SU1719012A1 - Apparatus for cleaning water by adsorption - Google Patents

Abstract

The invention relates to the purification of water and can be used to purify oil-emulsion wastewater generated in the cold rolling shops of metallurgical enterprises. The purpose of the invention is to increase the efficiency of water purification and to prevent it. The invention relates to water purification and can be used to purify fine emulsion wastewater generated in cold rolling shops of metallurgical enterprises. The purpose of the invention is to increase the efficiency of water purification and prevent the adsorbent from becoming contaminated with inert suspended solids. Figure 1 shows an apparatus for adsorption water purification, a general view; figure 2 is a view of And figure 1; FIG. 3 shows a system for withdrawing a group of adsorbent with inert suspended solids. This is achieved by the fact that the apparatus for adsorption water purification, including a cylindrical tank with a stirrer and a chamber for distributing the treated water, a system for discharging purified water, pipes for supplying the treated water and discharging purified water and draining the sediment, a device for separating the adsorbent, is provided with a soothing grate between and a device for separating the adsorbent, made in the form of a porous drainage partition, a shell, a mounted coaxial body and an adjacent pori bottom surface a drainage partition, a central and peripheral air distribution systems, located on the inner and outer sides of the shell, with the system for discharging purified water located in the distribution chamber of the treated water and made in the form of troughs adjacent to the porous drainage partition. 4 il. purified water, top view; Fig. 4 is a section B-B in Fig. 3 (with a schematic representation of the sequence of separation (retention) of the adsorbent). The apparatus for adsorptive water purification consists of a cylindrical body 1 with a branch pipe 2 supplying treated water installed in the lower part of the body and a branch pipe 3 discharging purified water. In the cylindrical part of the housing 1, constituting the tank itself, a porous drainage partition 4 is installed.

Description

The partition 4 divides the cylindrical body 1 into zones — the space under the partition is a distribution chamber of the treated water, and above the partition

- adsorption zone filled with adsorbent. A calming ram 5 is located above the porous drainage partition 4. Above the calming grid 5, a paddle stirrer 6 is installed in the apparatus tank. In the distribution chamber of treated water, a system 7 for discharging treated water is arranged in the form of chutes. The distance between the grooves should be greater than the width of the own groove, and the distance between the axes of the grooves

-Less the height of the layer of adsorbent. The troughs are connected by a radial channel of the drainage system 7, which is connected to the branch pipe 3 of the purified water outlet.

A shell 8 adjacent to the housing 1 adjoins the lower surface of the porous drainage partition 4. The shell 8 is located on the inside and outside of the shell 8, respectively, central 9 and peripheral 10 air distribution systems, made in the form of pipelines with nozzles. Pipe 2 supply the treated water at the entrance to the device is equipped with a locking member 11.

A hydraulic shutter 12 is connected to the purified water outlet nozzle 3 with a chamber 13 connected to a vacuum source 14. The hydraulic shutter 12 is equipped with a locking member 15, and the lower end of the hydraulic lock 12 is lowered into the sump 16. The cylindrical part of the housing 1 is equipped with a connecting water supply pipe .17 a pipe 18 for the hydraulic removal of the adsorbent. In the lower part of the treated water distribution chamber there is a pipe 19 for discharging sludge.

Apparatus adsorption water purification works as follows.

When the shut-off organ 11 and the shut-off organ 15 are closed, the polluted water through the nozzle 2 enters the lower part of the housing 1 and then through the porous drainage partition 4 into the adsorption zone filled with the adsorbent. In this case, the inert suspended particles contained in the polluted water are retained on the lower surface of the porous drainage partition 4. Simultaneously with the filling of the apparatus, the treated water flows through the central 9 and peripheral air distribution systems, which promotes the loosening of the adsorbent. Included with this blade mixer 6 performs the mixing of the purified water and the adsorbent.

After filling the housing 1 of the apparatus

with the water being cleaned, the shut-off element 11 closes and stops the flow of air through the peripheral air distribution system 10. Due to the continued

the air supply through the central air distribution system 9 water in the central part of the apparatus moves upwards, and in the peripheral - downwards, i.e. The treated water is circulated through the area of the apparatus located between the porous drainage wall 4 and the sediment grill 5 installed above it, thereby preventing the formation of stagnant zones. Schematically these

flows are shown by arrows in the left cylindrical part of the housing 1 (figure 1).

Due to the increase in hydraulic resistance due to the closure of the bottom of the porous drainage wall

4, inert suspended substances can form an air cushion under this partition. The presence of a shell 8. which is coaxially mounted relative to the housing 1 and adjacent to the porous separating partition, limits the area of distribution of the airbag.

After stirring the treated water for a predetermined time, the step of separating the adsorbent from the liquid is carried out by filtering it through a layer of the formed precipitate while maintaining a constant concentration of the adsorbent in the suspension (treated water). Wherein

the locking body 11 is closed, and the locking body 15 is opened, connecting the chamber of drainage of purified water with a source 14 of vacuum. The air supply is stopped, but the paddle stirrer 6 continues to operate.

Schematically, these streams are shown by arrows in the right cylindrical part of the housing 1 (figure 1). Due to this, the suspension (treated water) is kept constant over the restraining grate 5.

concentration of adsrbent. Due to the vacuum, water is sucked from the adsorption zone to the system 7 of the purified water outlet. In this case, the clarified water first enters the gutters of the drainage system 7, and the adsorbent

retained by the region of the porous surface located above the grooves in the form of annular rollers, which gradually expand and merge with each other, due to the distance between the grooves,

which is less than the full thickness of the layer of adsorbent.

The clarified water through the pipe 3 of the discharge of purified water and then through the hydraulic valve 12 enters the sump 16. The presence of the chamber 13 prevents water from entering the vacuum source 14. With the cessation of water movement upward from the lower surface of the porous drainage partition 4, inert suspended substances separated during the filling of the adsorption zone with the source water are separated. They enter the bunker of the cylindrical housing 1, from where they are removed through the nozzle 19. In the first portions of the water discharged through the troughs 7, small particles of the adsorbent can be contained, which penetrate through the porous drainage partition 4.

Subsequently, the particles of the adsorbent are held by a layer of sediment. formed on this partition. The presence of the soothing grate 5 eliminates the disturbance of this sediment layer by the fluid flows generated by the operation of the stirrer 6, and therefore prevents the adsorbent from being carried away.

When cleaning the oil emulsified wastewater by maintaining the concentration of the adsorbent in the suspension (treated water) supplied to the porous drainage wall 4, the probability of contact of the emulsion particles with the adsorbent at the moment of retention of the latter particles on the surface of the sediment increases. If it is necessary to replace the adsorbent, it can be removed from the apparatus through the nozzle 18 by supplying transporting water through the nozzle 17.

Thus, the presence of two air distribution systems: central and peripheral and coaxial shell allows for more efficient mixing of the purified water with the adsorbent, which increases the cleaning efficiency. The presence of a soothing grate allows maintaining a constant concentration of the adsorbent in the suspension (treated water) supplied to the porous drainage partition, while maintaining the structure of the sediment formed on the partition, which also increases the cleaning efficiency and prevents the adsorbent from being carried out. The supply of contaminated water to the chamber of the outlet of purified water allows the inert suspended matter to be retained and prevented from mixing with the adsorbent.

Claims (1)

Invention Formula An apparatus for adsorptive water purification, including a cylindrical tank with an agitator and a chamber for distribution of the treated water, a system for discharging purified water, pipes for supplying the treated water and discharging purified water and draining the precipitate, a device for separating the adsorbent, characterized in that preventing adsorbent contamination with inert suspended substances, it is equipped with a soothing grate located between the agitator and the device for separating the adsorbent, made in the form of a rough, draining septum, a shell installed coaxially with the housing and adjacent to the bottom surface of the porous drainage partition, central and peripheral air distribution systems located on the inner and outer sides of the shell, while the drainage system of treated water is located in the distribution chamber of treated water and is designed as troughs , adjacent to the porous drainage partition. BUT Phie.1 eight Type A 6 of FIG. 2 6-6 fieL