RU206192U1 - Combined emulsion separator - Google Patents

Abstract

The utility model relates to the oil-producing, oil-refining, chemical, textile, food industries and can be used to separate water droplets from oil or other liquid hydrocarbon mixtures, for example: for separating oil-water emulsions coming from the field to an oil treatment plant, as well as at various industrial enterprises. The technical result, which consists in increasing the efficiency of separation of emulsions, is achieved by the fact that the combined apparatus for separating emulsions contains a flotation treatment section, a thin-layer sedimentation section, nozzles for introducing liquid and air, nozzles for removing foam with contaminants in the first section, nozzles for removing a dispersed phase, air and purified liquid, the supply of pneumatic aeration in the flotation treatment section, in the thin-layer sedimentation section, flat parallel plates of the thin-layer settler are located at an angle of (45-60) °, according to the proposed utility model, it is additionally equipped with a section with a packed coalescer as a coagulation treatment section, technologically connected with a flotation treatment section and a thin-layer sedimentation section. 1 ill.

Description

The utility model relates to the oil-producing, oil-refining, chemical, textile, food industries and can be used to separate water droplets from oil or other liquid hydrocarbon mixtures (for example: to separate water-oil emulsions coming from the field to an oil treatment plant), as well as at various industrial enterprises.

An analogue is a device for liquid purification (copyright certificate SU No. 1230998, IPC C02F 1/00, 05/15/1986), consisting of two separate chambers, while in one chamber the liquid is purified using pneumatic flotation, and in the other chamber using jet flotation. In both chambers there are nozzles for air and liquid inlet and outlet, nozzles for removing contaminated foam.

The main disadvantage of the device is the insufficiently high efficiency of liquid purification from finely dispersed contaminants, as well as the complexity and cumbersomeness of its hardware design, which causes inconvenience during installation.

The prototype is a device for liquid purification, containing a jet flotation chamber with nozzles for inlet and outlet of liquid, removal of foam, supply of atmospheric air, characterized in that the inlet of liquid and a nozzle for supplying atmospheric air are located in the upper part of the jet flotation chamber with the possibility of injecting atmospheric air falling a stream of the initial liquid, and the liquid outlet is located in the lower part of the jet flotation chamber and is connected to the additionally introduced thin-layer sedimentation chamber with the dispersed phase and purified liquid discharge nozzles, while a vertical perforated partition and horizontal flat parallel plates of a thin-layer settler are installed in the thin-layer sedimentation chamber, located at an angle, and the vertical perforated partition is located on the side of the liquid outlet pipe, and the jet flotation chamber and the thin-layer sedimentation chamber are combined into one body (Patent No. 145904 Russia, MPK C02F 1/00 Device for purification of liquids / Basharov M.M., Shakirova A.Kh., Lapteva E.A. - No. 2014118388/05; app. 05/06/2014, publ. 09/27/2014).

The main disadvantage of the known device is that the apparatus does not provide for a section that includes a packed coalescer, therefore, the efficiency of capturing small drops that do not have time to settle in the separation module decreases, and the efficiency of the emulsion separation process decreases.

The problem to be solved by the proposed utility model is to eliminate the indicated shortcomings of the prototype and analogue.

The technical result is to increase the efficiency of separation of emulsions.

The technical result is achieved by the fact that the combined apparatus for separating emulsions contains a flotation treatment section, a thin-layer sedimentation section, nozzles for introducing liquid and air, nozzles for removing foam with contaminants in the first section, nozzles for removing a dispersed phase, air and purified liquid, a pneumatic aeration supply to flotation treatment section, in the thin-layer sedimentation section, flat parallel plates of the thin-layer sedimentation tank are located at an angle of (45-60) °, according to the proposed utility model, it is additionally equipped with a section with a packed coalescer as a coagulation treatment section, technologically connected with the flotation treatment section and a thin-layer sedimentation section.

Thus, the technical result is achieved by introducing a coagulation section, loaded chaotically with nozzles, in which the emulsion droplets are enlarged due to inertial and turbulent mechanisms and the enlarged droplets are carried out by the continuous phase flow for deposition into the thin-layer sedimentation zone.

The essence of the utility model is illustrated by the drawing, which shows the proposed combined apparatus for separating emulsions.

In the drawing, the numbers indicate

1 - flotation treatment section,

2 - section for coagulation cleaning,

3 - section of thin-layer sedimentation,

4 - branch pipe for supplying the liquid to be cleaned,

5 - branch pipe for removing the liquid to be cleaned,

6 - a partition for keeping the foam,

7 - a branch pipe for the removal of foam,

8 - branch pipe for supplying air to the section of pneumatic flotation,

9 - branch pipe for dispersed phase outlet,

10 - air outlet branch pipe,

11 - packing layer,

12 - flat parallel plates of a thin-layer clarifier, located at an angle of (45-60) °.

The combined apparatus for separating emulsions contains technologically interconnected flotation treatment section 1, coagulation treatment section 2, thin-layer sedimentation section 3.

The difference between the proposed combined apparatus for separating emulsions is that it is equipped with a coagulation cleaning section with a packed bed (droplet enlargement).

The combined device for separating emulsions works as follows.

The apparatus consists of three functional sections: flotation treatment 1, coagulation 2, thin-layer sedimentation 3.

The flotation treatment section 1 serves for the primary separation of emulsions by separating from it drops, the density of which is close to the density of the continuous phase, by means of bubbling pneumatic flotation. The emulsion is fed through the pipe for supplying the liquid to be cleaned 4 to the flotation cleaning section 1. Compressed air is fed through the air supply pipe 8 into the flotation cleaning chamber, and with the foam the fine dispersed phase is removed through the foam outlet pipe 7, the air is removed through the air outlet pipe 10. To hold foam in the flotation zone and obstacles to its exit to the coagulation zone, a foam retention partition 6 is installed. Further, the emulsion flows into the physical coagulation section 2.

In the coagulation section 2, small droplets of emulsions are enlarged due to the passage of the flow through the packed bed 11. In the coagulation section 2, packed elements are randomly located. The droplets are deposited due to inertial and turbulent mechanisms and adhere to the surface of the packing elements and, coalescing, become larger. Enlarged droplets are carried out by the continuous phase flow for deposition into the zone of thin-layer sedimentation. Further, the emulsion flows into the thin-layer sedimentation section 3.

In the zone of thin-layer sedimentation 3, gravitational sedimentation of 2 drops enlarged in the coagulation section takes place on the plates in a laminar mode. In the zone of thin-layer sedimentation 3, there are inclined flat parallel plates of a thin-layer settler at an angle of (45-60) °, on which gravitational sedimentation of enlarged drops from emulsions takes place. The droplets are removed through the dispersed phase outlet branch 9, located in the upper part of the apparatus due to the difference in the densities of the continuous and dispersed phases. The purified liquid is discharged through the purified liquid outlet 5.

Thus, the use of the proposed utility model, in comparison with the prototype and analogue, will significantly increase the efficiency of separation of emulsions.

The proposed utility model will provide an effective separation of emulsions in the oil-producing, oil-refining, chemical, textile and food industries.

Claims (1)

The combined apparatus for separating emulsions contains a flotation treatment section, a thin-layer sedimentation section, nozzles for entering liquid and air, nozzles for removing foam with contaminants in the first section, nozzles for removing a dispersed phase, air and purified liquid, a pneumatic aeration supply in the flotation cleaning section, in the section for thin-layer sedimentation, flat parallel plates of a thin-layer sedimentation tank are located at an angle of (45-60) °, characterized in that it is additionally equipped with a section with a packed coalescer as a coagulation treatment section, technologically connected with a flotation treatment section and a thin-layer sedimentation section.

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