Method, apparatus and system for selective release of cementing plugs
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-033/08
E21B-033/13
출원번호
US-0087513
(2002-03-01)
발명자
/ 주소
Butterfield, Jr., Charles A.
출원인 / 주소
Halliburton Energy Services, Inc.
대리인 / 주소
Roddy Craig W.
인용정보
피인용 횟수 :
96인용 특허 :
27
초록▼
A running tool for wiper plugs used in cementing well casings into a wellbore. The running tool and setting balls or darts used to launch the plugs are retrievable following deployment of the plugs. Flapper valve assemblies on the wiper plugs are activated after the plugs are displaced from the runn
A running tool for wiper plugs used in cementing well casings into a wellbore. The running tool and setting balls or darts used to launch the plugs are retrievable following deployment of the plugs. Flapper valve assemblies on the wiper plugs are activated after the plugs are displaced from the running tool to eliminate the requirement to maintain a setting ball or dart in engagement with the wiper plug as the assembly is pumped down the well casing. Because of being retrievable, the mandrel, setting sleeves and setting ball or dart may be constructed of any desirable high-strength material without regard to the need to drill up the material following completion of the cementing job. The use of high-strength steel permits large flow passages to be employed in the cementing plugs by eliminating the need for large volumes of drillable metals in the plugs. The running tool protects the flapper valve seal surfaces from circulating fluids prior to deployment of the plugs from the tool.
대표청구항▼
1. A well tool for selectively sealing areas within a well tubular comprising:a first axially extending plug adapted to be axially movable within an axially extending well tubular for isolating fluids in first and second areas within said well tubular on either axial end of said first plug,a first o
1. A well tool for selectively sealing areas within a well tubular comprising:a first axially extending plug adapted to be axially movable within an axially extending well tubular for isolating fluids in first and second areas within said well tubular on either axial end of said first plug,a first outer seal for providing a sliding, sealing engagement between said first plug and an internal surface of said well tubular,an axially extending mandrel extending through said first plug,a mandrel flow passage extending axially through said mandrel,a first inner seal for providing a sliding, sealing engagement between said first plug and said mandrel,a first port extending from said flow passage of said mandrel to said first area,a first movable closure member movable between a closed and an open position for respectively closing said first port when in said closed position or opening said first port when in said open position whereby said first closure member respectively blocks or permits pressure communications between said mandrel flow passage and said first area,a first closure mechanism for moving said first closure member from said closed to said open position, anda first release mechanism responsive to movement of said first closure mechanism for permitting said first plug to be displaced axially free of said mandrel in response to a pressure differential between said first area and said second area. 2. A well tool as defined in claim 1 further comprising:a first one-way valve for sealing a central opening through said first plug when said first plug is displaced from said mandrel whereby said first plug forms a seal within said well tubular for isolating said first and second pressure areas. 3. A well tool as defined in claim 2 further comprising a releasable seal carried by said first plug, said releasable seal being selectively operable to provide pressure communication between said first and second areas. 4. A well tool as defined in claim 2 further comprising a second axially extending plug adapted to be axially movable within said well tubular for isolating fluids in third and fourth areas within said well tubular on either axial end of said second plug, said second plug disposed about said mandrel,a second outer seal for providing a sliding, sealing engagement between said second plug and an internal surface of said well tubular,a second inner seal for providing a sliding, sealing engagement between said second plug and said mandrel,a second port extending from said flow passage of said mandrel to said third area,a second movable closure member movable between a closed and an opened position for respectively closing said second part when in said closed position or opening said second port when in said open position whereby said second closure member respectively blocks or permits pressure communication between said mandrel flow passage and said third area,a second closure mechanism for moving said second closure member from said closed to said opened position, anda second release mechanism responsive to movement of said second closure mechanism for permitting said second plug to be displaced axially free of said mandrel in response to a pressure differential between said third area and said fourth area. 5. Well tool as defined in claim 4 further comprising:a second one-way valve for sealing a central opening through said second plug when said second plug is displaced from said mandrel whereby said second plug forms a seal within said well tubular for isolating said third and fourth pressure areas. 6. A well tool as defined in claim 1 wherein, when displaced from said mandrel, said first plug is a body having a major percentage of its composition being a nonmetallic material. 7. A well tool as defined in claim 1 wherein said mandrel is retrievable through said well tubular following displacement of said first plug. 8. A well tool as defined in claim 1 wherein said first closure mechanism includes a first flow closure d evice that seals said mandrel flow passage to seal said first area from said second area whereby a pressure differential acting across said first closure mechanism moves said first release mechanism. 9. A well tool as defined in claim 8 wherein said first flow closure device comprises a ball. 10. A well tool as defined in claim 8 wherein said first flow closure device comprises a dart. 11. A well surface operated system for remotely deploying wiper plugs into a well casing comprising:a running tool having an axially extending tubular mandrel, said mandrel having an axially extending flow passage for conducting fluid axially through said well casing,a first plug carried by said mandrel, said first plug having an outside sealing diameter for sealing with an internal surface of said well casing and further having an axially extending flow passage cooperating with said axially extending flow passage of said running tool for conducting fluids axially through said well casing,a first release mechanism carried by said mandrel, said first release mechanism being operable from a well surface with a release mechanism actuator to actuate said first release mechanism to release said first plug from said mandrel, anda first flow passage closure device, separate from said release mechanism actuator, carried by said first plug, said first flow passage closure device being operable when said first plug is released from said mandrel to seal said flow passage extending through said first plug whereby fluid conducted axially through said mandrel flow passage to said first plug from said well surface will move said first plug through said casing. 12. A remotely operated system as defined in claim 11 further comprising:a second wiper plug carried by said mandrel, said second wiper plug having an outside sealing diameter for sealing with said internal surface of said well casing and further having an axially extending flow passage cooperating with said axially extending flow passage of said mandrel for conducting fluids axially through said well casing,a second release mechanism carried by said mandrel, said second release mechanism being operable from the well surface with a second release mechanism actuator to actuate said second release mechanism to release said second plug from said mandrel, anda second flow passage closure device, separate from said second release mechanism actuator, carried by said second plug, said second flow passage closure device being operable when said second plug is released from said mandrel to seal said flow passage extending through said second plug. 13. A remotely operated system as defined in claim 12 wherein said mandrel and said release mechanisms and said release mechanism actuators are retrievable to the well surface with said running tool after said first and second plugs are released from said mandrel. 14. A remotely operated system as defined in claim 13 wherein said flow passage closure devices comprise flapper gates carried by said first and second plugs. 15. A remotely operated system as defined in claim 14 wherein said wiper plugs are provided with sealing surfaces on passage closure devices that meet to close the flow passages through said plugs when said plugs are released from said mandrel, andwherein said sealing surfaces are protected from erosion caused by fluids flowing through said well casing before said plugs are released from said mandrel. 16. A remotely operated system as defined in claim 15 wherein said release mechanisms comprise axially extending sleeves carried coaxially within said running tool and wherein said sleeves are movable axially by said release mechanisms to release said plugs from said mandrel. 17. A remotely operated system as defined in claim 16 wherein said release mechanisms comprise sleeves coaxially carried by said mandrel and said release mechanism actuators comprise balls or darts introduced into said running tool from said well surface whereby said actuators engage a nd seal with said sleeves and whereby pressure applied from the well surface through said running tool shifts said sleeves axially to release said plugs from said mandrel and to open a lateral flow passages through said mandrel communicating said mandrel flow passage with areas in said well casing between said well surface and said plugs. 18. A remotely operated system as defined in claim 12 wherein said plugs are respectively provided with sealing surfaces on passage closure devices that meet to respectively close the flow passages through said plugs when said plugs are released from said mandrel, andwherein said sealing surfaces are protected from erosion caused by fluids flowing through said well casing before said plugs are released from said mandrel. 19. A remotely operated system as defined in claim 11 wherein said mandrel and said release mechanism and said release mechanism actuator are retrievable to the well surface with said running tool after said first plug is released from said mandrel. 20. A remotely operated system as defined in claim 11 wherein said flow passage closure device comprises a flapper valve gate carried by said first plug. 21. A remotely operated system as defined in claim 11 wherein,said first plug includes a sealing surface seat extending about said first plug flow passage and said first flow passage closure device includes a first sealing component adapted to engage and seal with said first sealing surface seat to close said wiper plug flow passage, andwherein said first sealing surface seat and said first sealing component are protected from erosion when said first plug is carried by said mandrel. 22. A remotely operated system as defined in claim 11 wherein said first release mechanism comprises an axially extending sleeve carried coaxially within said running tool and wherein said sleeve is movable axially by said release mechanism to release said plug from said mandrel. 23. A remotely operated system as defined in claim 11 wherein said first release mechanism and said release mechanism actuator cooperate with said running tool to isolate a first area in said well casing on one axial end of said first plug from a second area in said well casing at a second axial end of said first plug whereby pressure applied at said first axial end is effective on said first plug across a cross-sectional area substantially equal to the cross-sectional area of said first plug for producing a pressure induced axial force tending to move said first plug axially through said well casing when said first plug is mounted on said mandrel. 24. A remotely operated system as defined in claim 23 wherein said release mechanism comprises a sleeve coaxially carried by said mandrel and said release mechanism actuator comprises a ball or dart introduced into said running tool from said well surface whereby said actuator engages and seals with said sleeve and whereby pressure applied from the well surface through said running tool shifts said sleeve axially to release said first plug and to open a lateral flow passage through said mandrel communicating said mandrel flow passage with said first area in said well casing. 25. A remotely operated system as defined in claim 11 further comprising multiple plugs having substantially similar dimensions carried on said mandrel and adapted to be sequentially released from said mandrel. 26. A remotely operated system as defined in claim 25 wherein at least one of said plugs includes a flow passage reopening device for reopening the flow passage through said one plug after said one plug is released from said mandrel. 27. A remotely operated system as defined in claim 25 wherein release of one of said multiple plugs from said mandrel is effected without the application of release forces to another of said multiple plugs on said mandrel. 28. A remotely operated system as defined in claim 11 wherein said wiper plug is constructed substantially from non-metallic components. 29. A remotely op erated system as defined in claim 11 wherein said running tool has sufficient axial development to receive a release mechanism activator comprising a ball or a dart. 30. A method for releasing plugs in a well casing for cementing said well casing in a wellbore comprising:locking multiple plugs on a tubular mandrel of a running tool carried at the end of a well conduit,positioning said running tool and plugs within said well casing,flowing fluid through said well conduit and through said mandrel and plugs into said casing below said running tool,inserting a release actuator mechanism into said well conduit at the well surface,engaging said release actuator with an axially movable sleeve carried by said running tool,applying fluid pressure from the well surface to said release actuator to move said sleeve axially through said running tool for opening a flow passage from said mandrel into said casing and unlocking one of said wiper plugs from said mandrel, andapplying fluid pressure across an area substantially equal to the full lateral cross-sectional area of said unlocked plug to produce a pressure induced force to move said unlocked plug axially for release from said mandrel. 31. A method as defined in claim 30 further comprising closing a flow passage through said unlocked plug after release from said mandrel whereby said plug seals said casing permitting said plug to be moved axially through said casing by fluid pressure applied from the well surface. 32. A method as defined in claim 31 further including protecting plug sealing surfaces formed on said plugs from erosion as fluid flows through said running tool. 33. A method as defined in claim 32 further comprising closing a flow passage through at least one of said plugs with a hinged flapper gate carried on said at least one wiper plug. 34. A method as defined in claim 33 further comprising constructing substantially of non-metallic materials. 35. A method as defined in claim 30 wherein said running tool, tubular mandrel and release actuator are retrieved to the well surface after said wiper plug are unlocked and released from said mandrel. 36. An apparatus for deploying plugs used in cementing a casing string from a well surface comprising:a running tool adapted to be connected to the end of a tubular well pipe;a thin wall, tubular mandrel in said running tool, said mandrel having a central flow passage extending axially through said mandrel and first and second flow passages extending laterally through said mandrel wall into said casing string,first and second plugs having first and second central flow passages, respectively, coaxially mounted on said tubular mandrel,first and second release sleeves coaxially mounted with said tubular mandrel for temporarily locking said first and second plugs, respectively, to said mandrel and for temporarily sealing, respectively, said first and second lateral flow passages, andfirst and second sealing members carried on said first and second plugs, respectively, for sealing said first and second central flow passages, respectively, when said plugs are released from said mandrel. 37. An apparatus as defined in claim 36 wherein said first and second sealing members are disposed intermediate said tubular mandrel and said casing while said plugs are locked on said mandrel for protecting said first and second sealing members from erosion caused by flow of fluids through said setting tool. 38. An apparatus as defined in claim 36 wherein said plugs are constructed substantially of non-metallic components. 39. An apparatus as defined in claim 36 wherein said mandrel and release sleeves are secured to and said running tool for retrieval to the surface after said plugs are released from said mandrel. 40. An apparatus as defined in claim 36 wherein said first and second release sleeves include internal pass-through openings and said pass-through opening of said first release sleeve is larger than said pass-through opening of said second release sleeve.
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이 특허에 인용된 특허 (27)
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Butterfield, Jr., Charles A.; Bates, Robert A.; Laurel, David F.; Hawkins, Samuel P.; Latiolais, Jr., Burney J.; Lutgring, Keith T., Method and multi-purpose apparatus for control of fluid in wellbore casing.
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Juhasz, Daniel; Boyadjieff, George; Eidem, Brian L.; van Rijzingen, Hans; Kamphorst, Herman M.; Böttger, Hans Joachim Dieter; van Wechem, Gustaaf Louis; Mason, David, Pipe running tool having wireless telemetry.
Mccoy, Matthew T.; Solfronk, Matthew D.; Farmer, Jack D.; Burton, William A.; King, James G.; Barnard, Jason J.; O'Malley, Edward J., Selectively degradable passage restriction and method.
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