Patents by Inventor James H. Dudley
James H. Dudley has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20130328442Abstract: A power supply includes a rotor having an undulated surface (658, 858, 958, 10, 58) and a magnetostrictive material disposed adjacent to the undulated surface. The undulated surface alternatingly compresses the magnetostrictive material as the rotor rotates, inducing an electric current in a conductor coupled to the magnetostrictive material.Type: ApplicationFiled: March 6, 2012Publication date: December 12, 2013Inventors: Richard Thomas Hay, James H. Dudley, Robello Samuel
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Patent number: 8528381Abstract: A downhole sensor calibration apparatus includes a rotational or gimbaling mechanism for guiding a sensing axis of an orientation responsive sensor through a three-dimensional orbit about three orthogonal axes. A method includes using measurements taken over the three-dimensional orbit to calibrate the sensor and determine other characteristics of the sensor or tool.Type: GrantFiled: November 13, 2009Date of Patent: September 10, 2013Assignee: Halliburton Energy Services, Inc.Inventors: Paul F. Rodney, Adan Hernandez Herrera, Christopher Allen Golla, James H. Dudley, Joe Marzouk
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Publication number: 20130141733Abstract: An apparatus comprising an encoded pressure signal propagating in a fluid flowing in a conduit. An optical fiber measurement element has a reflector on one end and is disposed around at least a portion of the conduit. A light source injects a second optical signal and a third optical signal propagating in first and second optical fibers, respectively. A delay section is disposed in the second optical fiber. The second optical signal and the third optical signal are directed into the optical fiber measurement element and are reflected back from the reflective end such that at least a portion of the reflected second and third optical signals propagate through the second and first optical fibers respectively to an optical detector. The optical detector senses an interference between the reflected optical signals and outputs a first signal related thereto.Type: ApplicationFiled: February 3, 2013Publication date: June 6, 2013Applicant: Halliburton Energy Services, Inc.Inventors: Ronald L Spross, Paul F Rodney, Neal G Skinner, James H Dudley, John L Maida, Jr.
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Publication number: 20130080063Abstract: Mud pulse telemetry. The various embodiments are directed to methods and systems of encoding data in a mud pulse telemetry system, where at least a portion of the data is encoded the time between pressure transitions. Moreover, the various embodiments are directed to detection methods and systems that detect the pressure transitions at the surface.Type: ApplicationFiled: June 21, 2010Publication date: March 28, 2013Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Bipin K. Pillai, Laban M. Marsh, James H. Dudley, Ronald L. Spross
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Publication number: 20120125077Abstract: A downhole sensor calibration apparatus includes a rotational or gimbaling mechanism for guiding a sensing axis of an orientation responsive sensor through a three-dimensional orbit about three orthogonal axes. A method includes using measurements taken over the three-dimensional orbit to calibrate the sensor and determine other characteristics of the sensor or tool.Type: ApplicationFiled: November 13, 2009Publication date: May 24, 2012Applicant: HALLIBURTON ENERGY SERVICES, INCInventors: Paul F. Rodney, Adan Hernandez Herrera, Christopher Allen Golla, James H. Dudley, Joe Marzouk
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Publication number: 20120055710Abstract: A measurement system for collecting data. In some embodiments, the measurement system includes a tubular suspended downhole, the tubular having an outer surface and a flowbore extending therethrough, the flowbore conveying a fluid, a first recess formed in the outer surface of the tubular, a first detection system mounted in the first recess, a second recess formed in the outer surface of the tubular, and a second detection system mounted in the second recess. The second recess is offset relative to the first recess by at least one of an axial distance and a circumferential distance. The first detection system is operable to measure a portion of the data, and the second detection system operable to measure another portion of the data.Type: ApplicationFiled: February 11, 2010Publication date: March 8, 2012Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Adan Hernandez Herrera, James H. Dudley, Michael Dewayne Finke, Christopher Allen Golla
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Publication number: 20120038115Abstract: A sealing system between a tubular and a chassis. In some embodiments, the sealing system includes a sealing member and an outer ring. The sealing member is compressed between the chassis and the tubular. The sealing member has a temperature and comprises a resilient material that is expandable as the temperature increases and contractible as the temperature decreases. The outer ring is displaceable to close an annulus between an outer surface of the outer ring and the inner surface of the tubular by expansion of the sealing element, whereby the sealing member is prevented from extruding into the annulus. Further, the outer ring comprises a compliant material that is deformable under load from the sealing element as the sealing element expands.Type: ApplicationFiled: February 11, 2010Publication date: February 16, 2012Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Adan Hernandez Herrera, James H. Dudley
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Publication number: 20110290559Abstract: A method and apparatus for controlling oil well drilling equipment is disclosed. One or more sensors are distributed in the oil well drilling equipment. Each sensor produces a signal. A surface processor coupled to the one or more sensors via a high speed communications medium receives the signals from the one or more sensors via the high speed communications medium. The surface processor is situated on or near the earth's surface. The surface processor includes a program to process the received signals and to produce one or more control signals. The system includes one or more controllable elements distributed in the oil well drilling equipment. The one or more controllable elements respond to the one or more control signals.Type: ApplicationFiled: August 9, 2011Publication date: December 1, 2011Inventors: Paul F. Rodney, Daniel D. Gleitman, James H. Dudley
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Patent number: 7999695Abstract: A method and apparatus for controlling oil well drilling equipment is disclosed. One or more sensors are distributed in the oil well drilling equipment. Each sensor produces a signal. A surface processor coupled to the one or more sensors via a high speed communications medium receives the signals from the one or more sensors via the high speed communications medium. The surface processor is situated on or near the earth's surface. The surface processor includes a program to process the received signals and to produce one or more control signals. The system includes one or more controllable elements distributed in the oil well drilling equipment. The one or more controllable elements respond to the one or more control signals.Type: GrantFiled: March 3, 2004Date of Patent: August 16, 2011Assignee: Halliburton Energy Services, Inc.Inventors: Paul F. Rodney, Daniel D. Gleitman, James H. Dudley
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Patent number: 7966875Abstract: This application relates to various methods and apparatus for rapidly obtaining accurate formation property data from a drilled earthen borehole. Quickly obtaining accurate formation property data, including formation fluid pressure, is vital to beneficially describing the various formations being intersected. For example, methods are disclosed for collecting numerous property values with a minimum of downhole tools, correcting and calibrating downhole measurements and sensors, and developing complete formation predictors and models by acquiring a diverse set of direct formation measurements, such as formation fluid pressure and temperature. Also disclosed are various methods of using of accurately and quickly obtained formation property data.Type: GrantFiled: April 19, 2008Date of Patent: June 28, 2011Assignee: Halliburton Energy Services, Inc.Inventors: Mark A. Proett, James M. Fogal, James H. Dudley, Laban M. Marsh, David Welshans, Jean Michel Beique, John R. Hardin, Jr., William E. Hendricks, Gregory N. Gilbert, Mark A. Sitka, James E. Stone
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Publication number: 20110116099Abstract: An apparatus for detecting data in a fluid pressure signal in a conduit comprises an optical fiber loop comprises a measurement section and a delay section wherein the measurement section is disposed substantially circumferentially around at least a portion of the conduit, and wherein the measurement section changes length in response to the fluid pressure signal in the conduit. A light source injects a first optical signal in a first direction into the measurement section and a second optical signal in a second direction opposite the first direction into the delay section. An optical detector senses an interference phase shift between the first optical signal and the second optical signal and outputs a first signal related thereto.Type: ApplicationFiled: March 18, 2008Publication date: May 19, 2011Applicant: Halliburton Energy Services, Inc.Inventors: Ronald L Spross, Paul F. Rodney, James H. Dudley, John L. Maida
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Publication number: 20110109912Abstract: An apparatus comprising an encoded pressure signal propagating in a fluid flowing in a conduit. An optical fiber measurement element has a reflector on one end and is disposed around at least a portion of the conduit. A light source injects a second optical signal and a third optical signal propagating in first and second optical fibers, respectively. A delay section is disposed in the second optical fiber. The second optical signal and the third optical signal are directed into the optical fiber measurement element and are reflected back from the reflective end such that at least a portion of the reflected second and third optical signals propagate through the second and first optical fibers respectively to an optical detector. The optical detector senses an interference between the reflected optical signals and outputs a first signal related thereto.Type: ApplicationFiled: February 25, 2009Publication date: May 12, 2011Applicant: Halliburton Energy Services , Inc.Inventors: Ronald L Spross, Paul F. Rodney, James H. Dudley, John L. Maida, JR.
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Publication number: 20110108277Abstract: A method of treating a subterranean formation includes injecting a magnetically permeable material into the formation and energizing the magnetically permeable material using electromagnetic radiation. The magnetically permeable material reacts to the electromagnetic radiation by producing heat. In some embodiments, a fracturing fluid is made magnetically permeable, injected into the formation to fracture the formation, and heated in response to electromagnetic radiation applied to the magnetically permeable material. In some embodiments, electromagnetically heated material is caused to explode. In some embodiments, the magnetically permeable material is tracked or monitored for fluid or fracture propagation.Type: ApplicationFiled: May 19, 2009Publication date: May 12, 2011Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: James H. Dudley, Khanh T. Ma, Paul F. Rodney
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Publication number: 20080314137Abstract: This application relates to various methods and apparatus for rapidly obtaining accurate formation property data from a drilled earthen borehole. Quickly obtaining accurate formation property data, including formation fluid pressure, is vital to beneficially describing the various formations being intersected. For example, methods are disclosed for collecting numerous property values with a minimum of downhole tools, correcting and calibrating downhole measurements and sensors, and developing complete formation predictors and models by acquiring a diverse set of direct formation measurements, such as formation fluid pressure and temperature. Also disclosed are various methods of using of accurately and quickly obtained formation property data.Type: ApplicationFiled: April 19, 2008Publication date: December 25, 2008Applicant: HALLIBURTON ENERGY SERVICES, INCInventors: Mark A. Proett, James M. Fogal, James H. Dudley, Laban M. Marsh, David Welshans, Jean Michel Beique, John R. Hardin, JR., William E. Hendricks, Gregory N. Gilbert, Mark A. Sitka, James E. Stone
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Patent number: 7407020Abstract: Methods and apparatuses for drilling a borehole are disclosed. An electric motor electrically and mechanically coupled to a wired drill pipe is provided. The electric motor couples to a shaft that rotates when power is supplied to the electric motor. The shaft is couplable to a drill bit. The wired drill pipe transfers electricity to the electric motor from the surface. Operation of the electric motor rotates the shaft. The drill bit wears away earth to form the borehole in the earth.Type: GrantFiled: March 12, 2007Date of Patent: August 5, 2008Assignee: Halliburton Energy Services Inc.Inventors: Daniel D. Gleitman, Paul F. Rodney, James H. Dudley
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Patent number: 7219747Abstract: A method and apparatus for providing a local response to a local condition in an oil well are disclosed. A sensor is provided to detect a local condition in a drill string. A controllable element is provided to modulate energy in the drill string. A controller is coupled to the sensor and to the controllable element. The controller receives a signal from the sensor, the signal indicating the presence of said local condition, processes the signal to determine a local energy modulation in the drill string to modify said local condition, and sends a signal to the controllable element to cause the determined local energy modulation.Type: GrantFiled: March 4, 2004Date of Patent: May 22, 2007Assignee: Halliburton Energy Services, Inc.Inventors: Daniel D. Gleitman, Paul F. Rodney, James H. Dudley
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Patent number: 7204308Abstract: To reduce the surveying error in a wellbore, the creation of several reference points within a borehole is carried out by physically placing borehole markers in the borehole casing, the borehole wall or in the formation itself, and providing an accurate reference of the marker locations by either storing information specific to the borehole markers inside or on the marker itself, or assigning an identification number to the marker and storing the information relating to that identification number remotely in a database. The borehole markers may contain an electronic module which includes a microcircuit, a transponder dedicated to the transmission and reception of data to/from a detector placed on a wireline tool, a drill string or a coiled tubing. The detectors may have an additional role of interrogating the electronic modules.Type: GrantFiled: March 4, 2004Date of Patent: April 17, 2007Assignee: Halliburton Energy Services, Inc.Inventors: James H. Dudley, Paul F. Rodney
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Patent number: 7204324Abstract: Methods and apparatuses for drilling a borehole are disclosed. An electric motor electrically and mechanically coupled to a wired drill pipe is provided. The electric motor couples to a shaft that rotates when power is supplied to the electric motor. The shaft is couplable to a drill bit. The wired drill pipe transfers electricity to the electric motor from the surface. Operation of the electric motor rotates the shaft. The drill bit wears away earth to form the borehole in the earth.Type: GrantFiled: March 3, 2005Date of Patent: April 17, 2007Assignee: Halliburton Energy Services, Inc.Inventors: Daniel D. Gleitman, Paul F. Rodney, James H. Dudley
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Patent number: 7116182Abstract: A downhole crystal-based clock that is substantially insensitive to the factors that cause frequency deviation. The clock may be maintained at a predetermined temperature using a temperature sensing device and a heating device, where the predetermined temperature corresponds to the temperature at which the crystal experiences only slight frequency deviation as a function of temperature. A microprocessor may monitor the clock and compensate for long-term aging effects of the crystal according to a predetermined algorithm. The predetermined algorithm may represent long-term aging effects of the crystal which were derived by comparing the crystal clock to a more accurate clock (e.g., an atomic clock) prior to placing the clock downhole. In this manner, the crystal-based clock may be substantially free from the factors that cause frequency, and therefore time variations.Type: GrantFiled: June 3, 2003Date of Patent: October 3, 2006Assignee: Halliburton Energy Services, Inc.Inventors: Georgios L. Varsamis, Gary D. Althoff, Laurence T. Wisniewski, Denis P. Schmitt, Abbas Arian, James H. Dudley
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Patent number: 6909667Abstract: The present disclosure provides several methods for selecting and transmitting information from downhole using more than one channel of communication wherein data streams transmitted up each communications channel are each independently interpretable without reference to data provided up the other of the communications channels. Preferred embodiments incorporate the use of a combination of at least two of mud-based telemetry, tubular-based telemetry, and electromagnetic telemetry to achieve improved results and take advantage of opportunities presented by the differences between the different channels of communication.Type: GrantFiled: February 13, 2002Date of Patent: June 21, 2005Assignee: Halliburton Energy Services, Inc.Inventors: Vimal V. Shah, Wallace R. Gardner, Paul F. Rodney, James H. Dudley, M. Douglas McGregor