Method for individually servicing a plurality of zones of a subterranean formation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-034/14
E21B-034/10
E21B-043/12
E21B-043/14
E21B-043/25
E21B-034/00
출원번호
US-0187761
(2014-02-24)
등록번호
US-9458697
(2016-10-04)
발명자
/ 주소
Howell, Matthew Todd
출원인 / 주소
Halliburton Energy Services, Inc.
대리인 / 주소
Wustenberg, John W.
인용정보
피인용 횟수 :
0인용 특허 :
217
초록▼
A method of servicing a subterranean formation comprising providing a first sleeve system comprising a first one or more ports and being transitionable from a first mode to a second mode and from the second mode to a third mode, and a second sleeve system comprising a second one or more ports and be
A method of servicing a subterranean formation comprising providing a first sleeve system comprising a first one or more ports and being transitionable from a first mode to a second mode and from the second mode to a third mode, and a second sleeve system comprising a second one or more ports and being transitionable from a first mode to a second mode and from the second mode to a third mode, wherein, in the first mode and the second mode, fluid communication via the one or more ports of the first or second sleeve system is restricted, and wherein, in the third mode, fluid may be communicated via the one or more ports of the first or second sleeve system, transitioning the first and second sleeve systems to the second mode, and allowing the first sleeve system to transition from the second mode to the third mode.
대표청구항▼
1. A method of individually servicing a plurality of zones of a subterranean formation comprising: positioning a work string comprising a first sleeve system and a second sleeve system within a wellbore such that the second sleeve system is uphole relative to the first sleeve system, wherein the fir
1. A method of individually servicing a plurality of zones of a subterranean formation comprising: positioning a work string comprising a first sleeve system and a second sleeve system within a wellbore such that the second sleeve system is uphole relative to the first sleeve system, wherein the first sleeve system comprises a first one or more ports, and wherein the second sleeve system comprises a second one or more ports,communicating an obturator through the work string to the second sleeve system;contacting the obturator with a seat of the second sleeve system;applying pressure to the obturator such that the second sleeve system transitions from an installation mode to a delay mode, wherein fluid communication via the second one or more ports is not allowed when the second sleeve system is in the installation mode and the delay mode;communicating the obturator through the work string to the first sleeve system;contacting the obturator with a seat of the first sleeve system;applying pressure to the obturator such that the first sleeve system transitions from an installation mode to a fully open mode, wherein fluid communication via the first one or more ports is not allowed when the first sleeve system is in the installation mode, and wherein fluid communication via the first one or more ports is allowed when the first sleeve system is in the fully open mode;communicating a servicing fluid via the first one or more ports;after communicating the servicing fluid via the first one or more ports, restricting fluid communication via the first one or more ports; andafter restricting fluid communication via the first one or more ports, allowing the second sleeve system to transition from the delay mode to a fully open mode. 2. The method of claim 1, further comprising: communicating a servicing fluid via the second one or more ports. 3. The method of claim 1, wherein the first sleeve system transitions directly from the installation mode to the fully open mode. 4. The method of claim 1, wherein the first sleeve system transitions from the installation mode to a delay mode and from the delay mode to the fully open mode. 5. The method of claim 4, wherein the first sleeve system transitions from the delay mode to the fully open mode almost instantaneously. 6. The method of claim 4, wherein the first sleeve system transitions from the delay mode to the fully open mode upon the passage of a first amount of time. 7. The method of claim 6, wherein the first amount of time is in the range of from about 30 seconds to about 30 minutes. 8. The method of claim 4, wherein the first sleeve system transitions from the delay mode to the fully open mode upon a reduction in pressure applied to a flow bore of the first sleeve system. 9. The method of claim 1, wherein allowing the second sleeve system to transition from the delay mode to the fully open mode comprises allowing a second amount of time to pass after the second sleeve system transitions to the delay mode. 10. The method of claim 9, wherein the second amount of time is from about 30 minutes to about 24 hours. 11. The method of claim 9, wherein the second amount of time is from about 1 hour to about 12 hours. 12. The method of claim 9, wherein the second amount of time is greater than an estimated amount of time, wherein the estimated amount of time is sufficient to perform the steps of: communicating the obturator through the work string to the first sleeve system;transitioning the first sleeve system from the installation mode to the fully open mode;communicating a servicing fluid via the first one or more ports; andrestricting fluid communication via the first one or more ports. 13. The method of claim 12, wherein the second amount of time is greater than the estimated amount of time by at least about 30 minutes. 14. The method of claim 1, wherein restricting fluid communication via the first one or more ports comprises allowing a flow path via the first one or more ports to screen out. 15. The method of claim 1, wherein the second sleeve system comprises: a fluid chamber formed between a ported case and a sliding sleeve; anda fluid metering device in fluid communication with the fluid chamber. 16. The method of claim 15, wherein fluid flow through the fluid metering device is prevented while the second sleeve system is in the installation mode. 17. The method of claim 16, wherein, when the second sleeve system is in the installation mode, the seat of the second sleeve system is retained in a first seat position by a shear pin, and wherein fluid flow through the metering device is allowed subsequent to shearing of the shear pin. 18. The method of claim 1, wherein the second sleeve system comprises: a piston carried at least partially within a ported case; anda low pressure chamber formed between the piston and the ported case. 19. The method of claim 1, wherein the second sleeve system comprises: a piston at least partially received substantially concentrically between the a sliding sleeve and a ported case. 20. The method of claim 19, wherein the second sleeve system further comprises: a lug selectively received through the piston and between the seat of the second sleeve system and the ported case, wherein the lug is selectively received within a lug channel of the ported case.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (217)
Bednar John M. (Houston TX) Postler Daniel P. (Houston TX) Jones Terry V. (Houston TX), Acoustically controlled electro-mechanical circulation sub.
Brunet, Charles; Bouchard, Michel; Mazarac, Kevin, Apparatus and method for controlling the feed-in speed of a high pressure hose in jet drilling operations.
Ross Colby M. (Carrollton TX) Restarick Henry I. (Plano TX), Apparatus and method for placing and for backwashing well filtration devices in uncased well bores.
Avant, Marcus A.; Johnson, Charles C.; King, James G.; Ruddock, David B.; Solfronk, Matthew D.; Kellner, Justin, Ball seat having segmented arcuate ball support member.
Badalamenti, Anthony M.; Turton, Simon; Blanchard, Karl W.; Faul, Ronald R.; Crowder, Michael G.; Rogers, Henry E.; Griffith, James E.; Reddy, B. Raghava, Casing shoes and methods of reverse-circulation cementing of casing.
Badalamenti, Anthony M.; Turton, Simon; Blanchard, Karl W.; Faul, Ronald R.; Crowder, Michael G.; Rogers, Henry E.; Griffith, James E.; Reddy, B. Raghava, Casing shoes and methods of reverse-circulation cementing of casing.
Badalamenti,Anthony M.; Blanchard,Karl W.; Turton,Simon; Faul,Ronald R.; Rogers,Henry E.; Griffith,James E.; Crowder,Michael G., Cementing methods and systems for initiating fluid flow with reduced pumping pressure.
Garcia, Cesar G.; Zimmerman, Patrick J.; Ward, David; Flores, Antonio B.; Dedman, Michael, Cluster opening sleeves for wellbore treatment and method of use.
Xu, Wei Jake; Odell, II, Albert C.; Harrall, Simon J.; Redlinger, Thomas M.; Vreeland, Christopher M.; Antoine, Andrew; Brunnert, David J.; Laird, Tommy L.; Moody, Michael J.; Tilton, Frederick T., Extendable cutting tools for use in a wellbore.
McMahan Michael E. (Duncan OK) Newman Daniel A. (Duncan OK) Winslow Donald W. (Duncan OK) Zunkel Gary D. (Chickasha OK), Hydrostatic referenced safety-circulating valve.
Watson Brock W. (Duncan OK) Squyres Joseph S. (Lafayette LA) Jones Alfred H. (Lafayette LA) May ; Jr. William J. (Morgan City LA) Freeman T. Austin (Wassenaar NLX), Indicating ball catcher.
Holcombe Michael W. (Katy TX) Rothers David E. (Houston TX) Owens Steve C. (Katy TX) Henderson William D. (League City TX) Doane James C. (Friendswood TX), Method & apparatus for actuating a downhole tool.
Surjaatmadja, Jim B.; Howell, Matt T.; Case, Leonard; Robinson, Lonnie R., Method and apparatus for orchestration of fracture placement from a centralized well fluid treatment center.
Cheng, Alick; Surjaatmadja, Jim B.; Rees, Matthew J.; Khallad, Abraham; Rispler, Keith A., Method for acid stimulating a subterranean well formation for improving hydrocarbon production.
Surjaatmadja Jim B. (Duncan OK) Bradley Gary W. (Duncan OK) Tisch Brett L. (Duncan OK), Method of cutting high strength materials with water soluble abrasives.
Harold Kent Beck ; Clark E. Robison ; Arthur Isadore Burke ; Ian Collin Phillips GB; Elbert Juan Smith ; Tance Jackson, Methods and associated apparatus for downhole data retrieval, monitoring and tool actuation.
Badalamenti,Anthony M.; Turton,Simon; Blanchard,Karl W.; Faul,Ronald R.; Crowder,Michael G.; Rogers,Henry E.; Griffith,James E., Methods and systems for cementing wells that lack surface casing.
Badalamenti,Anthony M.; Blanchard,Karl W.; Crowder,Michael G.; Faul,Ronald R.; Griffith,James E; Rogers,Henry E.; Turton,Simon, Methods and systems for reverse-circulation cementing in subterranean formations.
Nguyen,Philip D.; Dusterhoft,Ronald G.; Surjaatmadja,Jim B.; East, Jr.,Loyd E., Methods of controlling sand and water production in subterranean zones.
Pauls, Richard W.; Surjaatmadja, Jim B.; Welton, Thomas D., Methods of fracturing a subterranean formation using a jetting tool and a viscoelastic surfactant fluid to minimize formation damage.
Willett,Ronald M.; Surjaatmadja,Jim B.; McDaniel,Billy W.; Farabee,Leldon Mark; Adams,David M.; East,Loyd E., Methods of isolating hydrajet stimulated zones.
Campbell,Patrick F.; Henderson,William David; Shivers,Jay B.; Dawson,Mark E. P., Multi zone isolation tool having fluid loss prevention capability and method for use of same.
Maternaghan Trevor J. (Brentwood GB2), Process for the manufacture of photographic silver halide emulsions containing silver halide crystals of the twinned typ.
Dusterhoft, Ronald G.; Hamid, Syed; Michael, Robert Ken; Schultz, Roger Lynn, Single trip method for selectively fracture packing multiple formations traversed by a wellbore.
Surjaatmadja, Jim B.; Cheng, Alick; Rispler, Keith A., System and method for fracturing a subterranean well formation for improving hydrocarbon production.
Porter, Jesse Cale; Pacey, Kendall Lee; Howell, Matthew Todd; Standridge, William Ellis; Williamson, Jimmie Robert; Shy, Perry; Watson, Roger, System and method for servicing a wellbore.
Toekje,Jarle; Jokela,Timo; Raw,Ian; Trittschuh,Jennifer E.; Jonas,Jason K.; Ross,Donald W., System and method to control multiple tools through one control line.
Achee ; Jr. Timothy T. ; Bissonette Harold S. ; Dancause Charles M., System for installation of well stimulating apparatus downhole utilizing a service tool string.
Roddy, Craig W.; Covington, Rick L.; Ravi, Krishna M.; Bonavides, Clovis; Frisch, Gary; Mandal, Batakrishna, Use of micro-electro-mechanical systems (MEMS) in well treatments.
Nix George J. (London OK EN) Barrington Burchus Q. (Duncan OK) Farley David L. (Duncan OK) Hortman Norman G. (Laurel MS), Weight and pressure operated well testing apparatus and its method of operation.
Surjaatmadja Jim B. (Duncan OK) Holden Steven L. (Fletcher OK) Szarka David D. (Duncan OK), Well jetting apparatus and met of modifying a well therewith.
Allison, David B.; Webb, Alan B.; Streich, Steven G.; Chalker, Christopher J.; Solhaug, Kristian, Well tool including swellable material and integrated fluid for initiating swelling.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.