RU2747387C2 - Method for reducing gas pressure in annulus of marginal wells - Google Patents

Abstract

FIELD: oil industry.SUBSTANCE: invention relates to the oil industry and can be used to reduce the bottomhole pressure on the formation or to raise the dynamic level above the pump intake in wells with a low dynamic level, to remove the excess gas pressure in the annulus of an oil well during operation by electro-centrifugal, electro-screw, electro-diaphragm and sucker rod pumps by extraction of gas from the annular space of a marginal well using a jet pump, the working flow of which is a liquid lifted by electro-centrifugal, electro-screw and electro-diaphragm pumps of a high-rate well, along bypass lines and pumping it into a discharge manifold. The invention provides an increase in the efficiency of the formation fluid production technology in marginal wells with a large gas ratio and, in the event of equipment breakdown, does not affect the operation of a high-rate well due to prompt switching to the normal mode. The essence of the invention lies in the fact that when using the method of reducing the gas pressure in the annulus of marginal wells, in the wells of one cluster, equipped with electric centrifugal, electro-screw, electro-diaphragm and sucker rod pumps, through an additional tee and a gate valve installed between the central and buffer valves of the wellhead shut-off valves of the high-rate well, a bypass line for supplying well fluid is laid, parallel to the well fluid extraction line, on which a jet pump is installed, the vacuum chamber of which is connected to the annulus of a marginal well, equipped, among other things, with a sucker rod pump, a separate line containing a back pressure valve. The outlet of the jet pump in front of the linear valve is connected to the well fluid extraction line through a back pressure valve. In using this method, the working flow of the jet pump is a liquid lifted by electric centrifugal, electric screw and electric diaphragm pumps of a high-rate well. The operation of the jet pump is controlled by changing the pressure at its inlet by adjusting the flow area in the choke chamber, or an angle valve embedded in the well fluid extraction line, or by changing the rotational speed of a submersible electric motor of a high-rate well, or by selecting the number of sections of electric centrifugal, electric screw and electric diaphragm pumps of a high-rate well to create the required pressure. In this case, the excess gas pressure in the annular space of a marginal well is reduced by taking gas from the annular space of an oil well and pumping it into the well fluid extraction line. Emergency solenoid valves are installed on both inlet lines of the jet pump, and a sampler for supplying methanol is installed in the bypass line for supplying the pumped liquid in order to eliminate hydrate blockages. The pressure in the lines is monitored by pressure gauges. An automatic level gauge is installed to control the level in the annulus of a marginal well. The data from the sensors are sent to the control station to monitor and automatically control the operation of the equipment and emergency solenoid valves.EFFECT: invention provides an increase in the efficiency of the formation fluid production technology in marginal wells with a large gas ratio and, in the event of equipment breakdown, does not affect the operation of a high-rate well due to prompt switching to the normal mode.1 cl, 1 dwg

Description

The invention relates to the oil industry and can be used to reduce the bottomhole pressure on the reservoir, or to raise the dynamic level above the pump intake in wells with a low dynamic level, to remove excess gas pressure in the annulus of an oil well during operation by electro-centrifugal, electro-screw, electro-diaphragm and sucker rod pumps by sampling gas from the annular space of a low-rate well using a jet pump, the working flow of which is a liquid lifted by electro-centrifugal, electro-screw and electro-diaphragm pumps of a high-rate well, through bypass lines and pumping it into a discharge manifold.

There is a known method for removing excess gas pressure from the annular space of a well during operation with submersible electric pumps, (analogue) (1), RF patent 2081998 Е21В 43/00, filing date 09.11.1993, published 20.06.1997. The method for relieving excess gas pressure from the annular space of the well during operation with submersible electric pumps is that a jet pump is installed on the tubing above the established dynamic level, which allows pumping gas from the annular space of the well when the produced fluid passes through it. The disadvantage of this method is that the bypass of the annular gas occurs in the underground part of the pumping unit, which causes difficulties in the maintenance and control of work. Known jet apparatus for bypassing annular gas, (analogue) (2), RF patent No.: 2517287 E21B, filing date 19.11. 2012, published 27.05. 2014, which is installed above the dynamic level and communicates the annular space with the tubing string cavity through the check valve, and the jet device for bypassing the annular gas is made of two symmetrical halves in a longitudinal section, one of which is stationary with a check valve, and the second has the ability to move longitudinally inside the tubing string and connected through permanent magnets with a piston spring-loaded from below and placed in a cylinder parallel to the tubing string axis, the lower end of which communicates with the annular space, and the upper end with the tubing string cavity. The disadvantage of this method is that the bypass of the annular gas occurs in the underground part of the pumping unit, which causes difficulties in the maintenance and control of work.

There is a known device for reducing gas pressure in the annular space of wells, containing a jet pump, (prototype) (3) RF patent No. 182462 Е21В 43/12, filing date: 03/27/2018, published 08/20/2018. in which in wells with a large gas ratio, equipped with electric centrifugal, electric screw and electro-diaphragm pumps, through an additional tee and a gate valve installed between the central and buffer valves of the wellhead shut-off valves of the well, a bypass line for supplying well fluid with a pressure gauge is drawn, parallel to the well fluid selection line, on of which a pressure gauge is installed, a jet pump, the vacuum chamber of which is configured to be connected to the annular space of the well with a separate line containing a pressure gauge, a check valve and an automatic level gauge to control the level in the annular space of the well, while the outlet of the jet pump in front of the linear valve is connected to the sampling line of the well liquid through a check valve, and on both inlet lines of the jet pump emergency solenoid valves are installed, and a sampler for supplying methanol is installed in the bypass line for supplying the pumped liquid in order to exclude of hydrate plugs, while the pressure gauges, automatic level gauge and emergency solenoid valves are made with the ability to transmit data to the control station. The disadvantage is the possibility of disrupting the operation of the jet pump due to insufficient pressure of the working flow in low-rate wells.

The technical problem solved by the method of reducing gas pressure in the annular space of low-rate wells is to increase the efficiency of the technology for removing excess gas pressure from the annulus of low-rate wells. The technical result achieved by the invention is solved by the proposed method of reducing the gas pressure in the annulus of low-rate wells, in which in the wells of one cluster equipped with electric centrifugal, electric screw, electro-diaphragm and sucker rod pumps, through an additional tee and a gate valve installed between the central and buffer wellhead shut-off valves fittings of a high-rate well, a bypass line for supplying a well fluid was drawn, parallel to the line of sampling a well fluid, on which a jet pump is installed, the vacuum chamber of which is connected to the annular space of a low-rate well, equipped, among other things, with a sucker rod pump, a separate line containing a check valve. The outlet of the jet pump in front of the linear valve is connected to the well fluid sampling line through a check valve. When using this method, the working flow of the jet pump is a liquid lifted by electric centrifugal, electric screw and electric diaphragm pumps of a high-rate well. The essence of the invention lies in the fact that when using the method of reducing the gas pressure in the annulus of low-rate wells, in the wells of one cluster equipped with electric centrifugal, electric screw, electro-diaphragm and sucker rod pumps, through an additional tee and a valve installed between the central and buffer valves of wellhead valves well, a bypass line for supplying well fluid was drawn, parallel to the well fluid extraction line, on which a jet pump is installed, the vacuum chamber of which is connected to the annular space of a low-rate well, equipped, among other things, with a sucker rod pump, a separate line containing a check valve. The outlet of the jet pump in front of the linear valve is connected to the well fluid sampling line through a check valve. When using this method, the working flow of the jet pump is a liquid lifted by electric centrifugal, electric screw and electric diaphragm pumps of a high-rate well. The operation of the jet pump is controlled by changing the pressure at its inlet by adjusting the flow area in the choke chamber, or an angle valve embedded in the well fluid extraction line, or by changing the rotational speed of a submersible electric motor of a high-rate well, or by selecting the number of sections of electric centrifugal, electric screw and electric diaphragm pumps of a high-rate well. to create the required pressure. In this case, the excess gas pressure in the annular space of a low-rate well is reduced by taking gas from the annular space of an oil well and pumping it into the well fluid selection line. Emergency solenoid valves are installed on both inlet lines of the jet pump, and a sampler for supplying methanol is installed in the bypass line for supplying the pumped liquid in order to eliminate hydrate blockages. The pressure in the lines is monitored by pressure gauges. An automatic level gauge is installed to control the level in the annulus of a low-rate well. The data from the sensors are sent to the control station to monitor and automatically control the operation of equipment and emergency solenoid valves.

The proposed method for reducing the gas pressure in the annular space of low-rate wells makes it possible to increase the efficiency of the formation fluid production technology in low-rate wells with a large gas factor and, in the event of equipment breakdown, does not affect the operation of a high-rate well due to prompt switching to the normal mode.

The drawing shows an arrangement that explains a method for reducing gas pressure in the annular space of low-rate wells.

When using the method for reducing the gas pressure in the annulus of low-rate wells, the work is performed as follows. From the wellhead valves 1 of the high-rate well, along the bypass line 2, parallel to the well fluid selection line 3, the well fluid enters the jet pump 4, the vacuum chamber of which is connected to the annular space of the low-rate well 13 by a separate line 5 containing a check valve 6. The outlet of the jet pump 4 in front of the linear valve 12 is connected to the well fluid extraction line 3 through the check valve 6. In this case, the excess gas pressure in the annular space of the low-rate well 13 is removed by taking gas from the annular space of the well and pumping it into the well fluid extraction line 3. At both inlet Emergency solenoid valves 7 are installed in lines 2 and 5 of jet pump 4 7. An adjustable choke chamber 8 is cut into the line of sampling of well fluid 3 to create optimal pressure during operation of the equipment, and a sampler 9 for supplying methanol is cut into the bypass line for supplying pumped fluid 2 hydration plugs. The pressure in the lines is controlled by pressure gauges 10. To control the level in the annulus of a low-rate well, an automatic level gauge 11 is installed. Data from sensors 10, 11 are fed to a control station (not shown in the drawing) to control and automatically control the operation of equipment and emergency solenoid valves 7.

What is new is that with the proposed method for reducing gas pressure in the annular space of low-rate wells equipped with electric centrifugal, electro-screw, electro-diaphragm and deep-well sucker-rod pumps, the working flow of the jet pump is the liquid lifted by electric centrifugal, electric screw and electro-diaphragm borehole pumps, and the wells of the jet pump is connected by a separate line with the annular space of the low-rate well of the given pad.

Technological and technical results when using the method for reducing gas pressure in the annular space of low-rate wells are achieved by increasing the efficiency of the technology for producing formation fluid of low-rate wells equipped, inter alia, with sucker rod pumps, by removing excess gas pressure in the annular space of the well during operation with electric centrifugal, electric screw , electro-diaphragm and sucker rod pumps in the wells of one cluster with a large gas factor and exclusion of the impact on the operation of a high-rate well in the event of equipment breakdown due to prompt switching to the normal mode. The economic effect of using the invention can be achieved by increasing the MTBF, extending the service life of the pumping unit and reducing the time for additional types of work. References.

1. RF patent 2081998 Е21В, filing date 09.11.1993, published 20.06.1997.

2. RF patent №: 2517287 Е21В, filing date 19.11. 2012, published 27.05. 2014.

3. RF patent No. 182462 Е21В 43/12, application filing date: 27.03.2018, published on 20.08.2018.

Claims (1)

A method for reducing gas pressure in the annular space of low-rate wells, in which a bypass supply line is drawn through an additional tee and a valve installed between the central and buffer valves of the wellhead shut-off valves of the well in wells with a large gas factor, equipped with electric centrifugal, electric screw, electro-diaphragm and sucker rod pumps well fluid parallel to the well fluid sampling line, on which a pressure gauge is installed, a jet pump, the vacuum chamber of which is configured to be connected to the annular space of the well with a separate line containing a pressure gauge, a check valve and an automatic level gauge for monitoring the level in the annular space of the well, while the outlet of the jet pump in front of the linear valve is connected to the borehole fluid sampling line through a check valve, emergency solenoid valves are installed on both input lines of the jet pump, and of the pumped liquid, a sampler is installed for supplying methanol in order to eliminate hydrate plugs, while the pressure gauges, automatic level gauge and emergency solenoid valves are made with the possibility of transmitting data to the control station, characterized in that the working flow of the jet pump when using this method is the liquid lifted by the electric centrifugal, electric screw and electro-diaphragm pumps of a high-rate well of a well cluster, and the vacuum chamber of the jet pump is connected by a separate line with the annular space of a low-rate well of this cluster, equipped, among other things, with a sucker rod pump.

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