[특허]Laser assisted blowout preventer and methods of use

[미국특허] Laser assisted blowout preventer and methods of use 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	E21B-029/12 E21B-043/116 E21B-043/119 E21B-029/06 E21B-029/08 E21B-034/04
출원번호	US-0034175 (2011-02-24)
등록번호	US-8783361 (2014-07-22)
발명자 / 주소	Zediker, Mark S. Bergeron, Henry A. Clark, Philip V. Moxley, Joel F. Deutch, Paul D. Underwood, Lance D. Rinzler, Charles C. De Witt, Ronald A. Kolachalam, Sharath K. Grubb, Daryl L.
출원인 / 주소	Foro Energy, Inc.
대리인 / 주소	Belvis, Glen P.
인용정보	피인용 횟수 : 0 인용 특허 : 235

초록 ▼

There is provided a high power laser assisted blowout preventer and methods of use. In particular, there are provided systems and assemblies for utilizing high power laser energy within a blowout preventer to cut tubulars that are present within the bore of the blowout prevent, reducing the risk tha

대표청구항 ▼

1. A blowout preventer stack comprising: A ram movable from a first position to a second position, thereby defining a ram path;A laser cutter for emitting a high power laser beam defining a laser beam path, wherein the high power laser beam has at least about 1 kW of power;The laser cutter positioned relative to the ram and facing a pressure containment cavity formed within the blowout preventer stack, whereby the laser beam path is adjacent the ram path, and wherein the beam path enters into the pressure containment cavity and the second position is located within the pressure containment cavity. 2. A blowout preventer stack comprising: A ram preventer;The blowout preventer stack defining a pressure containment cavity; andThe ram preventer comprising a high power laser cutter, for emitting a high power laser beam defining a laser beam path, wherein the high power laser beam has at least about 1 kW of power; and, the pressure containment cavity having an axis. 3. The blowout prevent stack of claim 2, wherein the ram preventer is a shear ram assembly and the stack comprises: a. an annular preventer assembly;b. a pipe ram assembly; and,c. the annular preventer assembly, shear ram assembly and pipe ram assembly define at least a portion of the pressure containment cavity. 4. The blowout preventer stack of claim 3, wherein the laser beam path is directed toward the axis of the pressure containment cavity. 5. The blowout preventer stack of claim 3, wherein the beam path is directed towards the pressure containment cavity. 6. The blowout preventer stack of claim 3, wherein the beam path intersects the axis of the pressure containment cavity. 7. The blowout preventer of claim 3, comprising a laser cutter shield located adjacent to the pressure containment cavity, wherein the laser cutter shield protects the laser cutter from damage, while not appreciably interfering with the movement of tubulars through the cavity. 8. A blowout preventer comprising: a. A laser cutter for emitting a high power laser beam, wherein the high power laser beam has at least about 1 kW of power;b. A ram preventer comprising opposing rams;c. A pressure containment cavity within a stack for passing tubulars therethrough;d. The laser cutter having a beam path;e. The opposing rams capable of movement into the pressure containment cavity;f. An area within the pressure containment cavity for engagement of the opposing rams with a tubular; and,g. The beam path positioned in the area within the pressure containment cavity for engagement of the opposing rams with the tubular. 9. A subsea blowout preventer comprising: a. A laser cutter for emitting a high power laser beam, wherein the high power laser beam has at least about 1 kW of power;b. A ram preventer, having a ram;c. A pressure containment cavity for passing tubulars therethrough;d. The laser cutter having a beam path;e. The ram capable of movement into the pressure containment cavity;f. An area within the pressure containment cavity for engagement of the ram with a tubular; and,g. The beam path directed adjacent to the area within the pressure containment cavity for engagement of the ram with the tubular. 10. The method of claim 9, wherein the beam path is above the area within the pressure containment cavity for engagement of the ram with the tubular. 11. The method of claim 9, wherein the beam path is below the area within the pressure containment cavity for engagement of the ram with the tubular. 12. A laser assisted blowout preventer comprising: a. An annular preventer;b. A pipe ram assembly; and,c. A laser shear ram assembly comprising: i. A ram movable from a first position to a second position; and,ii. A laser cutter adjacent a pressure containment cavity formed within the laser assisted blowout preventer, wherein the laser cutter emits a high power laser beam that defines a laser beam path, wherein the high power laser beam has at least about 1 kW of power; the laser cutter positioned in the laser shear ram assembly, wherein the laser beam path enters into the pressure containment cavity and the second ram position is located within the pressure containment cavity. 13. The laser assisted blowout preventer of claim 12, wherein the blowout preventer is a subsea blowout preventer comprising: a shear ram assembly and a second pipe ram assembly; wherein the annular preventer, laser shear ram assembly, shear ram assembly, pipe ram assembly and second pipe ram assembly form a stack of components. 14. The laser assisted blowout preventer of claim 12, wherein the laser beam path extends toward a center axis of the pressure containment cavity. 15. The laser assisted blowout preventer of claim 12, wherein the pressure containment cavity has a vertical axis and the laser beam path forms an acute angle with the vertical axis. 16. The laser assisted blowout preventer of claim 12, wherein the pressure containment cavity has a vertical axis and the laser beam path that forms an obtuse angle with the vertical axis. 17. The laser assisted blowout preventer of claim 12, wherein the pressure containment cavity has a vertical axis and the laser beam path forms about a 90 degree angle with the vertical axis. 18. The laser assisted blowout preventer of claim 12, wherein the laser shear ram assembly comprises: a. a body having the pressure containment cavity for passing tubulars therethrough;b. the pressure containment cavity having a wall and a center axis; andc. the laser cutter positioned prior to activation within the body of the laser shear ram assembly, adjacent the pressure containment cavity wall, and outside of the pressure containment cavity. 19. The laser assisted blowout preventer of claim 12, wherein the laser cutter is capable of at least partially orbiting an axis of the pressure containment cavity while firing the laser beam. 20. The laser assisted blowout preventer of claim 19, comprising a second laser cutter. 21. The laser assisted blowout preventer of claim 19, wherein it takes about ½ of an orbit to complete a cut of a tubular. 22. The laser assisted blowout preventer of claim 19, wherein it takes about ⅓ of an orbit to complete a cut of a tubular. 23. The laser assisted blowout preventer of claim 19, wherein it takes about ¼ of an orbit to complete a cut of a tubular. 24. The laser assisted blowout preventer of claim 12, wherein the laser cutter is contained in the ram. 25. The laser assisted blowout preventer of claim 12, wherein the ram has a path of travel for movement of the ram from the first position to the second position thereby defining a ram path. 26. The laser assisted blowout preventer of claim 25, wherein the laser beam path is transverse to the ram path. 27. The laser assisted blowout preventer of claim 25, wherein the laser beam path is parallel to the ram path. 28. The laser assisted blowout preventer of claim 12, comprising: a second laser cutter that emits a second laser beam that defines a second laser beam path, wherein the pressure containment cavity is substantially circular defining a center axis; and each of the laser cutter and the second laser cutter is adjacent to but not in the pressure containment cavity, and the laser beam path and the second laser beam path intersect the center axis of the pressure containment cavity. 29. A laser assisted blowout preventer comprising: a. A frame;b. A blowout preventer stack mechanically associated with the frame, whereby the frame at least in part encompasses and protects the blowout preventer stack, the blowout preventer stack comprising; i. A pressure containment cavity formed within the blowout preventer stack for passing tubulars therethrough; and,ii. A high power laser delivery assembly positioned outside of the pressure containment cavity when not activated, wherein the high power laser delivery assembly delivers a high power laser beam, wherein the high power laser beam has at least about 1 kW of power. 30. The laser assisted blowout preventer of claim 29, wherein the laser delivery assembly comprises: a. a laser cutter having a laser beam path;b. the laser cutter integral with a shear ram; andc. the laser beam path directed into the pressure containment cavity. 31. The laser assisted blowout preventer of claim 29, wherein the pressure containment cavity for passing tubulars therethrough has a vertical axis, and the laser delivery assembly comprises: a. a first laser cutter having a first beam path directed toward the pressure containment cavity;b. a second laser cutter having a second beam path directed toward the pressure containment cavity;c. at least one of the first or second laser cutters contained in a shear ram; and,d. at least one of the first or second beam paths directed toward the vertical axis. 32. The laser assisted blowout preventer of claim 29, wherein the laser delivery assembly comprises: a. a plurality of laser cutters each having a beam path;b. at least one of the plurality of laser cutters mechanically associated with a shear ram, wherein the shear ram is contained within the blowout preventer stack, wherein the blowout preventer stack has an area within the pressure containment cavity for engagement with a tubular by the shear ram; andc. at least one of the beam paths is directed toward the area within the pressure containment cavity for engagement with a tubular by the shear ram. 33. A laser assisted subsea blowout preventer drilling system, the system comprising: a. A subsea riser;b. A blowout preventer stack comprising: i. A pressure containment cavity for passing tubulars through the blowout preventer stack, wherein the pressure containment cavity is in mechanical association and in fluid communication with the subsea riser, whereby tubulars can be passed to and from the subsea riser into the pressure containment cavity for the purpose of advancing a borehole;ii. A laser delivery assembly;iii. A shear ram assembly, wherein the laser delivery assembly is optically and mechanically associated with the shear ram assembly;c. Whereby, upon activation the laser delivery assembly delivers a high power laser beam to a tubular within the pressure containment cavity resulting in cutting the tubular to reduce the risk that the tubular would prevent the closing of the shear ram assembly, wherein the high power laser beam has at least about 1 kW of power. 34. The laser assisted subsea blowout preventer drilling system of claim 33, wherein the high power laser beam forms a laser delivery pattern to sever the tubular in the blowout preventer cavity. 35. The laser assisted subsea blowout preventer drilling system of claim 33, wherein the high power laser beam forms a laser delivery pattern to weaken the tubular in the pressure containment cavity. 36. The laser assisted subsea blowout preventer drilling system of claim 33, wherein the high power laser beam forms a laser delivery pattern to remove a first and a second area of the tubular, wherein the first and second areas are discrete. 37. A laser assisted subsea blowout preventer drilling system, the system comprising: a. A subsea riser;b. A blowout preventer stack, comprising; i. A blowout preventer cavity for passing tubulars therethrough, wherein the blowout preventer cavity is in fluid communication and mechanical association with the subsea riser, wherein tubulars can be passed from the subsea riser into the blowout preventer cavity and drilling fluids can be passed from the blowout preventer cavity to the subsea riser,ii. A laser delivery assembly;iii. A shear ram assembly having an opposed pair of shear rams, wherein the laser delivery assembly is optically and mechanically associated with at least one of the opposed pair of shear rams, whereby upon activation the laser delivery assembly delivers a high power laser beam to a tubular within the blowout preventer cavity resulting in the cutting of the tubular to assist the closing of the shear ram assembly, wherein the high power laser beam has at least about 1 kW of power. 38. The laser assisted subsea blowout preventer drilling system of claim 37, comprising a laser delivery pattern configured to sever the tubular in the blowout preventer cavity. 39. The laser assisted subsea blowout preventer drilling system of claim 37, comprising a laser delivery pattern configured to weaken the tubular in the blowout preventer cavity. 40. The laser assisted subsea blowout preventer drilling system of claim 37, comprising a laser delivery pattern configured to remove a first and a second area of the tubular, wherein the first and second areas are discrete. 41. A laser assisted subsea blowout preventer drilling system, the system comprising: a. A subsea riser;b. A blowout preventer stack;c. The blowout preventer stack comprising: a. A blowout preventer stack cavity for passing tubulars therethrough, wherein the blowout preventer stack cavity is in fluid communication with the subsea riser;b. A laser delivery assembly for providing a high power laser beam, wherein the high power laser beam has at least about 1 kW of power; and,c. A shear ram assembly having an opposed pair of shear rams, wherein the laser delivery assembly is mechanically associated with the shear ram assembly. 42. The subsea blowout preventer of claim 41, comprising a shield to protect the laser delivery assembly from drilling fluids. 43. A laser shear ram assembly comprising: a. A body;b. The body defining a pressure containment cavity that has a vertical axis, whereby the pressure containment cavity is capable of receiving a tubular for advancing or removing the tubular from a borehole;c. A first shear ram having a first piston assembly, whereby the first piston assembly is capable of moving the first shear ram into the pressure containment cavity of the body upon activation of the first piston assembly;d. A second shear ram having a second piston assembly, whereby the second piston assembly is capable of moving the second shear ram into the pressure containment cavity of the body upon activation of the second piston assembly; and,e. A laser delivery assembly, whereby when activated the laser delivery assembly is capable of propagating a high power laser beam into the pressure containment cavity, wherein the high power laser beam has at least about 1 kW of power. 44. The laser shear ram assembly of claim 43, wherein the laser delivery assembly comprises a means for delivering a predetermined laser beam pattern to the tubular. 45. The laser shear ram assembly of claim 44, wherein the predetermined laser beam delivery pattern comprises two areas of removal of the tubular. 46. The laser shear ram assembly of claim 44, wherein the predetermined laser beam delivery pattern comprises a plurality of parallel areas of removal of the tubular. 47. An offshore drilling rig having a laser assisted subsea blowout preventer system for the rapid cutting of tubulars in the blowout preventer during emergency situations, the laser system comprising: a. A riser capable of being lowered from and operably connected to an offshore drilling rig to a depth at or near a seafloor;b. A blowout preventer capable of being operably connected to the riser and lowered by the riser from the offshore drilling rig to the seafloor;c. A high power laser in optical communication with a laser cutter; and,d. The laser cutter operably associated with the blowout preventer and riser, whereby the laser cutter is capable of being lowered to at or near the seafloor and upon activation delivering a high power laser beam to a tubular that is within the blowout preventer, wherein the high power laser beam has at least about 1 kW of power. 48. An offshore drilling rig having a laser assisted subsea blowout preventer system for the rapid cutting of tubulars in the blowout preventer during emergency situations, the laser system comprising: a. A riser positioned at a depth at or near a seafloor, wherein the riser is operably connected to an offshore drilling rig;b. A blowout preventer positioned at or near the seafloor, wherein the blowout preventer is operably connected to the riser;c. A high power laser in optical communication with a laser cutter; and,d. The laser cutter operably associated with the blowout preventer and riser and positioned at or near the seafloor, whereby upon activation the laser cutter delivers a high power laser beam to a tubular that is within the blowout preventer, wherein the high power laser beam has at least about 1 kW of power. 49. An offshore drilling rig having a laser assisted subsea blowout drilling system, the system comprising: a. A riser capable of being lowered from and operably connected to an offshore drilling rig to a depth at or near a seafloor;b. A blowout preventer capable of being operably connected to the riser and lowered by the riser from the offshore drilling rig to the seafloor;c. The blowout preventer comprising a shear ram capable of mechanically interacting with an area of a tubular that is within the blowout preventer;d. The shear ram being operably associated with a laser cutter;e. A high power laser in optical communication with the laser cutter; and,f. The laser cutter operably associated with the blowout preventer and riser, whereby the laser cutter is capable of being lowered to at or near the seafloor and upon activation delivering a high power laser beam to the tubular that is within the blowout preventer and to an area on the tubular that is at or near the area of mechanical interaction with the shear ram, wherein the high power laser beam has at least about 1 kW of power. 50. A deep water offshore drilling rig capable of drilling in over 5000 feet of water, having a laser delivery assembly operably associated with a blowout preventer and a riser for the rapid cutting of tubulars in the blowout preventer, the offshore drilling rig comprising: a. a means for hoisting tubulars and advancing a borehole and, a high power laser having at least 20 kW of power;b. at least 5000 feet of riser sections, capable of being connected together and lowered to a depth at or near a seafloor;c. a blowout preventer capable of being operably connected to the riser and lowered to the seafloor;d. the high power laser in optical communication with a laser cutter;e. the laser cutter mechanically associated and optically associated with the blowout preventer, whereby the laser cutter is capable of being lowered to at or near the seafloor and upon activation delivering a high power laser beam to a tubular that is within the blowout preventer and to an area on the tubular that is intended to be cut. 51. The drilling rig of claim 50, wherein the means for hoisting tubulars and advancing a borehole comprises a derrick, a drawworks and a top drive. 52. A subsea blowout preventer stack comprising: A ram and a laser cutter positioned within the blowout preventer stack;The laser cutter having a means to deliver a predetermined high power laser beam cutting pattern, with a high power laser beam having at least about 1 kW of power;Whereby the predetermined laser beam cutting pattern corresponds to an area of a tubular to be removed within the blowout preventer stack. 53. A subsea blowout preventer stack comprising: a. A ram movable from a first position to a second position; and,b. A high power directed energy means for providing energy greater than about 1 kW and for cutting positioned relative to the ram for cutting positioned relative to the ram and facing a pressure containment cavity formed within the stack, wherein the high power directed energy means for providing energy greater than about 1 kW and for cutting defines a directed energy path that enters into the pressure containment cavity and the second position is located within the pressure containment cavity. 54. A subsea blowout preventer comprising: a. A high power directed energy means for providing energy greater than about 1 kW and for cutting;b. A ram preventer comprising a ram;c. A pressure containment cavity within the blowout preventer for passing tubulars therethrough;d. The high power directed energy means for providing energy greater than about 1 kW and for cutting defining a directed energy path;e. The ram capable of movement into the pressure containment cavity;f. An area within the pressure containment cavity for engagement of the ram with a tubular; and,g. The directed energy path directed toward the area within the pressure containment cavity. 55. A method drilling subsea wells by using a laser assisted blowout preventer and riser, the method comprising: a. Lowering a laser assisted blowout preventer having a first inner cavity from an offshore drilling rig to a seafloor using a riser having a second inner cavity, the seafloor having a borehole;b. Securing the laser assisted blowout preventer to the borehole, whereby the borehole, the first inner cavity and the second inner cavity are in fluid and mechanical communication; and,c. Advancing the borehole by lowering tubulars from the offshore drilling rig down through the second inner cavity, the first inner cavity and into the borehole;d. Wherein, the laser assisted blowout preventer has the capability to perform high power laser cutting with a high power laser beam having at least about 1 kW of power, of a tubular present in the first inner cavity. 56. The method of claim 55, wherein the laser assisted blowout preventer comprises: a. a frame;b. a blowout preventer stack mechanically associated with the frame;c. the blowout preventer stack comprising a third cavity for passing tubulars therethrough, which third cavity is at least a part the first cavity; and,d. the blowout preventer stack comprising a laser delivery assembly, wherein the laser delivery assembly is positioned outside of the first and third cavities when not activated. 57. The method of claim 56, wherein the laser delivery assembly comprises: a. a laser cutter having a beam path;b. the laser cutter operationally associated with a shear ram; andc. the beam path directed into the cavity. 58. The method of claim 55, wherein the laser assisted blowout preventer comprises: a. an annular preventer;b. a pipe ram assembly; and,c. a laser shear ram assembly.

이 특허에 인용된 특허 (235) 인용/피인용 타임라인 분석

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Walling John B. (P.O. Box 16266 Fort Worth TX 76133), Flexible production tubing.
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Coronado Martin P. (Houston TX) Loughlin Michael J. (Houston TX) Mendez Luis E. (Houston TX) Mody Rustom K. (Houston TX), Fluid-actuated wellbore tool system.
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Gergely John S. (Ponca City OK), Fluorescence sensing apparatus for determining presence of native hydrocarbons from drilling mud.
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Moeny William M. (Albuquerque NM) Small James G. (Albuquerque NM), Focused shock spark discharge drill using multiple electrodes.
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Surjaatmadja Jim B. (Duncan OK), Force sensor and sensing method using crystal rods and light signals.
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Harry B. Curlett ; David Paul Sharp ; Marvin Allen Gregory, Formation cutting method and system.
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Rom Josef (Haifa IL) Alterman Israel (Savyon IL) Schwartz Joseph (Haifa IL), Formation of load-bearing foundations by laser-beam irradiation of the soil.
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Dodge Carl (Alief TX) Smith ; Jr. Harry D. (Houston TX), Formation tester.
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Ara Kuniaki (Mito JPX) Rindo Hiroshi (Mito JPX) Nakamoto Koichiro (Mito JPX) Tsumanuma Takashi (Sakura JPX) Chigira Sadao (Chiba JPX) Sanada Kazuo (Chiba JPX) Fukuda Osamu (Sakura JPX), Heat and radiation resistant optical fiber.
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Gyory Gyula (Szolnok HUX) Flrin Zoltn (Nagykanizsa HUX), Heat insulating tube.
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Stephenson Edgar O. (Tacoma WA) Brown Victor R. R. (Tacoma WA), High temperature insulated casing.
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Bearman,Greg; Pelletier,Michael J.; Seshadri,Suresh; Pain,Bedabrata, High throughput reconfigurable data analysis system.
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Schmidt James L. (Redondo Beach CA) Jacoby Jerold L. (Long Beach CA) Shaw Garrett D. (Rancho Palos Verdes CA) Bhuta Pravin G. (Torrance CA), Holographic instrument for measuring stress in a borehole wall.
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Wachowicz Stanley W. (Edmonton CAX) Downie R. James (Sherwood Park CAX), Hydraulic power system and method.
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Hother,John Anthony; Cockshott,Robert Alexander, Imaging sensor optical system.
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Chawla Manmohan S. (Houston TX), Implosion shaped charge perforator.
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Chawla Manmohan S. (Houston TX) McPhee William A. (Houston TX), Implosion shaped charge perforator.
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Elliston Tom (1401 Westover La. Fort Worth TX 76107), Improved coil tubing injector unit.
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Smith ; Jr. Harry D. (Houston TX) Dodge Carl (Alief TX), In situ measurement of gas content in formation fluid.
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Bloomfield Harvey S. (Bay Village OH), In-situ laser retorting of oil shale.
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McCain,Sandra Helton; Medley,John Mark; Zimmer,Agnes Kam, Inkjet ink having yellow dye mixture.
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Maringer, Adolf; Kronegger, Karl; Grossinger, Michael, Inlay cards and method for its manufacture.
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Willis Clyde A. (Wichita Falls TX), Inner tube assembly for dual conduit drill pipe.
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Luft H. Bernie,CAX ; Wilde Graham,CAX ; Pelensky Peter J.,CAX, Insulated and/or concentric coiled tubing.
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Stephenson Edgar O. (W. Tacoma WA) Kohl John M. (Tacoma WA) Cunningham Charles R. (S. Seattle WA), Insulated casing assembly.
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Stalder John L. (Ventura CA), Insulated prestressed conduit string for heated fluids.
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McStravick David M. (Houston TX) Chenoweth David V. (Houston TX), Insulating tubular conduit apparatus.
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Oglesby, Kenneth D., Inverted motor for drilling rocks, soils and man-made materials and for re-entry and cleanout of existing wellbores and pipes.
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Oglesby,Kenneth D., Inverted motor for drilling rocks, soils and man-made materials and for re-entry and cleanout of existing wellbores and pipes.
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Tudor,Eric Hughson; Gavin,William George, Isolation assembly for coiled tubing.
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Munk, Brian N.; Pallini, Joseph W.; Stonesifer, Gary R., Keel joint arrangements for floating platforms.
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Kobayashi, Toshio; Kogure, Eiji; Yamamoto, Hiromitsu, Laser boring method and system.
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Doggett David F. (1370 Lincoln Ave. Sunnyvale CA) McCaul Bruce W. (1370 Lincoln Ave. Palo Alto CA 94301), Laser diode/lens assembly.
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Stout ; Daniel W., Laser drilling method and system of fossil fuel recovery.
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Theriault Gregory A. ; Lieberman Stephen H. ; Knowles David S. ; Martini Leonard J., Laser induced breakdown spectroscopy soil contamination probe.
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Batarseh, Samih, Laser liner creation apparatus and method.
상세보기
Ward Brooke A. (Goring on Thames GB2), Laser pipe welder/cutter.
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Batarseh,Samih; Perry,Kent; Gahan,Brian C., Laser spectroscopy/chromatography drill bit and methods.
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Batarseh, Samih, Laser wellbore completion apparatus and method.
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Gergely John S. (Ponca City OK) McLimans Roger K. (Wilmington DE), Laser-enhanced oil correlation system.
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Bissonnette,Laurent; Pelletier,Diane I.; Toupin,Michael J.; Gobush,William; Gribben,Douglas Alan; Lentz,Paul, Launch monitor.
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Young Christopher M. ; Cravey William R., Linear aperture pseudospark switch.
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Robison,Clark E., Linear displacement measurement method and apparatus.
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Morrill Charles D. (Humble TX), Low profile and lightweight high pressure blowout preventer.
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Timothy John Woodrow GB, Marine riser.
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Boyle Bruce W. (Sugar Land TX) Muller Laurent E. (Stafford TX), Means for placing cable within coiled tubing.
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Wittrisch Christian (Rueil Malmaison FRX) Fay Jean-Baptiste (Paris FRX), Measuring device and method in a hydrocarbon production well.
상세보기
DiFoggio,Rocco; Bergren,Paul, Method and apparatus for a downhole spectrometer based on electronically tunable optical filters.
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Shammai, Michael; Gordon, Robert; DiFoggio, Rocco, Method and apparatus for an advanced optical analyzer.
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Milberger,Lionel J.; Reimert,Larry E.; Wade,Morris B., Method and apparatus for blow-out prevention in subsea drilling/completion systems.
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Brown, George Albert, Method and apparatus for determining flow rates.
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Legget Henry H. (Hallsville TX), Method and apparatus for installing electrical logging cable inside coiled tubing.
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Welch ; Albert B., Method and apparatus for laser treatment of geological formations.
상세보기
Richerzhagen Bernold,CHX, Method and apparatus for machining material with a liquid-guided laser beam.
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Shammai,Michael; Gordon,Robert; Sanchez,Francisco Galvan, Method and apparatus for obtaining a micro sample downhole.
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Salisbury Winfield W. (Scottsdale AZ) Stiles Walter J. (Phoenix AZ), Method and apparatus for perforating oil and gas wells.
상세보기
Jones, Christopher; Sofer, Zvi; Drozd, Richard J., Method and apparatus for performing rapid isotopic analysis via laser spectroscopy.
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Jones, Christopher; Sofer, Zvi; Drozd, Richard J., Method and apparatus for performing rapid isotopic analysis via laser spectroscopy.
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Griffith Michael J. (Needville TX), Method and apparatus for testing wells using dual coiled tubing.
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Newman Kenneth R. (Willis TX) Stone Lyndon R. (Humble TX) Tong David C. (Conroe TX), Method and apparatus for the injection of cable into coiled tubing.
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John G. Misselbrook ; Spencer J. Fried CA, Method and apparatus using coiled-in-coiled tubing.
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Bonigen Christian,FRX, Method and device for welding with welding beam control.
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Tubel, Paulo S., Method and system for monitoring smart structures utilizing distributed optical sensors.
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Ibrahim,Emad B.; Elrod,Louis W.; Jones,Christopher M.; Shayegi,Sara; Wiemers,Timothy O., Method and system for reservoir characterization in connection with drilling operations.
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Scheihing Mark H. ; White Gary Lee ; Klein James D., Method for determining the relative clay content of well core.
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Shuck Lowell Z. (Morgantown WV), Method for in situ gasification of a subterranean coal bed.
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Conti Allen C. (Garfield Heights OH) Conti Armand R. (Youngstown OH), Method for installing cable using an inner duct.
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Shuck Lowell Z. (Morgantown WV), Method for laser drilling subterranean earth formations.
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Jones,Christopher M., Method for preparing and processing a sample for intensive analysis.
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Stottlemyer, Thomas R., Method for protecting optical fibers embedded in the armor of a tow cable.
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Olson Grieg A., Method for reducing strain on bragg gratings.
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Connell Michael L. (Duncan OK), Method for running downhole tools and devices with coiled tubing.
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Tolman, Randy C.; Nygaard, Kris J.; El-Rabaa, Abdel Wadood M.; Sorem, William A., Method for treating multiple wellbore intervals.
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Vereecken Harry,DEX ; Holtenmeier Jurgen,DEX ; Hashagen Uwe,DEX, Method of and probe for subsurface exploration.
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Moeny, William M.; Hill, Gilman, Method of drilling using pulsed electric drilling.
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Rom Josef (7 Habrosh St. Haifa ILX) Alterman Israel (7 Habrosh St. Savion ILX 56915) Shwartz Josef (Haifa ILX), Method of extracting liquid and gaseous fuel from oil shale and tar sand.
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Chateau, Alain, Method of maintaining mobile terminal synchronization during idle communication periods.
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Hatcher Wayne B., Method of severing a downhole pipe in a well borehole.
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Schultz Roger L. (Richardson TX) Harkins Gary O. (Wassenaar NLX), Methods of perforating and testing wells using coiled tubing.
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Reed,Claude B.; Xu,Zhiyue, Methods of using a laser to perforate composite structures of steel casing, cement and rocks.
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Reed,Claude B.; Xu,Zhiyue; Parker,Richard A.; Graves,Ramona M.; Stone,Thomas W., Methods of using a laser to spall and drill holes in rocks.
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McDaniel,Billy W.; Surjaatmadja,Jim B., Methods of well stimulation during drilling operations.
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Lovell, John R.; Zemlak, Warren; Allcorn, Marc; Peixoto, Luis F.; Harrison, Steven; Prestridge, Andrew; Tunc, Gokturk; Espinosa, Frank, Methods, systems and apparatus for coiled tubing testing.
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Lindroth David P. (Apple Valley MN) Morrell Roger J. (Bloomington MN) Blair James R. (Inver Grove Heights MN), Microwave assisted hard rock cutting.
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Neil I. Douglas GB, Monitoring fluid flow through a filter.
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Scott Robert J. ; Herrmann Robert P. ; Ray Donald R., Multi-activity offshore exploration and/or development drilling method and apparatus.
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Julian, Jason P.; Didona, Kevin M.; Milner, Darrin P.; Mikes, Thomas L.; Milligan, Scott D.; Bannon, David P., Multi-channel, multi-spectrum imaging spectrometer.
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Skinner, Neal G.; Dennis, John R.; LeBlanc, Michel, Multi-parameter interferometric fiber optic sensor.
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Skinner,Neal G., Multiplexed distribution of optical power.
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Kogure Eiji (670 Ichinomiya Tama-city ; Tokyo JPX) Mackie Michael J. (17 Mayfair Grove Ct. The Woodlands TX 77381) McCalla Jeffrey M. (202 Faust La. Houston TX 77024) Hayashi Hiroichi (403-4 Idanakan, Near surface disconnect riser.
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Dietmar Bischof DE, Nozzle system for laser beam cutting.
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Peterman Charles P. ; Goldsmith Riley G. ; Mott Keith C. ; Danna John Mark ; Pelata Kenneth L. ; Colvin Kenneth W., Offshore drilling system.
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Whitby Melvyn F. (Houston TX) O\Donnell David L. (Houston TX), Oilfield tubular shear ram and method for blowout prevention.
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Fenton, Stephen P., Open water recoverable drilling protector.
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Blee John James ; Hardwick ; III Nathan Everette ; Kathiresan Krishnaswamy, Optical fiber cable for underwater use using terrestrial optical fiber cable.
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Bosisio Claudio (Brembate Sotto ITX) Campana Antonio (Milan ITX), Optical fiber cables and components thereof containing an homogeneous barrier mixture suitable to protect optical fibers.
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Chieh Hu TW; Shu-Mei Yang TW, Optical fiber grating package.
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Jacoby Jerold L. (Long Beach CA) Williamson Clyde E. (Torrance CA), Optics module for borehole stress measuring instrument.
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Misselbrook, John G.; Altman, Richard A.; Gavin, William G.; Crabtree, Alexander R., Partial coil-in-coil tubing.
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Tsutomu Yamate ; Oliver C. Mullins, Permanent optical sensor downhole fluid analysis systems.
상세보기
Fisk Allan T. (Needham MA) Freed David I. (Weston MA) Mann Thomas A. (Littleton MA), Pipe bursting and replacement method.
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Fisk Allan T. (Needham MA) Freed David I. (Weston MA) Mann Thomas H. (Littleton MA), Pipe bursting and replacement method.
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Clayton, Hugh R; Milanovic, Raiko, Pipeline monitoring systems.
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MacGregor,Scott John; Turnbull,Steven McCallum, Plasma channel drilling process.
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Moeny, William M., Portable and directional electrocrushing drill.
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Moeny, William M., Portable electrocrushing drill.
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Moeny William M. ; Barrett David M., Portable electrohydraulic mining drill.
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Carstensen, Kenneth J.; Skinner, Neal G.; Pool, Charles M., Pressure impulse telemetry apparatus and method.
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Kenneth J. Carstensen ; Neal G. Skinner ; Charles M. Pool, Pressure impulse telemetry apparatus and method.
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Reale Lucio V. (1827 - 46th St. SE. Calgary ; Alberta CAX), Process for recovering viscous, combustible material.
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Proudfoot Glenn C.,CAX, Producing hydrocarbons from well with underground reservoir.
상세보기
Moeny,William M.; Hill,Gilman, Pulsed electric rock drilling apparatus.
상세보기
Owen, Harry; Welch, Mark; Pelletier, Michael J., Raman spectroscopy crystallization analysis method.
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Ravensbergen,John Edward; Naumann,Andre; Vacik,Lubos; Lambert,Mitch; Wilde,Graham, Release tool for coiled tubing.
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Roth Albert B. (Lafayette CA), Riser connector.
상세보기
Hosie Stanley,GBX ; Christie David Stewart,GBX, Riser dog screw with fail safe mechanism.
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Hall ; Johnce E. ; Greenfield ; William D., Riser pipe inserts.
상세보기
Bokenkamp Donald G. (Houston TX), Riser pipe stacking system.
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Foppe Werner (Geilenkirchen DEX), Rock melting excavation process.
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Horn Curtis L. (Houston TX), Rotary drill bit.
상세보기
Misselbrook John G. (Calgary CAX) Sask David E. (Calgary CAX), Safeguarded method and apparatus for fluid communiction using coiled tubing, with application to drill stem testing.
상세보기
Ellis James (Houston TX), Shaped-charge with simultaneous multi-point initiation of explosives.
상세보기
Johnson, Christopher D.; Le, Tri Canh; Tisdale, George W.; Palomo, Jr., Esteban, Shear ram assembly.
상세보기
Morrill Charles D., Shear ram for ram-type blowout preventer.
상세보기
Nguyen ; Thomas X. T., Shear rams for hydrogen sulfide service.
상세보기
Kern, Gerald L., Single and/or dual surface automatic edge sensing trimmer.
상세보기
de Montmorillon, Louis Anne; Molin, Denis; Matthijsse, Pieter; Gooijer, Frans; Petitfrere, Emmanuel; Lumineau, Yves; Achten, Franciscus Johannes; Bigot Astruc, Marianne; Sillard, Pierre; Nouchi, Pascale, Single-mode optical fiber.
상세보기
Cunningham Christopher E. ; Bartlett Christopher D., Slimbore subsea completion system and method.
상세보기
Slater Joseph B. ; Pelletier Michael J., Spectroscopic probe with leak detection.
상세보기
Moore Brian K. (Humble TX), Spoolable coiled tubing completion system.
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Moore Brian K. (Humble TX) Pringle Ronald E. (Houston TX), Spoolable coiled tubing completion system.
상세보기
Moore Brian Keith ; Pringle Ronald E., Spoolable coiled tubing completion system.
상세보기
Pringle Ronald E. (Houston TX), Spoolable coiled tubing completion system.
상세보기
Pringle Ronald E. (Houston TX), Spoolable coiled tubing mandrel and gas lift valves.
상세보기
Pringle Ronald E. (Houston TX), Spoolable flexible hydraulic controlled annular control valve.
상세보기
Pringle Ronald E., Spoolable flexible hydraulic controlled coiled tubing safety valve.
상세보기
Pringle Ronald E. (Houston TX), Spoolable flexible hydraulic controlled coiled tubing safety valve.
상세보기
Moore Brian K. (Humble TX) Pringle Ronald E. (Houston TX), Spoolable flexible hydraulically set, straight pull release well packer.
상세보기
Pringle Ronald E., Spoolable flexible hydraulically set, straight pull release well packer.
상세보기
Pringle Ronald E. (Houston TX), Spoolable flexible sliding sleeve.
상세보기
Miles Brian Herndon ; Cooper Stafford S. ; Cespedes Ernesto R. ; Theriault Greg A., Standoff laser induced-breakdown spectroscopy penetrometer system.
상세보기
Chu Tek-Che (Morganville NJ), Submarine cable having a centrally located tube containing optical fibers.
상세보기
Kotrla, Johnnie E.; Johnson, Joe S., Subsea connection apparatus for a surface blowout preventer stack.
상세보기
Neath Robert Arthur (Houston TX), Subsea hydraulic choke.
상세보기
Rytlewski,Gary L.; Zimmerman,Thomas H.; Goode,Peter A.; Kishino,Ashley C.; Kerr,John A.; Christie,Alan, Subsea intervention.
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Dore, Eddie E.; Braddick, Britt O., Subsea riser disconnect and method.
상세보기
Garcia-Soule Virgilio, Subsea test tree and methods of servicing a subterranean well.
상세보기
Jennings Charles E. (Houston TX), Subsea well pressure monitor.
상세보기
Skinner, Neal G.; Dennis, John R.; Leblanc, Michel; Johnson, Gregg; Todd, Michael D., Subterranean well pressure and temperature measurement.
상세보기
Slater Joseph B. ; Pelletier Michael J., Synchronous spectral line imaging methods and apparatus.
상세보기
Eldridge,Richard Allen, System and method for determining an operational condition of a torch.
상세보기
Davidson, Kenneth C.; Kerr, John A.; MacKenzie, Roderick; Johnston, Alan J., System and technique for monitoring and managing the deployment of subsea equipment.
상세보기
Stewart Adrian J.,SGX ; Rayssiguier Christophe M.,FRX ; Ribeyre Jean-Paul,FRX, Test tree closure device for a cased subsea oil well.
상세보기
Myllymki Matti (Espoo FIX), Transmission system for telephone communications or data transfer.
상세보기
Marlier Gry (Calais FRX) Libert Jean-Francois (Pont de Briques St. Etienne FRX), Undersea telecommunications cable having optical fibers in a tube.
상세보기
Jones, Christopher; Burger, Jon; Jacobs, Patrick; Drozd, Richard J., Use of cesium as a tracer in coring operations.
상세보기
Jee,Virginia; Flamant,Nicolas; Thomeer,Hubertus; Adnan,Sarmad; Gay,Michael, Use of distributed temperature sensors during wellbore treatments.
상세보기
Pitts ; Jr. Robert W. (Houston TX), Well logging system.
상세보기
Price Ernest H. (1266 Pepper Dr. El Centro CA 92243), Well perforating apparatus and method.
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Geyer Nelson I. (Norman OK), Well pumping method and apparatus.
상세보기
Patterson John C. (Plano TX) Hearn David D. (Richardson TX), Wellbore cleanout apparatus and method.
상세보기
Harbon Donald C. (Salt Lake City UT) Morris Charles W. (Santa Fe Springs CA) Javine Cleve D. (Bartlesville OK), Wellbore pressure testing method and apparatus.
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해당 특허가 속한 카테고리에서 활용도가 높은 상위 5개 콘텐츠를 보여줍니다.
더보기 버튼을 클릭하시면 더 많은 관련자료를 살펴볼 수 있습니다.

IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

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[미국특허] Laser assisted blowout preventer and methods of use 원문보기

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[미국특허] Laser assisted blowout preventer and methods of use 원문보기

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