SU740716A1 - Unit for separating emulsified liquids from emulsions - Google Patents

Description

splintered at an angle of 90 to the axis of the cyclone and having an outlet opening in the direction opposite to the opposite of the enemy rotor. The nozzle outlet has a choke. FIG. 1 shows a schematic view of the device, a section; in fig. 2 is a view along arrow A of FIG. 1 s part1 {G 1M digging; in fig. 3 shows a section bb of FIG. one; in fig. 4 is a view along arrow C of FIG. one.

A device for separating emulsified liquids from emulsions has a housing 1 fixed, for example, on the fus-dment, which is wicked out of one fold. The housing 1 has along the perimeter two adjacent concentric annular chambers. The outer chamber 2 is designed to collect the clarified liquid, this chamber 2 has a conduit 3 for drainage). The inner chamber 4 is designed to collect concentrated emulated liquid k and has a conduit 5 for fluid from the chamber.

The axis of the housing 1 is mounted on the outlier 6, with the possible rotation of the rotor 7 associated with the drive 8. The upper part of the rotor 7 is designed as a cylindrical container 9. The container 9 has radiators 10 installed inside that do not reach the axis of the capacitance 9. A tube 11 is freely inserted into the container 9 along its axis from the top to introduce the emcmi from the feed of the initial emulsion. To; e; 9; the length of the trunk radially in the horizontal planes are attached branch pipes 2 for supplying the emulsion. At the ends of the pipes 12, hydrocyclones 13 are installed. Each hydrocyclone 13 is installed so that its longitudinal axis coincides with the axis of the pipe 12 on which it is attached. A pipe 12 soy. Oiyeny with hydrocyclone 13 so. that form the taigen1Dal entry into the hydrocyclone 13.

Nozzles 14 are inserted into hydrocyclones 13 and placed under the 90 ° axis of the hydraulic / clone axis and HMeioLuiie outlet holes directed in the direction opposite to the rotation of the rotor 7. At the exit of the nozzle 14, a throttle valve 15 is installed. This design of the nozzle 14 provides an additional reactor1 obvious effect due to ow, the stroke of the jet of the clarified liquid in the direction directed opposite to the rotation of the rotor 7.

The hydrocyclones 13 are fixed on the pas: foam 12 at such a distance from the axis of the cylindrical tank 9 of the rotor 7 that the opening for draining the clarified liquid from the hydro cyclone 13, in which the throttle valve 15 is installed, is located above the outer chamber 2 of the housing 1, and the hole 16 is through which, from the hydrocyclone 17, the concentrated emulsified liquid is removed, is located above the inner chamber 4.

A device for isolating the emulsion fluid from the emulsions works as follows.

The rotor 7, together with the device for separation, mounted on it, is driven by the drive 8. In the cylindrical container 9, the pipe 11 is fed from the feeder to separate the original emulsion. The incoming emulsion due to the rotation of the cylindrical container 9 is unwound, it is under the action of centrifugal forces and due to the presence of partitions 10 the equilibrium of centrifugal forces is evenly distributed through the nozzles 12 to supply the emulsion. The presence of partitions 10 eliminates the slippage of the emulsion in the tank 9 and contributes to its more rapid unwinding. Under the action of centrifugal forces, the surface of the emulsion in the cylindrical container 9 joins the shape of a parabloid rotation of the rod, is pressed against the wall of the vessel 9 and is pushed into the nozzle 12 with a certain pressure.

The pipe 12 through the tangential input of the emulsion enters the hydrocyclone 13. In the hydrocyclone 13 is the separation of the original

emulsions for clarified liquid and concentrated emulsified liquid.

The separation of the emulsion in a hydrocyclone 13 occurs under the action of centrifugal forces arising in it as a result of rotational movement of the flow and directed along the radius of the hydrocyclone 13. In addition, the centrifugal forces resulting from the rotation of the rotor 7 and directed along the inlet nozzles 12 from the rotor axis 7 to the periphery have an additional effect on emulsion by squeezing: through the nozzles 14, the clarified liquid into the outer chamber 2, as a heavier fraction compared to the concentrated emulsified liquid, which is withdrawn through the opening 16 into the inner chamber 4. Through the conduit 3 the clarified liquid is withdrawn from the chamber 2, and from the inner compartment 4 the concentrated emulsified liquid is withdrawn along the conduit 5.

Form 1 of the invention

1. A device for separating emulsified liquids from emulsions, including a cylindrical body, an initial emulsion feeder, two concentric chambers, a rotor, and phase separation devices, characterized in that, in order to increase the efficiency of the separation of emulsified liquids from emulsions, the device is equipped with a cylinder with radial septa placed coaxially to the rotor, and the devices for phase separation are made in horizontal hydrocyclones with branch pipes dc of diversion of the heavy phase and tangential pipes. logging for the supply of emulsion, the free end of which is attached to the cylinder. 2. A device according to claim 1, wherein the hydrocyclone is provided with a nozzle placed at an angle of 90 ° to the axis of the hydrocyclone and having an outlet opening directed in the direction opposite to the rotation of the rotor. 3. The device according to PP. 1 and 2, that is, so that the outlet opening is bjeno. throttle. Sources of information taken into account in the examination 1. Perevalov V. G., Alekseev V. A. Purification of oil fields. M., 1969, p. 151. 2. USSR author's certificate N 85610, B 01 D 17/00, 1927 (prototype).

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Claims (3)

Claim 1. A device for separating emulsified liquids from emulsions, including a cylindrical body, a source emulsion feeder, two concentric 'chambers, a rotor and phase separation devices, characterized in that, in order to increase the efficiency of emulsified liquids separation from emulsions, the device is equipped with a cylinder with radial baffles placed coaxially with the rotor, and devices for phase separation are made in the form of horizontal hydronic clones with pipes for the removal of the heavy phase and tangential pat ubkami for supplying the emulsion, the free end of which is attached to the cylinder. ₅ 2. The device according to π. 1, characterized in that the hydrocyclone is equipped with a nozzle placed at an angle of 90 ° to the axis of the hydrocyclone and having an outlet directed in the direction opposite to the rotation of the rotor. 3. The device according to paragraphs. 1 and 2, this is due to the fact that the outlet is provided. throttle.