Downhole tool
First Claim
1. A downhole tool having an interior defining an interior flowpath and an exterior, the downhole tool comprising:
- an inner sleeve;
a housing positioned outwardly of said inner sleeve;
a shifting sleeve between the housing and the inner sleeve, said shifting sleeve having a first position and a second position;
a first pressure chamber defined, at least in part, by the housing, inner sleeve, and a first end of the shifting sleeve, the first pressure chamber in fluid isolation from the interior flowpath and the exterior of the downhole tool;
a second pressure chamber defined, at least in part, by the housing, inner sleeve, and a second end of the shifting sleeve, the second pressure chamber in fluid isolation from the first pressure chamber, the interior flowpath and the exterior of the downhole tool; and
a first control device having a first state which prevents fluid communication from the interior flowpath to the first pressure chamber and a second state which permits fluid communication from the interior flowpath to the first pressure chamber;
wherein the shifting sleeve moves from the first position to the second position in response to the first control device changing from the first state to the second state.
1 Assignment
0 Petitions
Accused Products
Abstract
A downhole tool comprising an inner sleeve with a plurality of sleeve ports and a housing positioned radially outwardly of the inner sleeve and having a plurality of housing ports, with the housing and inner sleeve partially defining a space radially therebetween. The space is occupied by a shifting sleeve. A fluid path extends between the interior flowpath of the tool and the space. A fluid control device, occupies at least portion of the fluid path, and may selectively permit fluid flow, and thus pressure communication, into the space to cause a differential pressure across the shifting sleeve. When a sufficient differential pressure is reached, the shifting sleeve is moved from a first position to a second position, which opens the communication paths through the housing and sleeve ports between the interior flowpath and exterior of the tool.
31 Citations
26 Claims
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1. A downhole tool having an interior defining an interior flowpath and an exterior, the downhole tool comprising:
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an inner sleeve; a housing positioned outwardly of said inner sleeve; a shifting sleeve between the housing and the inner sleeve, said shifting sleeve having a first position and a second position; a first pressure chamber defined, at least in part, by the housing, inner sleeve, and a first end of the shifting sleeve, the first pressure chamber in fluid isolation from the interior flowpath and the exterior of the downhole tool; a second pressure chamber defined, at least in part, by the housing, inner sleeve, and a second end of the shifting sleeve, the second pressure chamber in fluid isolation from the first pressure chamber, the interior flowpath and the exterior of the downhole tool; and a first control device having a first state which prevents fluid communication from the interior flowpath to the first pressure chamber and a second state which permits fluid communication from the interior flowpath to the first pressure chamber; wherein the shifting sleeve moves from the first position to the second position in response to the first control device changing from the first state to the second state. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system comprising a tubing string, said tubing string having a device therealong and a closeable end;
said device comprising; an enclosure at least partially defining an interior flowpath; a plurality of ports connecting the interior flowpath to the exterior of the tubing string; a shifting sleeve mounted within the enclosure, the shifting sleeve preventing fluid communication between the interior flowpath and the exterior of tubing string through the plurality of ports; the shifting sleeve having a first end in fluid isolation from the interior flowpath and from the exterior of the tubing string and a second end in fluid isolation from the first end; wherein said enclosure selectively permits fluid communication from the interior flowpath to to the first end above a first interior flowpath pressure; and the minimum force required to move the shifting sleeve from the first position to the second position equates with a second fluid pressure applied to the first end of the shifting sleeve, said second fluid pressure being lower than the first fluid pressure, the device further comprising a second pressure chamber in fluid communication with the second end of the shifting sleeve, said second pressure chamber in fluid isolation from the interior flowpath, the exterior of the device, and the first pressure chamber. - View Dependent Claims (9, 10, 11, 12)
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13. A system comprising a tubing string with a device placed therealong, said tubing string having a closeable end, said device comprising:
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an outer housing adjacent to the closed end, said housing having at least one port therethrough; at least one shifting sleeve mounted within the tubing, said shifting sleeve having a first position and a second position; a first pressure chamber in fluid communication with said at least one shifting sleeve and isolated from the interior flowpath by a fluid control device; wherein, in the first position, the shifting sleeve prevents fluid communication through the at least one port from an interior flowpath to the exterior of the tubing and, in the second position, the shifting sleeve allows fluid communication through said at least one port from the interior flowpath to the exterior of the tubing; and the shifting sleeve is moveable from the first position to the second position in response to communication of a first interior flowpath pressure to the first pressure chamber, said first interior flowpath pressure selected based on a maximum fluid pressure anticipated to be applied in the tubing string, the device further comprising a second pressure chamber in fluid communication with the shifting sleeve, said second pressure chamber in fluid isolation from the interior flowpath, the exterior of the device, and the first pressure chamber. - View Dependent Claims (14)
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15. A method for treating a well, said well containing a device having an interior and an exterior, the device comprising:
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an inner sleeve defining, at least in part, an interior flowpath in said tool, said interior flowpath containing a fluid; a housing with at least one port therethrough positioned outwardly of said inner sleeve, said housing and said inner sleeve partially defining an enclosure therebetween; a shifting member occupying at least a portion of said enclosure, said shifting member having a first position in which the shifting member prevents fluid flow through the at least one port and a second position in which the shifting member allows fluid flow through the at least one port; the enclosure comprising a first pressure chamber defined at least in part by a first end of the shifting member and a second pressure chamber defined at least in part by a second end of the shifting member, the first end and second end each in fluid isolation from the interior flowpath, from the exterior of the device and from each other; a fluid control device having an open state and a closed state, said closed state preventing fluid communication between the interior flowpath and the first pressure chamber; the method comprising;
changing the fluid control device from a closed state to an opened state and thereby permitting fluid communication between the interior flowpath and the pressure chamber;
shifting the shifting member from the first position to the second position after the fluid control device is in an open state; andPumping fluid from the interior flowpath to the exterior of the device. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22)
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23. A method for treating a well using a downhole tool, the method comprising
flowing fluid to the downhole tool, the downhole tool comprising: -
a housing having at least one housing port therethrough; an inner sleeve having at least one sleeve port therethrough, said inner sleeve at least partially defining an interior flowpath through the downhole tool; a shifting sleeve moveable between a first position and a second position within a space between the inner sleeve and the housing; a fluid path from the interior of the tool to a first pressure chamber between said inner sleeve and said housing with a fluid control device positioned therein, the fluid path in fluid communication with a first end of the shifting sleeve and in fluid isolation from the interior and the exterior of the downhole tool; a second pressure chamber in fluid communication with a second end of the shifting sleeve and in fluid isolation from the interior and the exterior of the downhole tool; changing the fluid control device from a closed state to an opened state by applying a first fluid pressure thereto, the first fluid pressure selected in relation to a maximum pressure for flowing fluids into a formation adjacent to the downhole tool; flowing fluid through the fluid path to the first pressure chamber; moving the shifting sleeve to the second position in which the shifting sleeve does not prevent fluid flow from the sleeve ports to the housing ports; and flowing fluid from the interior of the downhole tool to the adjacent formation. - View Dependent Claims (24)
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25. A method of preparing an open hole well for treating in at least one petroleum production zone formation in which a tubing string is inserted into the open hole well and cement is pumped through the tubing string into the open hole well, the method comprising:
- as the tubing string is inserted into the open hole well, providing at least one sliding valve to be positioned adjacent to the toe of the production tubing;
said at least one sliding valve comprising an enclosure at least partially defining an interior of the sliding valve, the enclosure comprising an enclosure flowpath with a fluid control device therein;
at least one shifting member mounted within the enclosure, the enclosure preventing fluid communication from the interior flowpath of the tubing to a first end surface of the shifting member within a first pressure chamber, the sliding valve further comprising a second pressure chamber containing a second end surface of the shifting member, said second pressure chamber in fluid isolation from the interior flowpath, the exterior of the device, and the first pressure chamber;closing the end of the tubing string; isolating the exterior of the sliding valve from the surface; pressure testing the tubing string after said isolating step;
thenchanging the fluid control device from a closed state to an open state, thereby creating fluid communication between the interior flowpath and the first surface of the shifting member; moving the shifting member from a closed position to an open position; and flowing fluid from the interior of the sliding valve to the exterior of the sliding valve. - View Dependent Claims (26)
- as the tubing string is inserted into the open hole well, providing at least one sliding valve to be positioned adjacent to the toe of the production tubing;
Specification