[특허]Shear laser module and method of retrofitting and use

[미국특허] Shear laser module and method of retrofitting and use 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	E21B-007/12
출원번호	US-0034183 (2011-02-24)
등록번호	US-8684088 (2014-04-01)
발명자 / 주소	Zediker, Mark S. Bergeron, Henry A. Clark, Philip V. Moxley, Joel F. Deutch, Paul D. Rinzler, Charles C.
출원인 / 주소	Foro Energy, Inc.
대리인 / 주소	Belvis, Glen P.
인용정보	피인용 횟수 : 0 인용 특허 : 225

초록 ▼

There is provided a high power shear laser module, which can be readily included in a blowout preventer stack. The shear laser module as the capability of delivering high power laser energy to a tubular within a blowout preventer cavity, cutting the tubular and thus reducing the likelihood that the

대표청구항 ▼

1. A blowout preventer stack comprising: a ram preventer comprising a pressure containment cavity; an annular preventer comprising a pressure containment cavity, and a shear laser module capable of delivering a cutting laser beam having a power of at least about 1 kW and comprising a pressure containment cavity; and, the ram preventer pressure containment cavity, the annular preventer pressure containment cavity and the shear laser module pressure containment cavity in pressure and fluid communication. 2. The blowout prevent stack of claim 1, wherein the blowout preventer is a subsea blowout preventer and wherein the annular preventer, ram preventer, and the shear laser module have a common cavity, the common cavity having a cavity axis. 3. The blowout preventer stack of claim 2, wherein the shear laser module comprises a laser cutter having a beam path that extends from the laser cutter into the common cavity. 4. The blowout preventer stack of claim 3, wherein the beam path intersects the axis of the common cavity. 5. The blowout preventer of claim 3, wherein the shear laser module comprises a laser cutter shield located adjacent to the common cavity, wherein the laser cutter shield protects the laser cutter from conditions present in the common cavity, while not appreciably interfering with the movement of tubulars through the common cavity. 6. The blowout preventer of claim 1, wherein the ram preventer is a shear ram and wherein the blowout preventer stack comprises: a second annular preventer, a second shear ram, a first pipe ram, a second pipe ram, and a third pipe ram. 7. The blowout preventer of claim 1, wherein the shear laser module comprises a plurality of laser cutters. 8. The blowout preventer of claim 2, wherein the shear laser module comprises a first laser cutter and a second laser cutter, wherein the first laser cutter has a first beam path that extends from the first laser cutter into the common cavity, wherein the second laser cutter has a second beam path that extends from the second laser cutter into the common cavity. 9. The blowout preventer of claim 8, wherein the first and second beam paths intersect within the common cavity. 10. The blowout preventer of claim 8, wherein the first and second beam paths are directed toward the cavity axis. 11. The blowout prevent of claim 8, wherein the first and second beam paths intersect the cavity axis. 12. The blowout preventer of claim 8, wherein the first and second beam paths do not intersect within the common cavity. 13. The blowout preventer of claim 8, wherein the first and second beam paths are substantially parallel. 14. The blowout preventer of claim 3, wherein the beam path forms a normal angle with the axis. 15. The blowout preventer of claim 3, wherein the beam path forms an obtuse angle with the axis. 16. The blowout preventer of claim 3, wherein the beam path forms an acute angle with the axis. 17. The blowout preventer of claim 2, wherein the ram preventer is a shear ram and wherein the blowout preventer comprises: a second annular preventer, a second shear ram, a first pipe ram, a second pipe ram, and a third pipe ram. 18. The blowout preventer of claim 8, wherein the ram preventer is a shear ram and wherein the blowout preventer comprises: a second annular preventer, a second shear ram, a first pipe ram, a second pipe ram, and a third pipe ram. 19. The blowout preventer of claim 8, wherein the first and second laser cutters are configured to rotate around the common cavity upon activation. 20. The blowout preventer of claim 3, wherein the laser cutter is positioned outside of the common cavity. 21. The blowout preventer of claim 8, wherein the first and the second laser cutters are positioned outside of the common cavity. 22. The blowout preventer of claim 17, wherein the first and the second laser cutters are adjacent to the common cavity. 23. The blowout preventer of claim 3, wherein the laser cutter is adjacent to the common cavity. 24. The blowout preventer of claim 8, wherein the first and the second laser cutters are adjacent to the common cavity. 25. The blowout preventer of claim 17, wherein the first and the second laser cutters are positioned outside of the common cavity. 26. The blowout preventer of claim 3 or 6, wherein the shear laser module comprises a laser cutter shield located adjacent to the common cavity, wherein the laser cutter shield protects the laser cutter from damage, while not appreciably interfering with the movement of tubulars through the common cavity. 27. The blowout preventer of claim 14, wherein the ram preventer is a shear ram and wherein the blowout preventer comprises: a second annular preventer, a second shear ram, a first pipe ram, a second pipe ram, and a third pipe ram. 28. A shear laser module for delivery of a cutting laser beam for use in a blowout preventer stack, the module comprising: a. a body having a first blowout preventer stack connector and a second blowout preventer stack connector;b. the body having a pressure containment cavity for passing tubulars therethrough and conveying and controlling a flow of a drilling fluid therethrough; and,c. a laser cutter in the body and having a beam path and capable of delivering a high power cutting laser beam having a power of at least about 1 kW and;d. wherein the beam path travels from the laser cutter into the cavity and to any tubular that may be in the cavity. 29. The shear laser module of claim 28, comprising a laser cutter shield. 30. The shear laser module of claim 28, comprising a second laser cutter. 31. The shear laser module of claim 28, wherein the laser cutter is configured within the body to orbit around the cavity. 32. The shear laser module of claim 28 comprising a laser cutter shield located adjacent to the cavity, wherein the laser cutter shield protects the laser cutter from drilling fluids, while not appreciably interfering with the movement of tubulars through the cavity. 33. The shear laser module of claim 28, comprising: a support cable comprising a high power laser optical fiber optically associated with the laser cutter and a feed-through assembly mechanically associated with the support cable. 34. The shear laser module of claim 33, wherein the module is rated at greater than 5,000 psi operating pressure. 35. The shear laser module of claim 33, wherein the module is rated at greater than 10,000 psi operating pressure. 36. The shear laser module of claim 33, wherein the module is rated at greater than 15,000 psi operating pressure. 37. The shear laser module of claim 28 comprising a second laser cutter, wherein the laser cutter beam path constitutes a first beam path, wherein the second laser cutter has a second beam path that extends from the second laser cutter into the cavity. 38. The shear laser module of claim 37, wherein the first and second beam paths intersect within the cavity. 39. The shear laser module of claim 37, wherein the first and second beam paths are directed toward the cavity axis. 40. The shear laser module of claim 37, wherein the cavity has a cavity axis and the first and second beam paths intersect the cavity axis. 41. The shear laser module of claim 37, wherein the first and second beam paths do not intersect within the cavity. 42. The shear laser module of claim 37, wherein the first and second beam paths are substantially parallel. 43. The shear laser module of claim 28, wherein the cavity has a cavity axis and the beam path forms a normal angle with the axis. 44. The shear laser module of claim 28, wherein the cavity has a cavity axis and the beam path forms an obtuse angle with the axis. 45. The shear laser module of claim 28, wherein the cavity has a cavity axis and the beam path forms an acute angle with the axis. 46. The shear laser module of claim 32 wherein the laser cutter is configured to orbit at least partially around the cavity during activation. 47. The shear laser module of claim 28, 32, or 34 wherein the laser cutter is positioned outside of the cavity. 48. The shear laser module of claim 37, wherein the first and the second laser cutters are positioned outside of the cavity. 49. The shear laser module of claim 37, wherein the first and the second laser cutters are adjacent to the cavity. 50. The shear laser module of claim 28 or 34 wherein the laser cutter is adjacent to the cavity. 51. A method of retrofitting a pre-existing blowout preventer (“BOP”) stack with a shear laser module to make a laser assisted BOP stack, the method comprising: a. evaluating a pre-existing BOP stack, comprising determining an operational specification for the pre-existing BOP stack;b. comparing the operational specification for the pre-existing BOP stack to a requirement for an intended use of the pre-existing BOP stack, and determining that the pre-existing BOP stack operational specification does not meet the requirement for the intended use; andc. retrofitting the pre-existing BOP stack by adding a shear laser module capable of delivering a cutting laser beam having a power of at least about 1 kW and comprising a pressure containment cavity to the pre-existing BOP stack; whereby the retrofitted BOP stack meets the requirement for the intended use. 52. A method of making a laser assisted blowout preventer (“BOP”) stack, the method comprising: a. obtaining an annular preventer comprising a pressure containment cavity;b. obtaining a ram preventer comprising a pressure containment cavity;c. obtaining a shear laser module capable of delivering a cutting laser beam having a power of at least about 1 kW and comprising a pressure containment cavity;d. assembling a BOP stack comprising the annular preventer, the ram preventer and the shear laser module; whereby the containment cavities are in pressure and fluid communication. 53. A blowout preventer stack comprising: a body defining a pressure containment cavity for passing tubulars through; a means for mechanically sealing the cavity; a means for providing a high power cutting laser beam having a power of at least about 1 kW along a laser beam path within the cavity; and a means for sealing the laser beam providing means; whereby the laser beam can be delivered in the mechanically sealed cavity. 54. The blowout preventer stack of claim 53, wherein the blowout preventer stack is a subsea blowout preventer stack and wherein the means for mechanically sealing the cavity is a ram preventer. 55. The blowout preventer stack of claim 54, comprising an annular preventer. 56. The blowout preventer stack of claim 53, wherein the means for providing a laser beam along a laser beam path comprises a laser cutter. 57. The blowout preventer stack of claim 53, wherein the means for providing a laser beam along a laser beam path comprises a plurality of laser cutters. 58. The blowout preventer stack of claim 53, wherein the means for providing a laser beam along a laser beam path comprises a plurality of orbital laser cutters. 59. The blowout preventer stack of claim 53, wherein the means for providing a laser beam along a laser beam path comprises a plurality of laser cutters each having a beam path and wherein at least two beam paths intersect within the cavity. 60. A subsea blowout preventer stack comprising: a means for connecting to a well; a means for connecting to a riser; a body defining a pressure containment cavity; the cavity in fluid communication with the means for connecting to the well and the means for connecting to the riser; a means for sealing the cavity; and, a means for providing a high power cutting laser beam having a power of at least about 1 kW within the cavity. 61. The subsea blowout preventer stack of claim 60, wherein the means for providing a laser beam comprises a laser cutter. 62. The subsea blowout preventer stack of claim 60, wherein the means for providing a laser beam comprises a plurality of laser cutters, each providing a laser beam path, wherein at least two laser beam paths intersect within the cavity. 63. A subsea blowout preventer stack comprising: a means for defining a pressure containment cavity for passing tubulars therethrough and conveying and controlling a flow of a drilling fluid therethrough; a means for sealing the cavity; and, a means for providing first and second high power cutting laser beam paths for laser beams having a power of at least about 1 kW within the cavity. 64. The subsea blowout prevent stack of claim 63, wherein the first and second laser beam paths intersect within the cavity.

이 특허에 인용된 특허 (225) 인용/피인용 타임라인 분석

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Head Philip F. (6 Leith Mansions ; Grantully Road London W9 1LQ GB3), Anchored wavey conduit in coiled tubing.
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Bohnert, Klaus, Anisotropic distributed feedback fiber laser sensor.
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Boychuk Randy J. (7815 Leaf Point Ct. Houston TX 77551), Apparatus and method for installing coiled tubing in a well.
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Longbottom James R. ; Blizzard William ; Halford Gene ; Durst Douglas, Apparatus for completing a subterranean well and associated methods of using same.
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Sellar John G. (6045 E. Evans Pl. Lakewood CO 80227), Apparatus for employing destructive resonance.
상세보기
Salisbury Winfield W. (Scottsdale AZ) Stiles Walter J. (Phoenix AZ), Apparatus for perforating oil and gas wells.
상세보기
Newman Kenneth R. (Willis TX) Stone Lyndon (Humble TX) Tong David (Conroe TX), Apparatus for the injection of cable into coiled tubing.
상세보기
Gainand Yves,FRX ; Marechal Alain,FRX ; Mas Jean-Paul,FRX, Apparatus for working on a tube portion using a laser beam, and use thereof on pipe tubes on a marine pipe-laying or pip.
상세보기
Misselbrook,John G, Apparatus to allow a coiled tubing tractor to traverse a horizontal wellbore.
상세보기
Misselbrook,John Gordon, Apparatus to allow a coiled tubing tractor to traverse a horizontal wellbore.
상세보기
Holmberg Gerald E. (Quaker Hill CT), Armored fiber optic cables.
상세보기
Smith, Jr., Harry D., Assembly and method for determining thermal properties of a formation and forming a liner.
상세보기
Smith, Jr.,Harry D., Assembly and method for determining thermal properties of a formation and forming a liner.
상세보기
McMahon ; Jr. James M. (Houston TX) Haper ; Jr. Roland G. (Houston TX), BOP control system and methods for using same.
상세보기
Levett Bryce A. ; Nicholson Mike C., BOP with partially equalized ram shafts.
상세보기
Tomlin Jerry ; Pesek Dan ; Peterman Charles P., Blowout preventer control system.
상세보기
Springett,Frank Benjamin; Brugman,James D., Blowout preventers and methods of use.
상세보기
Perales Kenneth L. (Rosenberg TX), Borehole pressure and temperature measurement system.
상세보기
Ravensbergen, John Edward; Naumann, Andre; Vacik, Lubos; Lambert, Mitch; Wilde, Graham, Bottom hole assembly.
상세보기
Portman, Lance N.; Ravensbergen, John E., Bottomhole assembly and methods of use.
상세보기
Parks, William C., Breech lock connector for a subsea riser.
상세보기
Noble Donald T. (Ames IA) Braymen Steven D. (Ames IA) Anderson Marvin S. (Ames IA), Casingless down-hole for sealing an ablation volume and obtaining a sample for analysis.
상세보기
Sas-Jaworsky Alex (Houston TX), Coil tubing string and downhole generator.
상세보기
Pringle Ronald E. (Houston TX), Coiled tubing concentric gas lift valve assembly.
상세보기
Schlegelmilch,Tye; Rytlewski,Gary; Nixon,Vance, Coiled tubing cutter.
상세보기
Shampine, Rod; Saheta, Vishal; Wilson, Matthew E., Coiled tubing swivel assembly.
상세보기
Macadam James M. (Duncan OK) Bailey Donald E. (Duncan OK) Savage Ronald E. (Duncan OK), Coiled tubing system used for the evaluation of stimulation candidate wells.
상세보기
MacDougall,Trevor, Combined Bragg grating wavelength interrogator and Brillouin backscattering measuring instrument.
상세보기
Stine Clifford R. (Solon OH) Wojtecki Rudolph G. (Mantua OH), Composite tubing product.
상세보기
Hutchison S. O. (Bakersfield CA), Concentric insulated tubing string.
상세보기
Hutchison S. O. (Bakersfield CA), Concentric insulated tubing string.
상세보기
Kim Yung J. (Hacienda Heights CA), Concentric insulating conduit.
상세보기
Hutchison Stanley O. (Bakersfield CA), Concentric tubing having bonded insulation within the annulus.
상세보기
Tauschmann Otto (Ostmarkgasse 23/9 Wien ATX), Conduit.
상세보기
Sudol Tad A. (11724 - University Avenue Edmonton ; Alberta CAX T6G 1Z5), Conduit of well cleaning and pumping device and method of use thereof.
상세보기
Zeile ; Jr. George David (Medina OH), Conduit system.
상세보기
Potter Robert M. ; Tester Jefferson W., Continuous drilling of vertical boreholes by thermal processes: including rock spallation and fusion.
상세보기
Cossi Giorgio,ITX ITX 30020, Cutting unit for pipes produced in continuous lengths.
상세보기
David C. Toalson ; William A. Hunter ; Roger W. Mowell, Deep ocean riser positioning system and method of running casing.
상세보기
Smith, Jr.,Harry D., Determination of thermal properties of a formation.
상세보기
Miszewski Antoni (10 Boucher Rd. Budleigh Salterton ; Devon GBX EX9 6JF), Detonation system.
상세보기
Cholet Henri (Le Pecq FRX), Device and installation for the cleaning of drains, particularly in a petroleum production well.
상세보기
Giannesini Jean-Francois (Saint Cloud FRX) Fay Jean-Baptiste (Paris FRX), Device for carrying out measuring and servicing operations in a well bore, comprising tubing having a rod centered there.
상세보기
Smith, Peter V.; Leising, Lawrence J.; Ramsey, Robert M., Disconnect check valve mechanism for coiled tubing.
상세보기
Meltz, Gerald; Skinner, Neal G., Distributed flow properties wellbore measurement system.
상세보기
Blanz,Martin; Kruspe,Thomas, Downhole high resolution NMR spectroscopy with polarization enhancement.
상세보기
Parker, Richard A., Downhole lens assembly for use with high power lasers for earth boring.
상세보기
Shah, Vimal V.; Gardner, Wallace R.; Rodney, Paul F.; Skinner, Neal G., Downhole sensing with fiber in exterior annulus.
상세보기
Gardner, Wallace R.; Rodney, Paul F.; Skinner, Neal G.; Shah, Vimal V., Downhole sensing with fiber in the formation.
상세보기
Gray Benjamin (Alberta CAX), Drilling a well gas supply in the drilling liquid.
상세보기
Skinner, Neal G.; Smith, Jr., Harry D.; Jones, Christopher M.; Gleitman, Daniel D.; Pelletier, Michael T, Drilling, perforating and formation analysis.
상세보기
Skinner,Neal G.; Smith, Jr.,Harry D.; Jones,Christopher M.; Gleitman,Daniel D.; Pelletier,Michael T, Drilling, perforating and formation analysis.
상세보기
Rosa, Robert John, Dry geothermal drilling and recovery system.
상세보기
Hermann Robert P. ; Scott Robert J. ; Shaughnessy John M., Dynamically positioned, concentric riser, drilling method and apparatus.
상세보기
Salisbury ; Winfield W. ; Stiles ; Walter J., Earth boring apparatus employing high powered laser.
상세보기
Salisbury Winfield W. (11 Glenn Road Belmont MA 02178) Stiles Walter J. (Tuscon House Tuscon AZ 85705), Earth boring method employing high powered laser and alternate fluid pulses.
상세보기
Renfro Jimmie J. (Plano TX), Electrically stimulated well production system with flexible tubing conductor.
상세보기
Moeny William M. ; Winsor Niels K., Electrohydraulic pressure wave projectors.
상세보기
Bott Eric H. (Chesterfield MO) Rice Robert R. (Chesterfield MO) Zediker Mark S. (Florissant MO), Fiber optic laser system and associated lasing method.
상세보기
Pelletier Michael J., Fiber optic probe with integral optical filtering.
상세보기
Neal G. Skinner ; Gerald Gardner ; Margaret Waid ; Wallace R. Gardner ; John Minear, Fiber optic tomographic imaging of borehole fluids.
상세보기
Batarseh, Samih, Fiber optics laser perforation tool.
상세보기
Ortiz ; Jr. Angel L. (Scotia NY), Fiber output coupler with beam shaping optics for laser materials processing system.
상세보기
Slater Joseph B. ; Pelletier Michael J., Fiber-optic spectroscopic probe with reduced background luminescence.
상세보기
Nelson Jack R. (Houston TX), Flat bottom drilling bit with polycrystalline cutters.
상세보기
Genini Maurice (Creteil FRX) Athe Christian (Le Mee FRX) Aubert Jean-Paul (Puteaux FRX), Flexible composite tube.
상세보기
Argy Gilles (La Queue Les Yvelines FRX), Flexible heat-insulated pipe-line for in particular cryogenic fluids.
상세보기
Walling John B. (5613 Trail Lake Dr. Fort Worth TX 76133), Flexible production tubing.
상세보기
Walling John B. (P.O. Box 16266 Fort Worth TX 76133), Flexible production tubing.
상세보기
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.
상세보기
Gergely John S. (Ponca City OK), Fluorescence sensing apparatus for determining presence of native hydrocarbons from drilling mud.
상세보기
Moeny William M. (Albuquerque NM) Small James G. (Albuquerque NM), Focused shock spark discharge drill using multiple electrodes.
상세보기
Surjaatmadja Jim B. (Duncan OK), Force sensor and sensing method using crystal rods and light signals.
상세보기
Harry B. Curlett ; David Paul Sharp ; Marvin Allen Gregory, Formation cutting method and system.
상세보기
Rom Josef (Haifa IL) Alterman Israel (Savyon IL) Schwartz Joseph (Haifa IL), Formation of load-bearing foundations by laser-beam irradiation of the soil.
상세보기
Dodge Carl (Alief TX) Smith ; Jr. Harry D. (Houston TX), Formation tester.
상세보기
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.
상세보기
Gyory Gyula (Szolnok HUX) Flrin Zoltn (Nagykanizsa HUX), Heat insulating tube.
상세보기
Lerner,William S., Heat warning safety device using fiber optic cables.
상세보기
Stephenson Edgar O. (Tacoma WA) Brown Victor R. R. (Tacoma WA), High temperature insulated casing.
상세보기
Bearman,Greg; Pelletier,Michael J.; Seshadri,Suresh; Pain,Bedabrata, High throughput reconfigurable data analysis system.
상세보기
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.
상세보기
Hother,John Anthony; Cockshott,Robert Alexander, Imaging sensor optical system.
상세보기
Chawla Manmohan S. (Houston TX), Implosion shaped charge perforator.
상세보기
Chawla Manmohan S. (Houston TX) McPhee William A. (Houston TX), Implosion shaped charge perforator.
상세보기
Elliston Tom (1401 Westover La. Fort Worth TX 76107), Improved coil tubing injector unit.
상세보기
Smith ; Jr. Harry D. (Houston TX) Dodge Carl (Alief TX), In situ measurement of gas content in formation fluid.
상세보기
Bloomfield Harvey S. (Bay Village OH), In-situ laser retorting of oil shale.
상세보기
McCain,Sandra Helton; Medley,John Mark; Zimmer,Agnes Kam, Inkjet ink having yellow dye mixture.
상세보기
Willis Clyde A. (Wichita Falls TX), Inner tube assembly for dual conduit drill pipe.
상세보기
Luft H. Bernie,CAX ; Wilde Graham,CAX ; Pelensky Peter J.,CAX, Insulated and/or concentric coiled tubing.
상세보기
Stephenson Edgar O. (W. Tacoma WA) Kohl John M. (Tacoma WA) Cunningham Charles R. (S. Seattle WA), Insulated casing assembly.
상세보기
Stalder John L. (Ventura CA), Insulated prestressed conduit string for heated fluids.
상세보기
McStravick David M. (Houston TX) Chenoweth David V. (Houston TX), Insulating tubular conduit apparatus.
상세보기
Oglesby, Kenneth D., Inverted motor for drilling rocks, soils and man-made materials and for re-entry and cleanout of existing wellbores and pipes.
상세보기
Oglesby,Kenneth D., Inverted motor for drilling rocks, soils and man-made materials and for re-entry and cleanout of existing wellbores and pipes.
상세보기
Tudor,Eric Hughson; Gavin,William George, Isolation assembly for coiled tubing.
상세보기
Munk, Brian N.; Pallini, Joseph W.; Stonesifer, Gary R., Keel joint arrangements for floating platforms.
상세보기
Kobayashi, Toshio; Kogure, Eiji; Yamamoto, Hiromitsu, Laser boring method and system.
상세보기
Doggett David F. (1370 Lincoln Ave. Sunnyvale CA) McCaul Bruce W. (1370 Lincoln Ave. Palo Alto CA 94301), Laser diode/lens assembly.
상세보기
Stout ; Daniel W., Laser drilling method and system of fossil fuel recovery.
상세보기
Theriault Gregory A. ; Lieberman Stephen H. ; Knowles David S. ; Martini Leonard J., Laser induced breakdown spectroscopy soil contamination probe.
상세보기
Batarseh, Samih, Laser liner creation apparatus and method.
상세보기
Ward Brooke A. (Goring on Thames GB2), Laser pipe welder/cutter.
상세보기
Batarseh,Samih; Perry,Kent; Gahan,Brian C., Laser spectroscopy/chromatography drill bit and methods.
상세보기
Batarseh, Samih, Laser wellbore completion apparatus and method.
상세보기
Gergely John S. (Ponca City OK) McLimans Roger K. (Wilmington DE), Laser-enhanced oil correlation system.
상세보기
Bissonnette,Laurent; Pelletier,Diane I.; Toupin,Michael J.; Gobush,William; Gribben,Douglas Alan; Lentz,Paul, Launch monitor.
상세보기
Young Christopher M. ; Cravey William R., Linear aperture pseudospark switch.
상세보기
Robison,Clark E., Linear displacement measurement method and apparatus.
상세보기
Morrill Charles D. (Humble TX), Low profile and lightweight high pressure blowout preventer.
상세보기
Timothy John Woodrow GB, Marine riser.
상세보기
Boyle Bruce W. (Sugar Land TX) Muller Laurent E. (Stafford TX), Means for placing cable within coiled tubing.
상세보기
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.
상세보기
Shammai, Michael; Gordon, Robert; DiFoggio, Rocco, Method and apparatus for an advanced optical analyzer.
상세보기
Milberger,Lionel J.; Reimert,Larry E.; Wade,Morris B., Method and apparatus for blow-out prevention in subsea drilling/completion systems.
상세보기
Brown, George Albert, Method and apparatus for determining flow rates.
상세보기
Legget Henry H. (Hallsville TX), Method and apparatus for installing electrical logging cable inside coiled tubing.
상세보기
Welch ; Albert B., Method and apparatus for laser treatment of geological formations.
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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.
상세보기
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.
상세보기
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.
상세보기
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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Kobayashi, Toshio; Takayama, Kazuyoshi; Ueda, Ken-ichi; Otomo, Kazuhisa; Uetake, Shigehito, Method and device for excavating submerged stratum.
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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.
상세보기
Scheihing Mark H. ; White Gary Lee ; Klein James D., Method for determining the relative clay content of well core.
상세보기
Shuck Lowell Z. (Morgantown WV), Method for in situ gasification of a subterranean coal bed.
상세보기
Conti Allen C. (Garfield Heights OH) Conti Armand R. (Youngstown OH), Method for installing cable using an inner duct.
상세보기
Shuck Lowell Z. (Morgantown WV), Method for laser drilling subterranean earth formations.
상세보기
Jones,Christopher M., Method for preparing and processing a sample for intensive analysis.
상세보기
Stottlemyer, Thomas R., Method for protecting optical fibers embedded in the armor of a tow cable.
상세보기
Olson Grieg A., Method for reducing strain on bragg gratings.
상세보기
Connell Michael L. (Duncan OK), Method for running downhole tools and devices with coiled tubing.
상세보기
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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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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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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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.
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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.
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Moeny,William M.; Hill,Gilman, Pulsed electric rock drilling apparatus.
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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.
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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.
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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.
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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.
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Ellis James (Houston TX), Shaped-charge with simultaneous multi-point initiation of explosives.
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Johnson, Christopher D.; Le, Tri Canh; Tisdale, George W.; Palomo, Jr., Esteban, Shear ram assembly.
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Morrill Charles D., Shear ram for ram-type blowout preventer.
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Kern, Gerald L., Single and/or dual surface automatic edge sensing trimmer.
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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.
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Cunningham Christopher E. ; Bartlett Christopher D., Slimbore subsea completion system and method.
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Slater Joseph B. ; Pelletier Michael J., Spectroscopic probe with leak detection.
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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.
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Moore Brian Keith ; Pringle Ronald E., Spoolable coiled tubing completion system.
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Pringle Ronald E. (Houston TX), Spoolable coiled tubing completion system.
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Pringle Ronald E. (Houston TX), Spoolable coiled tubing mandrel and gas lift valves.
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Pringle Ronald E. (Houston TX), Spoolable flexible hydraulic controlled annular control valve.
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Pringle Ronald E., Spoolable flexible hydraulic controlled coiled tubing safety valve.
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Pringle Ronald E. (Houston TX), Spoolable flexible hydraulic controlled coiled tubing safety valve.
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Moore Brian K. (Humble TX) Pringle Ronald E. (Houston TX), Spoolable flexible hydraulically set, straight pull release well packer.
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Pringle Ronald E., Spoolable flexible hydraulically set, straight pull release well packer.
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Pringle Ronald E. (Houston TX), Spoolable flexible sliding sleeve.
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Miles Brian Herndon ; Cooper Stafford S. ; Cespedes Ernesto R. ; Theriault Greg A., Standoff laser induced-breakdown spectroscopy penetrometer system.
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Chu Tek-Che (Morganville NJ), Submarine cable having a centrally located tube containing optical fibers.
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Kotrla, Johnnie E.; Johnson, Joe S., Subsea connection apparatus for a surface blowout preventer stack.
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Neath Robert Arthur (Houston TX), Subsea hydraulic choke.
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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.
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Garcia-Soule Virgilio, Subsea test tree and methods of servicing a subterranean well.
상세보기
Jennings Charles E. (Houston TX), Subsea well pressure monitor.
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Skinner, Neal G.; Dennis, John R.; Leblanc, Michel; Johnson, Gregg; Todd, Michael D., Subterranean well pressure and temperature measurement.
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Slater Joseph B. ; Pelletier Michael J., Synchronous spectral line imaging methods and apparatus.
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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.
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Marlier Gry (Calais FRX) Libert Jean-Francois (Pont de Briques St. Etienne FRX), Undersea telecommunications cable having optical fibers in a tube.
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Jones, Christopher; Burger, Jon; Jacobs, Patrick; Drozd, Richard J., Use of cesium as a tracer in coring operations.
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Jee,Virginia; Flamant,Nicolas; Thomeer,Hubertus; Adnan,Sarmad; Gay,Michael, Use of distributed temperature sensors during wellbore treatments.
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Pitts ; Jr. Robert W. (Houston TX), Well logging system.
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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.
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Patterson John C. (Plano TX) Hearn David D. (Richardson TX), Wellbore cleanout apparatus and method.
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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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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

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[미국특허] Shear laser module and method of retrofitting and use 원문보기

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