RU2674496C1 - Downhole device for controlling flow of media - Google Patents

Abstract

FIELD: construction.SUBSTANCE: group of inventions relates to the field of construction of oil and gas and steam wells. Downhole device for controlling the flow of media contains a base pipe with a coupling, valve devices and a filter element are installed on the outer surface of the base pipe. Filter element is made wire-slot. Size of the slot holes between the turns of the wire of the filter element is different, the slot holes with the largest value are located at the weld ring and their value gradually decreases towards the mounting ring.EFFECT: technical result is to increase oil production and increase well production.4 cl, 1 dwg

Description

The field of technology.

The invention relates to the field of construction of oil and gas and steam injection wells and is used to control the flow of liquid and / or gas / steam. Devices of this type are used as part of the liner of the production column in order to cut off the low-viscosity duct in a specific section of the liner, as well as to control sand phenomena, and / or as part of the section of the steam injection column in the collector area in order to equalize the steam flow along the entire length of the steam injection column.

The level of technology.

The prior art (WO 2009/045259 A2, 04/09/2009) a device for regulating the flow of media containing a filter and control devices made in the form of valves, while the above device allows you to implement a method of producing highly viscous oil by injecting steam into the reservoir to dilute the incoming fluid . To do this, two parallel wells are drilled and installed in the reservoir zone, one of which is only the supply, which consists of perforated pipes, and the second, the receiving one, whose shank consists of downhole wire-gap filters. Also known is a technology for supplying steam at an initial stage through both wells. After the set time or volume has passed, the flow through the production shaft is stopped and fluid production begins. While steam injection continues through the injection column. This device is the closest analogue (prototype).

When using the above technology, a number of difficulties arise such as:

- uneven distribution of steam along the entire length of the heating zone;

- a large proportion of associated impurities in the fluid during production, such as water, steam or gas.

Also from the prior art (US 2017/0306738, 10.26.2017), a control device made in the form of a valve is known, comprising a control device housing made of a solid steel billet. The protruding part of the body has a multifaceted shape, which allows installation, quick replacement of devices on the pipe body using standard ring or other keys. The lower cylindrical part of the housing is threaded, which allows screwing the device into a threaded hole of the corresponding diameter in the pipe. The tightness of the mechanical seal is ensured by the use of a rubber ring. The control device consists of a housing made of steel and having the form of a disk cover with an inlet, and a movable washer. The cover of the regulating device is located within the housing and protrudes in the opposite direction to this section.

However, control devices of this type have a number of significant drawbacks, one of which is the impossibility of installing such control devices on thin-walled pipes.

Also, slotted filter elements (for example, RU 71693 U1, 03.20.2008) are widely known in the prior art, however, they do not provide the possibility of uniform distribution of the injected steam.

Disclosure of the invention.

The claimed downhole device for regulating the flow of media will eliminate the above disadvantages, while the main task that the device for regulating the flow of media is to increase oil production and increase well production.

The technical result of the claimed invention is to increase oil production and increase the flow rate of the well, due to the uniform distribution of injected steam along the entire length of the heating zone, reducing the proportion of water and gas in the produced fluid, eliminating the possibility of sand or other unwanted particles entering the producing pipeline, ensuring safe descent filter into the well without the risk of damage to the filter element and other parts, as well as ensuring the possibility of carrying out technological washing operations with Vazhiny the descent of the filter element and cleaning liquid during countercurrent operation.

An additional technical result is the possibility of installing the valves of the control device for the incoming fluid flow and the valves of the control device for the flow of injected steam in the field at the rig immediately before the descent of the liner

The specified technical result is achieved by the fact that the claimed downhole device for controlling the flow of media contains a base pipe (for example, casing according to GOST 632-80) with a sleeve, valve devices and a filter element are installed on the outer surface of the base pipe. The first group of valve devices is made in the form of at least one valve device for controlling the incoming fluid flow, with each of the above valve devices comprising a housing, a cover with an inlet having a disk shape and located in the upper part of the housing, a movable washer made in in the form of a flat disk, made with the possibility of free movement under the influence of a fluid in an open space formed between the housing and the cover, while the output is made in the lower part of the housing holes. The second group of valve devices is made in the form of at least one valve device for controlling the flow of injected steam, each of the above valve devices comprising a housing, a cover with an inlet opening having a disk shape and located in the lower part of the housing, a movable washer made in in the form of a flat disk, made with the possibility of free movement under the influence of steam in the open space formed between the housing and the cover, while the outlet openings are made in the upper part of the housing and I. On top of the valve devices, on the mounting rings, there is a removable casing firmly fixed to them with set screws, rubber sealing rings are placed between the casing and the setting rings. A centralizer is mounted between the base pipe coupling and the welded ring, which is capable of free rotation on the surface of the base pipe, while the outer diameter of the centralizer is larger than the outer diameter of the ring of the mounting and removable casing. The filter element is fixed to the base pipe by welding through a ring welded on this side and landing with a slight interference fit under the installation ring on the other, while in the installation ring interacting with the filter element channels are made passing from the filter element to the valve devices. The filter element is made of slotted wire and is made in the form of a filter pipe located on the main pipe so that the annular gap between the base pipe and the filter pipe forms a layer of flow direction for the passage of fluid flow, while the filter pipe is made in the form of a spiral wound wire equipped with many filter slots in its wall, while the size of the slot holes between the turns of the wire is different, the slot holes with the largest size are located at the weld ring and their size osteopenia decreases towards the mounting ring.

If the base pipe is thin-walled, gaskets are installed between the end faces of the valve devices and the pipe surface; in all other cases, the valve devices are installed on the milled areas of the base pipe. The valve body is made of a solid billet of highly alloyed corrosion-resistant and heat-resistant steel.

The figure 1 shows a downhole device for regulating the flow of media.

Positions indicate the following structural elements:

1. Coupling, 2. Welded ring, 3. Filtering slotted wire element, 4. Adjusting ring, 5. Removable casing, 6. UKP valve for inflow, 7. UKP pressure valve, 8. Rubber sealing rings, 9. Installation screws , 10. Basic pipe, 11. Rear mounting ring, 12. Installation gaskets, 13. Direct-flow centralizer.

The implementation of the invention.

Downhole media flow control devices (hereinafter referred to as devices) are part of the liner string and are installed in the open wellbore (collector) zone to cut off the duct of low-viscosity fluid (water, steam or gas) in a specific section of the liner, to control sand phenomena, and uniform distribution of steam along the entire length.

These devices operate autonomously in the production well as part of the liner, without requiring additional regulatory influences during operation.

This device consists of a base pipe (10), one or more valve devices for controlling the incoming fluid flow (hereinafter referred to as the UKP valve for inflow) (6), one or more valve devices for controlling the flow of injected steam (hereinafter referred to as valve UKP discharge) (7) and a filtering wire-slot element (3), fixed by welding through a welded ring (2) on one side and a light tight fit under the installation ring (4) on the other.

Installation of UKP valves on the pipe body can be carried out using special metal or plastic gaskets (12) between the end face of the device and the pipe surface, which increases the tightness of the connection. Unscrewing protection is ensured by screwing the threads to the end stop with subsequent tightening.

A removable casing (5) is mounted on top of the valves, using rubber o-rings (8), and is firmly fixed with set screws (9). This makes it possible to install UKP valves in the field on the rig immediately before the launch of the liner, taking into account the particular well.

Between the coupling of the base pipe (1) and the welded ring (2), a direct-flow centralizer (13) (metal or plastic) is installed, which freely rotates on the surface of the pipe (10). The outer diameter of the centralizer (13) is larger than the outer diameter of the installation ring (4) and the removable casing (5), which ensures a safe descent of the filter into the well without risk of damage to the filter element and other parts.

The filtering element (3) is fixed to the base pipe by welding through a welded ring (2) on the other side and landing with a slight interference fit under the installation ring (4) on the other, while channels are made in the installation ring (4) interacting with the filtering element, passing from the filter element to the valve devices.

The filter element is made of slotted wire and is made in the form of a filter pipe located on the main pipe so that the annular gap between the base pipe and the filter pipe forms a layer of flow direction for the passage of fluid flow. The filter pipe is made in the form of a spiral-wound wire equipped with many filter slots in its wall, while the size of the slot holes between the turns of the wire is different, the slot holes with the largest size are located at the weld ring and their size gradually decreases towards the installation ring.

The principle of operation of the UKP valves is based on the Bernoulli effect, namely, reducing the flow area between the movable washer and the cover with a hole of a given diameter (as a result of reducing the flow) is directly proportional to the viscosity and speed of the passing fluid / water / gas.

During the injection of steam into the collector, the movable disk of the UKP valve for inflow is firmly pressed against the lid, thereby blocking the flow through itself. In turn, the movable disk of the UKP discharge valve is tightly pressed against the cover, blocking the flow through itself. This property also allows you to carry out technological operations for flushing the well during the descent and cleaning of the filter element countercurrent fluid during operation.

The UKP valve for inflow (valve device for controlling the incoming fluid flow) contains a body made of a solid billet of highly alloyed corrosion-resistant and heat-resistant steel and has a disk-shaped cover with an inlet through which the fluid coming from the oil manifold flows around a movable washer made in the form of a flat disk freely moving in the open space formed between the housing and the cover of the regulating device, enters through the outlet openings in the body of the producing well. The cover is placed within the housing and protrudes in the opposite direction to this section, which forms a flow path in which fluid enters this control device through the inlet and flows towards the movable washer and in the radial direction along it before flowing through the annular the hole formed between the housing and the movable washer, and further out through the annular hole in the body of the housing of the regulatory device. The housing and the cover are attached to each other by pressing in with an interference fit and further expansion or tearing in the joint area. The UKP discharge valve (valve device for controlling the flow of injected steam) is equipped with a reverse-action valve mechanism, which is designed to control the flow rate of steam supplied from the injection column. Like the valve device for controlling the incoming fluid flow, the UKP discharge valve consists of a body made of a solid billet of highly alloyed corrosion-resistant and heat-resistant steel and having a disk-shaped cover with an inlet through which the steam coming from the steam injection column flows around a movable washer made in the form of a flat a disk freely moving in an open space formed between the housing and the cover enters through outlet openings located at an angle relative to tsa body to the oil reservoir. The lid is placed within the housing from the side of the pipe cavity, which forms a flow path on which steam enters this control device through the inlet and extends towards the movable washer and in the radial direction along it before flowing through the annular hole formed between the housing and the movable washer, and further out through the annular hole in the body of the housing.

The constructive solution of installing the device on the pipe body using special metal or plastic gaskets between the end surface of the device and the pipe surface, or on milled pipe areas increases the tightness of the connection. This solution also allows for easy and quick replacement of devices (for specific formation conditions of the well) on the pipe body in the field without the use of adhesives or other means, thereby reducing the cost of replacement and logistics.

Claims (17)

1. A downhole medium flow control device comprising a base pipe with a sleeve, valve devices and a filter element are installed on the outer surface of the base pipe, characterized in that the base pipe is thin-walled; the first group of valve devices is made in the form of at least one valve device for controlling the incoming fluid flow, wherein each of the above valve devices comprises a housing, a cover with an inlet opening having a disk shape and located in the upper part of the housing, a movable washer made in the form of a flat a disk made with the possibility of free movement under the influence of a fluid in an open space formed between the housing and the cover, while in the lower part of the housing openings; and the second group of valve devices is made in the form of at least one valve device for controlling the flow of injected steam, with each of the above valve devices comprising a housing, a cover with an inlet having a disk shape and located in the lower part of the housing, a movable washer made in the form a flat disk made with the possibility of free movement under the influence of steam in the open space formed between the housing and the cover, while in the upper part of the housing output openings are made tions; gaskets are installed between the end faces of the valve devices and the pipe surface; on top of the valve devices, on the mounting rings, there is a removable casing firmly fixed to them by set screws; rubber sealing rings are placed between the casing and the setting rings; between the coupling of the base pipe and the welded ring a centralizer is installed, made with the possibility of free rotation on the surface of the base pipe, while the outer diameter of the centralizer is larger than the outer diameter of the ring of the installation and removable casing; the filter element is fixed to the base pipe by welding through a ring welded on one side and fit with a slight interference fit under the installation ring on the other, while in the installation ring interacting with the filter element, channels are made passing from the filter element to valve devices; the filter element is made of slotted wire and is made in the form of a filter pipe located on the main pipe so that the annular gap between the base pipe and the filter pipe forms a layer of flow direction for the passage of fluid flow, while the filter pipe is made in the form of a spiral wound wire equipped with many filter slots in its wall, while the size of the slot holes between the turns of the wire is different, the slot holes with the largest size are located at the weld ring and their size osteopenia decreases towards the mounting ring. 2. The downhole device for regulating the flow of media according to claim 1, characterized in that the valve body is made of a solid billet of highly alloyed corrosion-resistant and heat-resistant steel. 3. A downhole medium flow control device comprising a base pipe with a sleeve, valve devices and a filter element are installed on the outer surface of the base pipe, characterized in that the first group of valve devices is made in the form of at least one valve device for controlling the incoming fluid flow, each of the above valve devices contains a housing, a cover with an inlet having a disk shape and located in the upper part of the housing, a movable washer made in the form of a flat a disk made with the possibility of free movement under the influence of a fluid in the open space formed between the housing and the cover, while in the lower part of the housing there are outlet openings; and the second group of valve devices is made in the form of at least one valve device for controlling the flow of injected steam, with each of the above valve devices comprising a housing, a cover with an inlet having a disk shape and located in the lower part of the housing, a movable washer made in the form a flat disk made with the possibility of free movement under the influence of steam in the open space formed between the housing and the cover, while in the upper part of the housing output openings are made tions; valve devices are installed on milled areas of the base pipe; on top of the valve devices, on the mounting rings, there is a removable casing firmly fixed to them by set screws; rubber sealing rings are placed between the casing and the setting rings; between the coupling of the base pipe and the welded ring a centralizer is installed, made with the possibility of free rotation on the surface of the base pipe, while the outer diameter of the centralizer is larger than the outer diameter of the ring of the installation and removable casing; the filter element is fixed to the base pipe by welding through a ring welded on one side and fit with a slight interference fit under the installation ring on the other, while in the installation ring interacting with the filter element, channels are made passing from the filter element to valve devices; the filter element is made of slotted wire and is made in the form of a filter pipe located on the main pipe so that the annular gap between the base pipe and the filter pipe forms a layer of flow direction for the passage of fluid flow, while the filter pipe is made in the form of a spiral wound wire equipped with many filter slots in its wall, while the size of the slot holes between the turns of the wire is different, the slot holes with the largest size are located at the weld ring and their size osteopenia decreases towards the mounting ring. 4. The downhole medium flow control device according to claim 3, characterized in that the valve device body is made of a solid billet of highly alloyed corrosion-resistant and heat-resistant steel.

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