RU2595122C1 - Method for cementing shank in well and device therefor - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions relates to oil and gas industry, specifically, to methods and devices for cementing shank in open and cased well shaft. Method includes joining a shank with lower shoe, a cut device through an mounting coupling to lower end of transfer pipe string. Mounting coupling is connected with shank with possibility of synchronous rotation due to interaction of external protrusions of coupling with slots made at end of shank. Shank is lowered in well to a specified depth. Calculated volume of grouting mortar is pumped into pipe string. Launching from well mouth is performed after last portion of cement plug and flushed with flush fluid to fix it in seat of core unit of conical collars. Excess pressure is created, screws are cut and plug is moved in assembly with unit of conical collars downwards to stop ring, wherein landing cone ring is tightly seated in seat of stop ring. Grouting mortar from cavity of shank completely enters annular space. Check valve prevents entry of solution into cavity of shank of annular space. Pressure is increased to rated pressure for destruction of diaphragm with opening of holes, through which flushing liquid is washed excess solution by generating direct circulation. Method includes disconnecting from body mounting coupling with transfer pipe string, which is lifted to surface.

EFFECT: higher efficiency of method and reliability of device operation due to possibility of lowering and cementing in well with rotation for more qualitative replacement of cement grout in annular space and guaranteed disconnection of pipe string from shank irrespective of its length and in any well interval with any complexity and direction of barrel.

2 cl, 2 dwg

Description

The invention relates to the oil and gas industry, and in particular to methods and devices for cementing a liner in an open and cased wellbore.

A device is known for cementing a liner in a well (patent RU No. 2448234, IPC E21B 17/06, 43/10, publ. Bull. No. 11 of 04/20/2012), including a liner, a string of tubing, a disconnector connecting between the upper part of the shank and the lower part of the tubing string, made in the form of a docking unit, consisting of a funnel located on the upper end of the liner, and an internal releasing catcher with clamps mounted on the lower end of the tubing string, while the docking unit is disconnected by dropping from the wellhead into the tubing string string and creating hydraulic pressure in the tubing string, a valve assembly connected to the lower part of the liner and consisting of upper and lower housings in which two spring-loaded check valves are mounted one above the other, while the valve assembly is connected to the bottom a shoe and is equipped with a filter, a nipple with filling pipes from below, which has the ability to tightly interact with the funnel of the docking station. A movable sleeve fixed in the initial position by a shear screw is hermetically placed in the internal releasing catcher, the seat for seating the ball is made in the lower part of the movable sleeve, and above and below the seat for seating the ball, the upper and lower rows of radial holes are hermetically separated in the initial position and having the ability to communicate with each other after moving the movable sleeve down and interact with the travel limiter of the movable sleeve by means of an annular extension made on the inner surface in the lower part of the catcher, while the retainer of the docking unit is made in the form of a collet placed on the outer surface of the catcher, and the fixing balls inserted into the through holes made in the catcher, and in the initial position, the protrusions of the collet are pressed from the inside to the annular groove made on the inner surface of the funnel, a cylindrical sample made on the outer surface of the catcher, while the locking balls are externally pressed by the inner annular groove of the collet, and from the inside of the movable sleeve with the possibility of a limited axial downward movement in the working position followed by falling out of the locking balls into a cylindrical groove made on the outer surface of the movable sleeve and axial downward movement of the catcher relative to the collet with the possibility of the collet protrusions coming out of interaction with the external cylindrical pick of the catcher and releasing the collet from zevolevaniya, and the nipple is screwed into the lower end of the catcher.

This device implements a method of cementing the liner in the well, including lowering the liner on the tubing string into the well with topping the process fluid into it, lowering the rated length pipe equipped with a nipple and centralizer, docking the pipe nipple with a catcher and tight connection with the funnel of the docking station. In this form, the liner is lowered to the bottom and a ball is dropped from the wellhead, which sits in the saddle and, under the influence of hydraulic pressure, moves the movable sleeve down. In this case, the lower part of the device is disconnected from the upper one, which is controlled by a partial lift of the assembly, then the assembly is again unloaded until the nipple is tightly connected to the funnel and the calculated amount of cement mortar is pumped through the filling pipes, the fluid is forced into the annular space, the tubing string is lifted to the estimated distance and rinse out. After that, all the extracted parts are lifted to the mouth, and the well is transferred to the waiting for the hardening of cement (OZZ).

The disadvantages of the method and device are:

- the complexity of the design of the device, which contains many parts that interact with each other, and low-tech manufacturing, in addition, it is metal-intensive, and its assembly requires a lot of time;

- the impossibility of rotation of the liner during its descent into the specified interval of the well and in the cementing process, which complicates its passage in the curvature zone of the wellbore and sludge pads, and also does not provide high-quality replacement of the grout in the annulus;

- there is no way to install and cement the liner in any interval of the well, since for the disconnecting device to operate, it is necessary to lower the liner to the bottom and relieve the layout.

Closest to the proposed is a device for cementing the liner in the well (patent PM RU No. 134574, IPC E21B 33/13, E21B 33/14, publ. Bull. No. 32 of 11/20/2013), containing an installation sleeve for connecting the device to the transport column pipes, housing, shank, valve assembly in the form of a spring-loaded check valve and shoe. Radial holes are made in the wall of the installation sleeve, in which diaphragms are destroyed under hydraulic pressure, while they are attached to the housing on the left-hand thread, inside the housing, suspension cementing plugs are installed on the cut screws in the form of a block of elastic conical cuffs with a core with a central passage channel and a landing a saddle in the upper part for a cement plug discharged from the wellhead and a landing cone made on the lower thrust ring of the conical cuff block for cages in the saddle of the stop ring installed in the junction between the lower end of the shank and the upper end of the valve assembly adapter, in the coupling connecting them.

This device implements a method of cementing the liner in the well, including attaching the liner on the left thread of the installation sleeve to the lower end of the pipe transport string, lowering it to the predetermined depth into the well, injecting the calculated volume of cement slurry after a portion of the buffer fluid into the pipe transporting string, starting from the wellhead after after the last portion of the cement mortar of the cement plug and squeezing it with a squeezing liquid until it is fixed in the landing seat of the core of the block cuffs, the creation of excess pressure, under which the screws are cut off and the cement plug in the arrangement with the conical cuff block under the action of high pressure moves down to the stop ring, in which the seat cone of the ring fits snugly into the saddle of the stop ring, while the grout the cavity of the liner completely enters the annulus, and the check valve prevents the solution from entering the cavity of the liner from the annulus, increasing the pressure to the design pressure for fracture agmy with the opening holes, through which the washing liquid is washed with excess solution circulation line establishment, disconnection by rotation of the clutch housing with the mounting of the transport pipe string, which raise them to the surface.

The disadvantages of the method and device are:

- the impossibility of rotation of the liner during its descent into a predetermined interval of the well and in the process of cementing, which makes it difficult to pass in the curvature zone of the wellbore and slurry pads, and also does not provide high-quality replacement of the cement slurry in the annulus;

- disconnection of the transport column from the shank is carried out by means of the left thread, which makes it difficult or even impossible to disconnect with a short length of the shank.

The technical objectives of the proposed method are to create a reliable design that allows lowering and cementing the liner in the well with rotation for better replacement of the cement in the annulus and guaranteed disconnection of the pipe string from the liner, regardless of its length and in any interval of the well with any complexity and direction the trunk.

The problem is solved by cementing the liner in the well, including attaching the liner to the lower shoe with a disconnecting device through the installation sleeve to the lower end of the pipe transport string, lowering the liner to the specified depth into the pipe borehole, injecting the calculated volume of grouting mortar into the pipe transporting pipe, starting from the wellhead after after the last portion of the cement mortar of the cork and squeezing it with a squeezing liquid until it is fixed in the saddle of the core of the conical cuff block, creating overpressure, under the action of which the screws are cut off, and the plug in the arrangement with the conical cuff block under the action of increased pressure moves down to the stop ring, in which the seat cone of the ring fits tightly into the saddle of the stop ring, while the grout from the shank cavity completely flows in the annular space, and the check valve prevents the solution from entering the cavity of the shank from the annular space, increasing the pressure to the design pressure for breaking the diaphragm with opening holes through which the washing liquid is washed creating excess solution circulation line, disconnecting the housing from the mounting sleeve with the conveying pipe string, which raise them to the surface.

What is new is that the installation coupling is connected to the shank with the possibility of synchronous rotation due to the interaction of the outer protrusions of the coupling with grooves made at the end of the shank, and the coupling and the shank are connected by balls inserted into the radial holes of the coupling and interacting externally with the inner selection of the shank , and from the inside supported by a saddle under a throw ball with an external cylindrical groove, and the saddle is fixed with shear elements relative to the coupling, while I use a technological ball with a density close to the density of the cement slurry and a diameter less than the inner diameter of the seat, and the check valve is made in the form of a sleeve with an upper blind axial channel in which the stop ring is installed, and the radial channels communicated with it below the stop ring, communicating the space above and below the sleeve, and the sleeve is fixed in the shoe with shear screws, after the destruction of which, when fixing the conical cuff block with the stopper in the stop ring, the sleeve is limited to move downward, hermetically overlapping the boot’s shoe is fixed by the locking mechanism in the lower position, and disconnecting is done by launching the thrown ball from the wellhead until it interacts with the saddle, destroying shear elements at overpressure and limited movement of the saddle down to the joint of the cylindrical groove of the saddle with radial holes, while the balls are displaced inward cylindrical selection, leaving the interaction with the internal sample of the shank, freeing the coupling from the shank.

The stated technical problem is solved by a device for cementing the liner in the well, containing an installation sleeve for attaching the device to the transport pipe string, a housing, a liner, a shoe with a valve assembly, an opening with a diaphragm that is destroyed under hydraulic pressure, and the coupling is connected to the housing by a releasing device, inside the housing on the cut-off screws, a suspended cementing plug is installed in the form of a block of elastic conical cuffs with a core with a central passage channel and a fit a saddle for a stopper discharged from the wellhead and a landing cone made on the lower thrust ring of the conical cuff block to fit the stop ring into the saddle.

What is new is that the hole with the diaphragm is made in the housing below the sleeve, below which the ring is narrowed in the housing in the area of fixation with shear screws of the suspension plug, and the diameter of the constriction is 2-6 mm less than the inner diameter of the shank, the discharge plug is made in the form of a technological ball with density close to the density of the cement slurry, while on the upper end of the shank body grooves are made for external protrusions made on the surface of the coupling, and the release mechanism is made in the form of balls inserted into the radial holes of the coupling and interacting externally with the inner sample of the shank body, and from the inside supported by a saddle under the throw ball, the minimum inner diameter of the saddle being larger than the diameter of the process ball, and the saddle provided with an external cylindrical groove above the radial holes, fixed by shear elements in the upper position and made with the possibility of limited downward movement after the destruction of shear elements until the balls interact with the groove and the balls exit the interaction with the rings th sample of the case, while the valve assembly is made in the form of a sleeve with an upper blind axial channel in which the stop ring is placed, and radial channels communicating with the axial channel below the stop ring, communicating the shoe space above and below the sleeve, the sleeve being fixed in the shoe shear screws in the upper position and made with the possibility of limited movement down after the destruction of the shear screws with a tight overlap of the shoe cavity and fixation by the locking mechanism in the lower position, and the locking mechanism in Full a spring ring inserted into an annular sample outside the sleeve and adapted to cooperate with the inner annular sample inside the shoe at a lower position of the sleeve.

In FIG. 1 shows the device in assembled form before the descent into the well.

In FIG. Figure 2 shows the structural elements of the device remaining in the well after all cementing and disconnecting transportation pipes are completed.

The device for cementing the liner in the well consists of an installation sleeve 1 (Fig. 1) for attaching the device to the transport pipe string (not shown in Fig.), A housing 2, a liner 3, a shoe 4 with a valve assembly, an opening 5 that is destroyed under hydraulic pressure a diaphragm 6, while the coupling 1 is connected to the housing 2 by a releasing device 7, inside the housing 2, suspension cementing plug 9 is installed on the shear screws 8 in the form of a block of elastic conical cuffs with a core 10 with a central passage 11 and full-time saddle 12 for a technological ball 13 discharged from the wellhead and a landing cone 14 made on the lower thrust end of the block of conical cuffs for seating in the saddle of the stop ring 26, with a hole 5 with a diaphragm 6 made in the housing 2 below the sleeve 1, below which The casing 2 has an annular narrowing 15 in the fixation zone by shear screws 8 of the suspension plug 9, the narrowing diameter being 2-6 mm less than the inner diameter of the shank 3, and the discharged process ball 13 is made with a density close to the density of the cement slurry. Moreover, on the upper end of the housing 2 of the shank 3, grooves 16 are made for external protrusions 17 made on the surface of the coupling 1, and the mechanism of the uncoupling device 7 is made in the form of balls 18 inserted into the radial holes 19 of the coupling 1 and interacting externally with the internal sample of the housing 2, and from the inside supported by the saddle 20 under the throw ball 21, the minimum inner diameter of the saddle 20 being larger than the diameter of the process ball 13, and the saddle 20 provided with an outer cylindrical groove 22 above the radial holes, fixed by shear elements 23 in the upper position and made with the possibility of limited downward movement after the destruction of the shear elements 23 until the balls 18 interact with the groove 22 and the balls come out of interaction with the annular sample of the housing 19. The valve assembly of the shoe 4 is made in the form of a sleeve 24 with an upper blind axial channel 25, which contains the stop ring 26, with radial channels 27 communicated with the axial channel 25 below the stop ring 26, communicating the space of the shoe above and below the sleeve, the sleeve 24 being fixed in the shoe with shear screws 28 in the upper zheniya and made with the possibility of limited movement down after the destruction of the shear screws 28 with a tight overlap of the cavity of the shoe and fixation by the locking mechanism in the lower position, and the locking mechanism is made in the form of a spring ring 29 inserted into the annular selection 30 outside the sleeve 24 and made with the possibility of interaction with an inner ring sample 31 inside the shoe 4 in the lower position of the sleeve 24.

The method of cementing the liner in the well is as follows.

The shank 3 with the shoe 4 and the releasing device 7 through the installation sleeve 1 (Fig. 1) is attached to the lower end of the transport pipe string (not shown in Fig.) And lowered into the well to a predetermined depth. The installation sleeve 1 is connected to the shank 3 with the possibility of synchronous rotation due to the interaction of the outer protrusions 17 of the sleeve 1 with the grooves 16 made at the end of the housing 2 of the shank 3. The shank 3 can be rotated as during descent into the well to overcome the resistance of the slurry cushions regardless of length, the complexity and direction of the barrel, and during the cementing operation - for better substitution of the annulus with cement mortar.

Next, the calculated volume of the grout is injected, and with the last portion the process ball 13 is sent, which is made with a density close to the density of the grout, so that it does not float and does not outrun the movement of the grout. Upon reaching the ball 13 of the suspension plug 9 installed in the annular narrowing 15 of the housing 2 below the mounting sleeve 1 and fixed with shear screws 8, it enters the central passage 11 and sits in the seat seat 12 of the core 10. Then, with a further increase in hydraulic pressure there is a cut of the screws 8 and the suspension plug 9 together with the technological ball 13 begins to move down. In this case, the cement slurry begins to be forced into the annulus, passing through the axial channel 25, the radial channels 27. Upon reaching the suspension plug 9 of the sleeve 24, it sits in the stop ring 26 in the stop ring 26 and is fixed in it. In this case, the axial channel 25 is blocked and with a further increase in hydraulic pressure, the shear screws 28 are destroyed, and the sleeve 24 is moved all the way down, blocking the passage channel of the shoe 4. The spring ring 29 inserted into the ring sample 30 is compressed and fixed during movement of the sleeve 24 the inner ring sample 31 inside the shoe 4 in the lower position of the sleeve 24. In this position, the sleeve 24 hermetically seals the inner space of the shank 3 from the annular. Thus, we get a signal about the completion of the cementing process.

Then, the hydraulic pressure inside the liner 3 continues to increase to the calculated one, at which the diaphragm 6 installed in the opening 5 of the housing 2 is destroyed and washed to remove the remains of the grout.

Then a waste ball 21 is inserted into the transport column and the flushing fluid is pumped. Upon reaching the throw-away ball 21 of the saddle 20, the shear elements 23 are destroyed. The saddle 20 is then moved to the calculated distance and the mechanism of the uncoupling device 7 is triggered. Balls 18 are inserted into the radial holes 19 of the coupling 1, interacting externally with the internal selection of the housing 2, and supported from the inside the saddle 20, while being released and fall into the outer cylindrical groove 22. Then turn off the pump and start lifting the transport column. Installation sleeve 1 with a saddle 20 and a ball 21 is removed at the mouth, and the well is left on the OZZ. At the end of the OZC time, the operation of perforating the shank 3 is carried out.

The proposed method allows the descent and cementing of the liner in the well with rotation for better replacement of the cement in the annulus and guaranteed disconnection of the pipe string from the liner regardless of its length and in any interval of the well with any complexity and direction of the wellbore.

Claims (2)

1. A method of cementing a liner in a well, including attaching a liner with a lower shoe, an uncoupling device through an installation sleeve to the lower end of the pipe transport string, lowering the liner to a predetermined depth into the well, injecting the calculated volume of grouting mortar into the pipe transport string, starting from the wellhead after after the last portion of the cement mortar of the cork and squeezing it with a squeezing liquid until it is fixed in the saddle of the core of the conical cuff block, creating excess pressure under By means of which the screws are cut off, the cork in the arrangement with the conical cuff block is moved down to the stop ring under the action of high pressure, in which the seat cone of the ring fits tightly into the saddle of the stop ring, while the grouting mortar from the shank cavity completely enters the annular space, and the non-return valve prevents the solution from entering the cavity of the shank from the annulus, increase the pressure to the design pressure for breaking the diaphragm with opening holes through which the washing liquid is washed out excess solution by creating a direct circulation, disconnect from the housing the installation sleeve with a transport column of pipes, which are lifted to the surface, characterized in that the installation sleeve is connected to the shank with the possibility of synchronous rotation due to the interaction of the outer protrusions of the sleeve with grooves made on the end of the shank, and the connection couplings and shanks are carried out by means of balls inserted into radial holes of the coupling interacting externally with the inner selection of the shank and internally supported saddle m under a throw ball with an external cylindrical groove, and the saddle is fixed with shear elements relative to the coupling, while a technological ball with a density close to the density of the cement slurry and a diameter less than the inner diameter of the seat is used as a cork, and the check valve is made in the form of a sleeve with an upper a blind axial channel in which the stop ring is mounted, and radial channels communicating with it below the stop ring, communicating the space above and below the sleeve, the sleeve being fixed in a shear shoe and screws, after the destruction of which, when fixing the conical cuff block with the stopper in the stop ring, the sleeve is limitedly moved downward, the shoe cavity is hermetically sealed and fixed by the locking mechanism in the lower position, and disconnection is carried out by launching the throw ball from the wellhead before interacting with the saddle and breaking shears elements with overpressure and limited movement of the saddle down to the joint of the cylindrical groove of the saddle with radial holes, while the balls are displaced inward into the cylindrical selection, in Leaving the interaction with the inner selection of the shank, freeing the clutch from the shank. 2. A device for cementing a liner in a well, comprising an installation sleeve for attaching the device to a pipe transport string, a housing, a liner, a shoe with a valve assembly, an opening with a diaphragm that is destroyed under hydraulic pressure, and the coupling is connected to the housing by a releasing device, inside the housing with screws, a suspended cementing plug is installed in the form of a block of elastic conical cuffs with a core with a central passage channel and a landing seat for a well discharged from the mouth In other words, a stopper and a landing cone made on the lower thrust ring of the conical cuff block for seating in the saddle of the stop ring, characterized in that the hole with the diaphragm is made in the housing below the sleeve, below which the ring is narrowed in the housing in the area of fixation by shear screws of the hanging plug, moreover, the narrowing diameter is 2-6 mm less than the inner diameter of the shank, the discharge plug is made in the form of a technological ball with a density close to the density of the cement slurry, while at the upper end of the shank body the grooves for external protrusions made on the surface of the coupling are filled, and the release mechanism is made in the form of balls inserted into the radial holes of the coupling and interacting externally with the inner selection of the shank body, and from the inside supported by a saddle under a throw ball, and the minimum internal diameter of the saddle is larger than the diameter of the technological ball , and the saddle is provided with an outer cylindrical groove above the radial holes, fixed with shear elements in the upper position and made with limited movement I down after the destruction of the shear elements before the balls interact with the groove and the balls come out of interaction with the annular housing sample, the valve assembly is made in the form of a sleeve with an upper blind axial channel in which the stop ring is placed and communicated with the axial channel below the stop rings with radial channels communicating the space of the shoe above and below the sleeve, the sleeve being fixed in the shoe with shear screws in the upper position and made with limited downward movement after the shear ntov sealed with overlapping the shoe cavity and fixing a locking mechanism in the lower position, wherein the locking mechanism is designed as a spring ring inserted into an annular sample outside the sleeve and adapted to cooperate with the inner annular sample inside the shoe at a lower position of the sleeve.

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