pump 17 for the supply of purified water, the latter being connected to the reverse osmosis module 5, which is connected to the storage tank 14 by the permeate output and a water output of about 40% from water supplied to the reverse osmosis and not passing through the reverse osmosis membrane with impurities concentrated in it, it is communicated through a waste valve 18 with sewage, through a third non-return valve 19 with an entrance to the reverse osmosis module 5 and through a shut-off valve 20 with a reagent capacity 21 for flushing the reverse osmosis membrane, which is connected to the inlet of the reverse osmosis module 5 through the washing pump 22 and the ultrafiltration module 4 is connected to the intermediate storage tank 23 with the washing pump by the outlet of purified water.

Installation works as follows.

The source water passes through a water pre-filter 1, for example, a strainer, and enters through a solenoid valve 2 into a contact tank 3. The volume of the contact tank 3 is calculated so that it has contact with ozone for at least 20 minutes. The predetermined water level in the contact tank 3 is maintained by means of a sensor piezo, a control unit (not shown in the drawing) and a solenoid valve 2. When the water level in the contact tank 3 rises above the ejector 7, the ozone-treated water pump 6 is turned on, taking water from the contact containers 3 and feeding it into the nozzle of the ejector 7 and thus form the circulation of the source water through the ejector 7. In the ejector 7, the water is mixed with an ozone-air or ozone-oxygen mixture, which oxidizes all oxidizable impurities and similar water. Thus, after the ejector 7, the source water returns to the contact tank 7, completing the circulation circuit. By means of the supply pipe 8 for ozone-treated water, part of the ozone-treated water from its circulation circuit is drawn through a non-return valve 9 and a control valve 10 for supplying ozone-treated water to the ultrafiltration membrane of the ultrafiltration module 4. The non-return valve 9 serves to prevent water from entering the contact tank 3 during washing ultrafiltration membrane, and by means of an adjustment valve 10, the ratio of the amount of water supplied to the ultrafiltration membrane to the amount water going to ozone re-treatment in the contact tank 3, while the control valve 10 is adjusted so that water with completely oxidized substances dissolved in water enters the ultrafiltration membrane. In the ultrafiltration module 4, all colloidal particles with a size of more than 0.01 μm are retained, as a result of which a deep purification of the initial ozone-treated water from dissolved and suspended, organic and inorganic substances is achieved. Due to the fact that water saturated with ozone enters the ultrafiltration membrane, organic mucus does not form on it and siltation does not occur.

During operation of the installation, periodic pulsed backwashing of the ultrafiltration membrane with pure water is carried out, which is carried out as follows.

The pump 6 for supplying ozone-treated water is turned off and the vent valve 11 of the ultrafiltration membrane is opened, and then the washing pump is turned on and clean water is supplied under pressure to the pores of the ultrafiltration membrane, and all colloidal particles larger than 0.01 μm are discharged into the sewer through the waste faucet 11. Flushing takes place after 2-10 min of operation of the installation during its operation for 10-25 s. The impurity concentrate, which did not pass through the ultrafiltration membrane, in an amount of 0.6-20% (this percentage depends on the chemical composition of the source water) from the flow of purified water, goes into the sewer during washing.

In large installations, after washing, part of the purified water is fed into an intermediate storage tank 23 with a washing pump, which stores a stock of decontaminated clean water at the required pressure and due to which the next backwash of the ultrafiltration membrane of the ultrafiltration module 4 is carried out.

Further, to reduce the salt content of water, after ozone-ultrafiltration treatment and disinfection, water is supplied through a charcoal filter 15 to the reverse osmosis module 5. Charcoal filter 15 allows you to remove residual ozone from the water that has dissolved in water. Next, the water stream is divided into two streams. The first stream of water is fed into the storage tank 14, bypassing the reverse osmosis module 5, and the second stream is water, fed to the reverse osmosis module 5.

After the reverse osmosis module 5, permeate, which is about 60% of the amount of incoming water, is fed into the storage tank 14, and water with concentrated impurities (about 40% of the incoming amount of water), which did not pass through the membrane of the reverse osmosis module 5, is discharged into the sewer through the discharge valve 18, and the amount of demineralized water to the total amount of purified water is regulated by the regulator 13 of the ratio of demineralized and non-demineralized water.

The washing of the membranes of the reverse osmosis module 5 is carried out in manual mode, with a drop in productivity of more than 10%.

Flushing consists of two stages:

1. The mode of washing the membranes with citric acid, when a citric acid solution is supplied from the reagent tank 21 to flush the membrane of the reverse osmosis module 5 by means of a pump 22 into the reverse osmosis module 5.

2. The mode of washing the membranes from acid, which is carried out purified from impurities by water.

After washing, citric acid is fed back to the reagent tank 21.

When there is no consumption of purified water and the storage tank is full, the unit goes into standby mode.

Claims (1)

A water purification and disinfection installation, comprising a water pre-filter, connected by an input to a source of source water and an output to a contact tank to which an ozone source is connected, and the output of the water treated with ozone, the contact tank communicates with an ultrafiltration module with an ultrafiltration membrane installed in it, and an outlet The purified water ultrafiltration module is in communication with the reverse osmosis module, characterized in that the contact tank is equipped with a pump for supplying ozone-treated water and a torus, the nozzle of which is connected to the output of the ozone-treated water supply pump, the ejector is connected to the contact capacity in the zone below the specified water level in the contact capacity, while the contact capacity is connected to the ozone source through the ejector, which is connected to the ozone source by the entrance to its mixing chamber The ultrafiltration module is connected by the input to the outlet of the ozone-treated water supply pump from the contact tank through the ozone-treated water supply conduit, the latter being sequentially processed With a water ozone, a non-return valve and a control valve for supplying ozone-treated water are installed, the cavity of the ultrafiltration module in front of the ultrafiltration membrane is connected to the sewage system through the drain valve, and the cavity after the ultrafiltration membrane is connected through the second non-return valve and the regulator of the ratio of demineralized and demineralized water to the storage tank and through coal a filter and a bypass valve to the inlet of the purified water supply pump, the latter being connected to the reverse osmosis module, which the permeate outlet is connected to the storage tank and the water outlet is 38 to 42% (vol.) of the water supplied to the reverse osmosis and which has not passed through the reverse osmosis membrane with impurities concentrated in it; it is communicated through a drain valve with sewage, through a third non-return valve - with an entrance to the reverse osmosis module and through a stopcock - with a reagent tank for flushing the reverse osmosis membrane, which is connected to the inlet of the reverse osmosis module through a washing pump, and the ultrafiltration module is ischennoy water is connected to a rinsing pump intermediate storage capacitance.

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