Casing conveyed well perforating apparatus and method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-043/1185
E21B-043/11
출원번호
US-0840589
(2004-05-06)
등록번호
US-7461580
(2008-12-09)
발명자
/ 주소
Bell,Matthew Robert George
Burres,Christopher
Ekelund,Aron
출원인 / 주소
Shell Oil Company
인용정보
피인용 횟수 :
9인용 특허 :
67
초록▼
Disclosed is a casing conveyed perforating system and methods for externally perforating a wellbore and casing. The perforating system is attached to the outside of the casing and is conveyed along with the casing when it is inserted into the wellbore. The perforation may be accomplished using two g
Disclosed is a casing conveyed perforating system and methods for externally perforating a wellbore and casing. The perforating system is attached to the outside of the casing and is conveyed along with the casing when it is inserted into the wellbore. The perforation may be accomplished using two groups of charges, which are contained in protective pressure chambers, however, may use only one group of bi-directional charges. Each pressure chamber may be positioned radially around the outside of the wellbore casing. The pressure chambers form longitudinally extending ribs, which conveniently serve to center the casing within the wellbore. One group of charges may be aimed inward in order to perforate the casing, while the other group of charges is aimed outward in order to perforate the formation.
대표청구항▼
The invention claimed is: 1. A firing head for activating a perforating device capable of perforating a subterranean-earth formation through a wellbore, the perforating device comprising a plurality of gun assemblies, each gun assembly comprising a plurality of explosive charges, the firing head co
The invention claimed is: 1. A firing head for activating a perforating device capable of perforating a subterranean-earth formation through a wellbore, the perforating device comprising a plurality of gun assemblies, each gun assembly comprising a plurality of explosive charges, the firing head comprising: a body comprising a plurality of longitudinal passages there through, at least one of said longitudinal passages being a mounting passage for receipt of a tubular object; at least one gun assembly comprising at least a first charge that is configured to perforate said tubular object in said mounting passage upon detonation and a second charge that is configured to not perforate said tubular object in said mounting passage upon detonation; a plurality of donor charges, each donor charge secured within one of said longitudinal passages and positioned near a respective gun assembly; and a firing assembly for detonating the plurality of donor charges, the detonation of each donor charge creating ballistic energy that is transferred to a receiver charge in an another gun assembly for detonating the plurality of explosive charges contained therein. 2. The apparatus of claim 1, wherein each gun assembly is contained within a sealed pressure chamber for isolating the gun assembly from the wellbore. 3. The apparatus of claim 1, wherein the plurality of explosive charges comprise a receiver charge coupled to a booster charge, the receiver charge being positioned near a respective donor charge for accepting the ballistic energy and transferring the ballistic energy to the booster charge. 4. The apparatus of claim 1, further comprising a nipple for securing each donor charge within the respective longitudinal passage, each nipple being threadably connected to one end of the respective longitudinal passage. 5. The apparatus of claim 1, wherein the firing assembly is activated by a detonation signal from a surface of the formation, the detonation signal selected from the group of signals comprising: electronic, electromagnetic, acoustic, seismic, hydraulic, optical or radio frequency. 6. The apparatus of claim 5, further comprising a shearable plug positioned through a wall of the tubular object and the body of the firing head, the firing assembly being activated by hydraulic pressure from inside the tubular object when a force plug shears the shearable plug, creating a fluid path between the tubular object and the fining assembly. 7. The apparatus of claim 5, wherein the detonation signal is transmitted from the surface of the formation to the firing assembly through one of at least a continuous and non-continuous transmission medium. 8. The apparatus of claim 7, wherein the firing assembly comprises a transmitter/receiver for receiving the detonation signal from the surface and transmitting information back to the surface from the firing assembly. 9. The apparatus of claim 8, wherein the firing assembly comprises an isolating device positioned between the transmission medium and the transmitter/receiver for isolating the transmission medium from conductive fluids entering the firing assembly. 10. The apparatus of claim 9, wherein the firing assembly comprises a processor for interpreting the detonation signal. 11. The apparatus of claim 10, wherein the firing assembly comprises a detonator for each donor charge, the detonator being electronically coupled to the transmitter/receiver. 12. The apparatus of claim 11, wherein the detonator is an exploding bridge wire device. 13. The apparatus of claim 11, wherein each donor charge may be selectively activated. 14. The apparatus of claim 13, wherein each donor charge may be simultaneously activated. 15. An apparatus for transferring ballistic energy from a perforating device to another perforating device, the perforating device and the another perforating device each comprising a gun assembly, each gun assembly comprising a plurality of explosive charges, the apparatus comprising: a body comprising a plurality of longitudinal passages there through, at least one of said longitudinal passages being a mounting passage for receipt of a tubular object; at least one gun assembly comprising at least a first charge that is configured to perforate said tubular object in said mounting passage upon detonation and a second charge that is configured to not perforate said tubular object in said mounting passage upon detonation; a donor charge secured within one of the plurality of longitudinal passages, the donor charge being positioned near the gun assembly of the perforating device; another donor charge being positioned near the gun assembly of the another perforating device; and a detonating medium for transferring the ballistic energy from the donor charge to the another donor charge. 16. The apparatus of claim 15, wherein each gun assembly is secured within a sealed chamber. 17. The apparatus of claim 15, wherein each plurality of explosive charges comprises a receiver charge and a booster charge. 18. The apparatus of claim 17, wherein the donor charge, the another donor charge, the receiver charge and the booster charge are bi-directional. 19. The apparatus of claim 18, further comprising a nipple for securing the donor charge within one of the plurality of longitudinal passages and another nipple for securing the another donor charge within at least one of the one of the plurality of longitudinal passages and the another one of the plurality of longitudinal passages. 20. The apparatus of claim 18, wherein donor charge is positioned about one-half inch (½") from at least one of the booster charge and the receiver charge for the perforating device. 21. The apparatus of claim 18, wherein the another donor charge is positioned about one-half inch (½") from at least one of the receiver charge and the booster charge for the another perforating device. 22. The apparatus of claim 15, wherein the detonating medium comprises a detonating cord. 23. The apparatus of claim 15, wherein the donor charge is positioned opposite the another donor charge relative to the detonating medium in the one of the plurality of longitudinal passages. 24. The apparatus of claim 15, wherein the another donor charge is positioned in another one of the plurality of longitudinal passages on the same side of the detonating medium as the donor charge. 25. A method for transferring ballistic energy from a first perforating device to a second perforating device, the first perforating device and the second perforating device each comprising a plurality of gun assemblies, each gun assembly comprising a plurality of explosive charges, the method comprising the steps of: a) detonating one of the plurality of explosive charges in each gun assembly of the first perforating device; and b) transferring ballistic energy from the explosive charge detonated in step a) to at least one other explosive charge; wherein at least one gun assembly is mounted on a tubular object and comprises at least a first charge that is configured to perforate the tubular object upon detonation and a second charge that is configured to not perforate the tubular object upon detonation.
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이 특허에 인용된 특허 (67)
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Burleson John D. (Denton TX) Mason Justin L. (Denton TX) George Flint R. (Flower Mound TX), Combined pressure testing and selective fired perforating systems.
Wilson Dennis R. (Ponca City OK) Coffee Robert L. (Newkirk OK), Downhole activated process and apparatus for deep perforation of the formation in a wellbore.
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Brooks James E. (Manvel TX) Lerche Nolan C. (Stafford TX) Aseltine Clifford L. (Houston TX) Rozek Kenneth E. (Houston TX) Parrott Robert A. (Houston TX), Perforating gun having a plurality of charges including a corresponding plurality of exploding foil or exploding bridgew.
Turano Andy (Wallingford CT) Aresco Carmelo A. (Middletown CT), Perforating gun using an electrical safe arm device and a capacitor exploding foil initiator device.
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Johnson, Douglas W.; Gracyalny, Dale T.; Kershaw, Thomas N.; Moody, John R., Sheet material having weakness zones and a system for dispensing the material.
Willig Roy L. (Lafayette LA) LeBlanc ; III Edward J. (Youngsville LA) Airhart ; Sr. Harold (Lafayette LA), Simultaneous multigun high density multiphase perforating unit.
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