Patents Assigned to Schlumber Technology Corporation
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Patent number: 10401528Abstract: In one embodiment, a method includes receiving one or more datasets including measured vertical electric and magnetic fields excited by one or more radial and azimuthal electric field antennas from a downtool into one or more processors, wherein each of the one or more datasets corresponds to a different position of the one or more radial azimuthal electric field antennas, simultaneously inverting the one or more datasets using the one or more processors, and as a result of the simultaneous inversion, generating by the one or more processors a three-dimensional (3D) image of a portion of the geological formation.Type: GrantFiled: November 25, 2015Date of Patent: September 3, 2019Assignees: SCHLUMBER TECHNOLOGY CORPORATION, SAUDI ARABIAN OIL COMPANYInventors: Nestor Cuevas, Michael Wilt, Ping Zhang, Jiuping Chen, Daniele Colombo, Gary Wayne McNeice
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Patent number: 8947094Abstract: A bottom hole assembly configured for a subterranean drilling operation having a drill bit; a downhole tool deployed above the drill bit, at least a portion of the downhole tool free to rotate with respect to the drill bit about a longitudinal axis of the bottom hole assembly a sensor sub deployed axially between the drill bit and the downhole tool, the sensor sub configured to rotate with the drill bit about the longitudinal axis of the bottom hole assembly and free to rotate with respect to the downhole tool about the longitudinal axis and a tri-axial magnetic field sensor deployed in the sensor sub.Type: GrantFiled: July 5, 2012Date of Patent: February 3, 2015Assignee: Schlumber Technology CorporationInventors: Graham A. McElhinney, Leon Ceh, Kenneth Stenerson, Euan Forbes
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Patent number: 8908166Abstract: Methods and apparatus for downhole fluid analysis are disclosed. An example method includes obtaining first measurements from a first spectrometer and a second spectrometer when a light source is on, obtaining second measurements from the first spectrometer and the second spectrometer when the light source is off and calibrating the first spectrometer based on the first measurements and the second measurements.Type: GrantFiled: December 20, 2012Date of Patent: December 9, 2014Assignee: Schlumber Technology CorporationInventors: Hisatoshi Matsumoto, Hua Chen, Akira Kamiya, Stephane Vannuffelen
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Patent number: 8783349Abstract: Embodiments disclose a sand screen apparatus for use in a well that intersects a hydrocarbon formation. The sand screen apparatus comprises a composite, the composite having a compressed state and an expanded state. In embodiments, the composite comprises a base polymer and one or a plurality of reactive fillers where the reactive fillers react with the base polymer in the expanded state after exposure to a first trigger.Type: GrantFiled: May 4, 2012Date of Patent: July 22, 2014Assignee: Schlumber Technology CorporationInventors: Agathe Robisson, Francois M. Auzerais, Sudeep Maheshwari, Partha Ganguly, S. Sherry Zhu
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Patent number: 7451813Abstract: A technique facilitates release of pressure from a well, and/or surface treating lines, via a bleed-off mechanism. The bleed-off mechanism is in fluid communication with a flow path extending from a wellhead valve or wellbore and designed for connection with a vacuum truck. The bleed-off mechanism can be opened to enable venting of trapped pressure from the wellbore and/or flow path. The bleed-off mechanism is also designed to contain any liquid that escapes during release of the trapped pressure. Once the pressure is relieved, the vacuum truck can be used to clean out fluid from the wellbore and/or surface treating lines without exposure to excess pressure.Type: GrantFiled: March 4, 2008Date of Patent: November 18, 2008Assignee: Schlumber Technology CorporationInventor: Mark Alexander Day
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Patent number: 7427504Abstract: A method for analyzing formation fluid in earth formation surrounding a borehole includes storing analytical reagent in a reagent container in a fluids analyzer in a formation tester and moving the formation tester, including the reagent, downhole. Reagent from the reagent container is injected into formation fluid in the flow-line to make a mixture of formation fluid and reagent. The mixture is moved through a spectral analyzer cell in the fluids analyzer to produce a time-series of optical density measurements at a plurality of wavelengths. A characteristic of formation fluid is determined by spectral analysis of the time-series of optical density measurements.Type: GrantFiled: September 22, 2003Date of Patent: September 23, 2008Assignee: Schlumber Technology CorporationInventors: Torleif Torgersen, Bhavani Raghuraman, Edward Harrigan, Oliver C. Mullins, Gale Gustavson, Philip Rabbito, Ricardo Reves Vasques
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Patent number: 7366615Abstract: Methods and apparatus are provided for determining the content of a first element in a formation which cannot otherwise be determined via a capture spectrum measurement. The methods and apparatus utilize the inelastic spectrum measurement of the first element and the inelastic and capture spectrum measurements of at least a second element. The methods and apparatus have particular application to determining the carbon content of a formation although they are not limited thereto. The inelastic and capture spectrum measurements of silicon are useful in making such determinations, although other chemical elements may be used as the second element.Type: GrantFiled: July 31, 2006Date of Patent: April 29, 2008Assignee: Schlumber Technology CorporationInventors: Susan Herron, James Grau, Bradley Roscoe, Michael Herron, Kenneth Stephenson
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Patent number: 7279678Abstract: Methods and apparatus for analyzing a hydrocarbon mixture are disclosed, comprising at least one light-emitting diode (LED) and at least one photodetector positioned to detect energy transmitted by the LED through a sample of the hydrocarbon mixture. In at least one embodiment an optical filter is coupled to the output of the LED to mitigate the adverse effects of the LED's sensitivity to temperature.Type: GrantFiled: August 15, 2005Date of Patent: October 9, 2007Assignee: Schlumber Technology CorporationInventors: A. Ballard Andrews, Jacques Jundt, Robert J. Schroeder, Bhavani Raghuraman, Oliver C. Mullins
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Publication number: 20040219064Abstract: An indicator mixture that allows pH measurement over a broader range of pH or to a higher accuracy than available using conventional spectroscopic techniques. In particular, the mixture of the present invention is comprised of two or more reagents such that when combined, the reagent mixture is capable of either detecting: (1) a pH range broader or more accurate than that the reagents individually, or (2) pH more accurately than the reagents individually. Also disclosed are methods of making and using the mixture.Type: ApplicationFiled: February 19, 2004Publication date: November 4, 2004Applicant: SCHLUMBER TECHNOLOGY CORPORATIONInventors: Bhavani Raghuraman, Gale H. Gustavson, Emilie Dressaire, Oleg Zhdaneev, Ronald Van Hal, Oliver Mullins, Philippe Salamitou
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Patent number: 5605195Abstract: An inflatable packer used in a well and having a mandrel carrying upper and lower heads, a normally retracted inflatable packer element including an inner elastomer bladder and an outer expansible armor or carcass, the ends of the packer element being anchored to respective heads, and in one embodiment a hydraulically operable system that applies restraining force to the heads which controls the shape and deployment of the packer element during inflation and prevents entrapment of fluid bubbles outside the element and the formation of Z-folds in the bladder. In other embodiments the restraining force is supplied by a stack of disc springs, by frictional engagement between parts, by a shearing action of materials, by swaging a sleeve member, and by axially crushing a sleeve member.Type: GrantFiled: January 11, 1996Date of Patent: February 25, 1997Assignee: Dowell, a division of Schlumber Technology CorporationInventors: David M. Eslinger, L. Michael McKee, Robert M. Sorem, Kevin L. Case, Jean L. Pessin