The present disclosure describes apparatus, systems, and methods for removing wellbore completion components in a wellbore.
In wellbore re-entry completions, it is conventional to drill a curve of a directional wellbore, as well as a lateral, in a single section. Subsequently, the lateral can be completed with a lower completion. Conventionally, after setting completion components, a cement and liner accessories may be drilled through (for example, to the casing or liner full internal diameter). However, due to a difference in diameter sizes between some completion components and other (for example, further downhole) completion components, the conventional process typical requires multiple runs with a drill bit. First, a run with a liner full gauge bit to drill out cement and one or more completion components is performed. Second, a run with a smaller drill bit to pass through other completion components is performed. Multiple runs (and switching of drill bits) can be costly in terms of time and money.
In an example implementation, a method for drilling out a wellbore completion includes running a downhole tool on a downhole conveyance from a terranean surface into a wellbore that includes a plurality of completion components secured in the wellbore. The downhole tool includes a bottom hole assembly that includes a drill bit and an expandable reamer that includes a cutting assembly. The method further includes operating the drill bit to drill out and remove a first portion of a subset of the plurality of completion components; adjusting the expandable reamer from a retracted position in which a diameter of the cutting assembly is less than a diameter of a bore through at least one of the plurality of completion components to an activated position in which the diameter of the cutting assembly is greater than the diameter of the bore through the at least one of the plurality of completion components; operating the expandable reamer in the activated position to remove a second portion of the subset of the plurality of completion components; adjusting the expandable reamer from the activated position to the retracted position; and running the drill bit and the expandable reamer in the retracted position through the bore of the at least one of the plurality of completion components.
An aspect combinable with the example implementation further includes running the downhole tool from the terranean surface through the wellbore to a depth that is uphole of the plurality of completion components with the expandable reamer in the retracted position.
In another aspect combinable with any of the previous aspects, the cutting assembly includes a plurality of expandable cutters.
In another aspect combinable with any of the previous aspects, the at least one of the completion components includes an open hole packer.
In another aspect combinable with any of the previous aspects, the subset of the plurality of completion components include at least one of: a cement valve or a liner float.
In another aspect combinable with any of the previous aspects, the first portion includes cement, and the second portion includes at least a part of the cement valve or the liner float.
In another aspect combinable with any of the previous aspects, the subset of the plurality of completion components are coupled to a tubular that is installed in the wellbore.
In another aspect combinable with any of the previous aspects, the tubular includes a wellbore liner.
In another aspect combinable with any of the previous aspects, running the downhole tool on the downhole conveyance includes running the downhole tool on a tubular work string that includes drill pipe.
In another aspect combinable with any of the previous aspects, adjusting the expandable reamer from the retracted position to the activated position includes at least one of mechanically adjusting the expandable reamer from the retracted position to the activated position; electrically adjusting the expandable reamer from the retracted position to the activated position; or hydraulically adjusting the expandable reamer from the retracted position to the activated position.
In another example implementation, a downhole bottom hole assembly (BHA) includes a top sub-assembly configured to couple to a downhole conveyance to move the BHA from a terranean surface into a wellbore that includes a plurality of completion components secured in the wellbore; a drill bit coupled to the top assembly and configured to drill out and remove a first portion of a subset of the plurality of completion components; and an expandable reamer coupled to the top sub-assembly uphole of the drill bit, the expandable reamer including a cutting assembly and configured to adjust between a retracted position in which a diameter of the cutting assembly is less than a diameter of a bore through at least one of the plurality of completion components and an activated position in which the diameter of the cutting assembly is greater than the diameter of the bore through the at least one of the plurality of completion components. The expandable reamer is further configured to remove a second portion of the subset of the plurality of completion components in the activated position, and each of the drill bit and the expandable reamer in the retracted position is configured to pass through the bore of the at least one of the plurality of completion components.
In an aspect combinable with the example implementation, the downhole tool is configured to run from the terranean surface through the wellbore to a depth that is uphole of the plurality of completion components with the expandable reamer in the retracted position.
In another aspect combinable with any of the previous aspects, the cutting assembly includes a plurality of expandable cutters.
In another aspect combinable with any of the previous aspects, the at least one of the completion components includes an open hole packer.
In another aspect combinable with any of the previous aspects, the subset of the plurality of completion components include at least one of: a cement valve or a liner float.
In another aspect combinable with any of the previous aspects, the first portion includes cement, and the second portion includes at least a part of the cement valve or the liner float.
In another aspect combinable with any of the previous aspects, the subset of the plurality of completion components are configured to couple to a tubular that is installed in the wellbore.
In another aspect combinable with any of the previous aspects, the tubular includes a wellbore liner.
In another aspect combinable with any of the previous aspects, the downhole conveyance includes a tubular work string that includes drill pipe.
In another aspect combinable with any of the previous aspects, the expandable reamer is configured to adjust from the retracted position to the activated position by at least one of a mechanical adjustment of the expandable reamer from the retracted position to the activated position; an electrical adjustment of the expandable reamer from the retracted position to the activated position; or a hydraulic adjustment of the expandable reamer from the retracted position to the activated position.
Implementations of systems and methods for removing wellbore completion components in a wellbore according to the present disclosure may include one or more of the following features. For example, implementations according to the present disclosure can minimize a number of runs to drill through multiple completion components of different diameter (for example, internal diameter) to a single run in, for instance, a directional wellbore. As another example, implementations according to the present disclosure can be adjusted or configured to use a single run to drill out multiple completion components of various sizes.
The details of one or more implementations of the subject matter described in this disclosure are set forth in the accompanying drawings and the description below. Other features, aspects, and advantages of the subject matter will become apparent from the description, the drawings, and the claims.
According to the present disclosure, the downhole tool 100 can be run into the wellbore 20 in order to remove all or a portion of one or more completion components 55a, 55b, and 55c that are installed in the wellbore 20 and, more specifically, in or downhole of a wellbore tubular 35, such as a wellbore liner or other tubular, installed in the wellbore 20. As shown in
In the example of
As shown, the wellbore system 10 accesses the subterranean formation 40 (and other formations) and provides access to hydrocarbons located in such subterranean formation 40. In an example implementation of system 10, the system 10 may be used for a production operation in which the hydrocarbons may be produced from the subterranean formation 40 within a wellbore tubular (for example, through the production casing 35 or other production tubular).
A drilling assembly (not shown) may be used to form the wellbore 20 extending from the terranean surface 12 and through one or more geological formations in the Earth. One or more subterranean formations, such as subterranean formation 40, are located under the terranean surface 12. As will be explained in more detail below, one or more wellbore casings, such as a surface casing 30 and production casing 35, may be installed in at least a portion of the wellbore 20. In some embodiments, a drilling assembly used to form the wellbore 20 may be deployed on a body of water rather than the terranean surface 12. For instance, in some embodiments, the terranean surface 12 may be an ocean, gulf, sea, or any other body of water under which hydrocarbon-bearing formations may be found. In short, reference to the terranean surface 12 includes both land and water surfaces and contemplates forming and developing one or more wellbore systems 10 from either or both locations.
In some embodiments of the wellbore system 10, the wellbore 20 may be cased with one or more casings. As illustrated, the wellbore 20 includes a conductor casing 25, which extends from the terranean surface 12 shortly into the Earth. A portion of the wellbore 20 enclosed by the conductor casing 25 may be a large diameter borehole. Additionally, in some embodiments, the wellbore 20 may be offset from vertical (for example, a slant wellbore). Even further, in some embodiments, the wellbore 20 may be a stepped wellbore, such that a portion is drilled vertically downward and then curved to a substantially horizontal wellbore portion. Additional substantially vertical and horizontal wellbore portions may be added according to, for example, the type of terranean surface 12, the depth of one or more target subterranean formations, the depth of one or more productive subterranean formations, or other criteria.
Downhole of the conductor casing 25 may be the surface casing 30. The surface casing 30 may enclose a slightly smaller borehole and protect the wellbore 20 from intrusion of, for example, freshwater aquifers located near the terranean surface 12. The wellbore 20 may than extend vertically downward. This portion of the wellbore 20 may be enclosed by the production casing 35. Any of the illustrated casings, as well as other casings or tubulars that may be present in the wellbore system 10, may include wellbore liners, such as an off bottom liner.
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As the BHA 200 runs through the liner 201 with the expandable reamer assembly 204 in the activated position, the cutting sub-assemblies 205 can be operated to remove the remaining ports of the completion components 210, 212, and 214 without having the trip the BHA 200 out of the wellbore. Once this removal process is completed as shown in
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A number of implementations have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the disclosure. For example, example operations, methods, or processes described herein may include more steps or fewer steps than those described. Further, the steps in such example operations, methods, or processes may be performed in different successions than that described or illustrated in the figures. Accordingly, other implementations are within the scope of the following claims.