SU1487929A1 - Device for separating emulsion - Google Patents

Description

The invention relates to devices for breaking emulsions of the water-in-oil type in an electric field, in particular for separating the dispersed phase of stable oil-water and oil-water emulsions in the oil refining and oil industry.

The aim of the invention is to increase the efficiency of the destruction of the emulsion.

On Fig, 1 shows a device for breaking the emulsion; figure 2 dielectric cone with electrodes.

The device comprises a cylindrical body 1 with a vapor-liquid jacket 2 for process temperature control, an inlet pipe 3 and an outlet pipe 4 and 5, a central pipe 6 (distributor ^- emulsion) made of dielectric material with input windows 7, alternating conical electrodes 8 and dielectric cones 9 s grooves 10 for electrodes.

(57) The invention relates to devices for breaking emulsions of the type water-in-oil, in particular water-oil and water-oil, and can be used in the oil refining and oil industry. The aim of the invention is to increase the efficiency of the destruction of the emulsion. The device contains a housing with inlet and outlet nozzles, a conical electrode system, an emulsion distributor, dielectric cones with. Grooves for the electrodes with a ratio of cone area to electrode area of 2.1 равном5 _κ / 5 ₃ έ24 . 2 ill.

The ratio of the area of the cone to the area • of the electrode is chosen from a ratio of 12.1 ^ 5, / 5 ^ 24.

The device operates as follows *.

The emulsion through the inlet pipe 3 enters the pipe 6 and through the windows 7 into the spaces between the electrodes 8, where an electric field of high tension is created. On each intermediate cone in its upper part, two electrodes are installed one against the other: one in the groove on the outer surface of the cone, and the other. in the groove on the inside ^surface! The signs of the electrodes on the cone are opposite. For example, the electrodes lying in the grooves on the upper surfaces of the cones are connected to the high-voltage pole of the voltage source, the opposite electrodes lying in the grooves on the inner surfaces of the braids <о

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z '1487929 4 nousses, grounded. The grooves Ί0 are made; on the outer and inner surfaces of the cones in their upper parts so that after installing the electrodes in them, the outer surfaces of the electrodes and cones form a common surface, i.e., the electrodes completely fill the grooves. The electrodes are installed in the grooves of the cones in order to prevent breakdown ^ along their edges. The device can be used both direct and alternating voltage.

After the droplets are enlarged in an electric field for an optimal 15 time, the emulsion enters the settling zones located between the surfaces of the dielectric cones 9, not occupied by the electrodes 8, where it settles for an optimal time of 20 ' _: ui. Settled water flows from dielectric cones 9 to the bottom of the apparatus and is discharged through pipe 4, and clean oil is discharged in the upper part of the electric dehydrator through pipe 5. 25

The optimal values of the settling time and processing of water! Emulsions in oil vary over a wide range.

The optimal processing time is 1-4 minutes, and the sludge is 7.5-20.0 minutes.

Dielectric cones increase the total area of the emulsion sludge, which reduces the sludge time by as many times as many times the total area of the upper “surfaces of the cones is larger than the horizontal section of the device. Since the time of destruction of the emulsion is the sum of the processing time in the electric field and the time of sedimentation, by establishing cones, the total time of destruction of the emulsion is reduced, thereby increasing the efficiency of its destruction.

Claims (1)

Claim A device for breaking emulsions, comprising a housing with inlet and outlet nozzles, a conical electrode system, an emulsion distributor, characterized in that, in order to increase the efficiency of breaking the emulsion, the device is equipped with dielectric cones with grooves for the electrodes, while the ratio of cone area (5 to area electrode (5 _Oe ) is selected from ulosviya 2.1 <^ 24.