RU17344U1 - Borehole PUMP PUMP UNIT - Google Patents

Abstract

A downhole sucker rod pump installation comprising a surface drive, production and lift pipe columns with a shank, a pump with a cylinder and an overflow valve above it, the pump working element being connected by a pump rod string with a surface drive, and the shank with a packer located at its lower end, characterized the fact that it is equipped with a cylindrical nozzle arranged concentrically at the level of the sucker rod pump, the upper end connected to the elevator column, and the lower end by means of a coupling with longitudinal and radial channels ami - with a shank forming an annular cavity with the outer surface of the elevator column and the inner surface of the cylindrical nozzle, communicating through the bypass valve with the elevator cavity and through the longitudinal channels of the coupling with the inner cavity of the shank, while the sucker rod pump is communicated through radial channels of the coupling with the cavity of the production string .

Description

Downhole rod

The utility model relates to the field of mining engineering, and can be used in the oil industry for the exploitation of flooded wells.

Well-known sucker-rod pumping units for oil production, containing exploitation and elevator pipe string, a pump with a nlunger located in the cylinder, which is connected to the string of pump rods and a surface drive. (Boyko V.S. Development and exploitation of oil fields: Textbook for universities, - M .: Nedra, 1990. p.291).

A disadvantage of the known devices is the inability to pick up fluid from wells with the removal of part of the produced fluid in the flap.

The closest technical solution is a downhole sucker rod pump containing a surface supercharger, an operating and lift pipe string with a shank, a submersible pump with a cylinder and a non-resident clan above it, not necessary, a non-retractable suction string connected to the sucker rod string and a downstream shank with the end of the poker, (Maksutov R.A., Dobroskok B.E., Zaitsev Yu.V. Simultaneous separate exploitation of multi-layer oil fields. M: Nedra, 1974. p.68 - nrototin). MKI5: F04B 47/02 pumping unit

A disadvantage of the known device selected for prototin is the inability to pick up fluid from the wells with the removal of part of the produced fluid in the flap.

The problem solved by using the proposed utility model is to increase the efficiency of the installation.

The technical essence of the proposed device lies in the fact that the well-known sucker-rod pumping unit containing a surface drive, production and lift pipe string with a shank, a pump with a cylinder and an overflow valve above it, moreover, the working body of the pump is connected by a string of pump rods with a rotary drive, and the shank - with a packer located at its lower end, is equipped with a cylindrical pipe located concentrically at the level of the sucker rod pump, the upper end connected to the elevator column, and lower by means of a coupling with longitudinal and radial channels — with a shank forming an annular cavity communicated through the bypass valve with the elevator cavity and through the longitudinal channels of the coupling with the inner cavity of the shank with the outer surface of the lift column and the inner surface of the cylindrical pipe, while receiving the sucker rod pump is communicated through radial channels of the coupling with the cavity of the production string.

Providing the installation with a cylindrical nozzle and a sleeve with longitudinal and radial channels, provides an elevator nostalgia above the pump with the inner cavity of the liner, to divert part of the produced fluid to the watered interval of the formation in order to create a dynamic viscous screen (the device allows, if necessary, to create a viscous screen by pumping viscous compositions with surface before operation of the well), which allows to reduce the flow of water to the bottom of the well, to reduce the water content of the produced fluid and new to increase the efficiency of the installation.

In FIG. 1 shows a General view of the proposed device (arrows indicate the direction of fluid movement).

A downhole sucker rod pump installation includes an operating column 1, an elevator column 2, a pump with a cylinder and a spring-loaded bypass valve 3 above it.

the working body (plunger or screw in the case of a screw pump) 4 of which is connected to the column of sucker rods 5 connected to the surface drive 6, a cylindrical nozzle 7 located concentrically at the level of the sucker rod pump, the upper end of which is connected to the lift column 2, and the lower one by means of a coupling 8 with longitudinal and radial channels through a column disconnector 9 with a shank 10 with a packer 11 located on the lower end, forming an annulus with the outer surface of the elevator column 2 and the inner surface of the cylindrical pipe 7 cavity A, communicating through the bypass valve 3 with the elevator cavity and through the longitudinal channels of the coupling 8 with the internal cavity of the shank 10, and the sucker rod pump is communicated through the radial channels of the coupling 8 with the cavity of the production casing 1.

The proposed device operates as follows. The downhole equipment is launched with the emphasis of the liner 10 on the bottom of the well (the sub-packer portion of the liner must be perforated) in accordance with FIG. 1. After lowering the equipment and planting the packer 11 in the interval of the oil-water contact (V P K), viscoelastic compounds are injected to create a screen in the flooded part of the formation (if necessary), then the well is launched and output to the specified operating mode. Low-water oil from the oil-saturated part of the reservoir enters the over-packer cavity of the production casing 1, then through the radial channels of the coupling 8 to the pump intake and then to the surface via the lift casing 2. A part of the well’s production through the bypass valve 3, annular cavity A, longitudinal channels of the coupling 8 and the inner cavity of the liner 10 is discharged into the under-cavity of the production casing 1 for injection into the flooded part of the formation and creating a permanent protective screen.

Feasibility or other efficiency:

1. Increase in oil withdrawal by reducing water cut in well production.

2. Reducing energy costs for the production of a ton of oil.

Claims (1)

A downhole sucker rod pump installation comprising a surface drive, production and lift pipe columns with a shank, a pump with a cylinder and an overflow valve above it, the pump working element being connected by a pump rod string with a surface drive, and the shank with a packer located at its lower end, characterized the fact that it is equipped with a cylindrical nozzle arranged concentrically at the level of the sucker rod pump, the upper end connected to the elevator column, and the lower end by means of a coupling with longitudinal and radial channels ami - with a shank forming an annular cavity with the outer surface of the elevator column and the inner surface of the cylindrical nozzle, communicating through the bypass valve with the elevator cavity and through the longitudinal channels of the coupling with the inner cavity of the shank, while the sucker rod pump is communicated through radial channels of the coupling with the cavity of the production string .