METHOD OF REMOVING A WELL INTERIOR LINING

专利摘要:
it is a method and apparatus for removing a well interior lining from a well in a single manoeuvre. a downhole tool assembly is disposed on a work string having an downhole pull tool, a lance tool, a drive unit and a cutting device. the downhole pull tool is placed within a first casing string, and the lance tool, motor unit and cutting device are located within a second casing string located through the first casing string . the downhole pull tool and the lance tip tool can be configured to hold the respective casings while cutting the second casing string. the cut casing section can then be pulled out using the downhole pulling tool to dislodge the casing section, whereby, through attachment to the lance tool, the cut casing section can be removed from the pit. the assembly can be readjusted to smaller depths if the cut casing section cannot be dislodged for removal.
公开号:BR112019008256B1
申请号:R112019008256-5
申请日:2017-11-02
公开日:2021-06-22
发明作者:Frode Sunde；Edwin Rooyakkers；Arnstein Wathne；Steffen Hansen；Steffen Evertsen；Eirik Enerstvedt
申请人:Ardyne Holdings Limited；
IPC主号:

专利说明:

[0001] The present invention relates to methods and apparatus for abandoning wells when they have reached the end of their useful life and, in particular, to methods and apparatus for removing a well interior casing from a wellbore. BACKGROUND OF THE INVENTION
[0002] During the construction of an oil or gas well, a well hole is drilled to a first predetermined depth. A first casing column is placed in the well and secured in position using cement. The drill string is lowered into the first casing string and the wellbore is extended to a second predetermined depth. A second casing column is then placed in the well and secured in position using cement.
[0003] This drilling, casing and cementation process is repeated with successively smaller drilled holes and casing sizes until the well reaches its target depth. At this point, a long production pipeline is placed in the well.
[0004] During production, hydrocarbons flow through the production pipeline and are collected on the surface. Over time, which can be several decades, the production of hydrocarbons reduces until the well's production rate is no longer economically viable. At this stage, the well is plugged and abandoned.
[0005] During a plugging and abandonment operation, it is often desirable to remove casing columns that have been positioned in the wellbore. The conventional approach to removing well casings involves a series of tasks inside the well to cut casing in multiple positions and more maneuvers inside the well to remove casings in individual stages. This can be a time-consuming and costly process, especially if a section cladding remains immobile after cutting a cladding. SUMMARY OF THE INVENTION
[0006] An object of an aspect of the present invention is to obviate or at least mitigate the above disadvantages of prior art coating removal methods.
[0007] Another objective of an aspect of the present invention is to provide a method for removing a casing from a wellbore that can be performed in a single maneuver inside the well and allows the maximum length of casing to be removed in a single maneuver .
[0008] Another objective of an aspect of the present invention is to provide a reliable, fast and economical method of removing a casing from a wellbore.
[0009] Other objects of the invention will become evident from the following description.
[0010] According to a first aspect of the invention, there is provided a method of removing a casing from a well comprising:
[0011] a well interior tool set, the well interior tool set comprising:
[0012] an in-pit traction tool;
[0013] a spearhead tool;
[0014] a motor unit; and
[0015] a cutting device;
[0016] lower the well interior tool assembly into the well;
[0017] cutting a coating;
[0018] hold the coating; and
[0019] pulling the cut liner to dislodge the cut liner.
[0020] The method may comprise providing the downhole tool assembly in a working column.
[0021] The method may comprise rotating the cutting device to cut the liner. The method may comprise driving the motor unit to rotate the cutting device to cut the liner. The method may comprise driving the spearhead tool and/or the downhole pull tool to secure the casing. The method may comprise driving the downhole pull tool to pull the work string and cut casing section to dislodge the cut casing section.
[0022] The method may comprise driving the well interior pull tool and/or spearhead tool to hold the casing during casing cutting operation. The method may comprise actuating the downhole pull tool and/or lance tool before actuating the motor unit and/or cutting device. The method may comprise actuating the motor unit and/or the cutting device before activating the downhole pull tool and/or the spearhead tool. The method may comprise driving the downhole pull tool, the lancet tool, the motor unit and the cutting device simultaneously.
[0023] The method may comprise driving the downhole and/or spearhead traction tool to hold the casing to retain the downhole traction tool, spearhead and/or the stationary motor unit while the cutter is rotated.
[0024] The method may comprise driving the cutting device by pumping a fluid into the through hole of the working column. The method may comprise implanting at least one knife into the cutting device. The cutting device can be rotated by the motor which converts the hydraulic fluid force into mechanical force. The cutting device can be rotated by the motor unit which converts the hydraulic fluid force into a mechanical rotating force to rotate the cutting device.
[0025] The method may comprise driving a piston member in the downhole traction tool between an extended and retracted position. The method may comprise actuating an anchoring mechanism on the downhole traction tool between an assembly and an undefined position. The method may comprise actuating the anchoring mechanism to a defined position to secure the liner when the at least one piston member moves from an extended position to a retracted position.
[0026] The method may comprise actuating the anchoring mechanism to an undefined position to release the casing interior traction tool when the at least one piston member moves from a retracted position to an extended position.
[0027] The method may comprise sequentially actuating the at least one piston member between an extended position and a retracted position to pull the work string in an upward direction in the wellbore.
[0028] The method may comprise releasing the casing anchorage mechanism if the downhole traction tool is not able to move and/or dislodge the cut casing.
[0029] The method may comprise moving the downhole tool assembly to a second desired depth in the wellbore. The second desired depth can be a higher axial position in the wellbore than the previous depth.
[0030] The method may comprise driving the motor unit to rotate the cutting device to cut the liner and driving the spearhead tool to hold the liner to the second desired depth. The method may comprise pulling the workstring and cut liner using the downhole pull tool to the second desired depth to move or dislodge the cut liner.
[0031] The method may comprise pulling the work string and the cut casing using the downhole pull tool to the second desired depth to remove the casing from the well.
[0032] The method may comprise an additional step of cutting and pulling if the casing remains immobile due to cement between the casing and the wellbore or a blockage. The method may comprise moving the downhole tool assembly to another desired depth. The additional desired depth may be closer to the surface in the wellbore than the desired first and/or second depth.
[0033] The method may comprise actuating the cutting device to cut the casing and actuating the spearhead tool to hold the casing to the desired additional depth. The method may comprise driving the downhole pull tool to the desired additional depth to pull the work string and cut casing up into the wellbore.
[0034] The method may comprise monitoring the pressure of the fluid flowing through the working column to determine when the cutting device, the motor unit, the well interior traction tool and/or the spearhead tool are activated.
[0035] The method may comprise extracting the work string and the attached cut casing section from the wellbore by a rig that applies an upward force on the work string when the cut casing has been dislodged.
[0036] The work string and attached cut liner can be extracted when the probe on the surface is able to apply sufficient pulling force to the work string.
[0037] The method may comprise driving the downhole pull tool after the cut casing has been dislodged to pull the work string and cut casing up into the wellbore.
[0038] According to a second aspect of the invention, there is provided a well interior tool assembly for removing a casing from a well comprising:
[0039] an in-pit traction tool;
[0040] a spearhead tool;
[0041] a motor unit; and
[0042] a cutting device;
[0043] in which the motor unit is configured to rotate the cutting device.
[0044] Preferably, the downhole pulling tool and the spearhead tool are configured to secure a downhole casing.
[0045] By providing an inside well traction tool and a spearhead tool that is capable of engaging and holding the inner diameter of the casing, the inside well and/or tipping traction tool spear can hold a section of casing while the cutting device is rotated to cut casing. This can facilitate a clean cut through the coating and mitigate or prevent damage to the cutting device.
[0046] The spearhead tool can be configured to hold a first casing string and the downhole pull tool can be configured to secure a second casing string. By providing an assembly capable of holding a first and second casing strings, the casing columns can be locally secured to one another, preventing or mitigating vibration during a casing cutting operation.
[0047] Preferably, the downhole tool assembly is located in a working column. Preferably, the working column has a through hole.
[0048] Preferably, the spearhead tool is hydraulically adjustable. The spearhead tool may comprise at least one wedge. The at least one wedge can be placed circumferentially around a section of the spearhead. Preferably, the at least one wedge is configured to engage the inner surface of the liner.
[0049] The at least one wedge can be readjusted. The at least one wedge may be configured to hold the inside diameter of a first casing section, wherein the at least one wedge may subsequently be released and readjusted within a second casing section during the same manoeuvre in the well.
[0050] Preferably, the spearhead tool, the downhole pull tool and/or the motor unit are located above the cutting device when positioned in the wellbore. Preferably, the downhole pulling tool is located above the spearhead tool when positioned in the wellbore.
[0051] The cutting device may comprise at least one blade or knife. Preferably, the cutting device comprises a plurality of knives. The plurality of knives can be arranged circumferentially around the cutting device.
[0052] The cutting device can be hydraulically actuated. The cutting device can be activated by pumping fluid into the work string. Preferably, the cutting device comprises at least one knife. The at least one knife can be configured to move in response to fluid pressure.
[0053] The motor unit can be hydraulically driven. Preferably, the motor unit is a positive displacement motor. The drive unit can be configured to convert the hydraulic force of a fluid pumped through the work string through hole into rotating mechanical force to rotate the cutting device. Preferably, the motor unit is in mechanical communication with the cutting device.
[0054] Preferably, the spearhead tool and/or the downhole pull tool are stationary while the cutting device is rotated. The drive unit can be stationary while the cutting attachment is rotated.
[0055] The spearhead tool may comprise a locking mechanism to prevent accidental release of the spearhead tool from the coating. The locking mechanism can be actuated providing an upward force on the work column. The locking mechanism can be disabled by providing a downward force on the work column.
[0056] Preferably, the downhole traction tool comprises an anchoring mechanism and at least one piston member.
[0057] The anchoring mechanism may comprise at least one wedge. The at least one wedge can be placed circumferentially around a section of the work string. Preferably, the at least one wedge is configured to engage the inner surface of the liner. The at least one wedge is movable between an adjusted position and an unadjusted position. In the fitted position of the wedge, at least one wedge engages the inside diameter of the liner. In the unfit condition, the wedges are pulled away from the casing and the downhole pull tool is movable in the casing ring. The at least one wedge and/or anchoring mechanism is hydraulically operable.
[0058] The at least one piston member is movable between an extended position and a retracted position. Preferably, the at least one piston member is coupled to the working column. The at least one piston member is hydraulically operable.
[0059] Preferably, the at least one wedge in the anchoring mechanism is configured to hold the liner when the at least one piston member moves between an extended position and a retracted position.
[0060] The at least one wedge in the anchoring mechanism can be adjusted to hold the liner when the at least one piston member moves from an extended position to a retracted position. The at least one wedge in the clamping mechanism can be de-adjusted to be released from the liner when the at least one piston member moves from a retracted position to an extended position.
[0061] The assembly may comprise at least one additional well interior tool selected from a drill, a milling device, a tapered cutter, a stop sub, a buffer sub, an axial load operated valve and/or a collar of perforation.
[0062] Preferably, the downhole pull tool pulls the work string and cuts the casing section to dislodge or move the cut casing section. The downhole pull tool can pull the work string and cut casing section up into the wellbore.
[0063] Embodiments of the second aspect of the invention may include one or more features of the first aspect of the invention or embodiments thereof or vice versa.
[0064] According to a third aspect of the invention, there is provided a method of removing a casing from a well which comprises providing:
[0065] a well interior tool set in a work string, the well interior tool set comprising:
[0066] an in-pit traction tool;
[0067] a spearhead tool;
[0068] a motor unit; and
[0069] a cutting device;
[0070] lower the well interior tool assembly into the well;
[0071] drive the motor unit to rotate the cutting device to cut the coating;
[0072] activate the spearhead tool to hold the coating; and
[0073] actuate the inside well pull tool to pull the work string and the cut casing section to dislodge the cut casing section.
[0074] Embodiments of the third aspect of the invention may include one or more features of the first or second aspects of the invention or embodiments thereof or vice versa.
[0075] According to a fourth aspect of the invention, there is provided a method of removing a casing from a well which comprises providing:
[0076] a well interior tool set in a work string, the well interior tool set comprising:
[0077] an in-pit traction tool;
[0078] a spearhead tool;
[0079] a motor unit; and
[0080] a cutting device;
[0081] lower the well interior tool set into the well to the first desired depth;
[0082] cut the casing at the first depth;
[0083] hold the casing at the first depth;
[0084] pull the cut liner;
[0085] moving the downhole tool assembly to a second desired depth in the wellbore;
[0086] cut the casing to a second desired depth;
[0087] hold the liner at the second desired depth; and
[0088] pulling the cut liner to dislodge the cut liner.
[0089] The method may comprise driving the motor unit and rotating the cutting device to cut the coating. The method may comprise driving the spearhead tool to secure the liner. The method may comprise driving the downhole pull tool to pull the work string and cut casing section to dislodge the cut casing section.
[0090] The method may comprise driving the spearhead tool and/or the well interior traction tool by pumping a fluid into a through hole of the work string.
[0091] The method may comprise driving the cutting device to deploy at least one knife in an extended cutting position by pumping a fluid into a through hole of the work string. The method may comprise driving the cutting device by rotating the cutting device to cut the liner. The cutting device can be rotated by hydraulically actuating the motor unit.
[0092] The method may comprise releasing spearhead tool and/or downhole pull tool from casing and raising the downhole tool assembly to the second desired depth. The method may comprise driving the spearhead tool and the downhole pull tool to hold the same casing string to the second desired depth. The method may comprise driving the spearhead tool and the downhole pull tool to hold different casing strings to the second desired depth.
[0093] The method may comprise at least one additional cutting step if the casing remains immobile due to cement between the casing and the wellbore or between a casing string and another casing column. The method may comprise moving the downhole tool assembly to another desired depth. The additional desired depth may be an axial position closer to the surface in the wellbore than the desired first and/or second depths.
[0094] The method may comprise actuating the spearhead tool and/or the well interior pull tool to hold the casing at an additional desired depth and actuating the motor unit and/or cutting device to cut the coating.
[0095] The method may comprise driving the downhole pull tool after the casing has been dislodged to pull the work string and casing section cut to the surface.
[0096] The method may comprise monitoring the fluid pressure level in the through hole of the work string. The method may comprise deactivating the cutting device, the motor unit, the lancet tool and/or the downhole pull tool based on the pressure level of the monitored fluid.
[0097] Embodiments of the fourth aspect of the invention may include one or more features of the first through third aspects of the invention or embodiments thereof or vice versa.
[0098] According to a fifth aspect of the invention, there is provided a method of removing a casing from a well which comprises providing:
[0099] a well interior tool set in a work string, the well interior tool set comprising:
[0100] an in-pit traction tool;
[0101] a spearhead tool;
[0102] a motor unit; and
[0103] a cutting device;
[0104] lower the downhole tool assembly into the well;
[0105] actuate the inside well pull tool to hold the casing;
[0106] drive the motor unit to rotate the cutting device to cut the coating;
[0107] lock the spearhead tool into the casing;
[0108] Trigger the Inhole Pull Tool to pull the cut casing to dislodge the cut casing section.
[0109] Embodiments of the fifth aspect of the invention may include one or more features of the first through fourth aspects of the invention or embodiments thereof or vice versa.
[0110] According to a sixth aspect of the invention, there is provided a method of removing a casing from a well which comprises providing:
[0111] a well interior tool set in a work string, the well interior tool set comprising:
[0112] an in-pit traction tool;
[0113] a spearhead tool;
[0114] a motor unit; and
[0115] a cutting device;
[0116] lower the well inside tool set into the well;
[0117] securing a first casing column;
[0118] securing a second casing column;
[0119] cut the second liner column;
[0120] pulling the second casing column to dislodge the second casing column.
[0121] The method may comprise driving the downhole pull tool to secure a first casing string.
[0122] The method may comprise driving the motor unit to rotate the cutting device to cut the second liner column. The method may comprise fitting and/or fitting the spearhead tool into the second casing string to secure the second casing string. The method may comprise driving the downhole pull tool to pull the work string to dislodge the cut casing section.
[0123] The method may comprise driving the cutting device to deploy at least one knife.
[0124] Embodiments of the sixth aspect of the invention may include one or more features of the first through fifth aspects of the invention or embodiments thereof or vice versa.
[0125] According to a seventh aspect of the invention, there is provided a method of using a wellbore tool set that provides:
[0126] a well interior tool set, the well interior tool set comprising:
[0127] an in-pit traction tool;
[0128] a spearhead tool;
[0129] a motor unit; and
[0130] a cutting device;
[0131] lower the downhole tool assembly into a well;
[0132] actuate the well interior pull tool to secure a casing;
[0133] drive the motor unit to rotate the cutting device to cut the coating;
[0134] lock the spearhead tool to the coating; and
[0135] actuate the inside well pull tool to pull the work string to dislodge the cut casing section.
[0136] The method may comprise driving the cutting device to deploy at least one knife.
[0137] The method may comprise driving the downhole pull tool to secure a first casing string; and driving the motor unit to rotate the cutting device to cut a second row of casing.
[0138] The method may comprise locking the spearhead tool in the second casing column.
[0139] Embodiments of the seventh aspect of the invention may include one or more features of the first through sixth aspects of the invention or embodiments thereof or vice versa. BRIEF DESCRIPTION OF THE DRAWINGS
[0140] Several embodiments of the invention will now be described, by way of example only, with reference to the drawings, of which:
[0141] Figure 1 is a cross-sectional view of a typical well with two casing columns installed.
[0142] Figure 2 is a cross-sectional view of the well of Figure 1 with a downhole tool assembly in a descent state according to an embodiment of the invention;
[0143] Figure 3 is a sectional view of the well of Figure 1 with the well interior tool assembly of Figure 2 in a casing cut operational state.
[0144] Figure 4 is a sectional view of the well with the inside well tool assembly of Figure 2 in an operational state of the spearhead tool.
[0145] Figure 5 is a sectional view of the well with the well interior system of Figure 2 in a traction state.
[0146] Figure 6 is a sectional view of the well of Figure 1 with a casing column removed; and
[0147] Figure 7 is a sectional view of the well of Figure 1 with an inside well tool assembly in a descent state with use of an inside well traction tool with through-pass rotation capability. DETAILED DESCRIPTION OF PREFERRED MODALITIES
[0148] Figure 1 shows a typical well 10 with two casing columns installed. A first section 12 of wellbore 10 is drilled to a selected first depth, after which a first casing string 14 is placed in the well and typically may be a 33.97 centimeter (13 3/8 inch) casing string . Cement is placed over a portion of the exterior of the first casing 14, sealing the ring between the first casing 14 and the first section 12 of the wellbore 10.
[0149] A second section 16 of the wellbore is then drilled to a target depth after casing 14 is placed. A second casing string 18 is placed in the well and typically may have a casing string diameter of 24.44 centimeters (9 5/8 inches). The second casing 18 is suspended within the first casing 14 and cemented to seal the ring between the second casing 18 and the second section 16 of the wellbore 10.
[0150] During a well abandonment operation, the second casing 18 or a section of the second casing 18 is typically removed before the well is connected.
[0151] Figures 2 to 5 are sectional views of a wellbore that shows different stages of the coating removal method.
[0152] Figure 2 shows a borehole tool assembly 30 lowered into ring 32 of casing 14. In this example, the borehole tool assembly is a casing removal assembly.
[0153] The downhole tool assembly comprises a working string 34 with a cutter 36 at a lower end 34a of the working string. The working column also comprises a motor unit 38, a lance tool 40 and an in-pit pull tool 42.
[0154] The 42 downhole traction tool may be a downhole power tool (DHPT) commercially available from Wellbore AS, Norway.
[0155] The cutter 36 has cutter knives that are configured to extend radially from the cutter 36 to engage the liner. The cutting device is hydraulically actuable to deploy the knives in response to a fluid pressure in the working sequence above a preset limit. Once the knives are deployed, the cutting device is configured to be rotated to cut a section of liner.
[0156] The motor unit 38 is a positive displacement motor configured to convert the hydraulic force of a fluid pumped through the working column into a mechanical force to rotate the cutting device 36. The motor unit 38 is placed above the cutting device. cut in the well.
[0157] The lance tip tool 40 is placed above the drive unit 38 and cutter 36. The lance tip tool is hydraulically actuable and the lance tip is adjusted to hold the casing at or above a pressure fluid flow. Spearhead tool 40 has wedges that are configured to contact the inside diameter of a liner to hold the liner in response to fluid pressure above a preset threshold pressure.
[0158] When the spearhead tool 40 is not fitted, the work string 34 can be retracted by applying an upward force to the surface to position the spearhead tool 40 in a desired location within a casing string . When the lance tip tool 40 is adjusted, the work column 34 is retracted to lock the lance. Upon retraction of the adjusted spearhead, the upward pulling force causes the spearhead tool to slip to be wedged or blocked between the spearhead tool body and the casing 18 of the wellbore. At that point, the spearhead tool will maintain its adherence to the casing 18, even if the fluid pressure in the work string 34 is reduced below the preset limit pressure.
[0159] In-well traction tool 42 has an anchoring mechanism and a piston member. The anchoring mechanism has at least one wedge movable between an adjusted position and an unadjusted position. In the fitted position of the anchor, at least one wedge engages the inner diameter of the casing 14. In the unfitted condition, the wedges are moved away from the casing 14 and the in-well pulling tool 42 is movable in the casing ring 32.
[0160] The piston member of the inside pit traction tool 42 is attached to the lower working string and is moved axially between an extended position and a retracted position. In a stowed position, the work string below the downhole pull tool is pulled up into the wellbore.
[0161] Figure 3 shows the downhole tool assembly 30 in a casing cut operation. The work string is lowered to a position where the cutter 36 is adjacent to a section of casing 18 that is to be cut. Fluid is pumped down the work string 34 to trigger the cutting device to deploy the knives in an extended position to engage the liner.
[0162] Fluid flow through the work string creates a differential pressure across the well interior pull tool 42, causing the anchor mechanism to adjust and secure the first casing string 14. Adjusting the position of the In-hole tool assembly in the wellbore during a casing cutting operation, damage to the cutting device knives is avoided or mitigated, prolonging the life of the knives.
[0163] Fluid flow through work string 34 hydraulically drives lance tip tool 40 to hold casing 18. Fluid pressure drives motor unit 38 to rotate the cutting device to enable the cutting device cut the liner 18 forming an opening 19 in the liner.
[0164] The drive unit 38, the lancet tool 40 and the downhole pull tool 42 are held stationary while the cutting device is rotated.
[0165] By adjusting the traction tool from the well interior to the first casing 14 and the traction tool to the second casing 18, the traction tool assembly 30 is held rigidly in position during the cutting operation. The position of the first coating 14 and the second coating 18 are maintained relative to each other during the coating cutting operation ensuring a clean cut through the second coating 18 and mitigating damage to the cutting knives.
[0166] By providing a downhole traction tool with a motor unit in the same work string, the cutting operation and extraction operation can be performed in a single downhole maneuver.
[0167] Figure 4 shows that, once the casing cut is made, the work column 34 is retracted to lock the spearhead tool 40. Retracting the adjusted spearhead tool, the upward traction force causes wedges to be driven or blocked between the spearhead tool body and the casing 18 of the wellbore. At this point, the spearhead tool will maintain its grip on the coating even when fluid pressure is reduced or stopped.
[0168] Figure 5 shows that the downhole pull tool 42 is actuated to move and dislodge the cut casing section 18a. Fluid pressure in the work string is increased to adjust the anchorage mechanism on the downhole traction tool 42 and move the piston member to a retracted or traced position. The work string 34 below the downhole pulling tool 42 and the cut casing section 18a is pulled up towards the anchored downhole pulling tool 42. The cut casing section 18a is pulled up towards the dislodge casing and move cut casing section 18a out of remaining casing section 18b, increasing gap 19.
[0169] Fluid pressure is reduced to move the anchorage mechanism to an unadjusted position and the piston member to an extended or disarmed position. The downhole traction tool 42 is moved to an upper axial position in casing 14. Fluid pressure is subsequently increased to adjust the anchoring mechanism and move the piston member to a retracted or cocked position which moves the shaft of work 42 and the liner section 18a further up.
[0170] Successive movement of the piston member between a retracted position and an extended position moves the work string and cut casing section 18a further up the wellbore to the cut casing section 18a. At this point, the rig, to which the work string is attached, has sufficient lift capacity to remove the work string, well interior assembly, and casing section cut 18a from the wellbore. The downhole pull tool 42 is not anchored from casing 14 and lance tip tool 36 remains anchored in cut casing section 18a for the lifting operation. Figure 6 shows the wellbore with cut casing section 18a and working column 34 removed from the well by a drill rig.
[0171] Inhole pull tool 42 applies a local upward pull load over work string 34 and cut casing section. This mitigates or reduces the wear or damage to the work string that can occur if a rig must apply excessive loads from the surface to dislodge and remove the cut casing section. When the cut casing section has been dislodged, the probe may have sufficient capacity to pull the work string and casing to the surface.
[0172] By locating the work string and downhole tool assembly in the lowest axial position in the well and cutting the casing, the maximum length of cut casing can be removed in a single downhole maneuver . This avoids multiple downhole maneuvers to remove small individual sections of casing.
[0173] In the case where the cut casing section 18 is immobile due to cement or a blockage between the casing and the wellbore, the work string can be repositioned to a higher position in the well and the cutting operation and repeated traction as described above in relation to Figures 2 to 6 above. If at this second axial position of the well, the inside well pull tool is not successful in dislodging or lifting the cut casing section, the cut and pull method can be repeated at other axial positions until a casing section cut can be removed.
[0174] By systematically checking that a cut liner section can be removed, the maximum length of liner that can be removed is identified and removed.
[0175] Although the above description refers to the removal of casing diameters of 24.44 centimeters (9 5/8 inches) and 33.97 centimeters (13 3/8 inches), the method and apparatus can be used with other coating diameters.
[0176] Referring to Figure 7, there is disclosed an alternative wellbore tool assembly 30a for removing a casing from a well comprising: a wellbore pull tool; a spearhead tool; and a cutting device; wherein the downhole pull tool is configured to provide swivel capability so that the cutter can be swiveled from the surface. Accordingly, this provides a method of removing a casing from a well comprising: a well interior tool assembly 30a, the well interior tool assembly comprising: a well interior traction tool 42a capable of through rotation, a spearhead tool 40a and a cutting device 36a; lower the tool set into the well; cut a coating; insure the jacket; and pulling the cut liner to dislodge the cut liner.
[0177] The spearhead tool 40a and cutting device 36a are as described with reference to Figures 2 to 6. The well interior pull tool 42a may be as described hereinbefore with reference to Figures 2 to 6 with the addition of a rotation mechanism 50. This rotation mechanism will allow an outer body 52 of the borehole pull tool, anchored to the casing, to be held stationary, while an inner body 54, typically a mandrel attached to the work string , can rotate. In this way, the work string can rotate through the in-pit pull tool. The motor unit is therefore not necessary, as the casing cutter 36a can be operated to rotate and cut the casing by rotating the workstring 34 on the surface. The downhole pulling tool 42a may contain a bearing 56 in the rotation mechanism 50 to provide through rotation capability.
[0178] It is understood that, during cutting, only the anchor on the downhole pull tool 42a will be adjusted and the lance tool 40a now needs to be unadjusted. The assembly 30a will be placed in the well until the spearhead casing cutter 36a is in the lower casing string 18. The well interior pull tool 42a will be placed in the upper casing string 14. Rotating the casing string Working 34 through the well interior pull tool, 42a, the casing cutter 36a will cut casing 18, separating it into an upper and lower portion 18a 18b. When the cut is complete, the lance tool 40a will be activated to hold the cut casing section 18a. The assembly can be repositioned in the wellbore to accomplish this as it is preferable that the lance tip tool 40a be positioned at the upper end of the cut casing section 18b. With the spearhead tool 40a engaged, an attempt may be made for the working column 34 to be lifted off the surface. If the cut casing section 18a does not move and is stuck, the well interior pull tool 42a is actuated to anchor the tool 42a to the upper casing wall 14. The pit interior pull tool 42a is additionally actuated to lift the work string 34 under a high load to lift the cut casing section 18a upwards. The pressure through the inside well pull tool 42a at the surface will be indicated if the cut casing section is not partially or totally dislodged. If completely free, the cut casing section 18a and the well interior assembly can be raised to the surface if the platform to which they are attached has sufficient pulling capacity. Alternatively, the downhole pull tool 42a is not fitted and the outer body is raised to a higher position in the wellbore and the anchor is adjusted again. The downhole pull tool 42a is further actuated to lift the work string 34 under a high load to lift the cut casing section 18a up with the downhole assembly 30a. These steps can be repeated until the cut casing section 18a is dislodged and free, and the platform has sufficient pulling capacity to raise the work string to the surface with the well interior assembly 30a and the cut casing section 18a. As for the embodiment shown in Figures 2 to 6, this provides a single maneuvering traction system in which the trapped liner can be dislodged so that longer liner lengths can be recovered compared to liner and traction systems that only comprise the tool of the spearhead and the coating cutter.
[0179] The downhole tool set is described in use in a wellbore well-aligned with a well casing. Note that this is just an example of usage. The tool can be used in other applications to hold, cut and remove tubular structures. It will also be appreciated that the tool kit inside the well can be used in other applications to hold and remove fish from the inside of the well.
[0180] Throughout the specification, unless the context requires otherwise, the terms 'comprise' or 'include', or variations such as 'comprises' or 'comprising', 'includes' or 'including' will be understood to imply the inclusion of a declared integer or group of integers, but not the exclusion of any other integer or group of integers. In addition, relative terms such as "bottom", "top, up, down, "up" "down" and the like are used herein to indicate directions and locations as they apply to the accompanying drawings and will not be construed as limiting the invention and its characteristics to particular arrangements or orientations.
[0181] The invention provides a method of removing a casing from a well. The method comprises providing a tool assembly within the well. The sump tool assembly comprises a downhole pull tool, a lance tool, a cutting device and a motor unit. The method comprises lowering the tool assembly into the well and cutting a casing. The method also comprises holding the liner and pulling the cut liner section to dislodge the cut liner.
[0182] The present invention obviates or at least mitigates the disadvantages of prior art methods of removing casing from a well and reliable, fast and efficient method of removing a casing from a well. The invention allows the maximum length of casing to be cut and removed in a single maneuver.
[0183] The foregoing description of the invention has been presented for purposes of illustration and description and is not intended to be exhaustive or to limit the invention to the precise form disclosed. The described embodiments have been chosen and described so as to better explain the principles of the invention and its practical application to thereby enable others skilled in the art to better utilize the invention in various embodiments with various modifications as appropriate to the particular use contemplated. Therefore, other modifications or improvements can be incorporated without departing from the scope of the invention intended herein.

权利要求:
Claims (14)
[0001]
1. Method of removing a casing (18a) from a well (10) in a single maneuver comprising the steps of: a) providing an interior well tool assembly (30) in a work string (34) the downhole tool assembly (30) comprising: a downhole pulling tool (42), the downhole pulling tool having an anchoring mechanism and an axially movable piston member between a position extended and a retracted position; a spearhead tool (40); a motor unit (38); and a cutting device (36); b) lowering the downhole tool assembly (30) into the well (10) through a first casing (14) wherein the casing (18a) to be removed is a second casing (18) located through a first casing (14) in the well (10); c) securing the first casing (14) with the anchoring mechanism; d) cutting the second coating (18) with the cutting device (36); e) securing the second coating (18) with the spear point (40); f) pulling the second cut liner (18a) to dislodge the second cut liner (18a), moving the piston member to the retracted position; eg) removing the second cut casing (18a) from the well, characterized in that: the anchoring mechanism of the downhole traction tool (42) grips the first casing (14) while the cutting device (36) is rotated to cut the second coating (18).
[0002]
2. Method according to claim 1, characterized in that the spearhead tool (40) holds the second coating (18) while the cutting device (36) is rotated to cut the coating (18).
[0003]
3. Method according to claims 1 or 2, characterized in that the second coating (18) is cut below the location of the spearhead tool (40).
[0004]
4. Method according to any one of the preceding claims, characterized in that step (d) comprises activating the cutting device (36) by pumping a fluid into a through hole of the working column (34) to install at least one knife in the cutting device (36).
[0005]
5. Method according to any one of the preceding claims, characterized in that the cutting device (36) is rotated by the motor (38) which converts the hydraulic fluid force into mechanical force.
[0006]
6. Method according to any one of claims 1 to 4, characterized in that the cutting device (36) is rotated by the motor unit (38) which converts the force of the hydraulic fluid into a mechanical rotating force to rotate the cutting device (36).
[0007]
7. Method according to any one of the preceding claims, the method being characterized by the fact that it includes the step of activating the anchoring mechanism in the well interior traction tool (42) between a defined and unadjusted position .
[0008]
8. Method according to any one of the preceding claims, wherein the method is characterized in that it includes the step of actuating the anchoring mechanism to a defined position to secure the first liner (14) when the piston member breaks. shifts from an extended position to a retracted position.
[0009]
9. Method according to claim 8, wherein the method is characterized in that it includes the step of actuating the anchoring mechanism to an undefined position to release the well interior traction tool (42) from the first casing (14) when the piston member moves from a retracted position to an extended position.
[0010]
10. Method according to claim 9, wherein the method is characterized in that it includes the steps of sequentially actuating the at least one piston member between an extended position and a retracted position to pull the working column (34 ) in an upward direction into the wellbore.
[0011]
11. Method according to any one of the preceding claims, characterized in that, in step (b) the cutting device (36) is lowered into the second casing (18) to a first desired depth in the well (10) and if the second cut liner (18a) cannot be dislodged in step (f), the method includes the steps of moving the downhole tool assembly (30) to a second desired depth in the well (10), wherein the second desired depth in the second liner (18) is less than the first desired depth, and repeat steps (b) to (g) to remove a shorter section of the second cut liner (18a).
[0012]
12. The method of claim 11, wherein the method is characterized in that it includes cutting casing at subsequently smaller depths until the casing (18a) can be dislodged and removed from the well (10).
[0013]
13. Method according to any one of the preceding claims, wherein the method is characterized in that it comprises monitoring the pressure of fluid flowing through the working column (34) to determine when the cutting device (36) the drive unit (38), the pull tool (42) and/or the lance tool (40) are driven.
[0014]
14. Method according to any one of the preceding claims, characterized in that step (g) comprises extracting the working column (34) and the cut second casing section (18a) attached from the wellbore by a platform which applies an upward force on the work string (34) when the second cut liner (18a) has been dislodged.

类似技术:

---

公开号 | 公开日 | 专利标题

---

BR112019008256B1|2021-06-22|METHOD OF REMOVING A WELL INTERIOR LINING

---

AU2015239823B2|2019-10-17|Downhole cleaning apparatus

---

US10563479B2|2020-02-18|Diverter valve for a bottom hole assembly

---

CA2958296C|2019-04-23|Drive off method from subsea well with pipe retention capability

---

US20210198967A1|2021-07-01|Improvements In Or Relating To Well Abandonment and Slot Recovery

---

US10119373B2|2018-11-06|Cutting tool

---

US9598922B1|2017-03-21|Retrieval tool

---

US10508510B2|2019-12-17|Bottom hole assembly for cutting and pulling a tubular

---

US8590613B2|2013-11-26|Overshot with dynamic seal feature

---

US9932781B2|2018-04-03|Casing spear with mechanical locking feature

---

CN108060902B|2020-04-10|Stuck freeing salvaging method

---

RU2762039C2|2021-12-15|Extraction system

---

BR112020018262A2|2020-12-29|PRESSURE TOOL FOR REMOVING A ROOFING SECTION FROM A WELL

---

CN108104755B|2020-03-10|Oil pipe unfreezing method

---

WO2020229564A1|2020-11-19|Improvements in or relating to well abandonment and slot recovery

---

GB2573317A|2019-11-06|Improvements in or relating to well abandonment and slot recovery

---

GB2592635A|2021-09-08|Improvements in or relating to wellbore operations

---

GB2573315A|2019-11-06|Improvements in or relating to well abandonment and slot recovery

同族专利:

---

公开号 | 公开日

---

EP3494277A1|2019-06-12|

---

US20200347687A1|2020-11-05|

---

GB2570402B|2020-04-08|

---

GB201718126D0|2017-12-20|

---

EP3494277B1|2020-12-09|

---

US11193343B2|2021-12-07|

---

GB2556461A|2018-05-30|

---

AU2017355225A1|2019-05-02|

---

BR112019008256A2|2019-07-02|

---

GB2570402A|2019-07-24|

---

NO20181490A1|2018-11-21|

---

GB201820978D0|2019-02-06|

---

US20190257168A1|2019-08-22|

---

GB2556461B|2019-01-30|

---

EA201990660A1|2019-10-31|

---

NO344192B1|2019-10-07|

---

CA3040245A1|2018-05-11|

---

US10781653B2|2020-09-22|

---

MX2019004641A|2019-06-17|

---

EA038304B1|2021-08-06|

---

DK3494277T3|2021-02-01|

---

WO2018083473A1|2018-05-11|

---

EP3779118A1|2021-02-17|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US3752230A|1971-06-21|1973-08-14|Tri State Oil Tools Inc|Pulling tool|

---

US4047568A|1976-04-26|1977-09-13|International Enterprises, Inc.|Method and apparatus for cutting and retrieving casing from a well bore|

---

US4550781A|1984-06-06|1985-11-05|A-Z International Tool Company|Method of and apparatus for cutting and recovering of submarine surface casing|

---

US5101895A|1990-12-21|1992-04-07|Smith International, Inc.|Well abandonment system|

---

GB9120298D0|1991-09-24|1991-11-06|Homco International Inc|Casing cutting and retrieving tool|

---

US6629565B2|2000-07-24|2003-10-07|Smith International, Inc.|Abandonment and retrieval apparatus and method|

---

WO2005052304A1|2003-11-14|2005-06-09|Bp Exploration Operating Company Limited|Method for drilling and lining a wellbore|

---

US7527100B2|2006-12-29|2009-05-05|Chad Abadie|Method and apparatus for cutting and removal of pipe from wells|

---

NO330750B1|2009-09-10|2011-07-04|Bruce Alan Flanders|Well tool and method for cutting and extracting a rudder portion from a rudder string in a well|

---

NO333912B1|2011-11-15|2013-10-21|Leif Invest As|Apparatus and method for cutting and drawing feed pipes|

---

US9416635B2|2012-07-24|2016-08-16|Smith International, Inc.|System and method of cutting and removing casings from wellbore|

---

US9222328B2|2012-12-07|2015-12-29|Smith International, Inc.|Wellhead latch and removal systems|

---

US10113394B2|2014-02-11|2018-10-30|Smith International, Inc.|Multi-stage flow device|

---

CA2903669C|2014-09-11|2018-01-02|Weatherford Technology Holdings, Llc|Downhole casing pulling tool|

---

US9650853B2|2015-01-26|2017-05-16|Baker Hughes Incorporated|Downhole cutting and jacking system|

---

EP3085882A1|2015-04-22|2016-10-26|Welltec A/S|Downhole tool string for plug and abandonment by cutting|US10458196B2|2017-03-09|2019-10-29|Weatherford Technology Holdings, Llc|Downhole casing pulling tool|

---

GB2574647B|2018-06-14|2021-01-13|Ardyne Holdings Ltd|Improvements In Or Relating To Well Abandonment And Slot Recovery|

---

GB2576010B|2018-08-01|2021-02-17|Ardyne Holdings Ltd|Improvements in or relating to well abandonment and slot recovery|

---

GB201815603D0|2018-09-25|2018-11-07|Ardyne Tech Limited|Improvements in or relating to well abandonment|

---

GB2568815B|2018-10-15|2019-11-13|Ardyne Holdings Ltd|Improvements in or relating to well abandonment and slot recovery|

---

WO2020104771A1|2018-11-21|2020-05-28|Ardyne Holdings Limited|Improvements in or relating to well operations|

---

WO2020161227A1|2019-02-07|2020-08-13|Ardyne Holdings Limited|Improvements in or relating to well abandonment and slot recovery|

---

US11248428B2|2019-02-07|2022-02-15|Weatherford Technology Holdings, Llc|Wellbore apparatus for setting a downhole tool|

---

GB2585624B|2019-02-14|2021-07-14|Ardyne Holdings Ltd|Improvements in or relating to well abandonment and slot recovery|

---

GB2597019A|2019-05-14|2022-01-12|Ardyne Holdings Ltd|Improvements in or relating to well abandonment and slot recovery|

---

CN110725658A|2019-10-14|2020-01-24|中国石油化工股份有限公司|Radial anchoring inverted-buckling casing taking and replacing device and method|

---

GB201917316D0|2019-11-28|2020-01-15|Ardyne Holdings Ltd|Improvements in or relating to well abandonment and slot recovery|

---

GB2592635A|2020-03-05|2021-09-08|Ardyne Holdings Ltd|Improvements in or relating to wellbore operations|

---

NO20200757A1|2020-06-26|2021-12-27|Archer Oiltools As|A method for cutting off a tubular in a subterranean well and removing the cut-off section of the tubular from the well, and a toolstring thereof.|

法律状态:
2021-02-09| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|

---

2021-05-04| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

---

2021-06-22| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 02/11/2017, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

---

申请号 | 申请日 | 专利标题

---

GB201618612|2016-11-04|

---

GB1618612.4|2016-11-04|

---

PCT/GB2017/053298|WO2018083473A1|2016-11-04|2017-11-02|Method of removing a downhole casing|

---