RU2532501C1 - Multifunctional packer - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining, in particular to the oil producing industry, and can be used for separate exploitation of oil wells. The multifunctional packer comprises a pipe connected from above with the column of pumping and compression pipes and from below with the submersible electrically-actuated pump through the nozzle. Outside of the pipe the rubber ring sleeves with the mechanism of their extension are mounted, an anchor, a centraliser and a channel is made for tight wiring the power cable through the packer. In the wall of the pipe on both sides of the ring sleeves the radial holes are made and ring trapezoidal grooves symmetrically to them, connecting the pipe cavity with spaces between the pipes above and below the packer. The inner pipe diameter is smaller than the inner diameter of the column of pumping and compression pipes and towards the upper end of the pipe in the latter the inner cone of transition from the pipe diameter to the column diameter of pumping and compression pipes is made. On the inner side of the wall of the pipe a ring recess is made of the locking device for mounting in the pipe of removable cylindrical inserts designed to perform certain technological procedure of well operation of descending into the pipe through the cavity of the column of pumping and compression pipes and hermetically mounted in a pipe through the seals with the possibility of aligning and/or overlapping the ring trapezoidal grooves with radial holes in the pipe and in removable cylindrical inserts. In the pipe the removable cylindrical inserts can be mounted for technological operations of the procedure of operation of the well: washing the above-packer tubular annulus or washing the submersible electrically-actuated pump, or gas discharge from the under-packer tubular annulus, or oil extraction using submersible electrically-actuated pump and other removable inserts. The removable cylindrical inserts comprise the element of the retaining device interacting with mating ring recess on the inner side of the pipe wall, retaining the cylindrical insert in the pipe in a certain position, and an annular groove for engaging the removable inserts with the gripping tool for descending from the well surface to the pipe and removal them through the cavity of the column of pumping and compression pipes.

EFFECT: reduction of amount of tripping operations and downtime of the well.

7 cl, 5 dwg

Description

The invention relates to mining, in particular, to the oil industry, and can be used for separate operation of oil wells.

A mechanical double-barrel packer with a cable entry is known, comprising packer and inner shafts inserted one into the other and fastened together with orientation on the cable entry, a packer assembly, a mechanical actuator of push action, a cable entry sealant with gas exhaust lines or for pumping chemicals. The inner barrel is made of composite of the upper, middle and lower parts, the lower end of the middle part of which has a protrusion for interaction with the drive cylinder. Shear elements are installed in the through holes of the lower end of the middle part and the upper end of the lower part of the inner barrel. (Patent RU No. 2468185 for the invention "Mechanical double-barrel packer with cable entry". - IPC: ЕВВ 33/128. - 11/27/2012).

Known drillable mechanical packer containing a barrel with expandable and landing cones and a screwdriver connected through an extension cord provided with a ring with a sleeve, a housing with a metal sealing element provided with an external and internal annular protrusions, an anchor, a retainer and a landing mechanism. The adapter in the axial channel of the extension cord is made with longitudinal windows in the end part and a sleeve forming a movable connection with the barrel. The anchor is made in the form of stoppers installed in the windows of the body with the possibility of interaction with the landing cone of the barrel. The latch is made in the form of split retaining rings installed in the annular bores of the housing and facing the reciprocal grooves on the barrel. The landing mechanism is made in the form of an expanding cone at the lower end of the barrel with spring-loaded crackers mounted on the inner annular protrusion of the sealing element. The body is equipped with a spring centralizer, covering the extension cord with the ring with the possibility of forming a telescopic connection with it, and the axial bore of the barrel is connected to the well cavity by radial channels and is equipped with a check valve. (Patent RU No. 2236556 for the invention "Drillable mechanical packer". - IPC: ЕВВ 33/12. - 09/20/2003).

Known mechanical support packer, including a barrel, consisting of two telescopic interconnected upper and lower parts with the possibility of axial movement between them and equipped with o-rings and cuffs, an adapter, an adjusting nut and a clamp. The barrel is additionally equipped with a mechanical anchor or centering device fixed on it, consisting of interconnected cones, flat dies and a die holder installed lower or higher than the sealing collars, and / or the packer is made with a cable entry in the form of a longitudinal sealing blind slot on its trunk inside the sealing cuffs. (Patent RU No. 2365739 for the invention of "Sharifov mechanical-support packer (options)", p. 3). - IPC: ЕВВ 33/12. - August 27, 2009).

A well-known system for operating wells by a submersible electric pump by means of cable entry packers, comprising two packers installed on the tubing, one of which is located above the lower layer, the second above the upper one, and an electric centrifugal pump installed in the lower part of the pipe. The packer located above the lower layer is made with the possibility of mechanical landing in the well by axial movement of the tubing, and the packer located above the upper layer is made with the possibility of landing in the well by axial unloading of the weight of the tubing and is equipped with a hydraulic armature with cable entry . Such a system simplifies the process of operating the well in terms of reducing the volume of tripping operations and reduces the downtime of the well. (Patent RU No. 2473790 for the invention “A system for operating wells by a submersible electric pump through packers with cable entry.” - IPC: Е21В 43/14. - January 27, 2013).

A well-known installation for the operation of the well, including a packer in the gap between the layers, a pipe string with a suction valve and an electric centrifugal pump equipped with a sealing casing. Above the pump, a cylindrical chamber is installed on the pipe string, having internal o-rings, a support seat, radial holes for communication with the annulus above the packer and an inner annular groove at the level of the holes. A removable fitting assembly with an axial passage channel is provided in the cylindrical chamber, provided with a gripping element, an external sealing ring and calibrated radial interchangeable fittings at the level of the radial holes. A spring lock is mounted in the lower part of the fitting assembly to fix it in the support saddle of the cylindrical chamber. The installation provides control of flow rates and pressures of the injected fluid during intra- and inter-well pumping. (Patent RU No.2335625 for the invention "Installation for the operation of the well." - IPC: ЕВВ 43/14. - 10.10.2008). This invention is taken as a prototype.

The disadvantage of all known packers is the large volume of tripping operations to replace technological operations performed according to the rules of operation of the well, requiring a long downtime of the well.

The main task to be solved by the claimed invention is directed is to reduce the volume of tripping operations during well operation in accordance with the technological regulations and the down time of the well.

The technical result is to increase the manufacturability of wells, reducing the volume of tripping operations and downtime of the well.

The specified technical result is achieved in that, in a known packer containing a pipe connected from above to a tubing string and from below to a submersible electric drive pump by means of a pipe, rubber ring cuffs with an expansion mechanism are mounted on the outside of the pipe, an anchor, a centralizer and a channel for hermetic wiring of the power cable through the packer to a submersible electric drive pump, and radial holes are made in the pipe for communication with the annulus, according to the proposed technique solution

radial holes in the pipe wall are made on both sides of the annular cuffs and symmetrically on the inner side of the wall there are circular trapezoidal grooves communicating with the annular spaces above and below the packer, and on the inner side of the pipe wall there is an annular recess of the locking device for installation of replaceable cylindrical inserts in the pipe to perform the corresponding functions of the technological regulation of the operation of the well, lowered into the pipe through the cavity of the tubing string and the herme adic installed in the pipe by seals, with combinations and / or overlapping trapezoidal annular groove in the pipe and radial holes in the replaceable cylindrical insert;

the inner diameter of the packer pipe is smaller than the inner diameter of the tubing string, while in the packer pipe a cone is made with the largest diameter at the level of the upper end equal to the diameter of the tubing;

interchangeable cylindrical inserts contain a locking device element that interacts with the reciprocal annular recess on the inner side of the pipe wall and holds the insert in a certain position, the outer ring seals and the inner annular groove for engaging the inserts with a gripping tool for lowering from the borehole surface into the pipe and removing them through the column cavity tubing;

a cylindrical insert can be installed in the pipe for washing the over-packer annular space, in which a cavity is made, divided by an end wall at the level of the lower edge of the annular trapezoidal groove with radial openings into two parts above the annular cuffs, with radial openings at the level of the annular trapezoidal grooves in communication with the cavity of the tubing string and with the over-pack annular space, while the lower part of the insert kryvaet trapezoidal annular groove with radial holes in the tube wall below the annular cuff;

a cylindrical insert for flushing a submersible electric drive pump can be installed in the pipe, in which a cavity is made, divided by a cross-flow coupling into two parts, while the radial channels of the coupling communicate with the annular trapezoidal groove and the radial holes in the pipe wall above the annular cuffs and with the submersible electric drive pump through the cavity of the lower part of the insert and pipe, and the longitudinal channels communicate with the cavity of the tubing through the cavity of the upper part of the insert and with the under-packer the annular space through the cavity formed between the walls of the pipe and the lower part of the insert, and an annular trapezoidal groove with radial holes in the pipe wall below the annular cuffs;

a cylindrical insert can be installed in the pipe for discharging gas from the sub-packer annular space, in which a cavity is made, divided by an ejector into two parts, while the ejector gas supply channel communicates with a cavity formed between the pipe walls and the lower part of the insert, and an annular trapezoid groove with radial holes in the pipe wall below the annular cuffs, and a diffuser with the cavity of the tubing string through the cavity in the upper part of the insert, with the annular trapezoidal ditches blocked ke with radial holes in the pipe wall above the annular cuffs;

a cylindrical insert for oil production by a submersible electric drive pump can be installed in the pipe, which is hollow with the possibility of a submersible electric drive pump communicating with the cavity of the tubing string while simultaneously inserting ring trapezoidal grooves with radial holes in the pipe wall on both sides of the ring cuffs.

The analysis of the prior art cited by the applicant made it possible to establish that there are no analogs characterized by sets of features identical to all the features of the claimed multifunction packer. Therefore, the claimed technical solution meets the condition of patentability "novelty."

The search results for known solutions in the art in order to identify features that match the distinctive features of the prototype of the features of the claimed technical solution have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed technical solution on the achievement of the specified technical result is not revealed. Therefore, the claimed technical solution meets the condition of patentability "inventive step".

The claimed technical solution can be implemented at any engineering enterprise from well-known materials and accepted technology and used in oil and gas wells. Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

Figure 1 schematically shows a General view of the multifunction packer; figure 2 is the same, with a cylindrical insert for washing nadpakerny annular space; figure 3 is the same with a cylindrical insert for washing a submersible electric drive pump; figure 4 is the same, with a cylindrical insert for the removal of gas from the under-packer annular space; figure 5 is the same with a cylindrical insert for oil production from the well.

The multifunctional packer contains a pipe 1 connected from above to a tubing string 2 and from below to a submersible electric drive pump 3 by means of a pipe 4, while outside the pipe 1 there are mounted rubber ring cuffs 5 with an expansion mechanism, an anchor 6 holding the pipe 1 in the casing 7 of the well, centralizer 8, and a channel is made for the hermetic wiring of the power cable 9 through the packer to the submersible electric drive pump 3 from the surface of the well. In the wall of the pipe 1, radial holes 10 and 11 are made on both sides of the annular cuffs 5 and symmetrically formed on the inner side of the annular trapezoidal grooves 12 and 13, communicating the cavity of the pipe 1 with the annular spaces 14 and 15 above and below the annular cuffs 5, respectively. The inner diameter d _{1 of the} pipe 1 is smaller than the inner diameter d _{2 of} the tubing string 2, while the cone is made in the pipe with the largest diameter at the upper end face equal to the diameter d _{2 of the} tubing 2. (Figure 1). On the inner side of the pipe wall 1, an annular recess 16 of the locking device is made for installing replaceable cylindrical inserts 17, 18, 19 and 20 in the pipe 1, designed to fulfill certain technological regulations for the operation of the well, lowered into the pipe 1 through the cavity of the tubing string 2 and hermetically installed in the pipe 1 by means of seals 21 with the possibility of combining and / or overlapping the annular trapezoidal grooves 12 and 13 with radial holes 10 and 11 in the wall of the pipe 1 and radial holes 22 17. A replaceable cylindrical insert (2, 3, 4 and 5).

A cylindrical insert 17 can be installed in the pipe 1 for flushing the over-packer annular space 14, in which the cavity 23 is divided by the end wall 24 at the level of the lower edge of the annular trapezoidal groove 12 with radial holes 10 above the annular cuffs 5 into two parts. In the wall of the upper part of the cylindrical insert 17, radial holes 22 are made at the level of the annular trapezoidal groove 12 with radial holes 10 above the annular cuffs 5, communicating the cavity of the tubing string 2 with an over-pack annular space 14. (FIG. 2). While the lower part of the insert 17 overlaps the annular trapezoidal groove 13 with radial holes 11 in the wall of the pipe 1 below the annular cuffs 5.

A cylindrical insert 18 can be installed in the pipe 1 for flushing a submersible electric drive pump 3, in which a cavity 25 is made, divided by a cross-flow coupling 26 into two parts, while the radial channels 27 of the coupling communicate with an annular trapezoidal groove 12 and radial holes 10 in the pipe wall 1 above the annular cuffs 5 and with a submersible electric drive pump 3 through the cavity of the lower part of the cylindrical insert 18 and pipe 4, and the longitudinal channels 28 communicate with the cavity of the tubing 2 through the cavity in the upper part of the cylindrical insert 18 and with the under-packer annular space 15 through the cavity 29 formed between the walls of the pipe 1 and the lower part of the cylindrical insert 18, and the annular trapezoidal groove 13 with radial holes 11 in the wall of the pipe 1 below the annular cuffs 5. (Figure 3) .

In the pipe 1, a replaceable cylindrical insert 19 can be installed for venting gas from the sub-packer annular space 15, in which a cavity 30 is made, divided by two ejector 31. The gas supply channel 32 of the ejector 31 communicates with a cavity 33 formed between the walls of the pipe 1 and the lower part of the cylindrical insert 19, an annular trapezoidal groove 13 with radial holes 11 in the wall of the pipe 1 below the annular cuffs 5 and a submersible electric drive pump 3, and the diffuser 34 with the cavity of the tubing string 2 through the cavity in the upper part of the cylindrical insert 19, with the possibility of overlapping the annular trapezoidal groove 12 with radial holes 10 in the wall of the pipe 1 above the annular cuffs 5. (Figure 4).

In the pipe 1, a replaceable cylindrical insert 20 for oil production by a submersible electric drive pump 3 can be installed through the cavity 35 with simultaneously closed annular trapezoidal grooves 12 and 13 with radial holes 10 and 11 in the pipe wall 1 on both sides of the annular cuffs 5 of the cylindrical insert 20. ( Figure 5).

Replaceable cylindrical inserts contain an element 36 of the locking device, interacting with a reciprocal annular recess 15 on the inner side of the wall of the pipe 1, which holds the replaceable inserts 17, 18, 19 and 20 in the pipe 1 in a certain position, and an annular groove 37 for engaging the replaceable inserts 17,18 , 19 and 20 with a gripping tool (not conventionally shown) for descent from the surface of the well into the pipe 1 and removing them through the cavity of the column of tubing 2.

The proposed multifunctional packer works as follows.

A multifunctional packer containing a pipe 1 with rubber ring cuffs 5 and an expansion mechanism, with an anchor 6, a centralizer 8 and a power cable 9 hermetically passed through the packer through a channel made on the pipe 1, the last and power cable 9 on the surface of the well are connected to the submersible an electric drive pump 3 with a pipe 4, and the other end with a string of tubing 2, the latter using a centralizer 8 on the pipe 1, the packer is lowered into the casing 7 of the well to a certain depth and fixed with an anchor 6 holding Acker with a column of tubing 2 and the electrically driven submersible pump 3 in the casing 7, the cavity of which then uncouple annular rubber cuffs 5 through extension of the mechanism in the space between the tubes 14 and 15.

To comply with the technological regulations for the operation of the well, on the surface of the well, the corresponding replaceable cylindrical insert is hooked with a gripping tool to the inner annular groove 37 and lowered through the cavity of the column of tubing 2 with an inner diameter of d ₂ into a pipe 1 with an inner diameter of d ₁ <d ₂ with compression the seals 21 and the element 36 of the locking device when moving them from the upper end of the pipe 1 along the cone. In the pipe 1, replaceable cylindrical inserts are installed hermetically by means of seals 21 and are fixed by the locking device element 36 in the reciprocal annular recess 16 of the pipe 1 holding the replaceable cylindrical insert in a certain position.

For washing the overpacker annular space 14, for example, from sand and gravel sediment, a cylindrical insert 17 is installed in the pipe 1 above as described. Liquid is supplied from the well surface through the tubing string 2, the latter enters the cavity 23 of the upper part of the cylindrical insert 17 and, bypassing the end wall 24, through the radial holes 22, the trapezoidal groove 12 with the radial holes 10 in the pipe wall 1 flows into the over packer annulus 14, washing out sand and gravel sediment to the surface of the well. While the annular trapezoidal groove 13 with the radial holes 11 in the wall of the pipe 1 below the annular cuffs 5 are blocked by the lower part of the cylindrical insert 17.

To flush a submersible electric drive pump 3, a cylindrical insert 18 is installed in the pipe 1 above as described. Pure liquid is supplied from the well surface through the tubing string 2, the latter enters the cavity 25 of the upper part of the cylindrical insert 18, from which through the longitudinal channels 28, the cavity 29 between the walls of the pipe 1 and the lower part of the cylindrical insert 18, the annular trapezoid groove 13 and radial holes 11 in the wall of the pipe 1 below the annular cuffs 5 clean liquid enters the under-packer annular space 15 and is taken in by the submersible electric drive pump 3. After washing, the submersible electric drive pump 3 pumps the spent fluid through the cavity of the nozzle 4 into the cavity 25 of the lower part of the cylindrical insert 18, from the latter flows under pressure through the radial channels 27 of the cross-coupling 26, the annular trapezoidal groove 12 and the radial holes 10 in the wall of the pipe 1 above the annular cuffs 5 into the annular annular space 14, which is ejected onto the surface of the well.

For the removal of gas from the under-packer annular space 15 in the pipe 1 is installed a cylindrical insert 19 as described above. The submersible electric drive pump 3 pumps the borehole fluid through the cavity of the pipe 4 into the cavity 30 of the lower part of the cylindrical insert 19, from which the liquid is ejected by the jet through the nozzle of the ejector 31 into the diffuser 34, entraining the liquid from the sub-packer annular space 15, flowing through the radial holes 11 in the wall of the pipe 1 below the annular cuffs 5, the annular trapezoidal groove 13, the cavity 33 between the walls of the pipe 1 and the lower part of the cylindrical insert 19 into the channel 32 for supplying gas to the ejector 31, the last gas suction flows into the cavity 30 of the upper part of the cylindrical insert 19. From the cavity 30 of the upper part of the cylindrical insert 19, the hydraulic mixture flows into the cavity of the tubing string 2, and then onto the surface of the well. In this case, the annular trapezoidal groove 12 with radial holes 10 in the wall of the pipe 1 above the annular cuffs 5 is blocked by the upper part of the cylindrical insert 19.

For oil production by a submersible electric drive pump 3, a cylindrical insert 20 is installed in the pipe as described above. The submersible electric drive pump 3 pumps the borehole fluid through the cavity of the pipe 4 into the cavity 35 of the cylindrical insert 20, from which the borehole fluid flows into the cavity of the tubing string 2, and then onto the surface of the well. While the annular trapezoidal grooves 12 and 13 with radial holes 10 and 11 in the wall of the pipe 1 on both sides of the annular cuffs 5 are blocked by a cylindrical insert 20.

The change of cylindrical inserts 17, 18, 19 and 20 is carried out by their engagement with a gripping tool for the annular recess 16, followed by their removal or descent through the cavity of the column of tubing 2.

The proposed multifunctional packer can be used for the operation of oil wells without the need to remove tubing from the casing of the well, which increases the manufacturability of the operation of the wells, reduces the amount of tripping and down time.

Claims (7)

1. A multifunctional packer containing a pipe connected from above to a tubing string and from below to a submersible electric drive pump by means of a pipe, rubber ring cuffs with an expansion mechanism, an anchor, a centralizer are mounted on the outside of the pipe and a channel is made for hermetically wiring the power cable through the packer to submersible electric drive pump, and in the pipe there are made radial holes for communication with the annular space, characterized in that the radial holes in the pipe wall are made on both annular trapezoidal grooves communicating with the annular spaces above and below the packer symmetrically on the inner side of the annular cuff side and symmetrically on the inner side of the wall, and an annular recess of the locking device for installing replaceable cylindrical inserts in the pipe for performing the corresponding functions of the well operation procedure lowered into the pipe through the cavity of the tubing string and sealed in the pipe by means of seals with the possibility of combining and / or overlapping annular trapezoidal grooves in the pipe and radial holes in removable cylindrical inserts. 2. The packer according to claim 1, characterized in that the inner diameter of the packer pipe is smaller than the inner diameter of the tubing string, while in the packer pipe a cone is made with the largest diameter at the upper end face equal to the diameter of the tubing. 3. The packer according to claim 1, characterized in that the replaceable cylindrical inserts comprise an element of a locking device interacting with a reciprocal annular recess on the inner side of the pipe wall and holding the insert in a certain position, the outer ring seals and the inner annular groove for engaging the inserts with a gripping tool for descent from the surface of the well into the pipe and removing them through the cavity of the tubing string. 4. The packer according to claim 1, characterized in that a cylindrical insert can be installed in the pipe for flushing the over-packer annular space, in which a cavity is made, divided by an end wall at the level of the lower edge of the annular trapezoidal groove with radial openings into two parts above the annular cuffs, moreover, in the wall of the upper part of the insert there are made radial holes at the level of the annular trapezoid groove, communicating with the cavity of the tubing string and with the overpack annular space And the lower portion of the insert overlaps a trapezoidal annular groove with radial holes in the tube wall below the annular cuff. 5. The packer according to claim 1, characterized in that a cylindrical insert for washing a submersible electric drive pump can be installed in the pipe, in which a cavity is made, divided by a cross-flow coupling into two parts, while the radial channels of the coupling communicate with the annular trapezoidal groove and radial holes in the pipe wall above the annular cuffs and with a submersible electric drive pump through the cavity of the lower part of the insert and pipe, and the longitudinal channels communicate with the cavity of the tubing through the cavity of the the upper part of the insert and with the under-pack annular space through the cavity formed between the walls of the pipe and the lower part of the insert, and an annular trapezoidal groove with radial holes in the pipe wall below the annular cuffs. 6. The packer according to claim 1, characterized in that a cylindrical insert for discharging gas from the sub-packer annular space can be installed in the pipe, in which a cavity is made, divided into two parts by the ejector, and the ejector gas supply channel communicates with the cavity formed between walls of the pipe and the lower part of the insert, and an annular trapezoidal groove with radial holes in the pipe wall below the annular cuffs, and a diffuser with the cavity of the tubing string through the cavity in the upper part of the insert, when that annular trapezoidal groove with radial holes in the pipe wall above the annular cuffs. 7. The packer according to claim 1, characterized in that a cylindrical insert for oil production by a submersible electric drive pump can be installed in the pipe, which is hollow with the possibility of communicating the submersible electric drive pump with the cavity of the tubing string while simultaneously inserting the annular trapezoidal grooves with radial holes in the pipe wall on both sides of the annular cuffs.

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