RU132507U1 - INTEGRATED SUBMERSIBLE BARBED ELECTRIC PUMP INSTALLATION - Google Patents

Abstract

1. Integrated submersible rodless electric pump installation containing the upper module section of the pump with a differential attachment-disperser with receiving channels, a motor with hydraulic protection, the lower module-section of the pump with a differential attachment-dispersant with receiving channels, a motor with hydraulic protection, a centralizer-screen, characterized the fact that it is additionally equipped with a middle module-section of the pump with a differential attachment-disperser with receiving channels, an engine with hydraulic protections, a centralizer-screen, sleep pressure control valve, and the upper and middle module sections are equipped with a flexible connecting transport pipe with flip openings made of polymer-metal material, the strength of which increases with the connection of each subsequent module section (bottom-up) .2. The complex submersible rodless electric pump installation according to claim 1, characterized in that it is equipped with a common electric cable with cable entries for connection to each submersible electric motor.

Description

The inventive utility model relates to the oil industry, to the technique of oil production from deep and superdeep highly debit wells with low reservoir pressure, with a high dynamic level (measured from the wellhead).

The maximum flow rate of the well fluid is 500 m ³ / day. in wells with a 5-inch production casing, it is possible to achieve with the optimal operating mode of domestic U2ETsNM5A, ETsNM5A, ETsNA5A, 2ETsNM5A.

At the same time, their head will be 1000–1150 m. In wells with a 4-inch production casing, at optimal operation, UETSNM4, U2ETSNM4, 2ETsNM4 can achieve a maximum fluid flow rate of 200 m ³ / day, while their head will be 1200–1300 m. In wells with a 6-inch production casing, it is possible to achieve the maximum fluid flow rate with optimal operation of the ECMNb - 1250 m ³ / day., ЭЦНА6 - 800 m ³ / day., ЭЦНА6А - 800 m ³ / day. At the same time, their head will be, respectively: 900 m, 1100 m, 1100 m.

Thus, for optimal production of well fluid - 500 m ³ / day. from wells with a 5-inch production casing, with low reservoir pressure, less than 100 atm -. There is no ESP equipment. There is also no ESP equipment for optimal production of well fluid - 1000 m ³ / day. from wells with a 6-inch production casing with a depth of 4000-5000 and more meters, with low reservoir pressure, less than 120 atm.

Known submersible rodless electric pump containing a motor with hydraulic protections, a module section of the pump with flow channels, a differential attachment-disperser with receiving channels, a shank with a receiving channel, a packer with couplings and a centralizer screen (Patent No. 120157 dated 03/27/2012 IPC F04D 13 / 10). The disadvantage of this technical solution is the impossibility of using a submersible rodless electric pump in deep and superdeep wells to increase oil production due to the continuous, stepwise pumping of well fluid during the operation of highly productive oil deposits.

The closest set of essential features to the utility model is a submersible rodless electric pump for the joint and separate operation of two oil reservoirs, containing the upper module-section of the pump with a differential attachment-disperser, with receiving channels and an engine with hydraulic protection, additionally equipped with lower hydraulic protection, the lower module is section containing flow channels, a differential attachment-disperser with receiving channels, a shank having a receiving channel, as well as a packer with couplings tami and centralizer. (Patent No. 115420 dated 12/08/2011 1 IPC F04D 13/10). (Prototype)

The disadvantage of this device is that the submersible rodless electric pump does not allow to increase oil production due to continuous, stepwise pumping of the wellbore fluid, as it is not equipped with a sufficient number of centralizers and module sections dividing the well into 3 zones for optimal operation of deep and superdeep wells with 5 and inch and 6 inch production casing for the purpose of oil production, respectively, 500 m ³ / day. and 1000 m ³ / day.

The objective of which the present utility model is aimed is the creation of equipment for an ESP-integrated submersible rodless electric pump installation that allows to increase the production of borehole fluid due to continuous, stepwise pumping of borehole fluid during operation of deep and ultra-deep high-yield wells.

The technical result is achieved by the fact that in the proposed complex submersible rodless electric pump installation containing a top module-pump section with a differential attachment-dispersant with receiving channels, an engine with hydraulic protections, a lower module - a pump section with a differential attachment-dispersant with receiving channels, an engine with hydraulic protections , the centralizer-screen, in contrast to the prototype, is additionally equipped with a middle module - a pump section with a differential attachment-disperser with receiving shafts, a motor with hydraulic protections, a centralizer-screen equipped with a check valve, and the upper and middle module - sections are equipped with a flexible connecting transport pipe with flip openings made of polymer-metal material, the strength of which increases with the connection of each subsequent module-section (bottom up), and is also equipped with a common electric cable with cable entries for connection to each submersible electric motor.

This design of the equipment of the ESP-integrated submersible rodless electric pump installation allows to increase oil production due to the continuous, stepwise pumping of well fluid during operation of deep and superdeep wells.

The figure shows a comprehensive submersible rodless electric pump installation.

The complex submersible rodless electric pump installation contains the upper module-section of the pump-1 with a differential attachment-disperser-2 with receiving channels-3, the engine-4 with hydroprotection-5, centralizer-6, the lower module - section of the pump-7 with a differential attachment-dispersant -2 with receiving channels-3, engine-4 with hydroprotection-5, centralizer-6, middle module-section-8 with check valve-9, flexible connecting transport pipe with pop-up openings-10, common electrical cable-11 with cable entries- 12.

An integrated submersible rodless electric pump installation operates as follows:

Before putting the complex submersible rodless electric pump installation into operation, well fluid is pumped into the annular space of well-13 until the second and third zones of the well are filled. When a complex submersible rodless electric pump installation is put into operation, the well fluid from the reservoir enters the I-th zone of the well-13, from it through the receiving channels-3 of the differential attachment-disperser-2 of the lower module-section of the pump-7 is pumped into the II well zone-13 through the flow openings of the flexible connecting transport pipe-10. In the II-nd zone, the borehole fluid enters through the receiving channels-3 of the differential attachment - dispersant-2 of the middle module-section of the pump-8 is pumped into the III-th zone of the well-13 through the opening holes of the flexible connecting transport pipe-10. In zone III, the borehole fluid enters through receiving channels-3 of the differential set-top box — dispersant — 2 of the upper module section of the pump — 1 and is pumped into the tubing — 14. The electric supply of all motors-4 is carried out via cable-11 with cable inputs-12.

The installation of centralizers-7 in the required calculated location of the well-13 allows continuous, stepwise pumping of the well fluid from the lower zone-I of the well-13 to the middle-II, then to the upper zone-III and into the tubing-14.

When restarting a submersible rodless electric pump installation, it is not necessary to fill the well with borehole fluid, since it remained in the II and III zones of the well-13, due to the operation of the check valve-9 in the connecting transport pipe-10 in the II-nd zone of the well -13.

The use of a complex submersible rodless electric pump system allows to increase oil production due to continuous, stepwise pumping of well fluid during the operation of highly productive oil deposits with a flow rate of 500 m ³ / day., 1000 m ³ / day. and more, from one well located at a depth of 5000 or more meters with low reservoir pressure.

Claims (2)

1. Integrated submersible rodless electric pump installation containing the upper module section of the pump with a differential attachment-disperser with receiving channels, a motor with hydraulic protection, the lower module-section of the pump with a differential attachment-dispersant with receiving channels, a motor with hydraulic protection, a centralizer-screen, characterized the fact that it is additionally equipped with a middle module-section of the pump with a differential attachment-disperser with receiving channels, an engine with hydraulic protections, a centralizer-screen, sleep pressure switch, and the upper and middle module sections are equipped with a flexible connecting transport pipe with flip openings made of a polymer-metal material, the strength of which increases with the connection of each subsequent module section (bottom-up). 2. The complex submersible rodless electric pump installation according to claim 1, characterized in that it is equipped with a common electric cable with cable entries for connection to each submersible electric motor.

Images