RU2738045C1 - Inflow control device - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to production of hydrocarbons and can be used for operation of wells, in particular for leveling profile of influx of produced product along length of horizontal well. Inflow control device includes a housing with holes in the bottom located along the edge of the internal cavity of the housing, a cover with one hole in the center. Movable disk performing functions of the valve installed between the ledges of axial orientation of the disk located on the bottom and a cover. In the center of the housing bottom there is a threaded hole, in which there is a screw made on the side of the lower end face with a spline or with a blind key hole. On the side of upper end cylindrical cavity is made, in which spring is installed, which rests against cylindrical cavity, made on disc, diameter of which is not less than outer diameter of spring.

EFFECT: improving efficiency of valve shutting down at reduction of viscosity and increase of speed of produced product passage through it to reduce its watering.

6 cl, 6 dwg

Description

The invention relates to the field of hydrocarbon production and can be used to operate wells, in particular to align the profile of the inflow of the produced product along the length of a horizontal well.

A known system for controlling the flow of fluid in a well, containing a fluid module with a bridge network for fluid, and a method of using such a system according to the RF patent for invention No. 2568619. The group of inventions relates to methods and systems for controlling fluid flow in a well. The system contains a fluid module with a main flow, valve and bridge network. The valve has a first position in which fluid can flow through the main path and a second position in which fluid flow through the main path is blocked. The bridge network has first and second branch ducts, each of which has an inlet and an outlet communicating with the main duct and each of which includes two hydraulic resistances with a pressure take-off terminal located between them. In operation, the differential pressure between the terminals of the first and second branch ducts moves the valve between the first and second positions. The technical result consists in increasing the efficiency of controlling the fluid flow in the well. The disadvantage of the system for controlling the flow of fluid in the well is the presence of a network of channels, which increases the likelihood of their clogging and system failure.

A device for leveling the inflow of an oil well is known according to the RF patent for utility model No. 173196. The utility model relates to the field of hydrocarbon production and can be used for the operation of wells, in particular for aligning the profile of the fluid flow along the length of a horizontal well. The task of creating a useful model is to provide the ability to adjust the pressure drop in the channel network and on the inflow regulator, as well as to reduce the labor intensity of manufacturing and assembling the device. The solution to these problems is achieved due to the fact that a device for leveling the inflow of an oil well, containing a support pipe, on which a filter element is installed between the fixing rings, connected by a network of channels with an opening in the pipe, the network of channels to ensure high hydraulic resistance is made with multiple changes in the direction of movement the fluid flow and / or with multiple narrowing and expansion of the flow, on the inner surface of the retaining ring holding the filter element on the side of the channel network, grooves are made for the passage of the extracted product, the channel network is made on rings installed on the carrier pipe in the amount necessary to create the required hydraulic resistance , moreover, on the ends of the rings there are protrusions and depressions that provide the radial orientation of the rings relative to each other, and before and after the rings with a network of channels on the pipe there are adapter rings with holes for the passage of the extracted product. Rings with a network of channels are closed with a casing fixed by a stepped ring, on the inner surface of which there are grooves for the passage of the extracted product. Behind the stepped ring in the hole for the passage of the produced product into the carrier pipe, an inflow regulator is installed on the thread, made with a through hole, the diameter of which is selected depending on the inflow rate at the device installation site. The inflow regulator is closed with a cover, which is fixed to the pipe with screws. Cover, casing and inflow regulator are sealed with rubber rings. The disadvantage of the device for leveling the inflow of an oil well is the complexity of its design.

A device and method for passive control of a fluid medium in a well is known according to the RF patent for invention No. 2540764. The group of inventions relates to the oil and gas industry and, in particular, to the field of selective control of the flow of fluids - fluids entering the production string of the well. The technical result is to limit the flow of water in the flow of hydrocarbons. The method of manufacturing the device for controlling the flow of fluid from the formation involves the use of a material with an adaptable shape and with an open cell structure. A flow control element is formed by injecting a material with an adaptable shape - a hydrophilic polymer - into the openings of the open-cell structure. The amount of hydrophilic polymer is provided in a volume sufficient for the flow control element to restrict the flow of water flowing through it. The hydrophilic polymer is placed in the openings of the open cell structure to restrict the flow of water through them. At the same time, the adhesion of the hydrophilic polymer to the walls of the cells of the material with the adaptable shape is provided. The disadvantage of the device and method for passive control of the fluid in the well is the low efficiency when changing the operating modes of the well.

Known electrohydraulic inflow control valve according to RF patent for utility model No. 181704. The utility model relates to the field of hydrocarbon production and can be used for the operation of wells, in particular, for aligning the profile of the fluid flow along the length of a horizontal well. The task of the utility model is to create a new device - an electro-hydraulic inflow control valve with the achievement of the following technical result: ensuring the flow of liquid from the production formation into the supporting pipe with the possibility of limiting the flow of undesired liquid or gas through the valve and the possibility of adjusting the pressure drop in the channel network from the wellhead. The electro-hydraulic inflow control valve includes a housing containing a main channel with an actuator that closes the channel, and a secondary channel with flow restrictors to create the required pressure drop. The actuator is driven by a piston, the position of which is determined by a displacement sensor; in the secondary channel there is a network of flow limiters made in the form of throttling packets and nozzles; a differential pressure sensor is installed, while the secondary channel is limited by a damper and an electromagnetic valve actuated from the surface of the well. In addition, the electro-hydraulic inflow control valve contains a buffer tank for the liquid displaced by the valve. The disadvantage of the electro-hydraulic inflow control valve is that it is operated from the surface.

Known autonomous downhole inflow regulator according to RF patent for invention No. 2513570. A valve assembly for regulating fluid flow in a horizontal well is presented. The casing can be connected by a tubing string. The chamber is formed within the housing and can be fluidly communicated with a flow channel with an internal annular gap formed near the wellbore. The piston and biasing member may be located within the chamber, the biasing member being adapted to bias the piston into a first position. A fluid flow path is formed within the housing and is in communication with the tubing and the internal annulus. The flow path may contain one or more nozzles located therein and the piston may be adapted to move between a first position allowing fluid to flow through the flow path to the tubing and a second position to prevent fluid from flowing into the tubing - blocked. The disadvantage of an autonomous inflow regulator is the complexity of the design.

Known adjustable flow restrictor for use in an underground well under the RF patent for invention No. 2532410. The group of inventions relates to mining and can be used to control the flow of fluid into a well. The system contains a flow chamber through which a multicomponent fluid flows, and this chamber contains at least one inlet, an outlet and at least one structure located in a spiral relative to the outlet, contributing to swirling the multicomponent fluid flow in a spiral around the outlet. Another version of the system comprises a flow chamber having an outlet, at least one structure that helps to swirl the multicomponent fluid in a spiral around the outlet, and at least one more structure that prevents the flow of the multicomponent fluid from being redirected to a radial path going to the outlet. The technical result consists in preventing the formation of a gas cone and / or a water cone around the well. The disadvantage of an adjustable flow restrictor is the low separation efficiency of the well fluid with a lower viscosity.

Known flow control device according to the RF patent for invention No. 2600401. The invention relates to equipment for completing oil and gas wells, in particular for regulating the inflow of well fluid in a separate section of the wellbore. The device contains a housing consisting of an upper and lower parts connected by a threaded connection, an axial entrance to the housing and radially located outlets, an entrance to a secondary channel in the upper part of the housing, made in the form of a groove in which a porous element is located, a system of capillary channels in the axial direction, made in the walls of the housing, a movable element, a collet and a small-diameter nozzle. In the lower part of the housing, the capillary channels are combined into a cavity between the movable element and the lower part of the housing. The disadvantage of the flow control device is low reliability associated with the presence of capillary channels in the secondary flow, passing through which the flow repeatedly turns, which in the presence of mechanical impurities will lead to clogging of the secondary channel and a rapid failure of the device.

Known autonomous inflow control valve AUKP-FLOWREG AICD according to the technical passport of the company Weatherford (prototype). An autonomous inflow control valve is installed in the well on the lateral surface of the pipe between the pipe and annular space. It includes a body with holes in the bottom located along the edge of the inner cavity of the body, a lid with one hole in the center and a movable disk that acts as a valve installed with a gap relative to the lid and the bottom inside the body on the protrusions of the axial orientation of the disk. The disadvantage of an autonomous inflow control valve is the inability to adjust the force at which the valve closes.

The objective of the invention is to regulate the force at which the valve closes, with the achievement of the following technical result: increasing the efficiency of valve closure while decreasing the viscosity and increasing the rate of passage of the produced product through it to reduce its water cut.

The solution to these problems is achieved due to the fact that the inflow control device is installed in the well on the side surface of the pipe between the pipe and annular space, includes a body with holes in the bottom located along the edge of the inner cavity of the body, a cover with one hole in the center and a movable disk, acting as a valve, installed between the protrusions of the axial orientation of the disc and the cover located on the bottom, and a threaded hole is made in the center of the bottom of the body, in which a screw is installed, made from the side of the lower end with a slot or with not a through hole for a key, but from the side of the upper end a cylindrical cavity is made, in which a spring is installed, abutting against a cylindrical recess made on a disk, the diameter of which is not less than the outer diameter of the spring. The force of pressing the disc against the hole in the cover is regulated through a spring with a screw installed in the center of the bottom of the body. The cylindrical recess on the disc is made with a lead-in chamfer. In the threaded hole of the body and on the screw, the thread pitch is shallow for smooth adjustment. In the transport position, the disc overlaps the hole in the cover. The screw is installed in the body on the thread seal or sealant.

The conducted patent studies have shown that the proposed technical solution has novelty, industrial applicability and an inventive step, i.e. meets all the criteria of the invention. The inventive level is confirmed by the fact that a new set of essential features provides a new technical result. Industrial applicability is due to the fact that in the manufacture of the inflow control device, non-scarce materials and known technologies are used.

The essence of the invention is illustrated in FIG. 1 ... 6, where:

FIG. 1 shows an inflow control device installed on a pipe in a well.

FIG. 2 shows a longitudinal section of the flow control device during production. The hole in the cover is open. The movement of the extracted product is shown by arrows

FIG. 3 shows a longitudinal section of the inflow control device in case of water or gas breakthrough. The hole in the cover is closed.

FIG. 4 shows section AA. The disc that acts as a valve and the spring are not shown in section.

FIG. 5 shows a view "B" on a hexagonal wrench hole made from the bottom in the screw.

FIG. 6 shows a longitudinal section of the disc.

Inflow control device, installed in well 1 on the lateral surface of pipe 2 between pipe 3 and annular space 4, includes a body 5 with holes 6 in the bottom 7 located along the edge of the inner cavity of the body 8, a cover 9 with one hole 10 in the center and a movable disk 11, performing the functions of a valve, installed between the protrusions of the axial orientation of the disk 12 and the cover 9 located on the bottom 7, and in the center of the bottom 7 of the housing 5 a threaded hole 13 is made, in which a screw 14 is installed, made from the side of the lower end 15 with a slot or not a through, multifaceted hole for a key 16, and from the side of the upper end 17 there is a cylindrical cavity 18, in which a spring 19 is installed, abutting against a cylindrical recess 20, made on a disk 11, the diameter of which is not less than the outer diameter of the spring 19. The pressing force of the disk 11 to hole 10 of the cover 9 is adjusted through the spring 19 by the screw 14 installed in the center of the bottom 7 of the housing 5. Cylindrical recess Leaning 20 on the disk 11 is made with a lead-in chamfer 21. In the threaded hole 13 of the housing 5 and on the screw 14, the thread pitch is made small for smooth adjustment. In the transport position, the disc 11 closes the hole 10 in the cover 9. The screw 14 is installed in the housing on the thread seal or sealant.

The inflow control device works as follows. Before installing the device in the borehole 1, the screw 14 is used to adjust the force with which the spring 19 presses the disc 11 against the cover 9, blocking the hole 10 made in it, through which the produced product passes from the annular 4 into the pipe 3 space. The regulator is installed on the lateral surface of the pipe 2 and is lowered into the well 1 from the casing string. The produced product, due to the higher pressure in the annulus 4, overcomes the force of the spring 19, displaces the disc 11 and from the annular space 4 enters through the hole 10 in the cover 9 into the device, the gap "S" passes between the cover 9 and the disc 11, bends around the disc 11 and through the holes 6 in the bottom 7 of the housing 5 passes into the tube space 3. The disc 11 has the ability to axially move between the protrusions of the axial orientation of the disc 12 and the cover 9. The position of the disc 11 depends on the viscosity of the produced product and the rate of its passage through the inflow control device. According to Bernoulli's law, the sum of static pressure, dynamic pressure and frictional pressure loss along the flow line is constant. During the passage of a viscous product, for example oil, the disc 11 is pressed against the axial projections of the disc 12 and provides a maximum flow area. If less viscous fluids, such as water and gas, pass through the inflow control device at a high speed, the pressure inside the device under the disk 11 becomes greater than in front of the device, while the disk 11 moves towards the hole 10 in the cover 9 and closes it. Due to this, the flow of water and gas into the pipe space 3 is limited, in the event of a breakthrough. The spring 19 creates an additional force directed to the closure of the disc 11 of the hole 10 in the cover 9, which increases the efficiency of the device.

Application of the invention allowed:

1. Provide an adjustment of the force at which the valve closes.

2. Increase the reliability of valve closing

3. To increase the efficiency of valve closure while decreasing the viscosity and increasing the rate of passage of the produced product through it.

4. Reduce the water cut of the produced product.

5. Prevent the formation of water and gas cones.

Claims (6)

1. An inflow control device installed in the well on the lateral surface of the pipe between the tubular and annular space, including a body with holes in the bottom located along the edge of the inner cavity of the body, a cover with one hole in the center and a movable disk that acts as a valve installed between on the bottom with protrusions of the axial orientation of the disk and a cover, characterized in that a threaded hole is made in the center of the bottom of the housing, in which a screw is installed, made from the side of the lower end with a slot or with a blind multi-faceted hole for a key, and a cylindrical cavity is made from the upper end, in which a spring is installed, abutting against a cylindrical recess made on a disk, the diameter of which is not less than the outer diameter of the spring. 2. The inflow control device according to claim 1, characterized in that the pressure of the disk against the cover hole is regulated through a spring by a screw installed in the center of the bottom of the housing. 3. Inflow control device according to claim 1, characterized in that the cylindrical recess on the disk is made with a lead-in chamfer. 4. The inflow control device according to claim 1, characterized in that the thread pitch in the threaded hole of the body and on the screw is made small for smooth adjustment. 5. Inflow control device according to claim 1, characterized in that in the transport position the disc overlaps the hole in the cover. 6. Inflow control device according to claim 1, characterized in that the screw is installed in the housing on the thread seal or sealant.

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