The present invention relates to well bore liner placement methods and tools.
When running in a well bore liner, such as for example, a slotted liner, the liner is run in using force applied from surface. The liner is often run in through surface cased portions of the well bore and then into open hole. The liner is often mounted adjacent its uphole end to a liner hanger and thereabove a tubing string, for example, including a plurality of interconnected of tubulars, such as drill pipe. As the liner reaches increased depths, the surface manipulation may become less effective, and the drill pipe above the liner hanger may begin to buckle rather than communicating the force to move the liner to total depth.
As such, often a liner placement procedure must be ceased before the liner actually reaches an optimal depth. Thus, a portion of the well bore may remain unlined, which is economically undesirable.
In the following description of the invention, it is to be understood that although the reference is made a borehole and/or well bore and the wall of the borehole and/or well bore, it is to be understood that the borehole could be open hole or lined. For example, the terms borehole/well bore have been used to include cased boreholes and the term borehole wall in that case would actually be the inner surface of the casing lining the well bore.
In one aspect of the present invention, there is provided a liner placement tool for use in a well bore, including a tool body and an annular seal extending radially about the tool body for sealingly engaging the well bore, the tool body having a lower end engageable with a well bore liner. The tool may include an axial channel extending from the lower end to an upper end, which may further be fluid-communicatingly engageable with a tubing string.
In another aspect of the invention, there is provided a system for assisting the placement of a well bore liner in a borehole, the system comprising: a liner retainer, a liner placement assist tool connectable to the liner retainer including a tool body, an inner axial channel extending through the tool body and an annular seal extending radially about the tool body, an upper end on the apparatus for accepting connection of a tubing string, and a lower end on the apparatus for accepting connection of a well bore liner.
In yet another aspect of the invention, there is provided a method of placing a well bore liner, comprising inserting a liner running assembly from surface into a well bore and defining an annulus between the liner running assembly and the well bore, the liner running assembly comprising a liner placement apparatus having an annular seal with an upper surface area, the annular seal extending radially about the liner placement apparatus for sealingly engaging the well bore, the liner placement apparatus engaging at an upper end thereof a tubing string and engaging at a lower end thereof a well bore liner, and the well bore having an inlet at surface; running the liner running assembly to a selected depth; packing off the annulus above the inlet; pumping fluid into the annulus through the inlet above the annular seal until fluid pressure on the upper surface area of the annular seal creates a force at least equal to opposing bottomhole forces below the annular seal; continuing to pump fluid into the annulus through the inlet to drive the liner down the well bore. In accordance with a method of the invention, the annular seal is selected to create a seal between the tubing string and the well bore wall capable of holding pressure in the annulus between the tubing string and the wall, creating a high fluid pressure region in the annulus above the annular seal which, in combination with the upper surface area of the annular seal upon which such fluid pressure acts, creates a downward force sufficient to overcome opposing forces which would inhibit downward movement of the liner (such as liner, or down, drag) below the annular seal to thereby drive the liner into the borehole.
In another aspect of the present invention, there is provided a method for running a well bore liner into a borehole comprising: providing a liner and liner running assembly including a tubing string, a liner retainer for holding the liner in place in the borehole (such as, for example, a liner hanger or packer) attached adjacent a lower end of the tubing string, and an annular seal selected to sealingly couple the liner running assembly and the borehole wall, running the liner and liner running assembly into the well bore, applying force to the tubing string to move the liner into the well bore, pumping fluid into an annulus between the tubing string and the borehole wall to exert a fluid pressure on the upper surface area of the annular seal thereby creating a downward force on the annular seal greater than opposing forces below the annular seal such that the annular seal begins to act as a piston to drive the liner further into the borehole.
With reference to
As is common, the liner 118 is connected below a liner hanger 120 and a drill string 122, but according to the present invention a liner placement assist tool 124 is positioned to create a seal in the annulus 126 between the liner 118 or drill string 122 and the well bore wall 116. Although the embodiment of
With reference also to
Briefly with reference to
Generally, the liner 118 will be run in to a particular depth first by applying force to the tubing string 122 to move the liner 118 into the borehole 112. However, if and when it is determined that further force applied through the tubing string 122 will be ineffectual or undesired, fluid can be pumped through an inlet 134 into the annulus 126 between the tubing string 122 and the borehole wall 116 to create a fluid pressure above the annular seal 130 which, acting upon the upper surface area 131 of the annular seal 130, creates a downward force greater than the opposing forces below the annular seal 130 and the annular seal 130 begins to act as a piston to drive the liner 118 further into the borehole. Any surface area of the tool body 128 or the annular seal 130 that extends beyond the outer diameter of the tubing string 122 may operate as a piston face. As will be appreciated, skilled workmen may be able to calculate the pressure holding capacity of an annular seal and force generating capability for tools of various sizes.
An embodiment of the method of the invention, with reference to
Of course, it is to be understood that embodiments of the method of the invention are not limited to the apparatus illustrated in
In those embodiments of the inventive method in which the liner placement assist tool is retrieved to the surface, the annular seal may act to swab fluid from the casing. If swabbing is not desired, fluid may be circulated down through the tubing string into the liner to replace the fluid displaced by swabbing. Alternatively, other fluid replacement mechanisms may be provided in the tool, such as, without limitation, a valving system or fluid bypass. For example, with reference to
In such an embodiment, retrieval of the tool may also create a swabbing effect on the hole. Thus, as noted above, the hole can be filled through the drill string as the tool is tripped out. Alternatively, or in addition, shearable-type check valves may be mounted in the ports. Alternatively, a sub of the pump-out variety can be run above the tool. Such a sub may be selectively openable to provide communication between the outer surface and the inner diameter of the drill string. This sub could be opened after the running assembly is disconnected from the liner such that communication could be provided from the annulus to the inside of the drill string allowing the fluid being swabbed above the liner placement assist tool to drain and fill the hole.
Since the liner placement assist tool may have an inner bore diameter which is smaller than the inner diameter of the liner, the tool may be beneficially run above the liner hanger and retrieved with the liner hanger running tool.
The liner placement tool may be formed in various ways. The embodiment of
Various embodiments have been described herein but are only to be considered illustrative, rather than limiting, of the invention. A skilled person will readily appreciate that various modifications can be made without departing from the spirit of the invention.
Number | Date | Country | |
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60594224 | Mar 2005 | US |