Using Surface Current Electrodes Patents (Class 324/370)
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Patent number: 9890629Abstract: A method of locating a conductive target from a wellbore includes generating a current flowing across an insulated gap in a downhole tool positioned in the wellbore, measuring an azimuthal magnetic field with at least one external magnetometer located proximate the exterior of the downhole tool, measuring a secondary magnetic field using a magnetometer disposed inside the downhole tool, computing at least one of a direction and a distance to the conductive target.Type: GrantFiled: February 26, 2009Date of Patent: February 13, 2018Assignee: SCHLUMBERGER TECHNOLOGY CORPORATIONInventor: Brian Clark
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Patent number: 8816689Abstract: A method and apparatus is provided for collecting reservoir data. The method includes providing one or more electromagnetic sources for generating an electromagnetic field in a reservoir and providing one or more electromagnetic sensors equipped with capacitive electrodes. The electromagnetic source is located separately from the electromagnetic sensor. The electromagnetic sensor may either be located within a well or at the surface, is capable of measuring the electromagnetic field in three dimensions, and may be isolated from the well fluids. The data collected by the electromagnetic sensors can be used to create a model of the oil reservoir, including the water saturation.Type: GrantFiled: May 17, 2011Date of Patent: August 26, 2014Assignee: Saudi Arabian Oil CompanyInventors: Daniele Colombo, Timothy H. Keho, Michael Anthony Jervis, Brett W. Bouldin
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Patent number: 8614578Abstract: The present disclosure relates to determining the attenuation of an electromagnetic signal passing through a conductive material. An antenna is provided and placed in relatively close proximity to the conductive material. An alternating current is passed through the antenna and the impedance of the antenna is measured. The attenuation is determined using the measured impedance. A single frequency measurement may be made, or multiple measurements using different frequencies may be made. Grouped parameters based on properties of the material and the frequency of the current are used to relate the coil impedance to the attenuation. A current frequency for which the ratio of the antenna's resistive part of the impedance to the angular frequency of the current is substantially insensitive to at least one of the parameters is preferred.Type: GrantFiled: December 18, 2009Date of Patent: December 24, 2013Assignee: Schlumberger Technology CorporationInventors: Guozhong Gao, H. Frank Morrison, Hong Zhang, Richard A. Rosthal, David Alumbaugh, Cyrille Levesque
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Patent number: 8482291Abstract: A substrate includes a first plate member; a plurality of first electrodes provided on the major surface of the first plate member, the first electrodes including at least one electrode for circuit connection and at least one monitor electrode separate from the electrode for circuit connection; a second plate member; a plurality of second electrodes provided on the major surface of the second plate member; a plurality of solder members provided between the first electrodes and the second electrodes for electrical connection therebetween, repeatedly; and a detector for detecting an electrical disconnection between at least one of the monitor electrode and the second electrode.Type: GrantFiled: April 28, 2010Date of Patent: July 9, 2013Assignee: Fujitsu LimitedInventors: Nobutaka Itoh, Makoto Sakairi, Mami Nakadate
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Patent number: 8390295Abstract: A system for measuring a resistivity parameter of an earth formation includes: at least one measurement electrode electrically connected to a first electrical source; at least one guard electrode; a shielding electrode interposed between the at least one guard electrode and the at least one measurement electrode, the shielding electrode being electrically connected to a second electrical source independent from the first electrical source, and the guard electrode being electrically connected to a third electrical source independent of the first and second electrical sources; at least one return electrode; insulators positioned between (i) the measurement electrode and the shielding electrode, (ii) the shielding electrode and the guard electrode and (iii) the measurement electrode, the guard electrode and the return electrode; and a processor configured to adjust at least one of the first electrical source and the second electrical source to minimize a current flow through the shielding electrode.Type: GrantFiled: July 11, 2008Date of Patent: March 5, 2013Assignee: Baker Hughes IncorporatedInventors: Matthias Gorek, Martin Folberth, Christian Fulda
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Patent number: 8319498Abstract: A microresistivity logging tool includes a dual function electrode deployed between a guard electrode and a return electrode. A drive circuit enables the electrical potential of the dual function electrode to be independently controlled so as to control a depth of investigation of a microresistivity measurement. The depth of investigation tends to increase with increasing electrical potential of the dual function electrode.Type: GrantFiled: October 19, 2009Date of Patent: November 27, 2012Assignee: Schlumberger Technology CorporationInventor: Tsili Wang
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Patent number: 8305083Abstract: Methods for making calibrated microresistivity logging measurements in nonconductive drilling fluid are disclosed. A calibrated measurement parameter (e.g., a calibrated electrical impedance or a calibrated potential difference) is obtained and further utilized to compute a formation resistivity. The methods tend to be particularly well suited for drilling applications in which the borehole environment is highly resistive (i.e., boreholes in which both the drilling fluid and the formation have a high resistivity).Type: GrantFiled: December 30, 2009Date of Patent: November 6, 2012Assignee: Smith International, Inc.Inventor: Tsili Wang
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Patent number: 8278929Abstract: Apparatus and method for estimating the 3D orientation angles for remotely deployed devices with flexible arms such as dipole antennas of receivers used in marine controlled-source electromagnetic surveys to explore for hydrocarbons. Acoustic transponders or transducers, or other positioning sensors such as attitude sensors or strain-sensitive fiber optic cables are placed on each electrode arm of the receiver. Acoustic sensors (101) on the receiver frame (94) work in conjunction with the positioning sensor(s) (101) on the electrode arms (92) to provide accurate 3D spatial position of the receiver electrodes (93) relative to the receiver frame. Alternatively, sonar transducers mounted on the frame are used to image the electrode arms, which image can be enhanced by fixing reflectors to the arms. An attitude sensor is mounted on the receiver frame, enabling conversion of the relative electrode positions to an earth reference frame.Type: GrantFiled: March 22, 2007Date of Patent: October 2, 2012Assignee: ExxonMobil Upstream Research CompanyInventors: Philip J. Summerfield, Tom C. Phillips
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Patent number: 8232803Abstract: A tool 1 is used in electrical investigation of geological formations GF surrounding a borehole BH. The tool 1 is comprised in a string of tools TS. The tool 1 comprises a current injection section CIS and a current return section CRS. The string of tools TS comprises at least one other section OS1. The current injection section CIS is electrically decoupled from the current return section CRS. The current injection section CIS is electrically decoupled from the at least one other section OS1 when the current injection section CIS and the at least one other section OS1 are adjacent to each other. The current return section CRS is electrically decoupled from the at least one other section OS1 when the current return section CRS and the at least one other section OS1 are adjacent to each other.Type: GrantFiled: December 10, 2007Date of Patent: July 31, 2012Assignee: Schlumberger Technology CorporationInventor: Richard Bloemenkamp
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Patent number: 8030937Abstract: Oil-based mud imaging systems and methods having leakage current compensation. In some embodiments, disclosed logging systems include a logging tool in communication with surface computing facilities. The logging tool is provided with a sensor array having at least two voltage electrodes positioned between at least two current electrodes that create an electric field in a borehole wall, and is further provided with electronics coupled to the current electrodes to determine a differential voltage between the voltage electrodes in response to different current frequencies from the current electrodes. From the voltage measurements at different frequencies, the computing facilities determine borehole wall resistivity as a function of depth and azimuth, and may display the resistivity as a borehole wall image.Type: GrantFiled: December 11, 2006Date of Patent: October 4, 2011Assignee: Halliburton Energy Services, Inc.Inventors: Guoyu (David) Hu, Michael S. Bittar, William J. Schaecher
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Patent number: 7855560Abstract: A method and system for measuring formation resisitivity is achieved by introducing an electrical signal into the formation. The current of the introduced electrical signal is then sensed, producing an analog voltage signal as a measurement of the formation. The introduced electrical signal is compared with the measured signal of the formation. The comparison is made in a quadrature demodulation device, producing an in-phase demodulated signal. A quasi-direct-current signal is extracted from the in-phase demodulated signal, producing an analog measurement related to the resistivity of the formation.Type: GrantFiled: June 30, 2008Date of Patent: December 21, 2010Assignee: Baker Hughes IncorporatedInventors: Jinsong Zhao, Stanislav Forgang
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Patent number: 7696756Abstract: An apparatus and method for minimizing the effects of a common mode voltage signal in downhole logging tools utilized to determine the resistivity of an adjacent portion of a borehole wall. Two current electrodes are energized by an excitation source to create an oscillatory electric field in a borehole wall. A voltage drop across a segment of the borehole wall is measured by two voltage electrodes, and the differential voltage is used in combination with a measured current flow to determine a resistivity value for the borehole wall. A common mode voltage in front of the two voltage electrodes is measured and minimized by controlling the excitation source, thereby reducing the resistivity measurement error.Type: GrantFiled: June 5, 2006Date of Patent: April 13, 2010Assignee: Halliburton Energy Services, Inc.Inventors: Marian L. Morys, William J. Schaecher, George D. Goodman, Raj Pai
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Patent number: 7579841Abstract: Oil-based mud imaging systems and methods having standoff compensation. In some embodiments, disclosed logging systems include a logging tool in communication with surface computing facilities. The logging tool is provided with a sensor array having at least two voltage electrodes positioned between two current electrodes energized by an excitation source to create an oscillatory electric field in a borehole wall. The two current electrodes are each shielded with conductive shields to prevent current leakage into the logging tool body. A common mode voltage is measured, and the phase and amplitude of the excitation source is controlled to reduce the difference between the common mode voltage and reference voltage of a voltage detector. The logging tool is further provided with electronics coupled to the voltage detector and the current electrodes to determine a differential voltage between the voltage electrodes and two current flows from separate ones of the current electrodes.Type: GrantFiled: September 2, 2006Date of Patent: August 25, 2009Assignee: Halliburton Energy Services, Inc.Inventors: Luis E. San Martin, Humberto E. Rosa, Raj Pai, William J. Schaecher, Myrick L. Monroe, Marian L. Morys, Carl Dodge
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Patent number: 7388382Abstract: An instrument is disclosed for measuring resistivity of Earth formations from within a conductive pipe inside a wellbore drilled through the formations. The instrument includes a plurality of housings connected end to end and adapted to traverse the wellbore. At least one electrode is disposed on each housing. Each electrode is adapted to be placed in electrical contact with the inside of the pipe. The instrument includes a source of electrical current, a digital voltage measuring circuit and a switch. The switch is arranged to connect the source of electrical current between one of the electrodes and a current return at a selectable one of the top of the pipe and a location near the Earth's surface at a selected distance from the top of the pipe, and to connect selected pairs of the electrodes to the digital voltage measuring circuit. The pairs are selected to make voltage measurements corresponding to selected axial distances and selected lateral depths in the Earth formations.Type: GrantFiled: June 1, 2004Date of Patent: June 17, 2008Assignee: KJT Enterprises, Inc.Inventors: Kurt M. Strack, Horst Rueter
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Patent number: 7272503Abstract: A method for determining spatial distribution of resistivity of Earth formations surrounding a wellbore having a conductive pipe therein includes measuring resistivity of the Earth formations using measurements of current leakage along the pipe at selected axial positions. Electromagnetic properties of the Earth formations are measured from within the pipe. The measurements of electromagnetic properties correspond to a larger axial distance and to a greater lateral distance than the measurements of resistivity from current leakage. The current leakage and electromagnetic measurements are jointly inverted to obtain a model of the spatial distribution.Type: GrantFiled: October 26, 2006Date of Patent: September 18, 2007Assignee: KJT Enterprises, Inc.Inventors: Kurt M. Strack, Horst Rueter
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Patent number: 7202671Abstract: A method is disclosed for determining spatial distribution of resistivity of Earth formations surrounding a wellbore having a conductive pipe therein. The method includes measuring resistivity of the Earth formations using measurements of current leakage along the pipe at selected axial positions. Electromagnetic properties of the Earth formations are measured from within the pipe. The measurements of electromagnetic properties correspond to a larger axial distance and to a greater lateral distance than the measurements of resistivity from current leakage. The current leakage and electromagnetic measurements are jointly inverted to obtain a model of the spatial distribution.Type: GrantFiled: August 5, 2004Date of Patent: April 10, 2007Assignee: KJT Enterprises, Inc.Inventors: Kurt M. Strack, Horst Rueter
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Patent number: 7150188Abstract: An apparatus for determining fluid-pressure diffusivity in a borehole (12) in a formation (10) includes an electrode (16) and a strain measuring device (18),(20) (or a particle velocity measuring device (18),(20) or a particle acceleration measuring device (18),(20)) disposed a fixed distance from the electrode (16). The electrode (16) injects an electrical current into a point on a wall of the borehole (12). The strain measuring device (18),(20) measures strain (or the particle velocity measuring device (18),(20) measuresd particle velocity or the particle acceleration measuring device (18),(20) measures particle acceleration) at the fixed distance from the point of injection of the electrical current over time. The fluid-pressure diffusivity is determined based on the measured strain (or measured particle velocity or measured particle acceleration) over time.Type: GrantFiled: December 16, 2004Date of Patent: December 19, 2006Assignee: Schlumberger Technology CorporationInventors: Marwan Charara, Steven Pride, Patrice Ligneul
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Patent number: 7034538Abstract: An apparatus is disclosed for measuring formation resistivity through a conductive pipe in a wellbore. The apparatus includes a sonde adapted to be moved through the wellbore, and a plurality of voltage measurement electrodes are disposed on the sonde at spaced apart locations. At least one current source electrode is disposed on the sonde. All the electrodes are adapted to make electrical contact with the pipe. The apparatus includes a digital voltage measuring circuit controllably coupled to selected ones of the voltage measurement electrodes and digitally controlled current sources.Type: GrantFiled: May 19, 2005Date of Patent: April 25, 2006Assignee: KJT Enterprises, Inc.Inventors: Kurt M. Strack, Horst Rueter
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System for measuring earth formation resistivity through and electrically conductive wellbore casing
Patent number: 6975121Abstract: An apparatus is disclosed for measuring formation resistivity through a conductive pipe in a wellbore. The apparatus includes a sonde adapted to be moved through the wellbore, and a plurality of voltage measurement electrodes are disposed on the sonde at spaced apart locations. At least one current source electrode is disposed on the sonde. All the electrodes are adapted to make electrical contact with the pipe. The apparatus includes a digital voltage measuring circuit controllably coupled to selected ones of the voltage measurement electrodes.Type: GrantFiled: March 22, 2004Date of Patent: December 13, 2005Assignee: KJT Enterprises, Inc.Inventors: Kurt M. Strack, Horst Rueter -
Patent number: 6188223Abstract: An apparatus for borehole electric field telemetry includes a source of modulated voltage or current, at least one axially extending collar collar connected between pipe sections in a pipe string, and a system of insulated wireline components providing electrical connections, insulated from drilling fluids, between the ends of the one or more aforementioned insulative collars in the pipe string, to transmit the voltage or current. The source of modulated voltage or current comprises an electrical pulse-producer for producing short duration pulse wave forms selected to obtain optimum transmission characteristics in the underground formation. The electrical connections are to the drillstring, and there are upper and lower instrument housings associated with the electrical connections, which are upper and lower connections. The housings are supported within the pipe string, the upper housing located above at least one of the insulative collars, and the lower housing projecting below the insulative collar.Type: GrantFiled: July 7, 1997Date of Patent: February 13, 2001Assignee: Scientific Drilling InternationalInventors: Donald H. Van Steenwyk, James N. Towle, Timothy Price
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Patent number: 5223794Abstract: Methods of operation of an apparatus having at least two pairs of voltage measurement electrodes vertically disposed in a cased well to measure the resistivity of adjacent geological formations from inside the cased well. During stationary measurements with the apparatus at a fixed vertical depth within the cased well, the invention herein discloses methods of operation which include a measurement step and subsequent first and second compensation steps respectively resulting in improved accuracy of measurement. First and second order errors of measurement are identified, and the measurement step and two compensation steps provide methods to substantially eliminate their influence on the results. A multiple frequency apparatus adapted to movement within the well is described which simultaneously provide the measurement and two compensation steps.Type: GrantFiled: September 4, 1991Date of Patent: June 29, 1993Assignee: Para Magnetic Logging, Inc.Inventor: William B. Vail, III
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Patent number: 5005406Abstract: In the rotary drilling of oil wells a drilling mud is used both to transport the cuttings up to the surface and to impose an hydrostatic pressure on the walls of the borehole. For these functions the mud must for example have an acceptable density and viscosity. It is therefore important to monitor the characteristics of the mud, and to keep them within certain limits. The technique proposed involves the use of an ion selective/reference electrode pair to measure in the mud the potential of the selected ion (as a potential difference), and thus allow a determination of that ion's concentration. Thus, it is a method in which, using a selective/reference electrode pair where the reference electrode is of the type having a liquid junction via an aperture within the reference electrode containment vessel, there is determined the potential difference generated by, and thus the concentration of, the ion in the mud.Type: GrantFiled: November 28, 1989Date of Patent: April 9, 1991Assignee: Schlumberger Technology CorporationInventors: Raymond Jasinski, Philip Fletcher, Claude Vercaemer
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Patent number: 4771256Abstract: An integrally shielded magnetic resonance magnet is provided comprising a cylindrical ferromagnetic shell and two ferromagnetic circular end plates each defining a central aperture extending axially therethrough. The end plates are welded vacuum leak tight at their peripheries to either end of the shell. A nonmagnetic cylindrical tube is welded vacuum leak tight between the central apertures of the end plates forming an axially extending bore through the cylindrical shell. The ferromagnetic shell and end plates are heated with rust inhibiting coatings. The end plates, shell and nonmagnetic tube form a vacuum vessel and shield. Magnet windings are situated in the vacuum vessel synthesized for operating in the presence of the ferromagnetic vessel.Type: GrantFiled: September 16, 1987Date of Patent: September 13, 1988Assignee: General Electric CompanyInventors: Evangelos T. Laskaris, Michele D. Ogle
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Patent number: 4710741Abstract: A coil arrangement for producing a magnetic field of high homogeneity, such as is required in magnetic resonance imaging, comprising a single pair of identical annular coils (17A, 17B) disposed coaxially in spaced relationship and a pair of annular members (19A, 19B) of ferromagnetic material disposed coaxially with the coils, symmetrically with respect to the plane which perpendicularly intersects the axis of the coils centrally between them. The coils and ferromagnetic members have dimensions and are relatively positioned so that, with the coils carrying equal energizing currents, the more significant spherical harmonic coefficients are eliminated.Type: GrantFiled: December 3, 1986Date of Patent: December 1, 1987Assignee: Picker International Ltd.Inventor: John V. M. McGinley
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Patent number: 4500860Abstract: A coil form for supporting both symmetric and antisymmetric magnetic field correction coils includes a system or circumferential slots and axial grooves disposed at various depths in the form to achieve the desired winding pattern. A winding method for this coil form is provided in which tension in the winding conductor, preferably a superconductive material, is maintainable at all times during assembly, and increased upon immersion in cryogenic fluid. Accordingly, the coil form and winding method provide a means for constructing axisymmetric coils which are resistant to frictional motion and which may be placed in direct contact with cryogenic fluids.Type: GrantFiled: July 5, 1984Date of Patent: February 19, 1985Assignee: General Electric CompanyInventor: Mark E. Vermilyea
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Patent number: 4245313Abstract: In accordance with illustrative embodiments of the present invention, measurements of a plurality of earth formation parameters are combined to produce a new parameter representative of characteristics of the formation. This new parameter is then utilized to determine the permeability of the formation.Type: GrantFiled: November 5, 1973Date of Patent: January 13, 1981Assignee: Schlumberger Technology CorporationInventor: George R. Coates