RU2437997C1 - Procedure for unstable rock simultaneous opening and casing at hole drilling - Google Patents

Abstract

FIELD: gas and oil production. ^ SUBSTANCE: procedure consists in drilling borehole with bore bit connected with casing string. The casing string is set in the hole, and the bore bit is further extracted from it. A section of the hole with unstable and destructed rock is drilled from a main hole at certain pressure of fluid consumed with an expendable bit connected to the casing string in form of multi-ray expandable tube of length exceeding length of the given section This bit is lowered on a drilling string. Internal diametre of the given section is bigger, than diametre of the main borehole minimum at thickness of wells of the casing string. Upon drilling a section overpressure is created in the casing string exceeding specified pressure and sufficient for complete extension of casing string corrugations. The casing string is fixed relative to walls of hole. Further, the drilling string is disconnected and extracted to surface. A calibrating tool is lowered for final casing string strengthening to diametre equal to diametre of the main borehole. The calibrating tool is equipped with a catcher on a lower end for gripping, disconnection and extraction of bore bit. ^ EFFECT: raised reliability, reduced expenditures and occurrence of emergency situations. ^ 2 dwg

Description

The invention relates to the oil and gas industry, namely to drilling oil and gas wells while isolating the zones of complications when drilling a column of expandable pipes.

A known method of drilling wells with simultaneous casing (RF patent No. 2338051, IPC E21B7 / 20, publ. Bull. No. 31 of November 10, 2008), including the destruction of the peripheral and central parts of the bottom of the well by impact-rotational action of casing-hole on it a tool containing an annular crown and a central bit, while simultaneously moving the casing to the bottom side under the influence of shock pulses, and first, destroy the peripheral part of the face with a ring crown with the formation of a core in the central part of the face before contact the one with the end face of the central bit, after which the core is destroyed, continuing to destroy the peripheral part of the face with an annular crown.

The disadvantages of this method are:

• the impossibility of lifting the annular crown to replace it when worn or the device reaches the design face;

• the impossibility of carrying out a full flushing in the bottomhole zone of the annular crown, which can lead to its jamming in the well and premature failure of it or the device as a whole.

Closest to the technical nature of the claimed is the method carried out by the device for drilling wells in unstable and destroyed rocks with simultaneous casing (RF patent No. 2262578, IPC E21B7 / 20, publ. Bull. No. 29 from 10/20/2005), consisting from a drill and casing, a shoe with a centralizer, a rock cutting element, a guide element and a deflector with feed channels, the guide element being made with an eccentric transverse groove of a rectangular shape, the lower part of which is an amount of eccentricity a, determined by the difference R _SLE. -R _P.I. where R _well and R _p.i. - the radii of the well and rock cutting tool, respectively, is made with a taper equal to the taper of the shank of the diverter, which is placed in an eccentric transverse groove of the guide element with the possibility of axial and horizontal displacements, while the axis of the supply channel of the diverter for supplying the cleaning agent to the bottom of the well is at an angle to its axis and the axis of the well, and the shank of the diverter has a longitudinal hole of non-circular shape, most of which is parallel to its axis and the axis of the well and is located at a distance from the axis of the deflector equal to at least 1.5 values of the eccentricity with an offset towards the eccentricity, in which the horizontal axis is placed, rigidly connected to the guide element, and an elastic sleeve is mounted in the feed channels of the guide element and the deflector with the possibility of axial movement in the channel guide element.

The main disadvantages of this method are:

- the possibility of an emergency due to unreliable fastening of the deflecting sub with the bit to the guide element, as a result - the formation of a face of insufficient diameter, which will lead to the passage of the casing;

- if the diameter of the wellbore during drilling is equal to the diameter of the casing string, this can lead to the passage of the string and, in addition, prevents the removal of sludge;

- if the diameter of the wellbore during drilling is greater than the diameter of the casing string, there is a need to cement the annulus to eliminate annulus flows, which leads to an additional operation and, accordingly, additional time.

An object of the invention is to increase the reliability of isolation of the zones of complications when drilling wells due to the simultaneous opening and fastening of unstable rocks with a column of expandable pipes, eliminating shedding of rocks, as well as reducing costs by reducing tripping operations when isolating the zones of complications. In addition, the technical task of the invention is to reduce emergencies by eliminating the complex multi-element design to bring the bit into position, fix it and vice versa. The exclusion of the passage of the casing during drilling due to the reduced diameter compared to the bit, as well as the simultaneous attachment of the casing to the walls of the well after completion of the drilling of the specified interval.

The technical problem is solved by a method including drilling a borehole with a bit connected to a string of expandable casing pipes, which are installed in the well immediately after reaching a certain depth, followed by extraction of the bit.

What is new is that they drill a section of a well with unstable and destroyed rocks from the main shaft at a certain pressure of the consumed fluid by a sliding bit connected to a casing string in the form of a multi-beam expandable pipe with a length exceeding the length of this section run on the drill pipe string, inner diameter this section is performed larger than the diameter of the main shaft by at least the wall thickness of the casing, after drilling the section in the casing, create excess pressure, ascending certain pressure and sufficient to completely straighten the casing corrugations, fixing it relative to the borehole walls and then disconnecting and removing the drill pipe string to the surface, then lower the calibration tool to finally straighten the casing to a diameter equal to the diameter of the main wellbore, and calibrating the tool is equipped with a fishing device at the lower end to capture, disconnect and retrieve the bit when interacting with it.

Figure 1 shows the device in the zone of complication, figure 2 - docking of the calibrating tool with a sliding bit.

The method is carried out in the following sequence.

When drilling a well 1 upon reaching the zone of shedding 2 carry out the rise of the layout (not shown). On the drill pipe string 3, a device consisting of a landing pipe 4 connected to a multi-beam expandable pipe 5 acting as a casing equipped with a sliding bit 6 from below (for example; utility model patent RU No. 11825) is lowered into the well until the current bottom hole (not shown). Moreover, the elements of the multi-beam expandable pipe 5 are connected by welding 8 or by a thread 9 with a length exceeding the length of the section of the shedding zone 2. Next, the section of the well 1 with unstable and destroyed rocks 2 is drilled at a certain pressure of the consumed fluid with a sliding bit 6, which ensures the diameter of the well 1 more than the diameter of the main shaft by at least a wall thickness of the multipath expandable pipe 5. Further, after the section 2 has been completely opened, an excess pressure is created in the expandable pipe 5 that exceeds the definition divided and pressure sufficient to fully rectify the ribbed tube 5, with fixing it relative to the borehole walls 1, followed by disconnecting and removing the drill string 3 to the surface. Next, a calibrating tool 10 is lowered on the drill pipes (see FIG. 2) for the final straightening of the expandable pipe 5 to a diameter equal to the diameter of the main shaft 12, equipped with a fishing device 11 at the lower end for gripping, disconnecting and removing the bit 6 when interacting with it. When the fishing device 11 interacts with the sliding bit 6, it is connected to the calibrating tool 10, and with further calibration of the lower end of the expandable pipe 5, the sliding bit 6 is disconnected from the expandable pipe 5 and it is lifted together with the calibrating tool 10. In this case, the sliding bit 6 accepts transport position, allowing it to freely pass through the expanded pipe 5 and the wellbore 1 due to the fact that the sliding bit 6 provides a diameter of the well 1 larger than the diameter of the bases of the barrel 12 at least by the wall thickness of the multipath expandable pipe 5. Due to the fact that the expansion of the pipe 5 is carried out immediately after opening the shedding zone 2, the risk of starting the process of shedding of unstable rocks and under-opening of the expandable pipe 5 is significantly reduced, the time for covering the shedding zone 2 is reduced costs are reduced by reducing tripping operations. Further drilling is carried out in the same arrangement as before the shedding zone.

Thus, the use of the invention allows to increase the reliability of isolation of the zones of complications when drilling wells due to the simultaneous opening and fastening of unstable rocks with a column of expandable pipes, eliminating shedding of rocks, as well as reducing costs by reducing tripping operations when isolating the zones of complications. In addition, it reduces the possibility of emergency situations due to the elimination of a complex multi-element design for bringing the bit to its working position, fixing it and vice versa. It eliminates the passage of the casing during drilling due to the reduced diameter compared to the bit, and also makes it possible to simultaneously attach the casing to the walls of the well after completion of the drilling of the specified interval.

Claims (1)

A method for simultaneously opening and securing unstable rocks while drilling wells, comprising drilling a wellbore with a bit connected to a casing string, which is installed in the well with subsequent extraction of the bit, characterized in that they drill a section of the well with unstable and destroyed rocks from the main wellbore at a certain pressure of the consumed fluid with a sliding bit connected to the casing string in the form of a multi-beam expandable pipe with a length exceeding the length of this section, descent to the casing string, the inner diameter of this section is greater than the diameter of the main shaft by at least the wall thickness of the casing; after drilling the section in the casing, an overpressure is created that exceeds a certain pressure and is sufficient to completely straighten the corrugations of the casing and fix it relative to the borehole walls and then disconnecting and removing the drill pipe string to the surface, then lower the sizing tool for the final straightening of the casing us to a diameter equal to the diameter of the main borehole, wherein the calibrating tool picker equipped at its lower end for gripping, disconnection and extraction of the bit in contact with them.

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