SU1386225A1 - Apparatus for collecting,conveying and distributing produce of oil well - Google Patents

Abstract

The invention relates to a device for collecting, transporting and distributing production of oil wells. The invention can be used in oil production, oil refining and chemical industry. The purpose of the invention is to improve product quality by eliminating the ingress of gas into separated streams. The device contains a tank 1, equipped with a fitting 2 for product input, a fitting 3 for gas exhaust and fittings 4 for output of the product, a cutter 5, vertical nozzles 6 with calibrated ori holes 7, placed in the vertical nozzles of the tube 8, the lower ends of which are made with expansion the form of a cone 9, and mounted on the outer surface of each cone tangentially with respect to the tubes of the blade 10. 1 Cp f-ly, 2 ill.

Description

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The invention relates to devices for collecting, transporting and distributing the production of oil wells used in the oil-producing, oil-refining, and chemical industries, and is an improvement on the known structure of the 1st station on auth. 1275087.

The aim of the invention is to improve product quality by eliminating gas into separated liquid streams.

FIG. 1 is schematically depicted.

the filler, and part of it in the form of drops falls on the surface of the cones 9.

Liquid droplets reflected by the outer surface of the cone 9, provided with blades 10, on the inner wall of the nozzle 6, fly along a curved path. When these drops are bombarded with a descending liquid film, the latter are pressed down against the wall of the socket 6 and the rotational motion it acquires. The amount of liquid in the stream of drops is comparable with the amount of liquid

device for collecting, transporting j-bones in a thin wall film.

nor is the distribution of oil well production; in fig. 2 shows section A-A in FIG. one.

The device contains a container 1, equipped with fittings for inputting products from 2 and for venting gas 3 and fittings 4 for outputting products. Inside tank 1, there is a cut-off.5 and vertical nozzles 6, the upper ends of which are made with an angular cut forming calibrated holes 7 on them, and the lower ends are connected to fittings A for outputting products. A tube 8 is inserted into each vertical nozzle 6, with the upper end of this tube being Bbmie the upper edge of the vertical nozzle section, and the lower end is below the lower edge of the vertical nozzle edge. The lower end of each tube 8 is made with an extension in the form of a cone 9, on the outer surface of which the blades 10 are installed tangentially in relation to the tube.

The device works as follows.,

The production of oil wells enters through the nozzle 2 into the tank 1, where it is separated from the gas by gravity sediment. From the tank 1, the gas exits through the nozzle 3, and the liquid phase through the calibrated holes 7 enters the vertical nozzles 6. Since the nozzles 6 are structurally the same, and their upper ends are located at the same level, the distribution of production along these nozzles occurs equally.

When the flow of products on the internal cavity of the container 1 in the pipe

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therefore, the kinetic energy of the droplets reflected by the cone 9 is sufficient to prevent the film from tearing off the wall of the nozzle 6 and impart rotational motion to it. The inertial forces acting on the thin film from the side of the droplets under the conditions of unidirectional downward motion of the droplets and the film overcome the viscous and adhesive forces. In the channels between the blades 10 of the cones 9, the droplets merge with the film coming from the outer surface of the tubes 8, and the liquid phase spirals. From the impact of the reflected horse 9 of the liquid phase onto the film I run down 1 on the wall of the nozzles 6, the last also acquires a spiral movement, as a result of its disruption from the wall does not occur and it smoothly flows to the surface of the hydrostatic column, which the bottom of the nozzles.

Gas entrained by the product when it fails into the nozzles 6, return the liquid-gas through the tubes 8 to the vessel space above the interface. From the tank 1, the product flows uniformly through the nozzles 4 and under the action of the pressure of the hydrostatic column in the nozzles 6 is transported to oil processing equipment. Cutter 5 prevents liquid from entering the gas line.

The advantages of making the lower ends of the tubes 8 with the extension in the form of a cone 9 are that the droplets of the destroyed jet are not allowed to fall on the surface of the liquid column in the lower part of the pipe 6 and thus

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liquid 55 is formed in the upper part. gas particles are pushed in.

the curtain, below which the product flows down the wall of the nozzles 6 and the outer surface of the tubes 8 in the form

bones in a thin wall film.

therefore, the kinetic energy of the droplets reflected by the cone 9 is sufficient to prevent the film from tearing off the wall of the nozzle 6 and impart rotational motion to it. The inertial forces acting on the thin film from the side of the droplets under the conditions of unidirectional downward movement of the droplets and the film overcome the viscous and adhesive forces. In the channels between the blades 10 of the cones 9, the drops merge with the film coming from the outer surface of the tubes 8, and the liquid phase spirals. The impact of the reflected horse 9 of the liquid phase on the film, flowing 1 along the wall of nozzles 6, the latter also acquires a spiral movement, as a result of its disruption from the wall does not occur and it smoothly flows to the surface of the hydrostatic column, which at the bottom of the nozzles.

Gas entrained by the product when it fails into the nozzles 6, return through the tubes 8 to the space of the tank 1 above the liquid-gas interface. From the tank 1, the product comes out in uniform flows through the fittings 4 and under the action of the pressure of the hydrostatic column in the nozzles 6 is transported to oil processing equipment. The cutter 5 prevents the liquid phase from entering the gas line.

The advantages of making the lower ends of the tubes 8 with the expansion in the form of a cone 9 in that the falling drops of the destroyed jet are prevented from falling onto the surface of the liquid column in the lower part of the pipe 4 and thus

drops in the liquid column located at the bottom of the nozzles. In addition, in the presence of cones 9 isk.klyu31

The gas flows from the gas inlet of the tank 1 through the tubes 8 to a downward liquid flow and reduces the influence of the latter on the gas that has slipped under the cones 9 through the gap between the walls of the pipes 6 and the cones.

Claims (2)

1. Device for collecting, transporting and distributing products. in 86225, 4 Oil wells in accordance with Aut. No. 1275087, characterized in that, in order to improve product quality by eliminating the ingress of gas into the separated fluid flows, the lower ends of the tubes are made with expansion in the form of a cone. 2. The device according to p. T, that is, that the tubes are provided with blades mounted tangentially on the outer surface of the housing.