Patent Application
20230258044
In many well applications, various well tools are deployed downhole into a borehole, e.g. a wellbore. A given well tool may be part of an overall well string conveyed downhole to a desired location in the borehole so as to enable performance of a desired downhole operation. In some downhole operations, the position of the well tool within the borehole can affect the function of the well tool. For example, fishing operations and certain other downhole operations benefit from proper positioning, e.g. centralizing, of the well tool within the borehole. Centralizing a fishing tool facilitates engagement of the fishing tool with the equipment to be fished, i.e. pulled from the wellbore. With the existing well tools, however, the ability to control positioning of the well tool is limited.
In general, a system and methodology facilitate control over the positioning of a well tool in a wellbore or other type of borehole. According to an embodiment, a system comprises a well tool combined with a centralizer system. The centralizer system has a plurality of extension members which are oriented to extend outwardly, e.g. radially outwardly, from the well tool. The extension members of the plurality of extension members are uniquely controllable to enable controlled positioning of the well tool within the borehole. For example, the extension members may be actuated to centralize the well tool along a desired borehole axis.
However, many modifications are possible without materially departing from the teachings of this disclosure. Accordingly, such modifications are intended to be included within the scope of this disclosure as defined in the claims.
Certain embodiments of the disclosure will hereafter be described with reference to the accompanying drawings, wherein like reference numerals denote like elements. It should be understood, however, that the accompanying figures illustrate the various implementations described herein and are not meant to limit the scope of various technologies described herein, and:
In the following description, numerous details are set forth to provide an understanding of some embodiments of the present disclosure. However, it will be understood by those of ordinary skill in the art that the system and/or methodology may be practiced without these details and that numerous variations or modifications from the described embodiments may be possible.
The disclosure herein generally involves a system and methodology which facilitate control over the positioning of a well tool in a wellbore or other type of borehole. According to an embodiment, a well system comprises a well tool combined with a centralizer system. The centralizer system is an actively controlled centralizer system having a plurality of extension members which are oriented to extend outwardly, e.g. radially outwardly, from the well tool. The extension members of the plurality of extension members are uniquely controllable to enable controlled positioning of the well tool within the borehole. For example, the extension members may be actuated to centralize the well tool along a desired borehole axis.
The ability to control the lateral movement of the well tool in a borehole, e.g. to centralize the well tool along a central borehole axis in the borehole, enables or enhances a number of downhole operations. For example, the ability to control the centralization of the well tool improves fishing operations. In many fishing operations, difficulty arises in securely attaching a fishing tool to lost downhole equipment for recovery. Embodiments described herein utilize the centralizer system to actively and controllably align the fishing tool with the target to improve the success rate of fishing operations. In some applications, the ability to centralize the well tool helps avoid getting the well tool stuck during deployment. This ability to actively centralize also enables the use of larger tools than would normally be usable in certain wells, e.g. wells with constrictions.
Referring generally to
The well system 20 also may comprise a conveyance 30 for deploying the well tool 26 and centralizer system 28 to a desired downhole position in the borehole 22. In the illustrated example, the conveyance 30 is in the form of coiled tubing 32. The centralizer system 28 is helpful in many types of coiled tubing operations because the lateral position of the well tool 26 can be controlled via centralizer system 28 even though the coiled tubing 32 may undergo flexing during movement and/or operation downhole. It should be noted the centralizer system 28 may be actively controlled so as to adjust the lateral position of the well tool 26 within the borehole 22 to a desired location and/or orientation.
In some applications, the desired lateral positioning of the well tool 26 involves centralizing the well tool 26 along a center borehole axis 34. However, the centralizing action of centralizer system 28 also may be used to shift the well tool 26 to other desired axes or positions within the borehole 22. Depending on the construction of centralizer system 28, the system 28 also may be used to orient the well tool 26, e.g. to orient the well tool 26 such that the entire well tool is aligned with a desired axis, e.g. center borehole axis 34 (see
According to an embodiment, the centralizer system 28 may comprise a plurality of extension members 36 which are oriented to extend outwardly, e.g. radially outwardly, from the well tool 26. The extension members 36 are uniquely extensible, e.g. individually extensible, and the extension position of each extension member 36 may be controlled to adjust the position and orientation of the well tool 26 from an undesirable location (see
The positioning of the individual extension members 36 may be controlled hydraulically, electrically, or by other suitable power mechanisms. In the specific example illustrated, the positioning of individual extension members 36 is controlled hydraulically. In this type of embodiment, the centralizer system 28 also comprises a plurality of hydraulic pistons 38 coupled with the plurality of extension members 36 to enable the individual control of the extension position of each extension member 36. For example, an individual hydraulic piston 38 may be coupled with a corresponding individual extension member 36.
Flow of hydraulic actuating fluid to the hydraulic pistons 38 may be controlled via a valve system 40 so as to control positioning of the well tool 26 and the borehole 22 via the extension members 36. In some applications, the valve system 40 may comprise a plurality of valves 41. However, valve system 40 also may comprise a single controllable valve 41, such as a multi-position valve, e.g. a three-position valve. The valve(s) 41 of valve system 40 are controllable to meter hydraulic fluid to the plurality of hydraulic pistons 38 individually (or to specific groups of hydraulic pistons 38) so that corresponding extension members 36 may be extended to desired extension positions. In
In some applications, hydraulic actuating fluid is supplied downhole under sufficient pressure to the valve system 40 via a suitable hydraulic line or lines 44 routed within or externally of coiled tubing 32. However, the hydraulic system can be self-contained and located downhole. For example, the hydraulic system may comprise a downhole pump powered by a downhole motor which receives electrical power via, for example, a downhole battery or via electric control lines routed downhole. The valve system 40 also may be electrically actuated via suitable solenoids or other electric actuators supplied with electrical power via electric control lines 46, a downhole battery, or other power sources. Electric control lines 46, or other suitable control lines, also may be used to communicate control signals for valve system 40 and/or to provide data from downhole. By way of example, the electric control lines 46 or other control lines may be routed within or externally of coiled tubing 32.
In some applications, the valve system 40 may utilize one or more electrically or hydraulically actuated valves operated to control the flow of hydraulic actuating fluid to the desired hydraulic pistons 38. The number of hydraulic pistons 38 and corresponding extension members 36 may vary depending on the overall design of well tool 26 and centralizer system 28. In some applications, three hydraulic pistons 38 may be coupled with three corresponding extension members 36 to form a first set of extension members 36 oriented in three different directions, e.g. spaced 120° from each other as illustrated, so as to enable substantial directional control over the lateral movement of well tool 26 within borehole 22.
If the well tool 26 is relatively long and/or if greater control is desired over the orientation of the well tool 26 an additional set or sets of extension members 36 may be utilized. In the example illustrated, the centralizer system 28 is constructed with a second set of three extension members 36 (with corresponding hydraulic pistons 38) located at a spaced longitudinal distance along well tool 26 relative to the first set of extension members 36. Having multiple sets of extension members 36 acting in different directions provides substantial control over the lateral positioning and orienting of the well tool 26.
In some applications, the valve system 40 may be in the form of a three-way valve which can be operated so as to direct more or less flow of hydraulic fluid to each of the three hydraulic pistons 38 and corresponding extension members 36. In other embodiments, the valve system 40 may comprise a variety of individual valves which may be controlled via electric signal (or other suitable control signal) to provide the desired flow of hydraulic fluid to specific hydraulic pistons. It should be noted that various sensor systems may be combined into the centralizer system 28 to provide feedback regarding the actual position and/or orientation of the well tool 26.
Referring generally to
The individual sensors 50 may be used to monitor the position of corresponding hydraulic pistons 38 and extension members 36 to, for example, ensure common extension of extension members 36. According to an embodiment, individual sensors 50 may be associated with individual hydraulic pistons 38/extension members 36 or with specific groups of hydraulic pistons 38/extension members 36. In this manner, the sensor system 48 is able to provide feedback to a surface control system and/or operator so as to enable improved control over the positioning of well tool 26. In some embodiments, the sensor system 48 can be configured to provide automatic, real-time feedback to a suitable surface or downhole control system so as to facilitate guidance of the well tool 26 as it moves along the borehole 22 or to laterally position the well tool 26 at a specific location along borehole 22.
By way of example, the sensors 50 may be in the form of pressure sensors positioned to monitor pressure along hydraulic flowlines 52. However, the sensors 50 also may be in the form of fluid volume sensors to monitor the amount of hydraulic actuating fluid delivered to each hydraulic piston 38 (or to specific groups of hydraulic pistons 38). It should be noted that in this embodiment and other embodiments described herein, the pistons 38/extension members 36 may be mounted in a variety of mounting structures 53, e.g. housings, which are secured with well tool 36 via clamping, fasteners, or other suitable attachment mechanisms.
However, a variety of other types of sensors 50 also may be employed. For example, sensors 50 may be in the form of physical sensors 54 as illustrated in
Depending on the parameters of a given environment and/or well string operation, the size and type of the well tool 26 may vary. For example, well tool 26 may be in the form of a fishing tool but many other types of well tools utilized for various operations downhole may benefit from improved lateral control. Similarly, the size, type and configuration of centralizer system 28 also may be selected according to the parameters of a given environment, well tool, or desired downhole operation.
Additionally, the number and type of extension members 36 may vary and may be selected according to the specific operation. For example, one or more sets of three extension members 36 may be arranged to extend from different positions about the well tool 26 as described above. However, other numbers and arrangements of the extension members 36 may be selected for different types of operations. Similarly, different types of hydraulic pistons 38 may be combined with extension members 36. For example, each hydraulic piston 38 may be integrally formed with the corresponding extension member 36 or separate hydraulic pistons 38 may be secured to the corresponding extension members 36.
In some applications, the extension members 36 may be constructed for electric actuation instead of hydraulic actuation. Additionally, the centralizer system 28 may comprise various types of bodies or mounting structures to which the hydraulic pistons 38/extension members 36 are securely mounted for controlled extension and contraction. The configuration of the extension members 36 also may be adjusted for use in different types of wellbores, such as cased wellbores or open hole wellbores.
Although a few embodiments of the disclosure have been described in detail above, those of ordinary skill in the art will readily appreciate that many modifications are possible without materially departing from the teachings of this disclosure. Accordingly, such modifications are intended to be included within the scope of this disclosure as defined in the claims.
