Patents by Inventor Max Deffenbaugh
Max Deffenbaugh 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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Patent number: 11242743Abstract: Provided here are methods and system to detect an untethered device in a wellhead. The untethered device includes a housing, a transducer, and one or more sensors configured to measure data along the subterranean well. The transducer emits acoustic signals that are received by microphones on the surface of the wellhead. Based on these acoustic signals, the location of the untethered device is determined and appropriate valves may be opened or closed by an operator.Type: GrantFiled: June 19, 2020Date of Patent: February 8, 2022Assignee: SAUDI ARABIAN OIL COMPANYInventors: Huseyin Rahmi Seren, Max Deffenbaugh
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Patent number: 11061158Abstract: A method and device are described for making in situ measurements of the density and viscosity of downhole fluids at subterranean wells. An oscillator circuit is deployed in the well comprising an amplifier, a feedback loop, and an electromechanical resonator. The electromechanical resonator is a component in the feedback loop of the oscillator circuit, and has a resonance mode that determines the frequency of the oscillator circuit. The electromechanical resonator is also in contact with the fluid such that the density and viscosity of the fluid influence the resonant frequency and damping of the resonator. The frequency of the oscillator is measured by a microcontroller. In one embodiment, the oscillator circuit periodically stops driving the electromechanical resonator such that the oscillation decays and the rate of decay is also measured by the microcontroller. The density and viscosity of the fluid are determined from the frequency and rate of decay of the oscillation.Type: GrantFiled: June 10, 2019Date of Patent: July 13, 2021Assignee: Saudi Arabian Oil CompanyInventors: Miguel Gonzalez, Max Deffenbaugh, Huseyin Seren, Sebastian Csutak
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Publication number: 20210208046Abstract: Techniques for determining rheological properties of a fluid include actuating a resonator disposed in a volume that contains a fluid sample to operate the resonator in the fluid sample at a predetermined actuation scheme; measuring at least one characteristic of the resonator based on the operation of the resonator in the fluid sample; comparing the at least one measured characteristic to a rheological model that associates characteristics of the fluid sample to one or more rheological properties; and based on the comparison, determining one or more rheological properties of the fluid sample.Type: ApplicationFiled: January 6, 2021Publication date: July 8, 2021Inventors: Miguel Gonzalez, Max Deffenbaugh, Hyongsu Baek
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Publication number: 20210140311Abstract: Embodiments of the invention provide an untethered apparatus for measuring properties along a subterranean well. According to at least one embodiment, the untethered apparatus includes a housing, and one or more sensors configured to measure data along the subterranean well. The data includes one or more physical, chemical, geological or structural properties in the subterranean well. The untethered apparatus further includes a processor configured to control the one or more sensors measuring the data and to store the measured data, and a transmitter configured to transmit the measured data to a receiver arranged external to the subterranean well. Further, the untethered appratus includes a controller configured to control the buoyancy or the drag of the untethered apparatus to control a position of the untethered apparatus in the subterranean well. The processor includes instructions defining measurement parameters for the one or more sensors of the untethered apparatus within the subterranean well.Type: ApplicationFiled: December 18, 2020Publication date: May 13, 2021Applicant: SAUDI ARABIAN OIL COMPANYInventors: Max DEFFENBAUGH, Gregory D. HAM, Jose Oliverio ALVAREZ, Gregory BERNERO, Sunder RAMACHANDRAN, Miguel GONZALEZ, Sebastian CSUTAK, Christopher POWELL, Huseyin SEREN
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Publication number: 20210041591Abstract: The present device and technique relates to measuring geological formation permeability, such as by injection/withdrawal of conductivity-permeability doped fluid and measuring the magnetic permeability and/or conductivity of the surrounding formation. Before, during and/or after injection or withdrawal, pluralities of electromagnetic measurements of the radial distribution of magnetic permeability and/or conductivity of the surrounding formation may be made. The rate of change of the radial distribution of magnetic permeability and/or conductivity of the formation is generally directly proportional to the permeability of the surrounding formation. In implementations, magnetic permeability and electrical conductivity can be measured independently in time domain or frequency domain, such that the magnetic permeability mapping is not disturbed by other confounding electromagnetic parameters.Type: ApplicationFiled: August 7, 2020Publication date: February 11, 2021Inventors: Val Riachentsev, Robert Adams, Max Deffenbaugh, Howard K. Schmidt
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Patent number: 10900351Abstract: An untethered apparatus for measuring properties along a subterranean well. According to at least one embodiment, the untethered apparatus includes a housing, and one or more sensors configured to measure data along the subterranean well. The data includes one or more physical, chemical, geological or structural properties in the subterranean well. The untethered apparatus further includes a processor configured to control the one or more sensors measuring the data and to store the measured data, and a transmitter configured to transmit the measured data to a receiver arranged external to the subterranean well. Further, the untethered apparatus includes a controller configured to control the buoyancy or the drag of the untethered apparatus to control a position of the untethered apparatus in the subterranean well. The processor includes instructions defining measurement parameters for the one or more sensors of the untethered apparatus within the subterranean well.Type: GrantFiled: July 11, 2019Date of Patent: January 26, 2021Inventors: Max Deffenbaugh, Gregory D. Ham, Jose Oliverio Alvarez, Gregory Bernero, Sunder Ramachandran, Miguel Gonzalez, Sebastian Csutak, Christopher Powell, Huseyin Seren
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Publication number: 20200400014Abstract: Provided here are methods and system to detect an untethered device in a wellhead. The untethered device includes a housing, a transducer, and one or more sensors configured to measure data along the subterranean well. The transducer emits acoustic signals that are received by microphones on the surface of the wellhead. Based on these acoustic signals, the location of the untethered device is determined and appropriate valves may be opened or closed by an operator.Type: ApplicationFiled: June 19, 2020Publication date: December 24, 2020Applicant: Saudi Arabian Oil CompanyInventors: Huseyin Rahmi SEREN, Max DEFFENBAUGH
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Patent number: 10689962Abstract: Remotely actuated screenout relief valves, systems and methods are disclosed herein. The methods include providing a proppant slurry stream that includes proppant to a casing conduit that is defined by a casing string that extends within a subterranean formation. The methods further include detecting an operational parameter that is indicative of a screenout event within the casing conduit. Responsive to the detecting, the methods include providing a flush fluid stream to the casing conduit, opening the remotely actuated screenout relief valve, and displacing the proppant from the casing conduit into the subterranean formation with the flush fluid stream via the remotely actuated screenout relief valve. The methods may further include closing the remotely actuated screenout relief valve. The systems include hydrocarbon wells that include the remotely actuated screenout relief valve and/or hydrocarbon wells that include controllers that are configured to perform at least a portion of the methods.Type: GrantFiled: October 12, 2018Date of Patent: June 23, 2020Assignee: ExxonMobil Upstream Research CompanyInventors: Timothy I. Morrow, Randy C. Tolman, Renzo M. Angeles Boza, Mark M. Disko, Max Deffenbaugh
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Patent number: 10480308Abstract: An electro-acoustic system for downhole telemetry employs a series of communications nodes spaced along a string of casing within a wellbore. The nodes allow wireless communication between transceivers residing within the nodes and a receiver at the surface. The transceivers provide node-to-node communication up a wellbore at high data transmission rates for data indicative of fluid flow within the wellbore. A method of monitoring the flow of fluid within a wellbore uses a plurality of data transmission nodes situated along the casing string sending signals to a receiver at the surface. The signals are then analyzed.Type: GrantFiled: December 18, 2013Date of Patent: November 19, 2019Assignee: ExxonMobil Upstream Research CompanyInventors: Timothy I. Morrow, Stuart R. Keller, Max Deffenbaugh, Mark M. Disko, David A. Stiles
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Publication number: 20190332089Abstract: Embodiments of the invention provide an untethered apparatus for measuring properties along a subterranean well. According to at least one embodiment, the untethered apparatus includes a housing, and one or more sensors configured to measure data along the subterranean well. The data includes one or more physical, chemical, geological or structural properties in the subterranean well. The untethered apparatus further includes a processor configured to control the one or more sensors measuring the data and to store the measured data, and a transmitter configured to transmit the measured data to a receiver arranged external to the subterranean well. Further, the untethered apparatus includes a controller configured to control the buoyancy or the drag of the untethered apparatus to control a position of the untethered apparatus in the subterranean well. The processor includes instructions defining measurement parameters for the one or more sensors of the untethered apparatus within the subterranean well.Type: ApplicationFiled: July 11, 2019Publication date: October 31, 2019Applicant: SAUDI ARABIAN OIL COMPANYInventors: Max DEFFENBAUGH, Gregory D. HAM, Jose Oliverio ALVAREZ, Gregory BERNERO, Sunder RAMACHANDRAN, Miguel GONZALEZ, Sebastian CSUTAK, Christopher POWELL, Huseyin SEREN
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Publication number: 20190323338Abstract: An apparatus for determining properties of an uncharacterized downhole fluid. The apparatus comprises an oscillation driver circuit comprising an amplifier having an output and an input, a feedback loop between the output and input of an amplifier or a logic gate, an electromechanical resonator disposed within the feedback loop such that a the resonator is driven by the oscillation driver circuit, wherein a resonant frequency of the resonator defines an oscillation frequency of the oscillator circuit, and a switch device for causing the oscillator circuit to stop driving the resonator, which thereby enables observation of a decay rate of the oscillation of the electromechanical resonator within the uncharacterized fluid. The electromechanical resonator is enclosed in a conductive layer to protect the resonator against capacitive effects of the downhole fluid.Type: ApplicationFiled: June 10, 2019Publication date: October 24, 2019Inventors: Huseyin Rahmi SEREN, Miguel GONZALEZ, Sebastian CSUTAK, Max DEFFENBAUGH
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Publication number: 20190293825Abstract: A method and device are described for making in situ measurements of the density and viscosity of downhole fluids at subterranean wells. An oscillator circuit is deployed in the well comprising an amplifier, a feedback loop, and an electromechanical resonator. The electromechanical resonator is a component in the feedback loop of the oscillator circuit, and has a resonance mode that determines the frequency of the oscillator circuit. The electromechanical resonator is also in contact with the fluid such that the density and viscosity of the fluid influence the resonant frequency and damping of the resonator. The frequency of the oscillator is measured by a microcontroller. In one embodiment, the oscillator circuit periodically stops driving the electromechanical resonator such that the oscillation decays and the rate of decay is also measured by the microcontroller. The density and viscosity of the fluid are determined from the frequency and rate of decay of the oscillation.Type: ApplicationFiled: June 10, 2019Publication date: September 26, 2019Inventors: Miguel GONZALEZ, Max DEFFENBAUGH, Huseyin SEREN, Sebastian CSUTAK
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Patent number: 10317557Abstract: A method and device are described for making in situ measurements of the density and viscosity of downhole fluids at subterranean wells. An oscillator circuit is deployed in the well comprising an amplifier, a feedback loop, and an electromechanical resonator. The electromechanical resonator is a component in the feedback loop of the oscillator circuit, and has a resonance mode that determines the frequency of the oscillator circuit. The electromechanical resonator is also in contact with the fluid such that the density and viscosity of the fluid influence the resonant frequency and damping of the resonator. The frequency of the oscillator is measured by a microcontroller. In one embodiment, the oscillator circuit periodically stops driving the electromechanical resonator such that the oscillation decays and the rate of decay is also measured by the microcontroller. The density and viscosity of the fluid are determined from the frequency and rate of decay of the oscillation.Type: GrantFiled: August 4, 2016Date of Patent: June 11, 2019Assignee: SAUDI ARABIAN OIL COMPANYInventors: Miguel Gonzalez, Max Deffenbaugh, Huseyin Seren, Sebastian Csutak
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Publication number: 20190128106Abstract: Remotely actuated screenout relief valves, systems and methods are disclosed herein. The methods include providing a proppant slurry stream that includes proppant to a casing conduit that is defined by a casing string that extends within a subterranean formation. The methods further include detecting an operational parameter that is indicative of a screenout event within the casing conduit. Responsive to the detecting, the methods include providing a flush fluid stream to the casing conduit, opening the remotely actuated screenout relief valve, and displacing the proppant from the casing conduit into the subterranean formation with the flush fluid stream via the remotely actuated screenout relief valve. The methods may further include closing the remotely actuated screenout relief valve. The systems include hydrocarbon wells that include the remotely actuated screenout relief valve and/or hydrocarbon wells that include controllers that are configured to perform at least a portion of the methods.Type: ApplicationFiled: October 12, 2018Publication date: May 2, 2019Inventors: Timothy I. Morrow, Randy C. Tolman, Renzo M. Angeles Boza, Mark M. Disko, Max Deffenbaugh
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Patent number: 10167717Abstract: A system for downhole telemetry is provided herein. The system employs a series of communications nodes spaced along a tubular body either above or below ground, such as in a wellbore. The nodes allow for wireless communication between one or more sensors residing at the level of a subsurface formation or along a pipeline, and a receiver at the surface. The communications nodes employ electro-acoustic transducers that provide for node-to-node communication along the tubular body at high data transmission rates. A method of transmitting data in a wellbore is also provided herein. The method uses a plurality of data transmission nodes situated along a tubular body and a specially configured network to accomplish a wireless transmission of data along the wellbore using acoustic energy.Type: GrantFiled: July 19, 2018Date of Patent: January 1, 2019Assignee: Exxonmobil Upstream Research CompanyInventors: Mark M. Disko, Timothy I. Morrow, Max Deffenbaugh, Katie M. Walker, Scott W. Clawson, Henry Alan Wolf
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Publication number: 20180347354Abstract: Systems, apparatuses, and computer-implemented methods are provided for the sensing and prediction of properties of source rock. Disclosed here is a method of predicting the maturity of a source rock that includes obtaining a plurality of data of a sample source rock from a plurality of data acquisition devices placed in vicinity of the sample source rock and analyzing the received data using a predictive correlation to determine maturity of the sample source rock. The predictive correlation is generated by applying a machine learning model to correlate the plurality of data acquired from a plurality of representative source rocks with a plurality of properties of the plurality of representative source rocks.Type: ApplicationFiled: March 14, 2018Publication date: December 6, 2018Inventors: Weichang Li, Sebastian Csutak, David Jacobi, Tiffany Dawn McAlpin, Max Deffenbaugh, Shannon Lee Eichmann
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Patent number: 10132149Abstract: Remotely actuated screenout relief valves, systems and methods are disclosed herein. The methods include providing a proppant slurry stream that includes proppant to a casing conduit that is defined by a casing string that extends within a subterranean formation. The methods further include detecting an operational parameter that is indicative of a screenout event within the casing conduit. Responsive to the detecting, the methods include providing a flush fluid stream to the casing conduit, opening the remotely actuated screenout relief valve, and displacing the proppant from the casing conduit into the subterranean formation with the flush fluid stream via the remotely actuated screenout relief valve. The methods may further include closing the remotely actuated screenout relief valve. The systems include hydrocarbon wells that include the remotely actuated screenout relief valve and/or hydrocarbon wells that include controllers that are configured to perform at least a portion of the methods.Type: GrantFiled: December 18, 2013Date of Patent: November 20, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Timothy I. Morrow, Randy C. Tolman, Renzo M. Angeles Boza, Mark M. Disko, Max Deffenbaugh
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Publication number: 20180320510Abstract: A system for downhole telemetry is provided herein. The system employs a series of communications nodes spaced along a tubular body either above or below ground, such as in a wellbore. The nodes allow for wireless communication between one or more sensors residing at the level of a subsurface formation or along a pipeline, and a receiver at the surface. The communications nodes employ electro-acoustic transducers that provide for node-to-node communication along the tubular body at high data transmission rates. A method of transmitting data in a wellbore is also provided herein. The method uses a plurality of data transmission nodes situated along a tubular body and a specially configured network to accomplish a wireless transmission of data along the wellbore using acoustic energy.Type: ApplicationFiled: July 19, 2018Publication date: November 8, 2018Inventors: Mark M. Disko, Timothy I. Morrow, Max Deffenbaugh, Katie M. Walker, Scott W. Clawson, Henry Alan Wolf
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Patent number: 10100635Abstract: A system for downhole telemetry is provided herein. The system employs a series of communications nodes spaced along a tubular body in a wellbore. Each communications node is associated with a sensor that senses data indicative of a formation condition or a wellbore parameter along a subsurface formation. The data is stored in memory until a logging tool is run into the wellbore. The data is transmitted from the respective communications nodes to a receiver in the logging tool. The data is then transferred to the surface. A method of transmitting data in a wellbore is also provided herein. The method uses a logging tool to harvest data in a wellbore from a plurality of sensor communications nodes.Type: GrantFiled: December 18, 2013Date of Patent: October 16, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Stuart R. Keller, Timothy I. Morrow, James S. Burns, Max Deffenbaugh, Mark M. Disko, David A. Stiles
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Patent number: 9816373Abstract: An electro-acoustic system for downhole telemetry is provided herein. The system employs a series of communications nodes spaced along a string of casing within a wellbore. The nodes are placed within the annular region surrounding the joints of casing within the well-bore. The nodes allow for wireless communication between transceivers residing within the communications nodes and a topside communications node at the wellhead. More specifically, the transceivers provide for node-to-node communication up a wellbore at high data transmission rates for data indicative of a parameter within an annular region behind the string of casing. A method of evaluating a parameter within an annular region along a cased-hole wellbore is also provided herein. The method uses a plurality of data transmission nodes situated along the casing string which send signals to a receiver at the surface. The signals are then analyzed.Type: GrantFiled: December 18, 2013Date of Patent: November 14, 2017Assignee: ExxonMobil Upstream Research CompanyInventors: David A. Howell, Timothy I. Morrow, Mark M. Disko, Max Deffenbaugh