RU7460U1 - CENTRIFUGAL PUMP FOR OIL PRODUCTION FROM WELLS - Google Patents

Abstract

A centrifugal pump for oil production from wells, including one or more pump modules and a centrifugal gas separator model, each of which contains a cylindrical body, working bodies and a shaft, characterized in that the gas separator body is connected to the lower pump module body using a threaded sub, which contains a separator with the possibility of forming in the upper part of the gas separator case of the internal and external chambers and channels with the possibility of connecting the inner chamber to the environment surrounding the pump, her - with the cavity of the housing of the lower pump module, while the working bodies of the gas separator and the lower pump module are located on a common shaft.

Description

CENTRIFUGAL PUMP, DSH OIL PRODUCERS FROM CKBAJffiH

The utility model relates to the field of pump engineering for lifting liquids from wells and can be used in submersible centrifugal pumps for oil production driven by a submersible electric motor.

Well-known submersible centrifugal electric pumps for oil production from wells, including one or more pump modules and a centrifugal gas separator module for separating associated non-carbon gas, while the gas separator module is connected to the lower pump module with a fan joint and the gas separator shaft is connected to the pump module shaft using a spline coupling (1b

The disadvantages of these pumps include the presence of:

-special end parts of the pump and gas separation modules, providing the introduction of fdance connections,

-bolts for connecting the Fiaants,

- two shafts with splined ends,

- a shlitsevy coupling for connection of these shafts,

-additional radial and axial bearings for shaft support.

Object - Utility Model - F 04d 13/10

A submersible centrifugal pump is also known, in which the working elements of the gas separator are installed in a cylindrical housing common with the working bodies of the pump, equipped with special radial holes at the outlet of the gas separator (2, Fig. 65, p. 82).

The disadvantages of the known pump include the following: special holes directly in the body of the pump casing require the manufacture of a special casing, violates the interchangeability of the casing during repair and greatly complicates the assembly and disassembly of the pump.

The essence of this utility model is to ensure interchangeability of serial cases of pump modules and gas separators and gas separator working bodies in the manufacture and repair of pumps with an integrated gas separator, to significantly reduce the cost of manufacturing pumps and separators and to increase their reliability and durability during operation.

These tasks are achieved in that the gas separator housing is connected to the lower pump module housing using a threaded sub, which contains a separator, with the possibility of forming internal and external chambers in the upper part of the gas separator housing, and channels with the possibility of connecting the inner chamber to the environment surrounding the pump, and the external with the cavity of the housing of the lower pump module, while the working bodies of the gas separator and the lower pump module are located on a common shaft.

The essence of the proposed centrifugal pump for oil production from wells is illustrated by a drawing on one sheet, in which Fig. 1 shows the general internal water supply of the pump, and in Fig. 2, the junction of the gas separator housing with the housing of the lower pump module.

The proposed pump ((.I) is lowered into well I on pipes 2 and may include one or more pump modules, for example, upper 3, intermediate 4 and lower 5, and a gas separator module 6. Each pump module contains a cylindrical housing 7, working bodies 8 and shaft 9. The gas separator module 6 also includes a cylindrical housing 10 and working bodies II, 12. The gas separator housing 10 is connected to the housing 7 of the lower pump module 5 by means of a threaded sub 13, the upper threaded end 14 of which is made identical with the threaded end 15 of the input bases 16. The lower threaded end 17 of the sub 13 is connected to the gas separator housing 10. At the lower part of the sub 13, a separator 18 is located with the possibility of forming in the upper part of the gas separator housing 10 6 an internal 19 and an external 20 chambers. and 23, with the possibility of connecting the inner chamber 19 with the surrounding medium by the pump 24, and the outer chamber 20 with the cavity 25 of the housing 7 of the lower pump module 5, Working bodies II, 12 of the gas separator 6 and working bodies 8 of the lower pump module 5 are located on a common shaft 9. The input base 16 has input channels 26, protected by a grid 27. The pump is driven by a submersible motor 28.

The proposed centrifugal pump for oil production from wells works as follows. The pumped medium through the grid 27 and the channels 26 of the inlet base 16 enters the working bodies 12, II of the gas separator 6. Centrifugal forces arising from the rotation of the working bodies 12,11 discard the liquid phase of the pumped medium to the body 10 of the gas separator 6 and, moving up, the liquid phase with the help of the separator 18, it first enters the external route 20, and then through the channels 23 into the cavity 25 of the housing 7 and to the working bodies 8 of the lower pump module 5. The direction of movement of the liquid phase is indicated by arrows 29. Gas, the phase of the pumped medium is lighter, at n The power of the separator 18 enters first into the inner chamber 19, and then through the channels 21.22 into the environment surrounding the pump 24. The direction of the gas phase is indicated by arrows 30.

The proposed centrifugal pump for oil production from wells will allow us to evaluate a number of parts used in commercially manufactured pump modules and gas separators during its manufacture, and thus ensure the interchangeability of these parts both in the manufacture and operation of pumps and gas separators.

The proposed design eliminates a number of details both in the pump and in the gas separator and, therefore, caMbUvi, significantly reduces the cost of manufacturing pumps. The arrangement of the working parts of the pump and the gas separator eliminates the connection of two shafts and, to that extent, improves the reliability and durability of the pumps during operation.

Sources of information:

1. The catalog of the company REDA (SM) System 90.

2. Bogdanov A.A., Submersible centrifugal electric pumps:; for oil production, p. 82, fig. 65, Nedra, M., 1968.

Claims (1)

A centrifugal pump for oil production from wells, including one or more pump modules and a centrifugal gas separator model, each of which contains a cylindrical body, working bodies and a shaft, characterized in that the gas separator body is connected to the lower pump module body using a threaded sub, which contains a separator with the possibility of forming in the upper part of the gas separator case of the inner and outer chambers and channels with the possibility of connecting the inner chamber to the environment surrounding the pump, and the outer her - with the cavity of the housing of the lower pump module, while the working bodies of the gas separator and the lower pump module are located on a common shaft.