RU52087U1 - DEVICE FOR STEP-BY-STEP CEMENTING OF A Casing COLUMN IN A WELL - Google Patents

Abstract

The proposal relates to the oil industry, in particular, to the technology of cementing casing strings in oil and gas wells.

The device is a “stop ring”, made in the form of a pipe muffled from below with an annular ledge on the outer surface, equipped with longitudinal grooves and radial channels. The muffled portion of the pipe on the outside is made with a conical surface, the small base of the cone of which is facing the upper part, and its diameter is equal to the outer diameter of the pipe. Telescopically to the pipe opposite the longitudinal grooves in the lower sleeve is installed the lower support ring, equipped with shear elements, the free ends of which are included in the longitudinal grooves. In the lower end of the support ring, a conical bore is made on the inside, which is adequate to the conical surface of the nozzle.

Above the “stop ring” in the upper sleeve is the upper support ring with an inner ring bore.

The device is equipped with a plug installed on the lower end of the washing pipes and is made in the form of two telescopically connected parts, the upper of which is rigidly connected to the washing pipes, and the lower one is connected to the upper shear elements and has a lock on the outer surface in the form of a spring ring compressed in the transport position by means of a cone sleeve mounted on the outer surface of the lower part and connected by a destructible pin to the lower end of the wash pipe string.

The conical sleeve in the working position interacts with the upper support ring. Radial channels are made above the plug, above which a sleeve is installed in the washing pipes. A movable spring-loaded collet is installed on the outer surface of the sleeve. Bottom on the outer surface of the sleeve made a cylindrical sample, in which with the possibility of axial displacement placed emphasis, fixed in the upper part of the cylindrical sample destructible element.

As part of the casing string, a cementing sleeve is installed above the upper sleeve, having through holes in which the membranes that are destroyed by excessive pressure are sealed. On the inner surface

the cement clutch has a slide installed in the transport position with a shear screw relative to the cement clutch. In the working position, the gate has the possibility of a fixed hermetic overlap of the aforementioned through holes of the cement coupling.

The proposed device for stepwise cementing of the casing string can significantly reduce the pressure of the hydrostatic column of the cement slurry on the formation, and therefore eliminate the penetration of cement slurry into the formation and preserve the reservoir properties of the formation.

Description

The proposal relates to the oil industry, in particular, to the technology of cementing casing strings in oil and gas wells.

Known coupling step cementing casing (patent RU No. 2243359, IPC 7 E 21 B 33/14, publ. In bull. No. 36 dated 12/27/2004), including a housing with radial cementing holes, the sleeve sleeve located with the outer sides of the housing and the annular cavity forming with it, an additional sleeve located in this cavity and connected to the housing by shear elements, radial channels in the housing connecting the lower part of the annular cavity with the interior of the housing and the sealing rings, while the casing is connected to the housing Som rigidly, and additional sleeve is provided with radial channels through the cementing ports connecting the internal space of the housing with the well annulus at the time of washing and pumping the cement slurry of the second stage; equipped with a gate mounted inside the housing and connected by shear elements with a support sleeve abutting against the upper end of the housing, the latter being made with an annular ledge located on the inner surface below the cementing holes.

The disadvantages of the stepped casing cementing coupling are:

- firstly, the complexity of the design, due to the large number of nodes and parts;

- secondly, a large number of sealing elements and moving parts, in addition, the inner surface of the coupling during operation is covered with a crust of cement slurry, all this in general reduces the reliability of sealing and the operability of the device;

The closest in technical essence to the proposed one is a device through which a method of cementing a casing string in a well is carried out (patent RU No. 2235860, IPC 7 E 21 B 33/14, publ. In bulletin No. 25 of 09/10/2004), including A “stop ring” in the form of a pipe muffled from below with longitudinal grooves and radial channels with an annular ledge at the top and a conical surface at the bottom, telescopically to which a lower support ring is provided in the lower casing sleeve, equipped with shear elements, the free ends of which enter ny in the longitudinal grooves of the nozzle, wherein the lower cam ring has a lower end

a conical bore adequate to the conical surface of the nozzle, as well as a column of flushing pipes.

The disadvantage of this device is that the cementing of the casing occurs in one step, and therefore increases the hydrostatic pressure of the column of cement slurry, corresponding to the length of the casing string on the formation, which leads to a partial penetration of the cement slurry, which clogs the pores of the formation and reduces it reservoir properties;

The objective of the utility model is to create a device that allows you to save the reservoir properties of the reservoir and to prevent the penetration of cement slurry into the reservoir.

This problem is solved by the proposed device for stepwise cementing of the casing string in the well, including a “stop ring” in the form of a pipe muffled from below with longitudinal grooves and radial channels with an annular ledge at the top and a tapered surface at the bottom, telescopic to which a lower support is installed in the lower casing sleeve a ring equipped with shear elements, the free ends of which are included in the longitudinal grooves of the nozzle, while the lower support ring has a conical bore in the lower end, adequate conical surface of the pipe, as well as a column of flushing pipes.

What is new is that the device is equipped with an upper sleeve, in which an upper support ring is placed, made with an annular bore on the inner surface in the lower part, while the inner diameter of the upper support ring is made for the outer diameter of the plug located at the lower end of the washing pipes and made in in the form of two telescopically connected parts, the upper of which is rigidly connected to the washing pipes, and the lower is connected to the upper part by shear elements and is equipped with a spring clip on the outside the surface, compressed in the transport position by means of a conical sleeve mounted on the outer surface of the lower part and connected by a destructible pin to the lower end of the washing pipe string, the conical sleeve in the working position interacting with the upper support ring, and there are radial channels above the plug in the washing pipes connecting the inner cavity of the washing pipes with the annular space, and a sleeve is installed on the outer surface above the radial channels in the washing pipes ti which the top plates are movably mounted spring loaded collet, and the bottom of the outer cylindrical surface of the sleeve is formed the sample, wherein the axially movable stop disposed fixed in the upper portion of the cylindrical sample breakable element being composed of

A casing sleeve is installed above the upper sleeve of the casing, having through holes in which are sealed, which are destroyed by excessive pressure of the membrane, while a slide is installed on the inner surface of the cementing sleeve, fixed in the transport position by a shear screw relative to the cementing sleeve, and in the working position, the gate has the possibility of a fixed tight overlap of the aforementioned through holes of the cementing sleeve.

In FIG. The proposed device is shown in longitudinal section.

The device is a “stop ring” made in the form of a pipe 1 muffled from the bottom with an annular ledge 2 on the outer surface, provided with longitudinal grooves 3 and radial channels 4. The muffled section 5 of the pipe 1 from the outside is made with a conical surface 6, a small cone base which faces the upper part, and its diameter is equal to the outer diameter of the pipe 1. Telescopically to the pipe 1 opposite the longitudinal grooves 3 in the lower sleeve 7 is installed the lower support ring 8, equipped with shear elements 9, are free the ends of which are included in the longitudinal grooves 3. In the lower end of the support ring 8, a conical bore 10 is made on the inside, which is adequate to the conical surface 6 of the pipe 1. Above the “stop ring” in the upper sleeve 11 there is an upper support ring 12 with an inner ring bore 13 .

The device is equipped with a plug mounted on the lower end of the washing pipes 14 and is made in the form of two telescopically connected parts 15 and 16, the upper 15 of which are rigidly connected to the washing pipes 14, and the lower 16 is connected to the upper 15 by shear elements 17 and has a latch on the outer surface 18 in the form of a spring ring compressed in the transport position by means of a conical sleeve 19 mounted on the outer surface of the lower part 16 and connected by a destructible pin 20 to the lower end of the column of washing pipes 14.

The conical sleeve 19 in the working position interacts with the upper support ring 12. Radial channels 21 are made above the plug, above which the sleeve 22 is installed in the washing pipes 14. On the outer surface of the sleeve 22 there is a movable spring-loaded collet 24 on the outer surface 24. Bottom on the outer surface of the sleeve 22, a cylindrical sample 25 is made, in which an emphasis 26 is placed with the possibility of axial movement, which is fixed in the upper part of the cylindrical sample 25 with a destructible element 27.

As part of the casing 28, a cementing sleeve 29 is installed above the upper sleeve 11 and has through holes 30 into which it is hermetically sealed.

membranes 31 destroyed under the action of overpressure are installed. A slide 32 is installed on the inner surface of the cementing sleeve 29, fixed in the transport position by a shear screw 33 relative to the cementing sleeve 29. In the working position, the slide 32 has the possibility of fixed hermetic closure of the above-mentioned through holes 30 of the cementing sleeve 29. Lower 7 and the upper 11 of the coupling are interconnected by a lower sub 34.

In order to prevent unauthorized fluid flows, the device is equipped with o-rings 35, 36, 37, 38. Details of the “stop ring”, the upper support ring 12 and the lower part 16 of the plug are made of drillable materials.

The device operates as follows.

After the well has been prepared, the casing string 28 is lowered to the design depth at it (see FIG.), At the lower end of which the device is installed assembled with a shoe 39 having holes 40, while the fluid flows freely into the casing 28. The annulus of the casing columns 28 are sealed. Then, the flushing pipe string 14 is lowered inside the casing 28 with a plug at the end (15, 16) until the conical sleeve 19 mounted on the outer surface of the lower part 16 and connected by a destructible pin 20 to the lower end of the flushing pipe string 14 top to the upper support ring 12. Make the adjustment of the length of the column of washing pipes 14 by means of a fitting pipe (not shown in FIG.), taking into account the possibility of tying it with a filling unit (not shown in FIG.) after further landing of the column of washing pipes 14 on the “stop ring”. Next, the column of flushing pipes 14 is unloaded to the upper support ring 12, as a result of which the destructible pin 20 is cut off, as evidenced by the growth, and then a sharp drop in the readings on the weight indicator installed at the wellhead (not shown in Fig.). After that, the column of washing pipes 14 is lowered lower, and it passes through the upper support ring 12, then it is placed on the “stop ring” and partially unloaded on the pipe 1. Under the influence of the load, the shear elements 9 are destroyed, after which the column of washing pipes 14 is lifted up but so that the radial channels 21 of the column of washing pipes 14 are below the upper support ring 12. Next, the annulus 41 is sealed at the mouth and the well is flushed. Then, the first portion of the cement slurry of the calculated amount is pumped into the column of washing pipes 14, taking into account its subsequent rise in the column

to the space 42 until the through-holes 30 of the cementing sleeve 29 are reached. The grouting fluid is pushed into the column of washing pipes 14 by grouting mortar from the column of washing pipes 14 through its radial channels 21, radial channels 4, plugged from the bottom of pipe 1 and holes 40 of shoe 39 into the annular space 42 wells leaving about 100 l of cement slurry in the wash pipe string 14. The injection pressure is relieved. Under the influence of the differential pressure created by the column of cement slurry in the annular space 42 and directed from the bottom up, the plugged pipe 1 moves upward relative to the lower support ring 8 and wedges at the contact point of the conical surfaces 6 and 10, blocking the annular space 41 from the annular space 42. Further to the annular space 41 creates an excess pressure (for example 22.0 MPa) sufficient to destroy the membrane 31 (for example, made of rubber material) installed in through aperture 30 of the cementing sleeve 29. After that, the column of washing pipes 14 is raised to the position where the plug (15, 16) enters the upper support ring 12 and the latch 18 abuts against the stop of the annular bore 13, as indicated by the load on the weight indicator installed on wellhead, the radial channels 21 will be above the upper support ring 12. By backwashing through the annular space 41, the remaining cement slurry is removed from the wash pipe string 14 and annular space 42 above through holes 30 cementing sleeve 29. After that, the column of flushing pipes 14 give a stretch up, while shear elements 17 are destroyed, as evidenced by the growth, and then a sharp drop in the readings on the weight indicator installed on the wellhead, with parts 15 and 16 of the plug are disconnected, and the lower part 16 together with the "stop ring" reliably overlap the section of the casing from the penetration of cement slurry due to annular space. The well is left on the OZZ (waiting for cement to harden) of the first stage. At the end of the time, the first stage OZC begins cementing the second stage of the casing 28 above the cement sleeve 29. For this, an excess pressure (for example, 22.0 MPa) is created in the annulus 41 to break the membrane 31 (for example, made of rubber material) installed in through holes 30 cementing clutch 29.

Then, the column of washing pipes 14 is lifted up until the movable spring-loaded plates 23 of the collet 24, mounted on top of the outer surface of the sleeve 22, which is rigidly mounted on the column of washing pipes 14, are hooked onto the annular space 43 formed by the gate 32 and the inner

the surface of the cement coupling 29. At the wellhead, the annular space 41 is sealed, after which a second portion of the grouting solution is pumped into the wash pipe string 14, which, after exiting to the mouth, is sent to the capacity of the casting unit and circular circulation is carried out, constantly monitoring the density of the grouting fluid at the inlet and outlet from the well. After stabilization of the cement slurry by density (this moment occurs after about one hour of circulation), the circular circulation is stopped and the calculated volume of the squeezing liquid is pumped through the washing pipes 14, leaving about 100 liters of the cement slurry in the washing pipes. Injection pressure is relieved. The column of flushing tubes 14 is again lifted, first the movable spring-loaded plates 23 of the collet 24 rest against the stop 26 from below, fixed in the upper part of the cylindrical sample 25 with a destructible element 27, and then, with the subsequent lifting up, the collet 24 acts on the gate 32 fixed in the transport the position of the shear screw 33 relative to the cementing sleeve 29. The tension of the column of washing pipes 14 upward continues, while the shear screw 33 is destroyed, as evidenced by the growth, and then a sharp drop in readings on the weight indicator installed at the wellhead. The gate 32 rises up is fixed and abuts against the lower end of the casing 28, from the inside blocking the through holes 30 of the cement coupling 29.

After that, the column of flushing pipes 14 continues to be pulled up again, while the collet 24 rested on top of the stationary gate 32 acts on the stop 26, cutting off the destructible element 27, as evidenced by the growth, and then a sharp drop in the readings on the weight indicator installed on the wellhead. 26 is shifted to the lower part of the cylindrical groove 25 of the sleeve 22, and the collet 24 spring-loaded with the plates 23 is compressed in the cylindrical groove 25 above the stop 26. Next, the column of washing pipes 14 is lifted up 1.5 meters, while the sleeve 22 is rigidly fixed the flushing pipe 14 passed through the cementing sleeve 29. Direct or reverse flushing is carried out along the annulus 41 and the flush pipe 14 and the remaining cement slurry is removed from the flushing pipe 14 and the annulus 41. The flush pipe 14 is then completely removed from the well, which is left on the second stage OZZ.

The proposed device for stepwise cementing of the casing string can significantly reduce the pressure of the hydrostatic column of the cement slurry on the formation, and therefore eliminate the penetration of cement slurry into the formation and preserve the reservoir properties of the formation.

Claims (1)

A device for stepwise cementing of a casing string in a well, including a “stop ring” in the form of a pipe muffled from below with longitudinal grooves and radial channels with an annular ledge at the top and a conical surface at the bottom, telescopically to which a lower support ring is provided in the lower casing sleeve equipped with shear elements whose free ends are included in the longitudinal grooves of the nozzle, while the lower support ring has a conical bore in the lower end that is adequate to the conical surface of the nozzle, and a washing pipe flap, characterized in that it is provided with an upper sleeve in which an upper support ring is provided, made with an annular bore on the inner surface in the lower part, while the inner diameter of the upper support ring is made to the outer diameter of the plug located at the lower end of the washing pipes and made in the form of two telescopically connected parts, the upper of which is rigidly connected to the washing pipes, and the lower is connected to the upper part by shear elements and is equipped with a spring fix a torus on the outer surface, compressed in the transport position by means of a conical sleeve mounted on the outer surface of the lower part and connected by a destructible pin to the lower end of the washing pipe string, the conical sleeve in the working position interacting with the upper support ring, while there are over the plug in the washing pipes radial channels connecting the inner cavity of the washing pipes with the annular space, and a sleeve is installed above the radial channels in the washing pipes, on the outer surface of which is mounted on top of a movable spring-loaded collet plate, with a cylindrical selection made from below on the outer surface of the sleeve, with a stop fixed to the axial displacement, which is fixed in the upper part of the cylindrical selection with a destructible element, and a cementing sleeve is installed in the casing above the upper coupling having through holes in which are sealed destroyed under the action of excessive pressure of the membrane, while on the inner a gate is mounted on the surface of the cementing sleeve, fixed in the transport position by a shear screw relative to the cementing sleeve, and in the working position, the gate has the possibility of a fixed hermetic overlap of the above-mentioned through-holes of the cementing sleeve.