RU2650169C1 - Water purification treatment plant with pulsed flushing of granular loading - Google Patents

Abstract

FIELD: technology of water and air purification.

SUBSTANCE: invention refers to the field of water purification and can be used in order to purify natural waters on filters with granular loading for domestic, drinking, industrial and agricultural water supply, as well as for sewage treatment. Water purification treatment plant with pulsed flushing of granular loading comprises at least one granular loading filter, upper and lower switchgears, pipelines for supplying water for cleaning, supplying rinsing water with the bend and pipelines for withdrawal of filtrate and washing water, locking devices with the drives that are installed on the water supply pipelines for cleaning, supply of washing water and withdrawal of filtrate, the filter operation control unit, and the pulsed water flushing generation unit with granular loading, which is installed at the bend of the flushing water supply pipeline and contains the pressure accumulator with the pressure switch, the pressure gauge and the switching module. Control unit is connected to the pulsed water flushing generation unit with granular loading and to the drives of the locking devices.

EFFECT: increased degree of regeneration of the filtering loading while reducing the flow of water for flushing.

6 cl, 5 dwg, 1 ex

Description

The invention relates to the field of water purification and can be used for purification of natural water on filters with granular loading for domestic, industrial, agricultural and water supply, as well as for wastewater treatment.

During the operation of filters with granular loading on the surface of grains and in intergranular free space, the impurities contained in the water being treated (natural or waste) and formed during the conversion of contaminants dissolved in water into insoluble (poorly soluble), released in the form of fine suspension, are retained. Over time, which is determined by the degree of contamination of the treated water, the filtration capacity of the granular load decreases, which leads to the need for its regeneration.

The efficiency of the filter units depends on the quality of regeneration of the granular filter loading. Poor-quality regeneration of the filter load negates the benefits of using new, effective filter materials and reagents used for water treatment.

Numerous options are known for intensifying the regeneration of the filter charge, including by various effects on it, for example, by ultrasound / RF Patent No. 2167694, B01D 24/46, 2001; RF patent No. 2163830, B01D 24/46, 2001 /.

The disadvantages of these methods of regeneration are large material, energy and labor costs at the same time as their low efficiency.

Improving the quality of washing the load while reducing the flow rate of washing water can be achieved by using the so-called pulsating (or pulsed) washing of the load / Overview TSBNTI Ministry of Land Reclamation and Water Management of the USSR "Flushing fast filters", M., 1981, No. 7, p. 37-41).

The increase in the effect of washing the loading grains from contaminants during the pulsating washing is due to the fact that during the expansion of the dense loading layer when the wash water is supplied and then sealed when the supply is stopped, the water flow rate in relation to the surface of the washed particles of the load increases, which enhances the cleaning effect, This separation of contaminants also occurs as a result of mutual friction of particles during these periods.

A device for clarification of natural and waste water, according to which the filter contains a housing with a filter load, a system of inlet and outlet pipelines and vibrators that are installed in the first layers of the filter load by the movement of filtered water / USSR Author's Certificate No. 376104, B01D 29/28, 1973 g. /. When washing the filter load, vibrators are switched on simultaneously with the supply of washing water. Vibrators contribute to the destruction and grinding of the sediment trapped in the filter load, and the flow of washing water directed from the bottom up through the entire thickness of the filter load, the destroyed and crushed sediment is carried out to the sewer.

The disadvantages of this device are the high construction costs, as well as the complexity of its operation associated with the placement of vibrators inside the filter, with insufficiently high efficiency.

Creating a pulsating flow of washing water by periodically turning the pump on and off is also impractical, since the starting mode contributes to the accelerated failure of the pumps.

A known installation containing a filter and a water tank with a supply pipe to the filter for washing water, on which a pulsator is installed - a device that creates pulsations of the washing stream, acting on the principle of blocking the pipe cross-section / Overview TSBNTI of the Ministry of Land Reclamation and Water Resources of the USSR "Flushing fast filters" , M., 1981, No. 7, p. 41 /.

The disadvantages of the known installation are limited functionality, since it can only be used when supplying water from a water tower or a tank mounted on an elevation, since the washing pumps in this mode are overloaded, as well as a large flow rate of washing water and poor quality of regeneration due to ineffective impact on the pollution of the granular filter load.

The technical problem consists in the creation of an installation of increased efficiency with an increased duration of the filter cycle by increasing the efficiency of restoring the sorption properties of the filter load during its regeneration.

The technical result from the use of the proposed installation is to increase the degree of regeneration of the filter load while reducing water consumption for washing.

The technical problem is solved, and the technical result is achieved due to the fact that the installation of water purification by filtration with pulsed washing of the granular charge contains at least one filter with granular charge, upper and lower distribution devices, pipelines for supplying water for cleaning, for supplying washing water with the outlet and pipelines for the filtrate and wash water outlet, shut-off devices with actuators installed on the pipelines for water supply for cleaning, for the supply of washing water and the outlet of the filtrate, control unit the operation of the filter and the pulsed water wash flow pulse generating unit installed on the tap of the wash water supply pipe and containing a hydraulic accumulator with a pressure switch, pressure gauge and switching module, and the control unit is connected to the pulsed water wash flow pulse generation unit of the granular load and actuators of locking devices.

In special cases, the pipelines for supplying water for treatment and for supplying washing water are combined.

It is preferred that a filter with a single inlet of a water supply for treatment and a rinse water supply is used.

In one embodiment, the filter is equipped with a multi-way valve, combined with a filter operation control unit, and a central vertical pipe connecting the lower switchgear to the multi-way valve, which also connects a single water supply for cleaning and flushing water and the upper distribution device.

Alternatively, a single inlet of a water supply for treatment and a rinse water supply is connected to a lower switchgear.

In the particular case, the installation contains two identical filters with granular loading.

The invention is illustrated by drawings.

In FIG. 1 shows a flow chart of a water treatment plant by filtration with a pulsed washing of a granular charge with water entering to be cleaned from above and washing water entering the filter from below;

in FIG. 2 - installation with pipelines for supplying water for cleaning and supplying washing water and a single input for supplying water for cleaning and supplying washing water through a multi-way valve mounted on top of the filter housing;

in FIG. 3 is the same as in FIG. 2 - installation with combined pipelines for supplying water for purification and supplying washing water and a single input for supplying water for purification and supplying washing water through a multi-way valve mounted on top of the filter housing;

in FIG. 4 - installation with pipelines for supplying water for purification and supplying washing water with a single input for supplying water for purification and supplying washing water through a lower filter distribution device.

in FIG. 5 is a diagram of an installation with two filters with granular loading identical to that shown in FIG. 2.

Installation of water purification by filtration (Fig. 1) contains a filter 1 with a layer of granular load 2 and a supporting layer of gravel 3, upper 4 and lower 5 distribution devices and a drainage device 6, a water supply pipe for cleaning 7 with a shut-off valve 8 installed on it, a flow meter 9 and a shut-off device with a drive 10 connected to the upper switchgear 4 of the filter 1, a water supply pipe for flushing 11 with a shut-off valve 12 installed on it, a flow meter 13, a shut-off device with a drive 14, a shut-off regulator with a regulating valve 15 and a manometer 16 is connected to the lower switchgear 5 of the filter 1, the outlet pipe of the washing water 17 is connected to the drainage device 6 of the filter 1, the outlet pipe of the filtrate 18 with a shut-off device mounted on it with a drive 19 is connected to the lower switchgear 5 of the filter 1, and at the outlet from the outlet line of the filtrate 18, a shut-off device with a drive 19a is installed for withdrawing the first filtrate (after washing the load), while the outlet from the pipeline 18 is connected to the outlet washing water 17.

At branch 20 of the water supply pipe for flushing 11, a pulse generating unit 21 for generating a water wash stream of a granular load 2 of filter 1 is installed, comprising a hydraulic accumulator 22, a pressure gauge 23, a pressure switch 24, and a switching module 25. The filter operation control unit 26 is connected by electrical circuits to the pulse generation unit 21 and actuators of locking devices 10, 19 and 19a.

Installation of water purification by filtration (Fig. 2) contains a filter 1 with a layer of granular charge 2 and a supporting layer of gravel 3, upper 4 and lower 5 distribution devices, equipped with a multi-way valve 27, combined with a control unit 26, and a central vertical pipe 28 connecting the multi-way a valve 27 with a lower distribution device 5, an upper distribution device 4 and a single input 29 for supplying water for treatment and for supplying washing water, a pipe 7 for supplying water for cleaning with a shut-off valve 8, a flow meter 9 and a shut-off device with a drive 10 renewed thereon, and a flushing water supply pipe 11 with a shut-off valve 12 mounted thereon, a flow meter 13, a shut-off device with a drive 14, a shut-off and control valve 15 and a pressure gauge 16 are connected to a single water supply inlet 29 for purification and filter water wash water supply 1, washing water outlet pipe 17 and filtrate outlet pipe 18 with a shut-off device with actuator 19 mounted thereon are connected to multi-way valve 27 of filter 1. To the outlet 20, from the water supply pipe for flushing 11, a pulse generating unit 21 for generating a water wash stream of a granular load 2 of filter 1 is installed, comprising a hydraulic accumulator 22, a pressure gauge 23, a pressure switch 24 and a switching module 25. The filter operation control unit 26 is connected by electrical circuits to the pulse generating unit 21 and actuators of locking devices 10 on the water supply pipe for cleaning 7 and 19 on the filtrate outlet pipe 18.

Installation of water purification by filtration (Fig. 3), in contrast to the installation option (Fig. 2), contains combined pipelines for supplying water for purification 7 and for supplying washing water 11.

In the installation of water purification by filtration (Fig. 4), in contrast to the installation option (Fig. 2), the water supply pipe for treatment 7 with a shut-off valve 8 installed on it, a flowmeter 9 and a shut-off device with an actuator 10, and a water supply pipe for flushing 11 s the shut-off valve 12 mounted thereon, a flow meter 13, a shut-off device with an actuator 14, a shut-off and control valve 15 and a pressure gauge 16 are connected by a single input 29 to the lower switchgear 5 of the filter 1.

The installation (Fig. 5) contains combined pipelines for supplying water for treatment 7 and for supplying washing water 11 and two identical filters with a granular charge.

Installation (Fig. 1) works as follows.

In the filtration mode, the water to be purified is fed through the water supply pipe for treatment 7 with a shut-off valve 8, a flow meter 9 installed on it, a shut-off device with a drive 10 in the upper distribution device (ASU) 4 of the filter 1, in which the water supplied to the treatment is freed from suspended contaminants in a downward movement through a layer of granular load 2 located on a supporting layer of gravel 3. Purified water (filtrate) is discharged through a lower switchgear (NRU) 5 and a fil 18 times with a locking device installed on it with a drive 19 in the tanks (tanks) of the treated water of the station (not shown in the diagram).

Based on the results of commissioning, in the control unit of the filter 26 lay a program that determines the operating modes of the filter 1 and their switching.

When the unit is switched to the load regeneration mode (according to the program of the filter operation control unit 26), the following occurs:

- cessation of water supply for purification and drainage of the filtrate (by closing, respectively, locking devices with a drive 10 and 19);

- inclusion in the operation of the pulse generation unit of the water wash stream 21 with the simultaneous supply of the purified water on the filter 1 through the wash water supply pipe 11, which is used as the wash water. In this case, the control circuit for the pulsed rinse water supply is activated according to the signals of the pressure switch 24 using a locking device with a drive 14.

The scheme works as follows. Upon receipt of the Flushing command from the control unit 26, the shut-off device 14 closes, and the pressure switch 24 is activated in a predetermined range of operating pressures: upper and lower, through which the shut-off device 14 is respectively opened and closed.

When the device 14 is closed (initially by the “Flushing” command), the flushing water enters only the accumulator 22, the pressure in it and in the flushing path (up to device 14) starts to increase, and when the pressure set by the pressure switch 24 reaches the upper value, the device 14 opens and through it the flow of wash water from the pipeline 11 and the flow of water from the accumulator 22 — with a decreasing flow rate — in accordance with a decrease in pressure to the lower value set by the pressure switch 24, enter the NRU 5 of filter 1. According to the signal from the pressure switch 24, when the lower set pressure is reached, the shut-off device 14 closes and the water stops entering the filter 1 - the impulse of the water wash flow of the granular load 2 has ended (there is a “pause”) and a new cycle begins - filling the hydraulic accumulator (until reaching the upper value of the set pressure ) and the subsequent impulse of the water washing stream (until the pressure drops to the lower set value). The washing cycles of the granular load 2 of the filter 1 are repeated until the duration of the loosening washing stage of the load is completed by the program of the control unit 26.

The duration of the stage of loosening washing granular load 2 is set by the program of the control unit 26 based on the results of commissioning.

Pulse flushing parameters (maximum and minimum water flow during a flushing flow pulse, flushing pulses and pauses between pulses) are set by selecting the accumulator volume, setting the operating pressure limit values (using pressure switch 24), and adjusting the flushing water flow rate with a shut-off and control valve 15 by flow meter 13.

The next stage of the regeneration of the granular charge 2 - washing of the load or the so-called discharge of the first filtrate is carried out under the control of block 26:

- the supply of washing water through the washing water supply pipe 11 is stopped (the washing pump or other device providing the supply of purified water to the washing is turned off) and the locking device with the drive 14 is closed;

- opens the shut-off device with a drive 10 - feed the source of purified water into the filter 1 through the ASU 4 with a closed shut-off device with a drive 19 on the outlet pipe of the filtrate 18; a locking device with a drive 19a is opened, through which the first contaminated filtrate is discharged into the wash water outlet pipe 17;

The installation in operation (water treatment mode) is carried out under the control of block 26 in the following order:

- opens the locking device with a drive 19 on the output pipe of the filtrate 18;

- closes the locking device with the drive 19a;

- the discharge of the filtrate into the sewer stops; purified water through the filtrate outlet pipe 18 enters the tank (tanks) of the treated water of the station.

Installation (Fig. 2) works as follows.

In the filtration mode, the water to be purified is fed through the water supply pipe for cleaning 7 with a shut-off valve 8, a flowmeter 9 installed on it, a shut-off device with a drive 10 in a single input of water for treatment and the supply of washing water 29 connected to a multi-way valve 27, through which the purified water is directed through the ASU 4 to the supercharge space of the filter 1 and further, moving down through the layer of granular load 2 located above the supporting layer of gravel 3, it is cleaned of suspended impurities. The purified water (filtrate) is discharged through the switchgear 5 through a central vertical pipe 28 through a multi-way valve 27 through the filtrate outlet pipe 18 with a locking device with a drive 19 installed on it (open in the filtration mode) and sent to the treated water tanks under residual pressure, of which an automatic pumping station (not shown in the diagram) is supplied to consumers.

When transferring to the load regeneration mode (according to the program of the filter operation control unit 26), the following occurs:

- the water supply for cleaning and filtrate removal is stopped (by closing, respectively, locking devices with a drive 10 and 19); the outlet of the multi-way valve 27 opens, with the wash water outlet pipe 17 connected to it;

- the pulse generation unit of the water wash stream 21 is turned on and simultaneously feeds purified water through the water supply pipe to the washing 11 after the filter 1, which is used as washing water.

In this case, the control circuit for the pulsed flushing water supply according to the signals of the pressure switch 24 is turned on using the shut-off device with the actuator 14 and the pulsed flushing of the load is carried out - similarly to the flushing described above in the installation (Fig. 1) for the time programmed in the control unit 26.

Washing of the load - the discharge of the contaminated first filtrate after washing the load occurs similarly to the commands of the control unit 26:

- the supply of washing water to the supply pipe of washing water 11 (closes the locking device with the actuator 14) when the closed locking device with the actuator 19 on the outlet pipe of the filtrate 18 and the open outlet for washing water to the pipe 17;

- the locking device with the actuator 10 opens - the purified water is supplied to the filter through the ASU 4 with the output of the first contaminated filtrate through the ASU 5 through the central pipe 28 to the multi-way valve 27 and then through the open outlet to the washing water outlet 17.

The installation in operation (water treatment mode) is carried out under the control of block 26 in the following order:

- opens the locking device with a drive 19 on the output pipe of the filtrate 18;

- closes the outlet of the multi-way valve 27 in the outlet pipe of the washing water 17; the discharge of the filtrate into the sewer stops; purified water through the pipeline output of the filtrate 18 enters the containers (tanks) of purified water.

Installation (Fig. 3) works as follows.

Compared with the installation (Fig. 2), in this installation, the water supply pipelines for cleaning 7 and the washing water supply 11 are combined; for washing, the original purified water is used - the same as that received for cleaning.

In the filtration mode, the water to be purified is supplied through a pipe 11 (7) with a shut-off valve 12, a flow meter 13 installed on it, a shut-off device with a drive 14 in a single inlet of a water supply for treatment and a rinse water supply 29 connected to a multi-way valve 27, through which water is directed through the ASU 4 into the supercharge space of the filter 1 and further, moving downward through the layer of granular load 2 located above the supporting layer of gravel 3, it is cleaned of suspended impurities. Purified water (filtrate) is discharged through the switchgear 5 through a central vertical pipe 28 and through a multi-way valve 27 enters the filtrate outlet pipe 18 with a shut-off device with a drive 19 installed on it (open in the filtration mode) and is sent to the treated water tank under residual pressure, of which an automatic pumping station (not shown in the diagram) is supplied to consumers.

When transferring to the regeneration mode of the granular load 2 (according to the program of the filter operation control unit 26), the following occurs:

- stops the flow of water for cleaning and drainage of the filtrate (by closing, respectively, locking devices with a drive 14 and 19); the outlet of the multi-way valve 27 opens with a wash water outlet pipe 17 connected thereto;

- the pulse generating unit of the water washing stream 21 is switched on to work with the simultaneous supply of the washing (initial purified) water through the washing water supply pipe 11.

In this case, the control circuit for the pulsed flow of washing water according to the signals of the pressure switch 24 is turned on using a shut-off device with a drive 14 and the pulsed flushing of the granular load 2 is carried out - similarly to the flushing in the installation described above (Fig. 2) during the time programmed in the operation control unit filter 26.

Washing washing - discharge of the contaminated first filtrate after washing the granular load 2 occurs similarly to the commands of the control unit 26:

- the locking device with the actuator 14 opens - the purified water is supplied to the filter through the ASU 4 with the output of the first contaminated filtrate through the ASU 5 through the central vertical pipe 28 to the multi-way valve 27 and then through the open outlet to the wash water outlet 17.

The installation is included in the operation (water treatment mode) is carried out under the control of block 26 after the washing of the granular load 2 is completed in the following order:

- opens the locking device with a drive 19 on the output pipe of the filtrate 18;

- closes the outlet of the multi-way valve 27 in the outlet pipe of the washing water 17; the discharge of the filtrate into the sewer stops; purified water enters the tanks (tanks) of purified water through the filtrate outlet pipe 18.

Installation (Fig. 4) works as follows.

In the installation of water purification by filtration (Fig. 4), unlike other options (for example, Fig. 2), characterized by the presence of a single input of the water supply for purification and the supply of washing water 29, the streams of purified and washing water inside the filter 1 are not separated, but are introduced through the same lower switchgear - NRU 5.

In the filtration mode, the water to be purified is fed through the water supply pipe for treatment 7 with a shut-off valve 8, a flow meter 9 installed on it, a shut-off device with a drive 10 in a single input of water for treatment and the supply of washing water 29, from which water enters the switchgear 5 which is distributed evenly over the cross section of the filter 1, and is cleaned of suspended solids when moving through the load in the upward direction. The purified water (filtrate) is discharged from the charging space of the filter 1 through a drainage device (for example, a perforated pipe) to the filtrate outlet pipe 18 with a shut-off device mounted on it with a drive 19 (open in the filtration mode) and sent to the tanks (reservoir) under residual pressure purified water (not shown in the drawing) and then to consumers.

When transferring to the load regeneration mode (according to the program of the filter operation control unit 26), the following occurs:

- the water supply for cleaning and filtrate removal is stopped (by closing, respectively, locking devices with a drive 10 and 19);

- the pulse generating unit of the water wash flow 21 is turned on and simultaneously feeds through the pipe 11 to wash the purified water after the filter 1, which is used as the wash water.

In this case, the control circuit for the pulsed flushing water supply according to the signals of the pressure switch 24 is turned on using the shut-off device with the actuator 14 and the pulsed flushing of the load is carried out - similarly to the flushing described above in the installation (Fig. 3) during the time programmed in the control unit 26.

Contaminated wash water is discharged through the ASU 4 with a drainage funnel 6 into the wash water outlet pipe 17.

Washing of the load - the discharge of the contaminated first filtrate after washing the load occurs similarly to the commands of the control unit 26:

- the supply of washing water through the supply pipe of washing water 11 (closes the locking device with the actuator 14) with a closed locking device with the actuator 19 on the outlet pipe of the filtrate 18 and the outlet for the washing water in the pipeline 17;

- the locking device with the drive 10 is opened - the purified water is supplied to the filter 1 through the switchgear 5 with the output of the first contaminated filtrate through the switchgear 4 to the wash water outlet pipe 17.

The installation in operation (water treatment mode) is carried out under the control of block 26 in the following order:

- a locking device with a drive 19 is opened on the outlet line of the filtrate 18, the filtrate is discharged through the pipe 18 into the tank (tank) of purified water, while the water level in the filter decreases and the filtrate is discharged through the drainage device 6 through the drain pipe 17 (to the sewer )

Installations with a pulsed washing of a granular charge using a pulser generating a stream of water washing may contain several identical filters, for example, two in a plant (Fig. 5).

Installation (Fig. 5) works as follows.

The installation (Fig. 5) contains combined pipelines for supplying water for treatment 7 and for supplying washing water 11 — the initial purified water is used for washing — the same as that supplied for treatment.

In the filtration mode, the purified water is fed through a pipe 11 (7) with a shut-off valve 12, a flow meter 13, a shut-off device with an actuator 14 installed in parallel to each filter:

- into a single input of the water supply for purification and the supply of washing water 29a of the filter 1a, connected to the multi-way valve 27a, through which the purified water is directed through the ASU 4a to the charging space of the filter 1a and then moving downward through the layer of granular load 2a located above the supporting layer gravel 3a is cleaned of suspended impurities. The purified water (filtrate) is discharged through the switchgear 5a through the central vertical pipe 28a and through the multi-way valve 27a enters the filtrate outlet pipe 18a. In a similar hydraulic chain, water flows to the filter 16 for cleaning, starting with a single input of the water supply for treatment and the supply of wash water 29b and ending with the filtrate outlet pipe 18b. Next, the pipelines 18a and 18b are combined into the filtrate discharge pipe from the installation 18 with a shut-off device mounted on it with a drive 19 (open in the filtration mode) and, under residual pressure, the filtrate is sent to the tanks (tanks) of purified water, from which an automatic pumping station (on the diagram not shown) served to consumers.

The regeneration of the load of filters 1a and 1b is carried out separately - sequentially one after another or with diversity at different times of the day (depending on local conditions). The flushing control program is installed on the control unit of each filter: 26a and 26b. During the regeneration period of the loading of one filter (for example, 1a), the second filter (1b) is in reserve (a typical option, when the productivity of the well only provides water for flushing one filter).

When transferring to the regenerative mode of granular loading of the filter 1a (according to the program of the filter operation control unit 26a), the following occurs:

- stops the flow of water for cleaning and drainage of the filtrate (by closing, respectively, locking devices with a drive 14 and 19); opens the outlet of the multi-way valve 27a with a wash water outlet pipe 17a connected to it;

- the pulse generating unit of the water washing stream 21 is switched on to work with the simultaneous supply of the washing (initial purified) water through the washing water supply pipe 11.

In this case, the control circuit for the pulsed flow of washing water according to the signals of the pressure switch 24 is turned on using the shut-off device with the actuator 14 and the pulsed washing of the granular load 2a is carried out - similarly to the washing described above in the installation (Fig. 2) during the time programmed in the operation control unit filter 26a. When this wash water from the washed filter 1A is discharged through the pipe 17A. (Wash water does not enter filter 1b).

Washing washing - discharge of the contaminated first filtrate after washing the granular load 2a occurs similarly to the commands of the control unit 26:

- the locking device with the actuator 14 opens - the purified water is supplied to the filter 1a through the ASU 4a with the output of the first contaminated filtrate through the switchgear 5a and through the central vertical pipe 28a to the multi-way valve 27a and through the open outlet to the wash water outlet 17a.

The filter is turned on (water treatment mode) under the control of block 26a after the washing of the granular load 2a is completed in the following order:

- opens the locking device with the drive 19 on the output pipe of the filtrate 18 (with the open locking device 14);

- closes the outlet of the multi-way valve 27a in the outlet pipe of the washing water 17a; the discharge of the filtrate into the sewer stops; purified water enters the tanks (tanks) of purified water through the filtrate outlet pipe 18.

Similarly, the loading of the filter 16 is regenerated according to the program of the control unit 26b using, at the stage of loosening washing, the pulse generation unit of the water washing stream 21.

The presented schemes show the implementation options for pulsed washing of a granular load using the proposed device for generating pulses of a wash water stream for plants with different filtering conditions:

- the place of input of purified water and the direction of filtration:

- in the upper part of the filter - downward filtering (Fig. 1, - 2, -3 and -5);

- in the lower part of the filter - upward filtering (Fig. 4);

- the presence of a single input of water supply for cleaning and washing water supply - (Fig. - 2, -3, -4, - 5)

- type of wash water used:

- source (Fig. - 3 and - 5);

- purified or combined stream (Fig. - 1, - 2, - 4);

- the number of filters in the installation is more than 1. - (Fig. - 5);

- type of filters: - closed (pressure) - (Fig. - 2, - 3, - 5);

- open (non-pressure) - (Fig. - 1, - 4);

- fast - (Fig. - 1);

- contact clarifier - (Fig. - 4).

The examples considered relate to a two-stage water washing of the charge. Pulse flushing is used at the 1st stage - loosening flushing; 2nd stage - washing of the load is carried out in the mode of operating filtration rates with the discharge of the first contaminated filtrate. The technical result from the use of pulse washing, which consists in increasing the degree of regeneration of the filter load while reducing the flow rate (volume) of water for washing, is achieved at the first stage.

Pulse rinse filter plants can be used in deferrization (and demanganization) of underground water - in this case, aerated water is supplied to the filter unit (if necessary, with a dosage of a strong oxidizing agent).

Example. It is required to flush the clarification filters of the station (installation) of water purification of the underground source with the source water supplied by the borehole pump in conditions of a shortage of available water flow.

The installation with a capacity of 12 m ³ h contains two filters with a diameter of 0.8 m (filtration area 0.5 m ² ). The regeneration of the filter load (separately) is carried out by washing with water from a well pump, which in the regeneration mode can provide a water supply of no more than 15 m ³ / h (250 l / min). The washing intensity of the filter material used is 15 l / s⋅m ² , that is, 27 m ³ / h (450 l / min) must be supplied with water for loosening washing.

The missing water flow is ensured by the use of pulsed flushing: with the help of the pulser generating unit for the water flushing flow, first, a supply of the missing volume of water per pulse (200 l) is created, and during the period of the flushing flow pulse (duration of about 1 minute), this volume and 250 l are supplied from the borehole pump - only 450 l / pulse (or per minute), the water flow during the pulse period is the required 27 m ³ / h.

To create a volume of water supply, a hydraulic accumulator with a total volume of 500 l is used with the settings of a pressure switch: maximum - 5 kgf / cm ² , minimum - 2.5 kgf / cm ² .

Thus, a pulsed water supply to the flushing allows flushing when the pump supplying the flushing water is supplied with a lower flow rate than is required to ensure the flushing intensity of the applied filter material, and the proposed installation can increase the degree of regeneration of the filter load while reducing the flushing water flow.

Claims (6)

1. Installation of water purification by filtration with pulsed washing of the granular charge, characterized in that it contains at least one filter with granular charge, upper and lower distribution devices, pipelines for supplying water for purification, supply of washing water with a tap and filtrate outlet pipelines and washing water, shut-off devices with actuators installed on pipelines of water supply for cleaning, washing water supply and filtrate outlet, filter operation control unit and pulses for generating water flow pulses th granular washing load mounted on retraction of the wash water supply pipe and the accumulator comprising a pressure switch, pressure gauge and switching unit, a control unit connected to a water washing unit generating flow pulses granular loading and drives the locking devices. 2. Installation according to claim 1, characterized in that the pipelines for supplying water for cleaning and for supplying washing water are combined. 3. Installation according to claim 1 or 2, characterized in that they use a filter with a single input for supplying water for cleaning and for supplying washing water. 4. Installation according to claim 3, characterized in that the filter is equipped with a multi-way valve combined with a filter operation control unit and a central vertical pipe connecting the lower switchgear to the multi-way valve, which also connects a single inlet of water for cleaning and flushing water and overhead switchgear. 5. Installation according to claim 3, characterized in that a single inlet of a water supply for treatment and a wash water supply is connected to a lower switchgear. 6. Installation according to claim 1 or 2, characterized in that it contains two identical filters with granular loading.

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