SU1761185A1 - Method and device for oil-sewage treatment - Google Patents

Abstract

The invention relates to the treatment of oil-containing waste water and can be used in the petroleum, chemical, municipal, and other industries. The purpose of the invention is to increase the cleaning efficiency and ensure the discharge of purified water during continuous regeneration of the filter loading. The device comprises a housing 1, divided by a vertical partition 2 into two chambers 3 with filters located inside with a rigidly fixed coalescing load 4 dividing the chambers into the upper 5 and lower 6 cavities. Untreated drains are fed through the system 8 into the lower cavity 6, for example the left chamber 3, and at the same time compressed air is supplied through the system 10. Air-saturated wastewaters through the coalescing load 4 move into the upper cavity 5, the bubbles trap oil particles that adhere to the grain, forming a layer of petroleum products and foam on the liquid surface, which accumulates into the pockets 24 as it accumulates. switches to the right chamber 3. The air pressure in the left chamber increases and displaces the fluid into the common pipeline 18 of the treated wastewater, which again passes through the coalescing load 4 in the direction of top down and further refined from petroleum products. Right camera 3 works similarly to the left one, but with a phase shift of 180 ° & 2 sec. f-ly. 1 il. (Ls

Description

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ABOUT

The invention relates to the treatment of oil-containing waste water and can be used in the petroleum, chemical, municipal and other sectors of the industry.

The closest in technical essence to the proposed method and device is a device for treating oil-containing waste water, comprising a cylindrical body with an internal filter with a load sandwiched between movable and fixed perforated partitions. Top loading layer

easier to clean the liquid in the lower t more. The device is provided with a cover with a drive mounted thereon for rotating the threaded shaft. The shaft is connected to a pipe on which the blades are fixed in the form of Archimedes' screw segments. The septum is movable with a nut secured therein along the shaft. A cylindrical shell is fixed along the perimeter of the movable partition. A watertight partition is fixed between the case and the lid; the inlet pipes are attached to the case.

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source and wash water, drainage of purified water. Tubes are connected to the lid of the oil product and wash water, phase separation sensors and a plunger for air release.

The disadvantages of this method and device are the relatively low degree of purification of effluents from petroleum products, free-flow discharge of purified water, which determines the fixed height of the device in the general scheme of sewage treatment plants, the presence of a regeneration period, which reduces the performance of the device.

The aim of the invention is to increase the cleaning efficiency and ensure the discharge of purified water during continuous filter regeneration.

This goal is achieved by supplying the untreated water and air and discharging the purified water from the cavities below the filtering coalescing load, first supplying the raw water until the chamber is filled, then the nozzle of the purified water opens, the raw water is switched into the cavity of the adjacent chamber and after it filling, the purified water removal nozzle is opened and the supply of raw water to the first chamber is switched and the cycle is repeated, the supply of raw water and removal of the purified zod is performed at about Simultaneous compressed air pressure is greater than the pressure in the raw water supply pipe. Removal of purified water from the chamber is carried out with excessive air pressure. Volumetric flow rates of untreated water and air at the calculated pressures in the chamber are equal.

The device for treating oil-containing waste water includes a housing that is divided by a vertical partition into two chambers, equipped with pockets for collecting flooded petroleum products and foams, rigidly fixed coalescing charges, dividing the chambers into two cavities, upper and lower, with raw water and air, and removal of purified water, with the air inlet pipe located below the raw water inlet pipe and both are perforated.

The drawing shows a device for the purification of oily wastewater.

The device includes a housing 1 divided by a vertical partition 2 into two chambers 3 with filters 4 located inside with a rigidly fixed coalescing load dividing the chambers into the upper 5 and lower 6 cavities located in the latter unpurified water supply pipes 7 connected to the systems of raw sewage

8, the air inlets 9, connected to the air distribution systems 10, the nozzles of the discharge of purified water 11, connected to the system for collecting the effluent 12 and equipped with check valves 13,

0 common supply pipe for untreated sewage 14, electrified three-way valve 15, supply pipe for untreated sewage 16, nozzles for removal of purified water 17, general piping for cleaned

5 drains 18, sludge discharge nozzles 19, fitted with locking devices 20, air exhaust nozzles 21, fitted with electrified locking devices 22, phase separation sensors 23,

0 pockets for the collection of superfluous oil products 24, a branch pipe for the withdrawal of oil products 25, equipped with locking devices 26.

The method using the device described above is carried out as follows.

Untreated sewage is continuously fed through a common pipeline 14 at an appropriate position

0 electrified three-way valve through pipeline 1 b to the lower cavity of the left chamber 3 through the inlet 7, distribution system 8, and at the same time compressed air is supplied

5 through the pipe 9 and the distribution system 10 into the cavity 6 of the left chamber 3. At the same time, the electrified locking device 22 is in the open position and the excess air through the pipe 21

0 is removed from the left chamber 3. When the raw effluent is supplied, they are continuously saturated with air bubbles and move from the lower cavity 6 to the upper 5 through a coalescing load 4, which facilitates the enlargement of fine particles of petroleum products adhering to the grain of the load. The air bubbles formed during the outflow from the system 10 are evenly distributed by the coalescing load 4 and, moving up, capture the oil particles stuck to the grain loadings, forming a layer of oil products and foam on the liquid surface.

When the karma5 edge level is reached by 2, the petroleum products and foam that pop up come into the pocket where they accumulate. At this moment, the level sensor 23 triggers, which puts the electrified three-way valve 15 into the position of supplying untreated drains to the right-hand chamber 3 and the shut-off electrified device 22 of the left-hand chamber to the closed position.

The air entering the left chamber 3 through nozzle 9 with a pressure higher than the pressure of untreated sewage in nozzle 7 accumulates in cavity 5 and displaces fluid from the left chamber through collection system 12, nozzle 11, check valve 13 and pipe 17 into the common pipeline cleaned drains

The effluent is re-run through the coalescing load 4 from top to bottom, where it is additionally cleaned of petroleum products.

Right camera 3 works similarly to the left with a phase shift of 180 °. The beginning of the working cycle of the right camera 3 is determined by the moment when the level sensor 23 of the left camera 3 triggers and vice versa. In this case, the check valves 13 perform the function of a closure member, since in the period of displacement of the purified liquid from the left chamber, the pressure in the nozzle 11 of the right chamber is less than the pressure in the nozzle 9 of the left chamber and vice versa.

In addition, the equality of the costs of untreated wastewater entering the device and the treated wastewater leaving the device is determined by the equality of the volume flowrate of the wastewater and compressed air supplied to the device.

Removal of petroleum products from the pockets 24 is made by opening the locking devices 26 on the pipelines 25, and the issue

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the sludge is produced by opening the locking devices 20 at the nozzle 19.

Claims (2)

Claim 1: A method for purifying oily wastewater, including feeding untreated water into a chamber, filtering and removing purified water and petroleum products, which, in order to improve the quality of purification and ensure the discharge of purified water during continuous filter regeneration, supply untreated water is carried out simultaneously with the pressure in the lower part of the chamber of dispersed air with a pressure exceeding the pressure of the water supply, and the removal of purified water is produced by overpressure of air in Leray during the return movement of purified fluid through the filter element 2. A device for treating oil-containing waste water, including a chamber with fitted valves for supplying untreated water and removing purified water placed under the filter element in the form of a layer of coalescing charge, a pipe for discharging petroleum products, an upper level interface and an air valve that is different the fact that, in order to improve the quality of cleaning, the chamber is equipped with a pocket for collecting oil products and foam and a perforated nozzle under the filter element placed in its lower part under chi compressed air and the upper sensor interface layer coupled to the air valve and isolation valves and pipes removing the purified raw water supply. X n I , s x-j I 23