This invention relates to a casing adapter tool for well servicing.
One frequent well servicing technique for oil and gas formation having low permeability is to artificially “stimulate” to increase the permeability of the production zone(s). Generally, these stimulation techniques are referred to as “fracturing.” Fracturing involves pumping pressurized fluids through perforations in a well casing into a production zone in order to break or fracture pores in the production zone into the casing. Fracturing generally involves first using a tool known as a perforating gun to perforate the production zone adjacent the casing. Thereafter, fracturing fluids are pumped under very high pressures of about 5,000–10,000 psi through the perforations into the formation. The high pressure breaks the formation to form a flow channel for hydrocarbon fluids. Proppants are also injected to prevent the formation from collapsing after the high stimulation pressure is released.
During fracturing, isolation tools are needed to isolate the wellhead from the high pressures of fracturing. In the prior art, these fracturing isolation tools generally seal inside the casing or on the bit guide in a manner which can restrict full bore access to the casing. Full bore access is particularly desirable for fracturing techniques which involve fracturing in stages. After fracturing, the fracturing isolation tool is removed. At this point, since the well may be live, it is necessary to maintain control over the well. One prior art approach is to install a bridge plug, which seals inside the casing. These tools are expensive to rent and to use. Another approach is to control the well pressure with a column of mud or water. However, this procedure can damage the formation. Both of the above approaches require a service crew at the well, which is time and resource intensive.
There remains a need for a wellhead tool which will seal directly to the casing without restricting access to the bore, allowing well servicing equipment such as a fracturing isolation tool to be run in and removed through the tool, and which can be thereafter plugged to maintain well control when the well servicing equipment is removed, without the need to remove the wellhead tool. Seals to the servicing equipment, such as to the fracturing isolation tool, may optionally be provided in the tool itself. The present invention provides such a wellhead tool in the form of a casing adapter tool.
The casing adapter tool provides a quick connection and optionally for seals, for well servicing tools such as fracturing equipment. Once the fracturing is completed and all well servicing equipment is removed, the casing adapter tool remains on the well and provides for the installation of at least one and preferably two independent pressure barriers, such as check valves or plugs, between the well bore pressure and the atmosphere.
Broadly stated, the casing adapter tool of the present invention connects and seals to a casing pipe at its lower end and to production or service equipment at its upper end, and is used with a well servicing equipment, such as involved in fracturing. The casing adapter tool includes a generally tubular casing adapter body having an upper end and a lower end, and is formed with a central bore extending therethrough. The central bore provides a profile which forms a casing seal chamber at the lower end, and a barrier seal chamber located thereabove. The barrier seal chamber is formed with a profile to accommodate and seal to a first removable pressure barrier on removal of any well servicing equipment. The casing adapter tool includes lower connectors at the lower end of the casing adapter body for connecting and sealing to the casing pipe, and top connectors at the upper end of the casing adapter body for connecting and sealing to production or service equipment.
Most preferably, the barrier seal chamber has a profile sized to provide full bore access to the casing pipe and to accommodate and seal to the first removable pressure barrier which is of a threaded, latched or snap ring type check valve or plug.
The casing adapter tool preferably also provides for a fracturing seal chamber in the central bore above or below the barrier seal chamber, said fracturing seal chamber having a profile to permit a fracturing isolation tool to be run in and sealed against the central bore
The casing adapter tool preferably includes an integral tubing head portion at its upper end, formed with a central bore which communicates with the central bore of the casing adapter so as to permit a fracture tool to be run therethrough. The central bore in the tubing head portion forms a tubing hanger chamber for sealing relationship with a tubing hanger which provides for installation of a second pressure barrier.
In multiple embodiments of the casing adapter tool, the bottom connectors to the casing pipe may include a slip lock connector, a welded connection, a threaded connection or a flange connection. The casing adapter body may include an inwardly extending stop shoulder formed at the top of the casing seal chamber in the central bore to protect the top of the casing pipe. The top connectors to the production or service equipment may include a threaded, flange or clamp connection.
By the term “full bore access”, as used herein and in the claims, is meant a diameter which is equal to or greater than the drift diameter of the casing pipe.
By the term “pressure barrier”, as used herein and in the claims, is meant a check valve or plug which protects equipment and devices located thereabove against downhole pressure.
The fracturing seal chamber 24 is sized to permit a well servicing tool, such as a fracturing isolation tool (not shown) to be run in, and preferably to be sealed against the central bore 20. The fracturing seal chamber 24 seals off and protects the top of the casing adapter 10, and thus the wellhead, from potentially damaging high pressure fracturing fluids. Side ports 31 may be provided through the adapter body 18 into the fracturing seal chamber 24, to provide access to the casing 12. These ports 31 may be sealed in any manner such as with the studded connection 31a for a gate valve (not shown).
The barrier seal chamber 26 has a profile which is sized to provide full bore access to the casing pipe 12 located therebelow, and to accommodate a removable pressure barrier such as a threaded, latched or snap ring type check valve or plug.
The casing adapter 10 is optionally, but preferably formed with an integral tubing hanger portion 36 at its upper end. The tubing hanger portion 36 has a central bore 20a which communicates directly with the bore 20 of the adapter body 18 so as to permit the fracturing isolation tool (not shown) to be run there through. The central bore 20a in the tubing hanger portion 36 has a profile to form a tubing hanger chamber 37 for sealing relationship with a tubing hanger 38 (see
The provision of two removable pressure barriers is a preferred advantageous feature of the present invention. The casing adapter tool 10 can thus be formed with a profile at its upper end to accommodate a tubing hanger equipped with a barrier. Thus, the tubing hanger chamber 37 is sized for a blow out preventor (BOP) stack, i.e., for removal through the BOP stack. The profile for the lower barrier, that is the barrier seal chamber 26 can then be sized to match the casing, that is to provide for full bore access to casing.
The removable back pressure valves 32 and 42, as indicated above are only exemplary of suitable barriers against wellhead back pressure. Solid plugs may also be used. Various tubing hanger designs are known which include a back pressure valve or plug. Basically any removable pressure barrier which is of a threaded, latched or snap ring type check valve or plug, may be chosen, and the profile of the barrier seal chamber 26 is adjusted accordingly. The barriers are preferably designed to allow for pressure equalization across the barrier during installation. A check valve is a preferred barrier since it allows fluid to be pumped down for well control should this be required.
In
The bottom connector to the casing pipe 12 is shown in
The illustrated slip lock connection of
Sealing between the casing adapter 10 and the casing pipe 12 is preferably accomplished with built in secondary seals 28. The seals 28 may be energized by the injection of plastic through external ports in the casing adapter 10. Additional plastic may be added while the casing adapter 10 is in service. The seals 28 are shown in
The details of each of the lockscrew retainers for the tubing hanger 38 are shown in
The casing adapter 10 provides a quick connection for fracturing equipment to the well. Once the fracturing is completed and all well servicing equipment is removed the casing adapter 10 remains on the well and provides at least one barrier (BPV 32) and preferably two independent barriers (BPV 32 and 42) between well bore pressure and atmosphere.
Other embodiments in
All publications mentioned in this specification are indicative of the level of skill in the art of this invention. All publications are herein incorporated by reference to the same extent as if each publication was specifically and individually indicated to be incorporated by reference.
The terms and expressions used are, unless otherwise defined herein, used as terms of description and not limitation. There is no intention, in using such terms and expressions, of excluding equivalents of the features illustrated and described, it being recognized that the scope of the invention is defined and limited only by the claims which follow.
This application claims priority to U.S. Provisional Application No. 60/445,617 filed Feb. 7, 2003, which is incorporated herein in its entirety to the extent not inconsistent herewith.
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2617485 | Thatch | Nov 1952 | A |
3255823 | Barton | Jun 1966 | A |
5819851 | Dallas | Oct 1998 | A |
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6675900 | Baskett et al. | Jan 2004 | B1 |
Number | Date | Country |
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2276973 | Jul 1999 | CA |
Number | Date | Country | |
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20040173348 A1 | Sep 2004 | US |
Number | Date | Country | |
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60445617 | Feb 2003 | US |