Patents Assigned to VISURAY INTECH LTD (BVI)
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Patent number: 10677958Abstract: An x-ray based evaluation tool for measurement of the density of material volumes within and surrounding un-cased, single, dual and multiple-casing wellbore environments is provided, the tool including at least an internal length comprising a sonde section, wherein said sonde section further comprises an x-ray source; a radiation shield for radiation measuring detectors; and a plurality of sonde-dependent electronics; wherein the tool uses x-rays to illuminate the formation surrounding a borehole, wherein the geometry, movement, and plurality of output source beams is selected by moveable collimated shielded sleeves, and a plurality of detectors are used to directly measure the density of the cement annuli and any variations in density within. Various electromagnetic radiation detectors, shields, and practical internal configurations and subsystems and methods of use thereof are also provided.Type: GrantFiled: February 23, 2018Date of Patent: June 9, 2020Assignee: Visuray Intech Ltd (BVI)Inventors: Philip Teague, Alex Stewart
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Patent number: 10605069Abstract: An x-ray-based cased wellbore environment imaging tool is provided, the tool including at least an x-ray source; a radiation shield to define the output form of the produced x-rays; a direction controllable two-dimensional per-pixel collimated imaging detector array; sonde-dependent electronics; and a plurality of tool logic electronics and PSUs. A method of using an x-ray-based cased wellbore environment imaging tool to monitor and determine the integrity of materials within wellbore environments is also provided, the method including at least: producing x-rays in a shaped output; measuring the intensity of backscatter x-rays returning from materials surrounding the wellbore; controlling two-dimensional per-pixel collimated imaging detector arrays; and converting image data from said detectors into consolidated images of the wellbore materials.Type: GrantFiled: April 16, 2019Date of Patent: March 31, 2020Assignee: Visuray Intech Ltd (BVI)Inventors: Philip Teague, Melissa Spannuth
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Publication number: 20200096668Abstract: A first example azimuthal neutron porosity tool for imaging foiniation and cement volumes surrounding a borehole is provided, the tool including at least an internal length comprising a sonde section, wherein said sonde section further comprises one sonde-dependent electronics; a slip-ring and motor section; and a plurality of tool logic electronics and PSUs. An alternative azimuthal neutron porosity tool for imaging formation and cement volumes surrounding a borehole is also provided, the tool including at least a far space detector; a near space detector; and a source located within a moderator shield that rotates around an internal tool axis.Type: ApplicationFiled: November 18, 2019Publication date: March 26, 2020Applicant: Visuray Intech Ltd (BVI)Inventors: Philip Teague, Alex Stewart
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Patent number: 10571599Abstract: A control mechanism for a high-voltage generator for supplying voltage and current to an electronic radiation source in high-temperature environments is provided, the control mechanism including at least one voltage feedback loop for monitoring the output of the generator; at least one environmental temperature monitor; a control bus; and at least one control processor.Type: GrantFiled: April 17, 2018Date of Patent: February 25, 2020Assignee: VISURAY INTECH LTD (BVI)Inventors: Philip Teague, Long Yu
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Publication number: 20190250303Abstract: A first example azimuthal neutron porosity tool for imaging formation and cement volumes surrounding a borehole is provided, the tool including at least an internal length comprising a sonde section, wherein said sonde section further comprises one sonde-dependent electronics; a slip-ring and motor section; and a plurality of tool logic electronics and PSUs. An alternative azimuthal neutron porosity tool for imaging formation and cement volumes surrounding a borehole is also provided, the tool including at least a far space detector; a near space detector; and a source located within a moderator shield that rotates around an internal tool axis.Type: ApplicationFiled: April 18, 2019Publication date: August 15, 2019Applicant: Visuray Intech Ltd (BVI)Inventors: Philip Teague, Alex Stewart
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Patent number: 10254437Abstract: A downhole segmented radiation detector tool measuring formations surrounding a borehole is provided, the tool including at least a plurality of segments capable of detecting radiation, wherein the segments return to the tool after interacting with material surrounding the tool; and radiation shielding configured to allow radiation directly from a radiation source to pass internally through the downhole tool to a reference segment. A method of measuring formations surrounding a borehole is also provided, the method including at least: lowering a downhole tool into a borehole surrounded by a subterranean formation; detecting a first plurality of X-rays or gamma-rays that return to the downhole tool after interacting with materials surrounding the downhole tool using a first segment of an array segmented radiation detector; and configuring associated radiation shielding to allow radiation directly from a radiation source to pass internally through the downhole tool to the reference segment.Type: GrantFiled: April 12, 2018Date of Patent: April 9, 2019Assignee: VISURAY INTECH LTD (BVI)Inventors: Philip Teague, Alex Stewart
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Publication number: 20190079027Abstract: An x-ray-based borehole fluid evaluation tool for evaluating the characteristics of a fluid located external to said tool in a borehole using x-ray backscatter imaging is disclosed, the tool including at least an x-ray source; a radiation shield to define the output form of the produced x-rays into the borehole fluid outside of the tool housing; at least one collimated imaging detector to record x-ray backscatter images; sonde-dependent electronics; and a plurality of tool logic electronics and power supply units. A method of using an x-ray-based borehole fluid evaluation tool to evaluate the characteristics of a fluid through x-ray backscatter imaging is also disclosed, the method including at least producing x-rays in a shaped output; measuring the intensity of backscatter x-rays returning from the fluid to each pixel of one or more array imaging detectors; and converting intensity data from said pixels into characteristics of the wellbore fluids.Type: ApplicationFiled: November 9, 2018Publication date: March 14, 2019Applicant: Visuray Intech Ltd (BVI)Inventors: Kambiz Safinya, Melissa Spannuth, Spencer Gunn
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Patent number: 10132764Abstract: Methods of reconstructing the surface topography of an object embedded in a scattering medium are provided, with example methodologies including: imaging an object embedded in a signal scattering medium using a scattered signal detector; detecting changes in the magnitude of a plurality of scattered signals obtained from multiple fields of view within the medium; and constructing an image of the surface topography of the object based on said plurality of detected signal magnitude changes. A plurality of system, apparatus, control means, evaluation methods, and materials and components useful for practicing the methods are also disclosed.Type: GrantFiled: November 13, 2017Date of Patent: November 20, 2018Assignee: Visuray Intech Ltd (BVI)Inventors: Melissa Spannuth, David Ponce, Ådne Voll, Henning Torsteinsen, Morteza Esmaeili, Spencer Gunn
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Publication number: 20180136146Abstract: Methods of reconstructing the surface topography of an object embedded in a scattering medium are provided, with example methodologies including: imaging an object embedded in a signal scattering medium using a scattered signal detector; detecting changes in the magnitude of a plurality of scattered signals obtained from multiple fields of view within the medium; and constructing an image of the surface topography of the object based on said plurality of detected signal magnitude changes. A plurality of system, apparatus, control means, evaluation methods, and materials and components useful for practicing the methods are also disclosed.Type: ApplicationFiled: November 13, 2017Publication date: May 17, 2018Applicant: Visuray Intech Ltd (BVI)Inventors: Melissa Spannuth, David Ponce, Ådne Voll, Henning Torsteinsen, Morteza Esmaeili, Spencer Gunn
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Patent number: 9817152Abstract: A method of creating three-dimensional borehole data is provided, including illuminating a borehole using collimated beams of electromagnetic radiation; rotating the collimated beams in a sweep of at least 360 degrees; detecting backscattered electromagnetic radiation returned from surfaces of associated illumination planes using electromagnetic radiation sensors; converting detected radiation into a corresponding set of volume image data; analyzing the volume image data using computational visualization processing techniques; and creating a three-dimensional image representative of the volume data.Type: GrantFiled: March 9, 2016Date of Patent: November 14, 2017Assignee: VISURAY INTECH LTD (BVI)Inventors: Andrii Sofiienko, David Ponce, Ådne Voll, Philip Teague
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Publication number: 20160320318Abstract: Methods and means for identifying a fluid type inside of a conduit is provided, including at least the steps of illuminating a fluid in a conduit with ionizing radiation; detecting backscattered electromagnetic radiation returned from one or more surfaces of associated illumination volumes using one or more electromagnetic radiation sensors; converting detected radiation into a corresponding set of planar image data; analyzing the image data using quantitative processing techniques; and creating a depth correlated log representative of the fluid response data. Various logging methods and means are also disclosed, and include at least a forward looking acquisition mode for use while the apparatus remains stationary; a plurality of acquisitions being performed while longitudinally moving the apparatus a predetermined distance through the conduit between acquisition operations; and a plurality of acquisitions being performed longitudinally while moving the apparatus a predetermined distance through the conduit.Type: ApplicationFiled: May 2, 2016Publication date: November 3, 2016Applicant: Visuray Intech Ltd (BVI)Inventors: Kambiz Safinya, Melissa Spannuth, Spencer Gunn
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Publication number: 20160187528Abstract: A method of creating three-dimensional borehole data is provided, including illuminating a borehole using collimated beams of electromagnetic radiation; rotating the collimated beams in a sweep of at least 360 degrees; detecting backscattered electromagnetic radiation returned from surfaces of associated illumination planes using electromagnetic radiation sensors; converting detected radiation into a corresponding set of volume image data; analyzing the volume image data using computational visualization processing techniques; and creating a three-dimensional image representative of the volume data.Type: ApplicationFiled: March 9, 2016Publication date: June 30, 2016Applicant: Visuray Intech Ltd (BVI)Inventors: Andrii Sofiienko, David Ponce, Ådne Voll, Philip Teague
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Publication number: 20150177409Abstract: A method of creating three-dimensional borehole data is provided, including illuminating a borehole using collimated beams of electromagnetic radiation; rotating the collimated beams in a sweep of at least 360 degrees; detecting backscattered electromagnetic radiation returned from surfaces of associated illumination planes using electromagnetic radiation sensors; converting detected radiation into a corresponding set of volume image data; analyzing the volume image data using computational visualization processing techniques; and creating a three-dimensional image representative of the volume data.Type: ApplicationFiled: March 31, 2014Publication date: June 25, 2015Applicant: Visuray Intech Ltd (BVI)Inventors: Andrii Sofiienko, David Ponce, Ådne Voll, Philip Teague
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Publication number: 20140241494Abstract: Methods of reconstructing the surface topography of an object embedded in a scattering medium are provided, with example methodologies including: imaging an object embedded in a signal scattering medium using a scattered signal detector; detecting changes in the magnitude of a plurality of scattered signals obtained from multiple fields of view within the medium; and constructing an image of the surface topography of the object based on said plurality of detected signal magnitude changes. A plurality of system, apparatus, control means, evaluation methods, and materials and components useful for practicing the methods are also disclosed.Type: ApplicationFiled: May 2, 2014Publication date: August 28, 2014Applicant: VISURAY INTECH LTD (BVI)Inventors: Melissa Spannuth, David Ponce, Ådne Voll, Henning Torsteinsen, Morteza Esmaeili, Spencer Gunn