SU1699941A1 - Device for cleaning oil-containing sewage - Google Patents

Abstract

The invention can be used in all sectors of the national economy whose wastewater contains oil and petroleum products. The aim of the invention is to increase the efficiency of purification of oil-containing waste water. A device for treating oil-containing waste water, including a sump, a hydrocyclone, a layer of contact mass from oil in a sump, placed in an oil layer with outlets directed toward each other and installed one below the other flow distributors, the upper of which is connected to the lower discharge of a hydrocyclone, and the bottom - with the top, pipes for the supply of waste water and removal of purified oil and odes. The sump provided 1 female with a settling chamber with an oil tank formed by three partitions, the two outermost of which have a gap below, and the middle - from above, horizontal coalescing nozzles are placed between the partitions. In addition, behind the settling chamber, along the motion of the liquid, an additional settling chamber is provided, equipped with an oil tank and partitions forming a labyrinth for moving purified water. 1 il. cl

Description

The invention relates to a technique for treating oil-containing waste water and can be used in all sectors of the national economy, the waste waters of which contain oil and oil products.

A device for cleaning oil-containing waste water is known, comprising a chamber, a hydrocyclone, a layer of liquid contact mass from oil, pipes for supplying waste water and draining purified water and oil.

A device for the purification of oily wastewater is known, including a settling tank, a hydrocyclone, a contact layer.

masses of oil in the sump, placed in the oil layer with opposite outlets and installed one above the other liquid flow distributors, the upper one of which is connected to the lower discharge of a hydrocyclone, and the lower one - to the upper branch pipe for supplying waste water and draining the cleaned water and oil.

However, during the operation of equipment for the purification of oily waste water using liquid contact masses from oil, finely dispersed oil particles with a particle size less than 200-500 microns are not caught and slip into the settling tank.

oh oh

H)

about

J

the part under the contact mass, from where it is carried away with the flow of purified water, reduces the efficiency of water purification.

The aim of the invention is to increase the efficiency of the treatment of oily wastewater.

The goal is achieved by the fact that in a device for the purification of oily wastewater, including a sump, a hydrocyclone, a layer of contact mass of oil in a sump, placed in an oil layer with outflows directed towards each other and installed one below the other which is connected to the lower discharge of a hydrocyclone, and the lower to the upper, pipes for supplying sewage and removal of purified water and oil, the settler is equipped with a settling chamber with an oil collector m partitions, the two outermost of which have a gap below, and a middle top, between the partitions, horizontal coalescing nozzles are placed, the first along the fluid flow the nozzle is made of loading with granule sizes of 15-20 mm, and the second is 3-5 mm, and the ratio of the areas of horizontal cross sections of the first nozzle to the second is 0.5-0.6; in addition, behind the settling chamber, along the movement of the fluid, an additional settling chamber is provided, equipped with an oil tank and partitions forming a labyrinth.

The drawing shows the proposed device, a longitudinal section.

The device contains a hydrocyclone 1 with a pipe 2 supplying the source water and a horizontal tank 3 with a layer of liquid contact mass of oil 4 in the upper part of the tank 3, in which with the help of transverse vertical partitions 5-7 a settling chamber 8 with an oil tank 9 is formed, and In the course of the water movement, an additional settling chamber 10 is placed with an oil collector 11, a baffle 12 and a branch pipe 12 for discharging purified water 13. In the layer of contact mass 4 one over the other are distributors 14 and 15 of fluid flow with outlets opposite each other, of which the lower 14 is connected to the upper discharge of a hydrocyclone 1, and the upper 15c is connected to its lower discharge. The cavities between the partitions 5-7 are filled with granular hydrophobized expanded clay, forming horizontal coalescing nozzles, of which the first 16 are in the course of movement

water is made of granules fraction 15-20 mm., and the second 17-fraction 3-5 mm. The tank 3 is equipped with an oil tank 18 and nozzles for withdrawing sediment, and oil tanks 9, 11, 18 with oil nozzles 20. Before the pipe 13 is installed a visor 21 in the form of a partition, forming a labyrinth with a partition 12.

The device works as follows.

The source water containing floating and emulsified oil is fed under pressure through pipe 2 into hydrocyclone 1, where preliminary treatment of waste water is carried out in the field of centrifugal forces, as a result of which the retaining plates are destroyed on the oil particles and the waste water is divided into two emulsion flow: oil in water and water in oil. The first stream from the lower discharge of the hydrocyclone 1, freed from floating oil and containing emulsified oil, flows into the upper distributor 15, and from there

5 in the form of a uniformly distributed stream — into the oil layer 4, where contact is removed from the emulsified oil. The second stream of water from the upper discharge of the hydrocyclone 1 enters the lower distributor 14, and through it, as a distributed stream, also into the oil layer 4. The upper and lower streams meet and intensively mix and contact in the oil layer 4,

5 that increases the efficiency of water purification.

The captured oil accumulates in the oil layer 4 and as it accumulates it is discharged through the oil tank 18 and the pipe 20. Water freed from floating oil and its large particles enters the first nozzle 16, where the coarsening of oil particles larger than 100 microns takes place. From the nozzle 16, the water with the enlarged particles enters into the chamber 8, where the process of dynamic settling is carried out, with the result that the enlarged oil particles float to the oil tank 9 and are discharged through the pipe 20. And the water with particles

0 oil less than 100 microns in size comes in reverse current to the nozzle 17, where the identical process of coalescence of oil occurs. Then the water enters the settling chamber 10, where the enlarged particles of oil

5, they float up into the oil reservoir 11 and are discharged therefrom through the nozzle 20, and the purified water is fed back through the nozzle 13 to the consumer. The accumulated sediment in the tank 3 is removed periodically by drainage through the pipes 19.

The application of the invention will improve the efficiency of purification of oil-containing waste water due to the fact that two-stage coalescence is carried out in the sump, and the first nozzle has a coalescence process in the optimal mode for emulsions with particles larger than 100 microns, in the second - for particles with sizes less than 100 microns. For each fraction of the enlarged oil particles, local settling chambers are formed, providing more favorable conditions for the separation of oil and water.

When placing the nozzles in a line, countercurrent movement of the water flows from the nozzle to the nozzle is formed, which allows the kinetic energy of the floating oil particles to be used to separate the second nozzle from the descending water flow. The same countercurrent movement of water is also formed in an additional settling chamber.

The described design features provide an optimal hydrodynamic environment in the sump, which allows for more efficient water purification from oil.

0

five

0

five

Claims (1)

Apparatus of the Invention A device for cleaning oil-containing sewage, comprising a tank, a hydrocyclone, a layer of contact mass of oil placed in a container, placed in an oil layer with opposite outlets directed one above another and distributors of fluid flows, the top of which are connected with a lower discharge of a hydrocyclone, and a lower discharge with an upper one, pipes for supplying waste water and draining purified water and oil, characterized in that, in order to increase the efficiency of water purification, and horizontal, the device is equipped with vertical partitions installed alternately with a gap relative to the bottom and container lid with the formation of settling chambers with oil collectors in the upper part and coalescing nozzles horizontally between the first fluid movement partitions, and first in the course of fluid movement the nozzle made of a load with a granule size of 15-20 mm, and the second — 3-5 mm; the ratio of the areas of horizontal cross sections of the first nozzle to the second is 0.5-0.6. Sch 19 18 20 it 8 3 20 11 20 21 P 19 S. 15 6 77 I 19