RU136483U1 - PUMPING INSTALLATION FOR SIMULTANEOUSLY SEPARATE WORKING DOWNLOAD IN TWO LAYERS - Google Patents

Abstract

A pump installation for simultaneous and separate injection of a working medium into two layers, containing one pipe string, a packer mounted between the upper and lower layers, a second packer mounted above the upper layer, below which a submersible motor with hydraulic protection is mounted, coupled to the inlet pump inlet module , a flowmeter mounted above the lower packer, characterized in that the submersible motor is made with a bilateral output of the shaft, to the upper output of which a hydraulic protection is docked, connected to the output module of the second inverted type pump mounted on the pipe.

Description

The utility model relates to oil and gas production in multilayer fields and can be used for simultaneous-separate injection (ORZ) of the working medium (water, emulsion or mixture) into two reservoirs in order to maintain the design reservoir pressure in the fluid withdrawal zone.

Known borehole installations for ORZ of a working medium in two layers (RU 2262586 C2, publ. 10/20/2005; RU 2328590 C1, publ. 10.07.2008), consisting of a column of pipes of larger and smaller diameters, placed one in another concentrically, with one more packers.

The disadvantage of such installations is the design complexity, significant metal consumption and high cost, the need to equip the well pumping stations with powerful high-pressure pump units, which leads to disruption of the integrity of the pipelines, spill of the working environment and damage to nature.

Closest to the claimed technical solution is a pumping unit for simultaneous and separate injection of the working medium into two layers in the well, containing one pipe string, a packer mounted between the upper and lower layers, an inverted type pump. In addition, it contains a packer mounted above the upper layer, a submersible motor with hydraulic protection, docked with the intake part of the pump inverted type (RU 2253009 C1, publ. 27.05.2005).

The disadvantage of such installations is the impossibility of its use during simultaneous and separate injection (ARI) of the working medium (water, emulsion or mixture) into two layers, provided that the pressure in the cluster pump station is less than the pressure required to pump the working medium into the upper layer.

The problem to which the claimed utility model is directed is to increase the efficiency of simultaneous-separate injection (ARI) of the working medium (water, emulsion or mixture) into two layers, provided that the pressure in the cluster pump station is less than the pressure necessary for pumping the working medium in the upper layer.

This problem is solved due to the fact that the claimed pumping unit for simultaneous-separate injection of the working medium (water, emulsion or mixture) in two layers contains one pipe string, a packer mounted between the upper and lower layers, a second packer mounted above the upper layer , below which a submersible motor with hydraulic protection is mounted, docked with the inlet pump inlet module, a flowmeter mounted above the lower packer. In addition, the electric motor is made with a bilateral output of the shaft, to the upper output of which a hydraulic protection is connected, connected to the output module of the second inverted type pump mounted on the pipe.

The technical result provided by the given set of features is to increase the efficiency of simultaneous-separate injection (ARI) of the working medium (water, emulsion or mixture) in two layers, provided that the pressure in the cluster pump station is less than the pressure required for pumping the working medium in the upper layer.

The figure 1 shows a diagram of a downhole pumping unit.

The downhole pump installation includes a pipe 1, upper 2 and lower 3 packers. The upper packer 2 is mounted above the upper formation 4, and the lower packer 3 is above the lower formation 5. Between the packers 2 and 3, a submersible motor 6 with a two-sided shaft output is mounted on the pipe 1. At the same time, the lower shaft output through the hydraulic protection 7 is connected to the inlet module 8 of the inverted type 9 pump, and the upper shaft output through the hydraulic protection 10 is joined to the output module 11 of the inverted type pump 12. A flow meter 13 is installed above the lower packer 3.

The utility model is operated under the condition that the pressure in the cluster pumping station is less than the pressure required to pump the working medium into the upper reservoir.

A cluster pumping station (not shown in FIG. 1), depending on the geological and mineralogical characteristics of formations 4 and 5, the required design capacity (flow rate) equal to the total flow rate of both formations is provided at the well entrance. The working medium through the pipe 1 enters the inlet of the pump of the inverted type 12 and through the output module 11, enters the annulus defined by the upper 2 and lower 3 packers, and then under a certain pressure it is forced into the upper layer 4. The pump 12 should be equal to the total flow rate both layers. Excess working medium through the input module 8 is carried away by an inverted type 9 pump and enters the lower layer 5 through the pipe 1 through the flow meter 13. As the productive characteristics of the layers change, measured by wellhead (not shown in Fig. 1) and deep (item 13) flow meters , there is a need to change the flow rate of the working environment in them. This is ensured by adjusting the pressure of the working medium and the productivity of the cluster pumping station at the inlet of the well and by changing the operating mode of the inverted type 9 and 12 pumps.

The proposed borehole pumping unit with two inverted pumps provides an increase in the efficiency of simultaneous-separate injection (ARI) of the working medium (water, emulsion or mixture) into two layers, provided that the pressure in the cluster pumping station is less than the pressure required for pumping the working medium in the upper layer. This simplifies the procedure for changing the pressure and flow rate of the working fluid pumped into the reservoirs. In addition, the creation of high pressure for pumping the working medium into the reservoirs with pumps located at the level of the reservoirs, and not at the cluster pump station, eliminates the danger of violating the integrity of pipelines and, as a consequence, environmental pollution.

Claims (1)

A pump installation for simultaneous and separate injection of a working medium into two layers, containing one pipe string, a packer mounted between the upper and lower layers, a second packer mounted above the upper layer, below which a submersible motor with hydraulic protection is mounted, coupled to the inlet pump inlet module , a flowmeter mounted above the lower packer, characterized in that the submersible motor is made with a bilateral output of the shaft, to the upper output of which a hydraulic protection is docked, connected to the output module of the second inverted type pump mounted on the pipe.

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