丹麦专利DK201570219A1 Expansion assembly, top anchor and method for expanding a tubular in a wellbore

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专利摘要:
An expansion assembly for expanding a tubular in a wellbore, the expansion assembly including a top anchor comprising: a workstring; a pusher ring being coupled to the workstring by a first releasable coupling; a ramp body having one or more ramp surfaces, said ramp body being releasably coupled to the workstring by a second releasable coupling; one or more anchor segments each having one or more wedge surfaces corresponding to and engaging the ramp surfaces of the ramp body, one end of the segments engaging the pusher ring; a release ring enclosing the workstring and arranged at an opposite end of the segments; one or more key merlons connecting the release ring to the pusher ring; and activating means for releasing the first releasable coupling.
公开号:DK201570219A1
申请号:DK201570219
申请日:2015-04-15
公开日:2015-04-27
发明作者:Daniele Di Crescenzo；Hans Djurre Zijsling
申请人:Shell Int Research；
IPC主号:

专利说明:

EXPANSION ASSEMBLY, TOP ANCHOR AND METHOD FOR EXPANDING A
TUBULAR IN A WELLBORE
The present invention relates to a system end method for anchoring an element: within ax: enclosure.
Embodiments of the present invention generally relate to an apparatus and method for expanding a tubular into a wellbore, More particularly, apparatus and method related, to a top anchor for a bottom hole assembly having- an expandable tubular, an expansion member. anchor being configured to affix the expandable tubular to a downhole tubular,
In the drilling of oil and gas wells, a wellbore is typically formed using a drill bit disposed at a downhole end of a drill string that is urged downwardly into the earth. After drilling to a, predetermined depth or when circumstances dictate., The drill string and bit are removed and the wellbore is lined with a string of casing. An anxious area is thereby formed between the string of casing and the formation, A cementing operation is then conducted in order to fill the annular area with cement. The: combination of cement and casing strengthens the wellbore and. facilitates the isolation of certain areas or rones behind the casing. The drilling operation is typically performed in stages and a number of casing or liner strings may be rested: into the wellbore until the wellbore is at the desired depth ana location.
Two challenges facing the Oil t Gas industry are accessing new reservoirs that currently cannot be achieved economically, maintaining profitable production from producing older fields. Expandable tubular technology was initiated by the industry to reduce drilling costs, increase production of tubing constrained wells, to enable operators to access reservoir chat otherwise could not be achieved economically. Expanded casing applications concentrate on reducing the telescopic profile of well designs through a downhole tube expansion process,
Wellbores are generally provided with one or more casings or liners to provide stability to the wellbore wall and / or to provide zonal insulation between different earth formation layers. The terms "casing" arid "liner" refer to tubular elements for supporting and stabilizing the wellbore wail. Typically, a casing extends from surface into the wellbore and a liner extends from a certain depth further into the wellbore, However, in the present context, the terms "casing" and "liner" are used interchangeably and without such intended distinction.
In conventional, wellbore construction, several casings are set at different depth intervals, and. in a nested, arrangement. Herein, each subsequent case; is lowered through the previous casing and therefore has a smaller diameter than the previous casing. As a result, the cross-sectional area of the wellbore that is available for oil and gas production decreases with depth.
To reduce the loss of diameter each time a new casing string or 'liner is set, a cold working process has been developed whereby the casing or liner can be expanded by up to 25% in diameter after being run down-hole. The applications can be grouped into two main categories, being Cased hole and Open hole. Cased hole work is mainly done during the work, over or completion phase of a well. The open hole expandable liner products are used during the drilling period of a well. Open hole applications are where expandable technology brings real advantages to the operator, The technology enables for instance slimmer well profiles, an increased inner diameter at: target depth or the drilling of side tracks of existing wellbores, herein, one or more tubular elements are radially expanded at a desired depth in the wellbore, for example to form an expanded casing, expanded liner, or a clad against an existing casing or limer. Also, it has been proposed to radially expand each following: casing to substantially the same diameter as the previous casing to form a monodiameter wellbore. The available inside diameter of the wellbore remains ; substantially con ; tant along (a section of) its depth as opposed to the conventions · 1 nested arrangement. US-6325148 discloses an apparatus for performing a downhole operation from the surface of a well. The apparatus comprises a tubular body forming a wall and a ring member disposed around the body. The ring member includes a plurality of slips and is held in frictional contact with an inner surface of an outer casing- by a spring, a locking member mounted to the wall of the tool selectively prevents motion of said ring until said locking member is unlocked responsive to expand the wall of the tubular body. US-7992644 discloses a method of repairing a damaged portion of a casing in a wellbore. The method includes running a bottom hole assembly (BHA.) Into the wellbore on Si conveyance and locating the. BHA proximate trie damaged portion. The method further includes engaging an inner wall of the casing with a friction member, rotating the conveyance thereby rotating a portion of the BHA, and maintaining a portion of the BHA stationary with the friction member. The method further includes pulling the inner string, thereby engaging the inner wail o. :: the casing with an anchor of the BHA, and disconnecting a frangibie connection with the anchor. An inner string is coupled to an expansion member and pulling the inner string and thereby the expansion pc root through an expandable tubular expands the expandable tubular into engagement with the inner wall of the casing thereby repairing the damaged portion.
Although the tools of 03-7992641 functions properly, the tool has limitations, For instance, the friction member will always engage the casing, also during introduction of the BKA into the casing. The friction biocfcs of the .friction member are required for activation of & top anchor, to prevent the top anchor from moving in axial direction during activation, Due to the friction of the friction blocks however, it is impossible to rotate the BHA while running the tool into the wellbore. Being unable to rotate the BHA limits the length along which the BHA and the expandable: liner can be inserted into the wellbore. So, the BHA. is unsuitable for uncased wellbores. If some wellbores tend to be unstable and may collapse onto the expandable liner, rotation may be required to further advance the liner into the wellbore, If the BHA cannot be rotated, the expandable liner may become stuck: in the wellbore due to friction which may ultimately force an operator to plug and abandon the wellbore, in addition, the friction blocks may hinder or disable the return flow of drilling fluid. Also, scaling down the tool is limited due to material limitations of a release ring , ie, due to the minimum force required to disconnect the frangible connection.
The present invention aims to provide an improved expandable liner tool.
The present invention therefore provides an expansion assembly for expanding a tubular into a wellbore, the expansion assembly including a top anchor comprising: a workstring; a pusher ring being coupled to the workstring by a first releasable coupling; a ramp body having one or more ramp surfaces, said ramp body being releasably coupled to the workstring by a second releasable coupling; one or more anchor segments each having · one or more wedge surfaces corresponding to and engaging the ramp surfaces of the ramp body, one end of the segments engaging the pusher ring; a release ring enclosing the workstring and arranged at an opposite end of the segments; one or more key merlons connecting the release ring to the gusher ring; and activating means for releasing 'the first releasable coup! i ng,
The expansion assembly of the invention can be hydraulically activated. The assembly can be rotated during tun-in, allowing the assembly to be included in the drill string during drilling. The laugh may save time for tripping · in and out of the wellbore. Also, rotating the expansion assembly with “allow the assembly ro be forwarded when part of the wellbore wall may coilapse, increasing maximum target depth and / or allowing drilling in unstable formations.
In one embodiment, the first releasable coupling including a first set of shear bolts providing a first threshold shear force, and the second releasable coupling including a second set of shear bolts having a second threshold shear force, said, second threshold shear 'force; exceeding the first threshold shear force.
Another aspect of the invention provides a top anchor for an expansion assembly of claim 1, the top anchor comprising :: a workstring; a pusher ring being coupled to the workstring by a first releasable coupling; a ramp body having one or more ramp surfaces, said, ramp body being releasably connected to the workstring by a second releasable coupling; one or more anchor segments each having one or more wedge surfaces corresponding to and engaging the ramp surfaces of the ramp body, one end of the segments engaging the pusher ring; a release ring enclosing the workstring and arranged at an opposite end of the segments; one or more key merlons connecting the release ring to the pusher ring; and activating means for releasing the first releasable coupling.
According to still another aspect, the invention provides a method for expanding a tubular into a wellbore, the wellbore being provided with a casing, the method comprising the steps of: introducing a tool string into the wellbore, the tool string being provided with an expansion assembly and a drill hit; rotating the tool string including the drill bit and the expansion assembly to drill an open hole section of the wellbore until the drill bit reaches a target depth; hydraulically activating · an cop anchor of the expansion assembly to anchor said assembly wish the casing; by releasing a first releasable coupling; pulling the tool stringy towards surface to release a second, releasable coupling and allowing the tool strung to move with respect to said top anchor; using the tool string to puli an expansion member through an expandable .liner towards the top anchor; and deactivating the top anchor.
The invention will be described hereinafter in snort: detail, and by way of example with reference to the accompanying drawings in which;
Fig. 1 shows a schematic cross-section of a wellbore including an embodiment of the system according to the present invention;
Fig. 2 shows a cross section of an embodiment of the system according to the invention;
Fig. 3 shows a perspective view of the system of the invention;
Fig. 4 shows a cross section of an embodiment of the system according to the invention; including a top anchor in a disengaged state;
Fig. 5 shows a cross section of the system of Fig. 4, including a top anchor in an engaged state;
Fig. 6 shows a cross section of an embodiment of a dart of the system of the invention;
Fig. 7 shows a perspective view of the dart of Figure
Fig, Sr, shows a cross section of an embodiment of the top anchor in a disengaged state
Fig, 8B snows another cross section of the top anchor of Fig, 8A;
FIG. SC shows yet another cross section of the cop anchor of Fig. 8 A;
FIG. 9 snows a cross section of the top anchor of Figure 8 in an engaged or activated state;
FIG. 10 shows a perspective view of an embodiment of the top anchor;
Fig, 11 shows a front view of an anchor segment of the top anchor;
Fig, 12 shows a plan view of an anchor segment of Figure 10
Figs 13 shows a side view of the anchor segment of Figure 10; spirit
Figs. 14--18 show a cross section of the system of the invention, indicating subsequent steps in a method according to the invention.
In the drawings and the description, like reference numerals relate to like components.
FIG. 1 snows a wellbore 1 which includes a casing 2 cemented into place by cement 4 in the annulus between the casing · and the wellbore wall 6. A tool string 8 extends into the wellbore having an expansion assembly 10 at its downhole end. At surface, the tool string 8 is connected to a drilling rig- 12. The drilling rig may typically include a hoisting assembly 14, a drill floor 16 and gripping member 18. The drilling rig 12 may be onshore, as shown in Figure 1, or offshore.
The tool string 8 is used to convey and manipulate the expansion assembly in the wellbore 1. The tool soring 8, as shown, is a drill failure. However, the conveyance may be any suitable conveyance, including · but not limited to, a tubular work string, production tubing, drill pipe or a snubbing string ·.
The expansion assembly 10 includes a top anchor 20, an expandable tubular 22, and an expansion member 2a. The expansion assembly 10 is coupled so she tool string 8 which allows her expansion assembly 10 to be conveyed into the wellbore and manipulated downhole from the surface. The sop anchor 20 may be any suitable device for anchoring the expansion assembly 10 so the casing 2 includes, bub not limited to slips, dogs, grips, wedges, or an expanded elastomer.
An additional section 26 of She tool string 8 may be provided below the expansion member 24, which may be provided with a drill bit 28 and / or an under reamer (not shown separately) for drilling · the wellbore at the downhole end thereof.
The drill bit 28 may be operated to drill an open hole section 32 of the wellbore. The expansion assembly 10 may be run ante the wellbore 1 on the tool string 8 while drilling the wellbore until it reaches a desired location, herein. She expandable liner 22 typically partially overlaps the casing 2 in tin overlap section 30 and partly extends into the newly drilled open hole section 32. In the open hole section 32, an annular space or annulus 34 is defined between the liner 22 and the wellbore wall G,
The top anchor 20 may then be actuated in order to engage the expansion assembly 10 with the casing 2, with the setting assembly 20 engaged to the casing 2, the tool string 8 may be pulled up and thereby puli the expansion member: 2 / through the expandable tubular 22 to expand the laughter. The tool string 8 may transfer torque, tensile forces and compression forces to the expansion member 24. Fluid may be pumped down the tool string 8 during · the expansion in order to lubricate the expansion member 24 during expert ion.
As shown in Figures: 2, rite expansion assembly 10 may include a first connector 40 to be coupled to the tool s; bring 8. The opposite, downhole end. of the expansion assembly 10 may include a second connector 42 to be coupled to the additional tool string section 26, The first connector 40 and the second connector 42, as described herein, are threaded connections, However, first connector and second connector may be any suitable connection including, but not limited to, a welded connection, a pin connection, or a coll sum
The expansion assembly 10 includes a workstring '50 which is provided with the first connector 40 at one end and with the second connector 42 at the opposite end. The wort string is provided with, an internal fluid, passage 52, The work string 50 may be a string of drill pipe sections. Preferably, said drill pipe section is connected to each otter using threaded connections 53 having externally flush surfaces, as shown in Figures 3--5, The workstring 50 includes a third connector 04 to which the expansion member 24 is connected, A dart catcher 56 may be provided in the fluid passage 02. The dart catcher can be used for hydraulic activation of the expansion assembly. The outside surface of the workstring 50 may be provided with a release sub 58. The release sub 58 may include s: ridge having an increased outer diameter relative to the workstring 50, as shown in Figures 3-5, Said, ridge may be provided with a chamfer 53.
Optionally, the outside surface of the downhole end of the expandable liner 22 may be provided with an open hole anchor 60 {Fig, 2), for engaging the wellbore wall 6 in the open hole section 32. Once, an initial portion of the expandable tabular 22, including the open hole anchor ,, has been expanded, said anchor will engage the wellbore wall 6, anchoring the expanded tubular 22 into position, tor instance WO-2011/023743 discloses an open hole anchor which is suitable for the expansion assembly 10.
The expansion assembly 10 may provide a distance LI between the top anchor 20 and the top end of the expandable liner 22 (Fig. 2). The distance LI prevents the top anchor 20 from engaging the top end of the liner 22 during run-in of the assembly into the wellbore, which may prevent damage to both the top anchor and to the top end of the liner. However, in practice the liner end arid, the top anchor may also engage each other during run-in. In a practical embodiment, the distance Id. is for instance in the range of 0 to 3 meters, for instance about 1 to 2 meters. Upward movement of the expandable liner during run-in may be prevented by a releasable connection (not shown) between the liner end. and the expansion cone 24, Such connection may include a threaded connection which is designed to fail when the expansion process commences,
Figures 5 and 6 show dart 66 located in the dart catcher 56, The dart 65 can be dropped from surface and. pumped down the fluid channel 52 until the dart engages the dart catcher and subsequently blocks the fluid channel 52,
In an embodiment, the dart 66 includes a dart fluid channel 68 which is aligned, with the fluid channel 52, and a burst disc 70 blocking said dart fluid channel 68. 4, 6), The dart may comprise a cylindrical body 72. Said body 72 may typically be made oi: a metal. The dart stay is optionally provided with one or more extending flanges 74, which may be made of an elastomer. Tbe body 72 and the optional flanges 74 typically have an outer diameter which is smaller than the inner diameter of the fluid channel 52, but exceeds the inner diameter of the dart catcher 56,
The hurst disc 70 will hurry when a pressure differential across the disc exceeds a threshold burst pressure. Thus, the burst disc: allows re-opening of the fluid channel 52, The dart foody may be made of a credible material, such as aluminum, allowing opening of the fluid channel by eroding the dart body. The fluid passage 52 may subsequently be closed again by dropping another dart into the fluid channel 52. Opening the fluid channel 52 may be required to regain control of the well in case of a well control incident {blowout). Also, circulation may assist the expansion process, which is also referred to as hydraulically assisted expansion.
In a practical embodiment, the burst disc 7G may be rated at a burst pressure: in the range of 4,000 to 6,000 psi, for instance about 5,000 psi (345 bar) at 20 degree C,
As shown in more detail in Figures 8A-8C, the too anchor 20 in an unactivated state fits within casing 2, leaving a small clearance 1.2 (Fig. BA). Depending on the inner diameter of the casing, clearance L2 may be in the range of about 1 mm to 5 mm, tor instance about 3 mm.
The top anchor 20 may comprise one or more ramp bodies 80, having one or more ramp surfaces 82 and being arranged on the outside of the workstring 50, One or more anchor segments 34 having complementary wedge surfaces 86 engaging and movable with respect to the ramp surfaces 82 of the ramp bodies. Typically, the top anchor will include a number of anchor segments 84, being squally distributed along the circumference of the top anchor (see also Fig. 10), Each anchor segment co-operates with a corresponding longitudinal ramp body. One or more spring members 88 may be provided to pre-load a respective anchor segment 84 with respect to the corresponding r & mp body 80 (Fig, 8C), a release ring 90 may enclose the one or: more ramp bodies 80, At its downhole facing end, the top anchor: may comprise a centralizer ring 52 engaging the ramp bodies 80. Tire centralizer ring is preferably provided with a centralizing chamfer 33, for catching and guiding the end of the liner: 22 to a. predetermined position (see for instance Fig. 8E5, At the opposite end, the anchor is provided with pusher ring 94 engaging the anchor segments 84. may be covered by a retaining ring 98. The shear bolts may be set to break when a shear force exceeds a first threshold, shear force, in a practical embodiment, said first threshold shear force may be in the range of 2 to 8 metric tons, for instance about 2.5 to n, ore shear bolt. The total threshold shear force is a multiple of the number of bolts. The pusher ring 92 may be connected using four shear holts, setting the total first shear force at about 10 tons.
To protect trie outside surfaces of the centralizer 92 and / or the pusher ring 34, said surfaces may be provided with a layer of relatively hard material 98, 39 (Fig. 8B), such as tungsten carbide, relatively hard steel, or a similar material. The material may be applied by a hardfacing process, powder metal alloys are applied and hardened using a welding system. A rod member 100 may be provided next to the pusher ring, A circular cavity 102 may be provided between said rod member and the workstring 50. to allow sliding movement of the rod member: along the workstring limited by the engagement of a rod shoulder 104 and a workstring shoulder 106. A cylindrical cover 110, which covers arid guides the rod member 100, may be connected to the workstring, for instance by a hey 112 and one or more pins 114,
The fork string may be provided with one or large fluid openings 120 to provide a fluid passage from the fluid channel 52 to a fluid cavity 122 which is enclosed by the cover 110 and. the rod. member 100. Optionally, said fluid cavity and / or the fluid openings remain filled with a pressure transfer material. 3a.Id pressure transfer material may include a gel, such as Lapooitem marketed, by Rockwood Additives Limited. The gel will prevent clogging of the openings by solids in the drilling fluid.
The pusher ring 94 may be provided with one or more key merlons 130 extending longitudinally between adjacent, anchor segments 34 (Figs, SB, 10), the key merlon being at one end connected to the key ring 94 and. at the opposite end connected to the release ring-90, for instance using bolts or pins 132-134, The anchor segments are closed in between the pusher ring 94 and the release ring 90.
Cylindrical body part 14 0 is connected to, and may preferably be integrally formed with, the one or more ramp bodies 30 {Fig. SB}, The body part 140 encloses the work string 50 and is sible to slide with respect to said workstring. The body part 140 is reliably connected to the workstring. Said releasable connection for instance includes one or snore shear bolts 142, which may be set to break: when a shear force exceeds a second threshold shear force, in a practical embodiment, said second threshold shear force may be in the ra acre of 4 to 6 metric tons, for instance about 5 tons, per shear bolt- The body part 140 may be connected using four shear bolts, for instance setting the total second shear force at about- 2G tons. The (total) second threshold shear force is greater than the (total) first threshold, shear force.
During drilling, the expansion assembly of the invention will be rotated, including the top anchor. As the top anchor tray engages the inner surface of the casing 2, friction due to rotation will cause circumferential stresses in the anchor. In the embodiment shown; Figs. 8A-8C, the shear force required, to shear the first set of .shear bolts and the second set of shear bolts 142 is set to exceed the circumferential force caused by friction during drilling. The top anchor can be designed to withstand, for instance about 2 to 5 khm torque.
In an improved embodiment, the outer surface of cite workstring 50 may be provided with one or more cams, longitudinal ribs or similar extensions (not shown) - Use inner surfaces of the pusher ring 94 and / or the anchor body 80 may be provided with corresponding grooves, allowing the pusher ring 94 and the anchor body to slide along the extensions in longitudinal direction, but. blocking movement in circumferentiai direction. Thus, said extensions will provide a reaction force countering the circumferential force caused by friction during rotation of the top anchor. The improved embodiment, including said extensions and grooves, can withstand up to 5 khm, which far exceeds frictional forces during typical drilling operations.
The ramp bodies 80 and / or the body parts 140 may be provided with one or more fingers 144, An end of the fingers: may be connected to the centralizer ring 32, for instance by connector 146 which may include a bolt or pin. In the embodiment shown in Fig. 3A, the end of the finger 144 may engage a centralizer: shoulder 148. A clearance 150 may be arranged between the centralizer 32 arid the one or more fingers 144 on one side arid, the workstring 50 on the other. Said clearance may be annular, having a minimum radial distance L3 {Fig, SB).
In a practical embodiment, distance L3 may be in the range of I to 10 mm, for instance about 5 mm, A chamfer 152 is provided on the inner surface of the ramp bodl.es 80, which, closes said clearance between the ramp body and the workstring. The clearance preferably allows passage of the release sub 58 {Fig. 3), i, e. a height of the ridge 58 .is preferably smaller than radial distance L3.
An edge of the release ring 90 facing tlae workstring 50 is provided with chamfer 154, Preferably, the release ring chamger 154 matches the ridge chamfer 59 of the release sub 58,
The one or more fluid openings enable the boo anchor hydraulic activist ion. Herein, the fluid channel 52 may be blocked by dropping the dart 66 into the darn catcher 56 (Fig. 5), Thereafter, the pressure of the drilling fluid can be increased, consequently also increasing the pressure in the fluid chamber 122. Said fluid , pressure will cause the rod member 100 to push against the pusher ring 54. To activate the anchor, the pressure of the drilling fluid can exceed a threshold pressure, causing the pushing force of the rod member 100 to exceed the pusher ring, the shear force of the shear bolts 96.
As shown in big. 9., 'when the pressure exceeds the threshold pressure, the shear bolts 96 will shear (break), allowing the pusher ring to slide along the workstring, The pusher ring pushes the anchor segments 84 onto the ramp surfaces 82, causing che segments to move radially outward cowards the casing 2. The outer surface of each segment will engage the casing ·. The .sliding movement may be limited by the rod shoulder 104 engaging the 'workstring shoulder 106 (Fig, 9), which also limits the outward movement of the segments and prevents damage to the easing · 2,
The springs 88 also push the segments radially outward. In an embodiment, the springs 38 are helical springs. The force Fs exerted by each spring depends on the compression, ie, Fs === k (Ls - to), which k is a string constant, is the length of the spring when uncompressed, and Lo is the length of the spring when compressed. In a practical embodiment, the total spring force may be designed to be in the range of 150-200 kg (1.5-2 kb) when the anchor 20 is inactive (Fig, 8C), and in the range of 20- 00 kg, for instance about 30 kg (0.3 k: N) of the top anchor as activated (Fig. 9), A bottom surface of the anchor segments may be provided with a dovetail shaped ridge 160, fitting into a correspondingly shaped guide channel (not shown) of the corresponding · ramp surface 82, together forming a sliding dovetail joint. An outer surface 162 facing the casing 2 may be provided with teeth 164, The teeth may be located at a mutual distance or pitch Li, Bach tooth may have a width LS, a heigth L6, a forward angle a and an aft angle P -
In a practical embodiment, the width L5 is smaller than she pitch Li, creating a .iliac surface 166 between adjacent teeth 164, the pitch may be in the order of 10-30 aim, for instance about 15-20 tan. The width L5 may be in the order of 4-10 mop for instance about 6-7 mra. The high LS of the teeth may be in the order of 1-2 aim. The pitch L7 may be in the range of about 7-12 aim, for instance about 9-10 mm. The forward angle a is preferably less than 90 degrees. The forward angle may be in the range of 40 to SO degrees, for instance about 60 degrees. Trie aft angle β may be in the range of about 5 to 30 degrees, for instance about 10 degrees. The relatively modest forward angle provides sufficient grip to the casing inner surface while the top anchor is activated, while facilitating easy release and preventing damage to said inner surface of the casing, Herein, the relatively low aft single β improves the easy release from the casing · when the anchor is deactivated.
The expansion process of the invention is described, with references to Figures 14-18.
Initially, the open hole section of the wellbore is drilled., Using drill bit 28 as shown in Figure 1, until the expansion assembly IQ reaches a predetermined, position. Herein, the bit has reached a depth which may also be referred to as target depth. TD (Fig. Ii).
The expansion assembly of the invention is connected to the drill string 8. During drilling, either the drill string may be rotated from surface, or the drill bit may be driven by a downhole motor which may be included in the drill string section 26, If the drill string is rotated from surface, the expansion assembly of the invention will be rotated together with the drill string, including the expandable liner 22 and the top anchor 20.
Drilling torque will be transferred via the fork string 50, so that rotational forces to the expansion assembly are limited to frictional forces due to engagement of the inner surface of the casing 2 or the wellbore wall 6,
As shown in Fig, is, the downhole end of the centralizer ring may be arranged at and angle γ with respect to the radial plane of the top anchor 20, Herein, the: angle γ> 0 degrees. During drilling, the anchor will be rotated, while the angle γ will ensure that the centralizer properly engages the top end. of the liner 22. In practice, the angle γ may be in the range of about 5 to 15 degrees.
After reaching target depth, optional cement may be pumped through fluid channel 52 through the dsiii bit 28 and into the annulus 3s between the liner 22 and the wellbore wall 6, Said cement is initially a slurry, which will harden after a predetermined time period . Said time period can be designed to exceed the time required to perform the expansion steps described below.
Subsequently, the fluid channel 80 is biocited, for instance by pumping the dart 66 into the fluid channel 52 until the dart reaches and. biochs the dart catcher 56 (Fig. 1.5).
In a next step, the fluid, pressure in the fluid, channel upbore of the dart is increased (Fig. 16). The pressure is transferred, via the openings 120 to the pusher ring Ss, as also described above with respect, to Figure 3. The pressure is increased until the force exerted by bise pusher ring exceeds the first threshold force which shears the first set of shear bolts 96. Said first threshold shear force is for instance about 8-.3.2. metric ton. After shearing the first set of shear bolts, the pusher ring pushes against the segments which slide onto the ramp surfaces 82 and. radially outward, against the casing 2, The anchor segments engage the inner surface of the casing 2 and the top anchor is activated (see also Fig, 9 ;,
Subsequently, the drill pipe 8 is pulled in the uphole direction, causing the wortstring 50 to exert a shear force to the second set of shear bolts 112, The force applied to the drill string 'is increased until it exceeds the second threshold shear force, causing the second set of shear bolts 142 to shear (Fig, 17), Sard second threshold shear force is for instance about 13-22 metric tor; When the second set of shear bolts are sheared, the worksbring 50 is able to move with respect to the top anchor 20,
Subsequently, the drill string 8 is pulled towards surface. The expander cone 24 will move in the uphole direction, if it exceeds zero, the expandable liner will move in the direction of the activated top anchor 20, until the top end 170 of the liner 22 engages the downhole end 172 of the top anchor. The drill string 8 may then push the expansion memo 21 through, the expandable tubular 22 while the top anchor 20 holds the liner 22 in place, as shown in FIG. 18, the expansion member 24 will expand the expandable liner. Depending on the diameter of the expansion member 24, the casing 2 may be expanded, too, along the overlap section 30.
If the system includes the optional open hole anchor 6 0, expand! nc: the expandable liner will activate said open hole anchor. When the open hole anchor is activated and has engaged the wellbore wall, the expansion member 24 may then move through the remainder of the expandable tubular 22, The open hole anchor will hold the liner in unison. The liner will shorten due to the expansion process which will consequently open the gap LI.
When the release sub 58 reaches the top anchor 20, the release sub 5¾ will slide under the centralizer 98 into the clearance 150, until the release sub engages the release ring 30 {Fig, 185. The chamfer 53 of the release sub will for instance engage the release ring chamfer 154 (shown in Pig, SB), and push the release ring in the aphole direction. The release ruing 90 is connected so the pusher ring 94 via the hey merlons 130, which move in conjunction, If the anchor segments 84 are enclosed between the posher ring 94 and the release ring 90, the segments 84 also slide radially inward along the ramp surfaces 82, releasing trie casing inner surface. The release force required to release the segments may be relatively modest. Said release force may for instance be determined by the soring force of the springs 88, in an embodiment, said force may be in the order of 20-40 kg (about 45-90 pounds force).
With the segments disengaged from, the casing, the release sub will forward, the top anchor together with the drill string towards surface. The .string 8 tool may pull the expansion member 24 through fine remainder of the expandable tubular 22 to further expand the laughter. After expansion, the expansion assembly 10, without the separable tubular 22, may be removed from the wellbore. The expandable liner may be expanded against the wellbore wall and / or as a clad against the inner surface of another tubular element, e.g., a previous casing or 1iner,
Fig. 18 shows the expandable liner being expanded against the inner surface of the casing 2, At the overlap section 30, the expandable liner 22 and the casing · 2 may also be expanded together, for instance to expand the expandable .liner and also the overlap section 3G to an inner diameter which is about equal to the inner diameter of the easing 2 (not shown). if so, the liner 22 and the casing 2 will be expanded, and the respective cement 4 in the annulus will be compacted. Thus, the liner 22 may be expanded, to an inner diameter which is about equal to the inner diameter of the casing 2, to create a monodiameter weIIbore,
The drilling rig 12 may be any system capable of supporting bools for a wellbore, also, the drilling rig may be located either onshore or offshore. The gripping member 18, as shown, is a set of slips. However, the gripping member 18 may be any suitable member capable of supporting the weight of the tool string S and the expansion assembly of the rig floor 16 including, but not limited to, a clamp, a spider, and a rotary table.
The hoisting assembly 14 is configured to lower and raise the tool string 8 and thereby the expansion assembly 10 into and out of the wellbore 1. The hoisting assembly 14 is configured to provide the pulling force required to move the expansion member 24 through the expandable tubular 22 during 'the expansion process. Because the hoisting assembly 14 is coupled to the drilling rig 12, the hoisting assembly 11 is capable of providing a large force to the expansion member 22. The hoisting assembly 14 may be any suitable assembly configured to raise and lower the tool string 8 in the wellbore including, but not limited to, a traveling block, a top drive, a surface jack system, or a subbing unit hoisting 'conveyance. The hoisting assembly .14 and / or a spinning member located on the rig floor may provide the rotation required to operate the expansion assembly 10.
The present invention is similarly suitable for use with alternative drill lines systems. The laugh sissy includes for instance a downhole motor instead of a top drive.
Said downhole engine is a drill ling tool comprised in the drill string directly above the bit. Activated by pressurized drilling fluid, it causes the bit to turn while the drill string does not rotate. Examples of the downhole motor include a positive-displacement motor and si downhole turbine motor. Also, any other drilling tool may be deployed to drill the borehole. Such drilling tool may include, for instance, an abrasive jetting device suspended at the end or the tool string,
The present invention is equally suitable for directional drilling ', i, e, drilling while the drilling direction can be adjusted. For instance, a downhole motor may be used as a deflection fool in directional drilling, where it is made up between the bit and a bent sub, or the housing of the motor itself may be.
In a practical embodiment, the expand.ab.le liner may have a length in the range of for instance 10 m to 3 km. The liner for instance may have a length of 1 to 2.5 km (about 7000 feet),
The present invention is not limited to the above-described embodiments thereof, while various modifications are conceivable within the scope of the appended claims. Features of respective embodiments may for instance be combined.

权利要求:
Claims (15)
[1] 1, An expansion assembly nor expanding a tabular in a wellbore, the expansion assembly including a top anchor, the top anchor comprising: a workstring; a pusher ring being coupled to the workstring by a first releasable coupling; a ramp body having one or more ramp surfaces, said ramp body being reieasably coupled to the workstring by a second releasable coupling, the second releasable coupling upon release allowing the work:string to move with respect to said top anchor; one or more anchor segments each having one or more wedge surfaces corresponding to and engaging the ramp surfaces of the ramp body, one end of the segments engaging the pusher ring; a release ring enclosing the workstring and arranged at an opposite end of the segments; one or more key merlons connecting the release ring to the pusher' ring, to move the release ring and the pusher ring in conjunction; and activating means for releasing the first releasable coupling.
[2] 2, Expansion assembly of claim:- 1-, the first releasable coupling including a first set of shear bolts providing a first threshold shear farce, the second releasable coupling including a second set of shear bolts having a second threshold shear force, said second threshold shear force exceeding the first threshold shear force.
[3] 3, Expansion assembly of claim 1, comprising; an expansion member connected to a downhole end of the workstring; and an expandable liner enclosing at least part of the workstring between the top anchor and the expansion member . i. Expansion assembly of claim 3, comprising: a drill string section extending downhole of the expansion member; and a drill bit nr:: an gob at a downhole end of said drill string section.
[4] 5. Expansion assembly of claim 4, comprising: a rotatable tool string which is connected to sin uphoie end of the workstring for rotating the drill bit and the expansion assembly,
[5] 6. Expansion assembly of claim 3, comprising: a centralizer coupled to a. downhole end of the release ring, for centralizing' an end of the expandable liner with respect to the worfcstring.
[6] 7. Expansion assembly of claim 6, wherein a downhole end of the centralizer is provided with, a central!sing chamfer, for catching and guiding the end of the expandable liner ,
[7] 8. Expansion assembly of claim. 8, wherein the downhole end of the centralizer is arranged at an angle γ > 0 degrees with, respect to a radial plane of the top anchor,
[8] 3. Expansion assembly of claim i, wherein the activating means include: si rod member engaging the pusher ring; a tubular cover which covers and guides the rod member, the cover being connected to the workedring; a fluid cavity which i.s enclosed by the cover and the rod member; and one or mors fluid openings providing a fluid passags from an internal fluid channel of the workstring to the fluid cavity.
[9] 10, Expansion assembly of claim 9, wherein the fluid openings are filled with a gel-like material,
[10] 11, Expansion assembly of claim 1, the top anchor comprising a spring member arranged between the one or more anchor segments and the corresponding ramp surfaces.
[11] 12, The expansion assembly of claim 1, comprising a dart catcher provided, in an internal fluid channel of the work stir ing.
[12] 13, Expansion assembly of claim 1, wherein an outside surface of the one or' more anchor segments is provided with a number of teeth, each tooth having a forward angle a of less than 30 degrees,
[13] 14, Expansion assembly of claim 13, wherein the teeth have a forward angle a. in the range of 40 so 80 degrees, and an aft angle β in the range of about 5 to 30 degrees,
[14] 15, Top anchor for an expansion assembly of claim 1, the top anchor comprising; a work·.string; a pusher ring being· coupled, to the work string by a. first releasable coupling; a ramp body having one or more ramp surfaces, said ramp body being releasably coupled to the workstring by a second releasable coupling, the second releasable coupling upon release allowing the workstring to move with respect to said top anchor; one or more anchor segments each having one or more wedge surfaces corresponding to and engaging the ramp surfaces of the ramp body, one end of the segments engaging the pusher ring; a release ring enclosing the workstring· and arranged at an opposite end of the segments; one or more key merlons connecting the release ring to the pusher ring, to move the release ring and the pusher ring in conjunction; and activating means for releasing the first releasable coupling,
[15] 16, Method for expanding a tabular in a wellbore, the wellbore being' provided with a casing, the method comprising' the steps of; introducing a tool string in the wellbore, the tool string being provided with tin expansion member, an expandable liner, and a top anchor according to claim 15; hydraulically activating the top anchor to anchor the top anchor to the casing; pulling the tool string towards surface to release a second releasable coupling and to allow the tool string to move with respect to said top anchor·; using the tool string to pull the expansion member through the- expandable liner towards the too anchor; and deactivating the top anchor.

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同族专利:

公开号 | 公开日

WO2014044630A3|2014-07-03|

WO2014044630A2|2014-03-27|

US9951588B2|2018-04-24|

AU2013320392B2|2016-03-24|

MX354992B|2018-03-28|

BR112015005660A2|2017-07-04|

EP2909423B1|2016-11-02|

CN104736793A|2015-06-24|

US20150247388A1|2015-09-03|

MX2015003085A|2015-07-14|

BR112015005660B1|2021-01-05|

CN104736793B|2017-05-03|

US20180202268A1|2018-07-19|

EP2909423A2|2015-08-26|

US10577900B2|2020-03-03|

AU2013320392A1|2015-03-12|

DK179370B1|2018-05-28|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

EP12184850|2012-09-18|

PCT/EP2013/069107|WO2014044630A2|2012-09-18|2013-09-16|Expansion assembly, top anchor and method for expanding a tubular in a wellbore|

EP2013069107|2013-09-16|

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