This invention relates to a tools and method for use in wellbore drilling and, in particular, tools and methods for wellbore operations using reverse circulation.
Drilling with casing is gaining popularity as a method for drilling wherein the casing is used as the drill string and drilling conduit and, after drilling, the casing remains downhole to act as the wellbore liner. A drilling assembly, often including at least a drill bit and one or more hole enlargement tools such as, for example, an underreamer, is used which drills a borehole of sufficient diameter to accommodate the casing. The drilling assembly is deployed on the advancing end of the casing. The drilling assembly can be retractable and/or removable through the casing.
Drilling with casing has been tested for drilling vertical, straight and deviated wellbores.
Another form of drilling with casing is termed liner drilling. In liner drilling, the drilling assemblies operate and advance to extend the borehole while being mounted on the end of a section of liner. The liner is connected to surface by a length of drill pipe or additional casing.
When drilling with casing, it may be desirable from time to time during drilling and/or at the end of the drilling operation to retrieve the drilling assembly to surface. This is accomplished by tripping the drilling assembly up though the casing. Various tripping methods have been employed such as by running in pipe strings, wireline, coiled tubing, etc. to engage the drilling assembly and pull it to surface. Alternately, in other methods, a fluid conveyed dart may be used to manipulate the drilling assembly to release it from the drilling string so that the drilling assembly can be tripped to surface. By use of a dart, no rigid work string is required to be used to move the dart along even a deviated or horizontal drill string and circulation of drilling fluid can, if desired, continue during substantially the entire conveying and disengaging operation, with the exception of a short period during which the drill string is opened to introduce the dart. After manipulating the drilling string, a string may be used to pull the drilling assembly to surface. Thus, the dart may be connected to a line that is pulled behind the dart or may be free of any connection but a string is run in afterward to engage the drilling assembly and pull it to surface.
There is also interest in using reverse circulation move a drilling assembly to surface. The retrieval of a drilling assembly by reverse circulation proceeds wherein after the drilling assembly is disengaged from the drill string, drilling fluid is pumped down through the annulus between the drill string and the borehole to act against the drilling assembly and force it up through the drill string toward surface. Continued reverse circulation can lift the drilling assembly so that it can be retrieved at surface.
In accordance with a broad aspect of the present invention, there is provided a manipulator tool comprising: a body having an upper end and a lower end; a downwardly acting seal extending circumferentially about the body; and an actuator portion formed to manipulate a down hole tool, the tool being conveyable by fluid pressure acting against the downwardly acting seal.
In accordance with another broad aspect of the present invention, there is provided a method for reverse circulating a tool upwardly through a wellbore, the method including: providing a manipulator tool including an upper end and a lower end, conveying the manipulator tool down hole to a position adjacent a downhole tool, using the manipulator tool to manipulate the downhole tool, and reversing fluid flow through the well to create a pressure differential about at least one of the manipulator tool and the downhole tool such that the at least one of the manipulator tool and the downhole tool is lifted upwardly through the wellbore.
In accordance with another broad aspect of the present invention, there is provided a tool catcher to catch a tool approaching the tool catcher, the tool including a fluid passage therein and a seal in the fluid passage, the tool catcher comprising: a body including a secured end and an outboard end; engaging devices supported on the body, the engaging devices formed to act to resist passage therepast of a structure moving in a direction from the secured end towards the outboard end; and a stinger at the outboard end to open the seal of in the fluid passage of the tool.
In accordance with another broad aspect of the present invention, there is provided a tool catching assembly to catch a tool passing upwardly though a drill string, the tool including a fluid passage therein, a seal in the fluid passage and an engageable structure, the tool catching assembly comprising: a spear supported in a drill rig and formed to support and control fluid passage out of the drill string; and a tool catcher supported on the spear and positioned within the drill string, the tool catcher including a body including an end secured to the spear and an outboard end; engaging devices supported on the body, the engaging devices formed to act to resist passage therepast of the engageable portion of the tool moving in a direction from the secured end towards the outboard end; and a stinger at the outboard end to open the seal in the fluid passage of the tool.
It is to be understood that other aspects of the present invention will become readily apparent to those skilled in the art from the following detailed description, wherein various embodiments of the invention are shown and described by way of illustration. As will be realized, the invention is capable for other and different embodiments and its several details are capable of modification in various other respects, all without departing from the spirit and scope of the present invention. Accordingly the drawings and detailed description are to be regarded as illustrative in nature and not as restrictive.
A further, detailed, description of the invention, briefly described above, will follow by reference to the following drawings of specific embodiments of the invention. These drawings depict only typical embodiments of the invention and are therefore not to be considered limiting of its scope. In the drawings:
The description that follows, and the embodiments described therein, are provided by way of illustration of an example, or examples, of particular embodiments of the principles of various aspects of the present invention. These examples are provided for the purposes of explanation, and not of limitation, of those principles and of the invention in its various aspects. In the description, like parts are marked throughout the specification and the drawings with the same respective reference numerals. The drawings are not necessarily to scale and in some instances proportions may have been exaggerated in order more clearly to depict certain features.
The term casing is used herein to encompass any well bore liner capable of supporting an operational drilling assembly. In one aspect, the present invention provides a manipulator tool useful to manipulate a down hole tool such as, for example, in one embodiment may be a drilling assembly. In an operation using casing as a drill string, manipulation may, for example, be useful to release a drilling assembly from engagement with a casing drill string so that the drilling assembly can be tripped from its operational position in a well towards surface. A drilling assembly may be released to move through the casing string towards surface, for example for retrieval from the well bore, such as when drilling assembly maintenance is required or when drilling is complete.
A drilling assembly for use in drilling with casing may include a boring tool such as a drill bit, for example, which may include a pilot bit and underreamers. A drilling assembly may further include any of various devices including for example directional assemblies such as rotary steerable tools or downhole motors equipped with bent housings and/or bent subs; mud motors; measurement while drilling (MWD) or logging while drilling (LWD) instruments; stabilizers and other down hole tools.
As is known, drilling assemblies are attached to the drill strings in various ways such as, for example, by locking dogs latching in recesses in the casing. In one embodiment, a drilling assembly for drilling with casing may include a drill lock assembly that provides a mechanical attachment for the drilling assembly to the drill string and may engage into recesses in a portion of the drill string commonly called a profile nipple. The drill lock assembly may further provide a running and retrieval interface for the drilling assembly. Generally, the drill lock assembly may be positioned adjacent an upper end of the drilling assembly and may include any or all of an axial lock mechanism including lock dogs, a torque lock mechanism including lock dogs, a lock dog actuator, locators, retrieval portions, seals, etc.
A manipulator tool in the form of a release tool may be used to actuate the locking arrangement of the drilling assembly to be releasable from engagement with the drill string. A release tool may, for example, manipulate any of the axial and torque lock dogs that must be actuated to release the drilling assembly from engagement with the drill string. For example, the manipulator tool may act upon the lock dog actuator to drive the lock dogs, or permit them to be moved, out of engagement with their corresponding recesses in the profile nipple.
A manipulator tool may act on a down hole tool by various means, such as by abutment, mechanical engagement, hydraulic actuation, etc. or various combinations thereof.
In well bore drilling it may be useful to maintain fluid circulation through the well whenever possible, for example, even during periods in which the drill bit is not operating. Fluid circulation may act to condition the well, remove debris and prevent cave ins. Therefore, it may be useful to use a fluid conveyed tool (often called a “dart”) as a manipulator tool for disengaging the drilling assembly from the drill string since such a tool permits circulation while being conveying down hole and may also permit fluid circulation during the actuation and sometimes the post-disengagement stages. If actuation of the drilling assembly to release from the drill string may be followed by reverse circulation, the disadvantages of stopping fluid circulation may be further reduced.
In one embodiment, a manipulator tool may be conveyed by fluid pressure, as by pumping down, and may be operated to manipulate a down hole tool by an increase in fluid pressure. Thereafter, the manipulator tool may be driven by reverse circulation to further manipulate the down hole tool and/or move the down hole tool toward surface.
A process of retrieval of a drilling assembly 18 by reverse circulation is illustrated in
The well bore may be vertical, horizontal or deviated, as shown, with a curved trajectory. When drilling with casing, as shown, the drill string may be left in the well after drilling to line the well bore. Drilling assembly 18 drills the well by rotation of the string from surface, by use of a down hole motor driven by various means including air, mud, electrical, etc. Periodically during drilling or at the end of the drilling procedure, assembly 18 may be tripped to surface for repair or reuse. In so doing, the under reamers 20 may be collapsed to fit through the drift of the drill string.
Drilling assembly 18 is connected into drill string 16 for example by means of lock dogs 26a on drill lock member 22 that latch into profile recesses 26b in the string. As will be appreciated by a person skilled in the art, the lock dogs may be unlocked so that they can be moved, or activated to retract, out of engagement with recesses 26b by manipulation of member 22. Member 22 can be manipulated by a manipulator tool 40, also termed a release tool. As is known, manipulator tool 40 manipulates member 22 such as, for example, by driving a latch to retract out of engagement with drill string 16, by actuating a lock mechanism to allow the lock dog to be collapsed out of engagement with the drill string, etc. Such an action can be achieved in various ways and by various interacting mechanisms. Generally, for well control drill lock member 22 may be limited to unlocking only by use of a manipulation tool. For example, it may be desirable to avoid the use of release systems that cause the member 22 to release automatically from engagement from the drill string in response to fluid pressures without the manipulator tool present.
Once the drilling assembly is released from the drill string, the manipulator tool and drilling assembly may be tripped toward surface.
Tool 40 may for convenience be fluid conveyed. Manipulator tool 40 may be introduced to the drill string by opening briefly the surface well head and may be pumped with drilling fluid circulation downhole. In such an embodiment, manipulator tool 40 includes a seal thereabout that holds pressure above the tool and causes the manipulator tool to be conveyed by fluid flow along arrows A into engagement with the drilling assembly.
In the illustrated embodiment of
By use of a fluid conveyed manipulator tool 40, no work string is required to be used and circulation of drilling fluid can, if desired, continue during substantially the entire conveying and disengaging operation, with the exception of a short period during which the drill string is opened to introduce the tool.
In the illustrated embodiment of
Drilling assembly 18 may, as shown, include seals 27, valves, etc. selected to seal against and hold pressure during reverse circulation such that reverse circulation may move the drilling assembly and possibly anything connected above it, such as manipulator tool 40, toward surface. Alternately or in addition, the manipulator tool may include an external annular seal and/or a through bore seal (see
Manipulator tool 40a further may include a fluid passage system. The fluid passage system includes a bore 56 through the mandrel and the sleeve from the tool's upper end 54 to its lower end 52. Bore 56 may permit fluid to flow through the manipulator tool downwardly from the upper end to the lower end, which may be useful for example when circulating after a manipulation operation. In one embodiment, it may be desirable that bore 56 be closed during certain operations, such as during pumping down and possibly, as in the present embodiment, during and/or for actuation by the actuator portion but to be opened at certain selected periods. In one such embodiment, bore 56 may include a plug 6 that normally seals bore 56 against fluid flow therethrough but may be removed, as by shearing out, when desired, for example to permit fluid passage through the bore.
In the illustrated embodiment, the fluid passage system further includes a check valve 58 in bore 56, including in the illustrated embodiment a ball 29 and seat 59, that closes during reverse fluid flow, in a direction from lower end 52 to upper end 54. As such, reverse flow may be stopped through the tool so that a pressure differential may form where fluid pressure above the tool is less than fluid pressure below it.
A further annular seal 43b may be provided below seal 43a to act to create a seal between the manipulator tool body and the drill string to create a seal when positioned in the drill string. Seal 43b, formed in this embodiment as an downwardly facing packer cup, provides that manipulator tool 40a can maintain, and thereby be lifted through the drill string by, a pressure differential created between upper end 54 of the manipulator tool and its lower end 52 during reverse circulation. Of course, the operability of seals 43a and 43b can be combined in a single sealing structure, if desired.
The tool of
Thereafter, plug 6 may be sheared out to permit bypass of fluid through tool 40a to the drilling assembly for well bore circulation. The tool further assists in tripping the tool itself and the drilling assembly engaged thereby, for example by grapples 11, to surface by operation of seal 43b and check valve 58 when drilling fluid is reverse circulated through the well.
Although the foregoing has described a manipulator tool in the form of a release tool for releasing a drilling assembly from engagement with the drill string, a manipulator tool of the present invention may be used for various downhole operations such as setting a device such as a packer or a bridge plug. For example, with reference to
Although tool 40b can be conveyed down hole by fluid pressure and retrieved to surface by reverse circulation acting against seal 102b and check valve 58a, tool 40b further includes a wireline connection 70 that permits attachment of a wireline thereto such that an additional pulling action may be applied to tool 40b and/or any tool being manipulated by tool 40b, as desired or necessary.
When drilling with a system where tools are retrieved to surface, there is often a limit to the length of the well bore in which such tools can be operated since it becomes difficult to trip the tools entirely to surface. For example, if the tools are to be retrieved with wireline, long wireline lengths limit the pull force that can be applied therethrough. Such limited pull force may be insufficient to release the tool from its mounted position at the lower end of the casing. Alternately, if reverse circulation is used to retrieve the tools, the pressures required to do so may be difficult to maintain. Thus, in one embodiment, a method for retrieving tools through a liner string may be provided wherein a manipulator tool is engaged by a wireline and reverse circulation is used alone or in combination with the wireline pull force to manipulate a downhole tool and/or release a downhole tool from its mounted position in a well. Thereafter, the wireline, alone or in combination with reverse circulation, may be used to trip the tools to surface. The reverse circulation may be used, for example, to convey the tools up hole a distance before the wireline is used to begin pulling. The down hole tool may be released by action of the reverse circulation provided by manipulator tool 40b or such release may require other manipulation, as by use of push or pull force.
Alternatively, in order to retrieve the manipulator tool, a tool catcher may be used. The tool catcher engages the tool being lifted such as the manipulator tool so as to prevent it from falling down the well and may ensure that the manipulator tool lands in a controlled manner, for example with a means for release of fluid pressure from below the tool, when the manipulator tool reaches the top of the well bore.
A tool catcher may be formed and configured to catch a tool approaching the tool catcher, the tool including a fluid passage therein and a seal in the fluid passage blocking flow therethrough. The tool catcher may include a body including a secured end and an outboard end, engaging devices supported on the body and a stinger. The engaging devices may be formed to allow passage of an engagable portion of the tool thereover in a direction from the outboard end to the secured end but may be formed to act to resist passage therepast of a portion of the tool moving in a direction from the secured end towards the outboard end. As such, the tool, as it approaches the catcher, may pass over the catcher engaging devices but cannot be withdrawn therefrom. The engageable portion of the tool and the engaging devices may take various forms to interengage and resist relative movement therebetween. For example, these parts may include teeth, a shoulder, collet fingers, etc. on either the tool or the tool catcher. The stinger may be positioned at the outboard end to open the seal in the fluid passage of the tool to permit any pressure in the fluid passage to be dissipated. The stinger may be formed to break a seal, shear out a plug, open a valve, etc. A stinger may be in the form of an extension, rod, protrusion, etc.
With reference to
Even after the valve is opened to release pressure from below the reverse circulated tool, the body of the tool may have the momentum to continue upwardly. The tool catcher may therefore include a stop, such as surface 113, or other shoulders or ledges positioned variously on the tool and/or a shock absorber for slowing and stopping advancement of the tool. The shock absorber may include, for example, an elastomeric stop 112, for example of rubber or other polymers, positioned to be contacted by the body of manipulator tool, for example, at the upper end of the stinger, as shown, on lowermost end 110a, or above teeth 108. The rubber stop cushions the impact of the engagement of the manipulator tool against the tool catcher. Alternately, there may other shock absorbers to cushion the impact of the manipulator tool against the tool catcher, such as, for example, springs, hydraulic shock absorbers, etc. Of course, the shock absorber.
In
A catcher may be installed in the well bore in various ways to catch a tool conveyed by reverse circulation. For example, the catcher may be installed on a wellhead apparatus. In another embodiment, the catcher may be positioned to catch a tool by installation on a spear that also supports the drill string and controls fluid passage out of the upper end of the drill string, generally without reliance on a threaded connection to the drill string. The spear may be a portion of a tubular gripping device. Tubular gripping devices can vary significantly in form and function. Tubular gripping devices may operate without reliance on threaded connections and may often include an internal and/or external tubular gripping mechanism. Unlike connections effected by threaded connections, tubular gripping devices can operate without requiring significant relative rotational movement, between the gripping device and the item to be gripped. Gripping devices may include packer-type systems that expand to grip an inner or an outer diameter of the tubular to be gripped. Tubular gripping mechanisms may alternately or in addition include teethed dies that can be driven to grip and bite into the tubular. These gripping mechanisms may be driven mechanically, hydraulically, by motors, etc. Generally, gripping mechanisms driven by hydraulics can be operated quickly and without requiring significant movement of the tool on which the mechanism is mounted. Some gripping devices for casing-type tubulars, for example, are described in U.S. Pat. No. 6,311,792, issued November 2001 (an external casing gripping device) and International application WO00/05483, published February 2000 (an internal casing gripping device), both to TESCO Corporation.
With reference to
After a tool is caught on catcher 204, fluid circulation may be continued through the tool, the catcher and device 180. When it is desired to retrieve tool 240, casing string 116 may be supported in the rig floor and spear 182 can be disengaged and withdrawn from the upper end of string 116. In so doing, catcher 204 and tool 240 are withdrawn with spear 182. Tool 240 may be a reverse circulated manipulator tool, a reverse circulated drilling assembly or other reverse circulated tool.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to those embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein, but is to be accorded the full scope consistent with the claims, wherein reference to an element in the singular, such as by use of the article “a” or “an” is not intended to mean “one and only one” unless specifically so stated, but rather “one or more”. All structural and functional equivalents to the elements of the various embodiments described throughout the disclosure that are know or later come to be known to those of ordinary skill in the art are intended to be encompassed by the elements of the claims. Moreover, nothing disclosed herein is intended to be dedicated to the public regardless of whether such disclosure is explicitly recited in the claims. No claim element is to be construed under the provisions of 35 USC 112, sixth paragraph, unless the element is expressly recited using the phrase “means for” or “step for”.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CA07/01009 | 6/6/2007 | WO | 00 | 2/3/2009 |
Number | Date | Country | |
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60804074 | Jun 2006 | US | |
60862491 | Oct 2006 | US |