SU1130365A1 - Device for separating gas from liquid - Google Patents

Abstract

A device for separating a gas from a liquid, including a vertical tank, inlet and outlet pipes, a rotor mounted on a hollow shaft made with a central channel and holes in the side wall connecting the internal cavity of the tank to the outlet pipe, and a rotational drive characterized by that, in order to expand the field of application and reduce material consumption, the holes in the side wall of the shaft are made with an inclination opposite to the direction of rotation of the shaft, and are provided with nozzles. i (L with od O) SP

Description

The invention relates to devices for phase separation of liquid and gas mixtures and can be used in the petroleum, petrochemical, gas industry and geology.

The closest to the invention to the technical essence and the achieved result is a device for separating gas from a liquid, including a vertical tank, inlet and outlet nozzles, a rotor mounted on a hollow shaft made with a central channel and openings in the side wall connecting the internal cavity containers with an outlet nozzle and rotational drive 1. However, the field of application of the known separator is limited to certain properties of oil (low viscosity, which does not form foam), which is its disadvantage m The purpose of the invention is to expand the field of application of the device and reduce the consumption of materials.

This goal is achieved by the fact that in a device for separating gas from a liquid, including a vertical tank, an inlet tank and. outlet pipes, a rotor mounted on a hollow shaft made with a central bore and holes in the side wall connecting the internal cavity of the vessel with the outlet pipe,. and the rotational drive, the holes in the side wall of the shaft are made with an inclination opposite to the direction of rotation, and are provided with nozzles.

FIG. 1 shows the proposed device; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one.

The device contains a tank 1 with a tangential inlet 2, outlet nozzles 3 and 4 for gas and liquid, respectively, a hollow shaft 5, closed in the lower part and having a shaft rotation drive 6. The shaft 5 has an outlet in the nozzle 3, is fixed in the upper 7 and lower 8 bearings, equipped with rotor blades 9 fixed on it at the level of the inlet nozzle 2. At the same time it has the upper 10 and lower 11 mesh blades, nozzles 12 above the holes 13 located in the upper part in the diametral plane of the shaft with an inclination opposite to the direction of rotation of the shaft.

The device works as follows.

The gas-oil mixture enters the tank 1 via the tangential nozzle 2 and strikes the rotor blades 9, driving the hollow shaft 5 into rotation. The mesh blades from 11, rotating in the liquid, increase the rate of gas release from the liquid gas, and hence the rate of their rise. Foam entering tank 1 and forming therein is destroyed by mesh blades 10. Gas is removed from tank 1 through nozzles 12 and openings 13 into the internal cavity of shaft 5 and from there to outlet nozzle 3. Liquid is deposited in tank 1. Particles liquids deposited on

j the wall of the nozzle, having a flow opposite to the direction of rotation of the shaft, is carried away from it by the action of centrifugal force back into the internal cavity of the container I.

Making holes with an inclination opposite to the direction of rotation facilitates the escape of particles from the surface of the wall under the action of centrifugal force generated by the rotation of the shaft into the cavity of the separator.

5 In the proposed device, the centrifugal force generated by the rotating shaft is achieved, which significantly distinguishes it from the known solutions, where the centrifugal force created in the separator tank is used. Using

The centrifugal force of the rotating shaft can be practically unimportant with a small hole length equal to the wall thickness of the shaft. The length of the hole is the path of passage of a particle of oil from the separator tank beyond its limits. At different speeds of movement of the particles, the time the particle stays in the hole is longer, the longer the path. Such a time can be increased by increasing the thickness of the walls of the hollow shaft, but the possibilities of such an increase

limited by technical and economic indicators. In the proposed device, the increase is achieved by installing nozzles on the holes. The length of this path can be within the limits of the overall dimensions of the separator's capacity, and not the shaft diameter, which allows, under identical conditions (particle size, speed, shaft speed), to achieve a greater degree of gas purification. The exit of the foam from the separator tank becomes impossible.

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FIG.

Claims (1)

DEVICE FOR SEPARATING GAS FROM LIQUID, including a vertical tank, inlet and outlet nozzles, a rotor mounted on a hollow shaft made with a Central channel and holes in the side wall connecting the internal cavity of the tank with the outlet pipe, and a rotation drive, characterized in that, in order to expand the scope and reduce material consumption, the holes in the side wall of the shaft are made with an inclination opposite to the direction of rotation of the shaft, and equipped with nozzles.