Patents by Inventor Sushovon Singha ROY
Sushovon Singha ROY 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: 11105195Abstract: A method and a system for determining metal loss in a layered system. The method may comprise disposing an EM metal loss tool downhole, broadcasting an electromagnetic field from the one or more transmitters of the EM metal loss tool into the layered system, recording the altered electromagnetic field with the one or more receivers, processing the signal with an information handling system, and determining metal loss in the layered system. A system may comprise an EM metal loss tool. The EM electromagnetic metal loss tool may comprise at least one transmitter and at least one receiver. The system may further comprise a conveyance, wherein the conveyance is attached to the electromagnetic metal loss tool, and an information handling system, wherein the information handling system is configured to process the altered electromagnetic field and determine metal loss in the layered system.Type: GrantFiled: July 13, 2018Date of Patent: August 31, 2021Assignee: Halliburton Energy Services, Inc.Inventors: Freeman Lee Hill, III, Sushovon Singha Roy, Luis Emilio San Martin, Ahmed Elsayed Fouda
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Patent number: 10982531Abstract: A method for determining the activation of an expandable sand screen may comprise disposing an electromagnetic (EM) detection tool into a wellbore. The EM detection tool may comprise at least one transmitter and at least one receiver. The method may further comprise transmitting an EM field from the one or more transmitters into the expandable sand screen to energize the expandable sand screen and form an eddy current, recording a voltage of the eddy current with the at least one receiver, and determining an activation state of the expandable sand screen based at least partially on the voltage of the eddy current.Type: GrantFiled: May 30, 2019Date of Patent: April 20, 2021Assignee: Halliburton Energy Services, Inc.Inventors: Junwen Dai, Ahmed Elsayed Fouda, Ilker R. Capoglu, Sushovon Singha Roy
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Publication number: 20210108507Abstract: A method and a system for determining metal loss in a layered system. The method may comprise disposing an EM metal loss tool downhole, broadcasting an electromagnetic field from the one or more transmitters of the EM metal loss tool into the layered system, recording the altered electromagnetic field with the one or more receivers, processing the signal with an information handling system, and determining metal loss in the layered system. A system may comprise an EM metal loss tool. The EM electromagnetic metal loss tool may comprise at least one transmitter and at least one receiver. The system may further comprise a conveyance, wherein the conveyance is attached to the electromagnetic metal loss tool, and an information handling system, wherein the information handling system is configured to process the altered electromagnetic field and determine metal loss in the layered system.Type: ApplicationFiled: July 13, 2018Publication date: April 15, 2021Applicant: Halliburton Energy Services, Inc.Inventors: Freeman Lee Hill, III, Sushovon Singha Roy, Luis Emilio San Martin, Ahmed Elsayed Fouda
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Patent number: 10876394Abstract: A method for measuring fluid flow including disposing a measurement device within a fluidic channel, the measurement device including a hydrodynamic central body, a plurality of arms coupled with and operable to extend from and retract to the hydrodynamic central body, and a plurality of sensors disposed within the hydrodynamic central body and distributed along the length of each of the plurality of arms; triggering, via an actuator, the plurality of arms to expand from the hydrodynamic central body until a portion of each of the plurality of arms abut a sidewall of the fluidic channel; collecting, via the plurality of sensors, measurements relating to one or more fluid flow parameters within the fluidic channel; triggering, via the actuator, the plurality of arms to contract inwards to the hydrodynamic central body; and retracting the measurement device from the fluidic channel.Type: GrantFiled: September 6, 2019Date of Patent: December 29, 2020Assignee: HALLIBURTON ENERGY SERVICES, INC.Inventors: Freeman Lee Hill, III, Sushovon Singha Roy, Francis Michael Heaney
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Publication number: 20200109974Abstract: A method for measuring fluid flow including disposing a measurement device within a fluidic channel, the measurement device including a hydrodynamic central body, a plurality of arms coupled with and operable to extend from and retract to the hydrodynamic central body, and a plurality of sensors disposed within the hydrodynamic central body and distributed along the length of each of the plurality of arms; triggering, via an actuator, the plurality of arms to expand from the hydrodynamic central body until a portion of each of the plurality of arms abut a sidewall of the fluidic channel; collecting, via the plurality of sensors, measurements relating to one or more fluid flow parameters within the fluidic channel; triggering, via the actuator, the plurality of arms to contract inwards to the hydrodynamic central body; and retracting the measurement device from the fluidic channel.Type: ApplicationFiled: September 6, 2019Publication date: April 9, 2020Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Freeman Lee HILL, III, Sushovon SINGHA ROY, Francis Michael HEANEY
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Patent number: 10577921Abstract: Techniques for determining depth of a downhole tool in a wellbore include running a first downhole tool into a wellbore on a downhole conveyance; generating time-dependent logging data with the first downhole tool in the wellbore, at least one of the depth-dependent logging data or the time-dependent logging data associated with an electric or a magnetic property of a wellbore casing or a geological formation; correlating at the first downhole tool the time-dependent logging data with the depth-dependent logging data; and based on the correlation, determining at least one of a depth of the first downhole tool in the wellbore or a speed of the first downhole tool in the wellbore.Type: GrantFiled: May 12, 2014Date of Patent: March 3, 2020Assignee: Halliburton Energy Services, Inc.Inventors: Burkay Donderici, Xiang Tian, Sushovon Singha Roy
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Publication number: 20190390544Abstract: A method for determining the activation of an expandable sand screen may comprise disposing an electromagnetic (EM) detection tool into a wellbore. The EM detection tool may comprise at least one transmitter and at least one receiver. The method may further comprise transmitting an EM field from the one or more transmitters into the expandable sand screen to energize the expandable sand screen and form an eddy current, recording a voltage of the eddy current with the at least one receiver, and determining an activation state of the expandable sand screen based at least partially on the voltage of the eddy current.Type: ApplicationFiled: May 30, 2019Publication date: December 26, 2019Applicant: Halliburton Energy Services, Inc.Inventors: Junwen Dai, Ahmed Elsayed Fouda, Ilker R. Capoglu, Sushovon Singha Roy
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Patent number: 10323508Abstract: A system to monitor the retrieval of a well tool from a wellbore comprises a deployment member coupled to the well tool to retrievably insert the well tool in the wellbore. At least one first identification transducer is coupled to a top end of the well tool to transmit an identification signal during retrieval of the well tool. At least one second identification transducer is located at at least one axial location along a surface pressure control assembly to detect the identification signal. A controller is in data communication with the at least one second identification transducer to determine the position of the well tool relative to the pressure control assembly, and to output at least one command related to the position of the well tool relative to the pressure control assembly.Type: GrantFiled: February 27, 2013Date of Patent: June 18, 2019Assignee: Halliburton Energy Services, Inc.Inventors: Randolph S. Coles, Sushovon Singha Roy, Batakrishna Mandal
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Publication number: 20170114628Abstract: Methods of lowering a casing inspection tool on a conveyance into a wellbore lined with one or more casings. Measurement data is then obtained from the one or more casings with one or more electromagnetic sensors positioned on the casing inspection tool. One or more characteristics of the one or more casings is then determined based on the measurement data with a processing module positioned on the casing inspection tool. One or more parameters of the casing inspection tool are then autonomously adjusted based on the one or more characteristics.Type: ApplicationFiled: June 23, 2015Publication date: April 27, 2017Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Reza Khalaj Amineh, Burkay Donderici, Sushovon Singha Roy
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Publication number: 20170089194Abstract: A well tool assembly residing outside of a well includes a power source component and a measurement component coupled to the power source component. A transmitter in a housing assembly of the well tool assembly is used to generate a transmission penetrating a wall of the housing assembly to an exterior of the well tool assembly.Type: ApplicationFiled: June 20, 2014Publication date: March 30, 2017Inventors: Burkay Donderici, Sushovon Singha Roy
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Publication number: 20170051604Abstract: Techniques for determining depth of a downhole tool in a wellbore include running a first downhole tool into a wellbore on a downhole conveyance; generating time-dependent logging data with the first downhole tool in the wellbore, at least one of the depth-dependent logging data or the time-dependent logging data associated with an electric or a magnetic property of a wellbore casing or a geological formation; correlating at the first downhole tool the time-dependent logging data with the depth-dependent logging data; and based on the correlation, determining at least one of a depth of the first downhole tool in the wellbore or a speed of the first downhole tool in the wellbore.Type: ApplicationFiled: May 12, 2014Publication date: February 23, 2017Inventors: Burkay Donderici, Xiang Tian, Sushovon Singha Roy
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Publication number: 20160356123Abstract: A method and apparatus including a fluid pressure actuator that includes a diaphragm that has a top and a bottom surface. In an exemplary embodiment, the fluid pressure actuator also has plunger coupled to the diaphragm and that extends from the bottom surface of the diaphragm in a first direction. The fluid pressure actuator also includes a bellow sensor that is coupled to the bottom surface of the diaphragm and that has an interior surface. In an exemplary embodiment, a height of the interior surface of the bellow sensor prevents the movement of the plunger in the first direction.Type: ApplicationFiled: December 23, 2014Publication date: December 8, 2016Inventors: Jean G. Saint Germain, Lesley Fessler, Adan H. Herrera, Sushovon Singha Roy, Wesley Ludwig
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Publication number: 20160003033Abstract: A system to monitor the retrieval of a well tool from a wellbore comprises a deployment member coupled to the well tool to retrievably insert the well tool in the wellbore. At least one first identification transducer is coupled to a top end of the well tool to transmit an identification signal during retrieval of the well tool. At least one second identification transducer is located at at least one axial location along a surface pressure control assembly to detect the identification signal. A controller is in data communication with the at least one second identification transducer to determine the position of the well tool relative to the pressure control assembly, and to output at least one command related to the position of the well tool relative to the pressure control assembly.Type: ApplicationFiled: February 27, 2013Publication date: January 7, 2016Inventors: Randolph S. COLES, Sushovon Singha ROY, Batakrishna MANDAL