Systems, methods, and computer readable storage mediums for performing sensor health monitoring are described. The method includes receiving data characterizing measurement data values acquired by a sensor coupled to an industrial asset, identifying an anomalous data sample within the received data, removing the anomalous data sample to generate cleaned training data, training a model using the cleaned training data, generate a predicted asset data using the model, and determining an anomalous data in a new sample of asset data based on a difference between the new sample of the asset data to the predicted asset data.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable software for use in asset performance
management, condition health and monitoring, inspection,
process optimization, and sustainability management;
recorded software for use in asset performance management,
condition health and monitoring, inspection, process
optimization, and sustainability management for monitoring
rotating equipment, pumps, valves, and gears; control
servers; downloadable software for use with internet of
things (IoT) hardware; hardware for use with internet of
things (IoT) devices; sensors; condition monitoring systems;
vibration monitors; non-destructive testing equipment;
industrial radiography equipment; ultrasonic testing
equipment; hardware for use in the control, monitoring,
compression, power generation, and non-destructive (NDT)
inspection of industrial assets; all of the foregoing for
use in the oil and gas, refinery and petrochemical, power
generation, hydrogen, carbon capture, utilization and
storage, renewable power generation, metals and mining, pulp
and paper, automotive, aerospace, electronics manufacturing,
consumer goods, utilities, marine, food and beverage
manufacturing, and nuclear fields. Software as a service (SaaS) services software for use in
asset performance management, namely, condition health and
monitoring, inspection, process optimization, and
sustainability management; computer software consulting
services in the field of providing machine quality and
inspection services, support services, maintenance services,
remote monitoring, asset health and management services,
process optimization services, outcome-based services,
contractual service agreements, and services relating to
equipment upgrades; all of the foregoing for use in the oil
and gas, refinery and petrochemical, power generation,
hydrogen, carbon capture, utilization and storage, renewable
power generation, metals and mining, pulp and paper,
automotive, aerospace, electronics manufacturing, consumer
goods, utilities, marine, food and beverage manufacturing,
and nuclear fields.
Ultrasonic probes are provided to abate unwanted signal noise. An ultrasonic probe includes a bundle of rods configured to sample data at a first end and propagate a signal encoding the sampled data to a second end. Each of the rods in the bundle of rods has a substantially similar length and a substantially similar diameter. The ultrasonic probe also includes a shell concentrically disposed around the bundle of rods. The shell is configured to pack the bundle of rods together. The shell includes a plurality of grooves configured to abate a prevailing bulk wave sampled by the first end.
A device and system for training condition monitoring systems are provided. In one embodiment, the device can include a plurality of connections arranged to communicatively couple the device to one or more condition monitoring systems. The device can also include a computing system including a power generator arranged to retrieve power from the one or more condition monitoring systems to power the device, at least one data processor and a memory storing instructions which, when executed by the at least one processor, cause the at least one processor to perform operations including: receiving, from the one or more condition monitoring systems, data characterizing a sensor type of a plurality of sensor types to be coupled to the one or more condition monitoring systems, determining a simulated waveform characteristic of the sensor type, and transmitting the simulated waveform to the one or more condition monitoring systems to simulate an output from the sensor type.
Ultrasonic probes are provided to abate unwanted signal noise. An ultrasonic probe includes a bundle of rods configured to sample data at a first end and propagate a signal encoding the sampled data to a second end. Each of the rods in the bundle of rods has a substantially similar length and a substantially similar diameter. The ultrasonic probe also includes a shell concentrically disposed around the bundle of rods. The shell is configured to pack the bundle of rods together. The shell includes a plurality of grooves configured to abate a prevailing bulk wave sampled by the first end.
A method can include receiving image data characterizing a viewed object acquired via an image sensor of a visual inspection system and providing the image data in a display. The method can include receiving a first directional movement input via a directional input device of the visual inspection system and applying a first set of actuator drive signals to a plurality of actuators of the visual inspection system. The method can further include applying a coordinate transformation to the image data to generate transformed image data and receiving a second directional movement input via the directional input device. The method can also include applying a second set of actuator drive signals to the plurality of actuators. The second set of actuator drive signals can cause points on the viewed object to move in the first direction on the display. Related systems performing the method are also provided.
An apparatus for performing non-destructive testing is provided. The apparatus includes a housing having a front face for displaying a user interface and a rear face. A plurality of first buttons is disposed on the rear face of the housing adjacent to a side face, and receives a first set of user inputs from a user. One or more second buttons are disposed on the housing and receive a second set of user inputs from the user. The first set of user inputs and the second set of user inputs are received via a forefinger and a thumb, respectively, of the user. The plurality of first buttons and the one or more second buttons are together configured to select a precise value of an operating parameter of the apparatus. Related methods of use are also described.
G06F 3/02 - Input arrangements using manually operated switches, e.g. using keyboards or dials
G06F 3/0362 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of 1D translations or rotations of an operating part of the device, e.g. scroll wheels, sliders, knobs, rollers or belts
8.
HIGH RESOLUTION COMPUTED TOMOGRAPHY OBJECT SCANNING
A method for scanning a target object is provided. The method includes generating a scanning path including source poses at which a target object is scanned by a scanning source. The method also includes moving the target object along the scanning path and emitting a beam towards a region of interest (ROI) on the target object at each source pose. The method further includes receiving data characterizing the ROI based on the emitted beam and generating scanning data representing a geometrical position and an orientation of the ROI of the target object for each source pose. Pose information can be extracted based on the source poses and a 3D model of the target object can be reconstructed using the pose information and the scanning data and provided for display. Related systems and non-transitory computer readable mediums are also provided.
G01N 23/046 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and forming images of the material using tomography, e.g. computed tomography [CT]
G01N 23/083 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and measuring the absorption the radiation being X-rays
An apparatus for performing non-destructive testing is provided. The apparatus includes a housing having a front face for displaying a user interface and a rear face. A plurality of first buttons is disposed on the rear face of the housing adjacent to a side face, and receives a first set of user inputs from a user. One or more second buttons are disposed on the housing and receive a second set of user inputs from the user. The first set of user inputs and the second set of user inputs are received via a forefinger and a thumb, respectively, of the user. The plurality of first buttons and the one or more second buttons are together configured to select a precise value of an operating parameter of the apparatus. Related methods of use are also described.
An ultrasonic probe holder includes a probe holder frame, an arc plate, a follower plate, and a plurality of contacts. The frame can have at least one aperture extending therethrough, open in the downward direction, and defining an open lower end of the frame. The arc plate can be positioned within the aperture, extend between opposed, curved lateral edges, and couple to the frame. The follower plate can be mounted to a lower end of the arc plate and include arms extending laterally outward from a vertical axis in the plane of the arc plate. The contacts can be slidably mounted to the arms of the follower plate and extend in the vertical direction. The arc plate can be constrained in the plane of the frame and to pivot with respect to the frame in response to vertical movement of one or more of the plurality of contacts.
G01N 29/22 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object - Details
G01N 29/265 - Arrangements for orientation or scanning by moving the sensor relative to a stationary material
G01N 29/28 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object - Details providing acoustic coupling
11.
HIGH RESOLUTION COMPUTED TOMOGRAPHY OBJECT SCANNING
A method for scanning a target object is provided. The method includes generating a scanning path including source poses at which a target object is scanned by a scanning source. The method also includes moving the target object along the scanning path and emitting a beam towards a region of interest (ROI) on the target object at each source pose. The method further includes receiving data characterizing the ROI based on the emitted beam and generating scanning data representing a geometrical position and an orientation of the ROI of the target object for each source pose. Pose information can be extracted based on the source poses and a 3D model of the target object can be reconstructed using the pose information and the scanning data and provided for display. Related systems and non-transitory computer readable mediums are also provided.
G01N 23/046 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and forming images of the material using tomography, e.g. computed tomography [CT]
A method includes receiving, by a data processor of a non-destructive testing (NDT) device, data characterizing an inspection point identifying an asset to be inspected using the NDT device. The method also includes determining, by the data processor, an inspection procedure associated with the asset based on the inspection point included in the received data. In addition, the method includes determining, by the data processor, a user interface configuration of the NDT device, the user interface configuration including a graphical interface configuration provided via a graphical user interface displayed on a display of the NDT device and a manual interface configuration corresponding to an actuated interface device of the NDT device. The method further includes configuring, by the data processor, the NDT device to perform the inspection procedure by applying the determined user interface configuration.
A method includes receiving, by a data processor of a non-destructive testing (NDT) device, data characterizing an inspection point identifying an asset to be inspected using the NDT device. The method also includes determining, by the data processor, an inspection procedure associated with the asset based on the inspection point included in the received data. In addition, the method includes determining, by the data processor, a user interface configuration of the NDT device, the user interface configuration including a graphical interface configuration provided via a graphical user interface displayed on a display of the NDT device and a manual interface configuration corresponding to an actuated interface device of the NDT device. The method further includes configuring, by the data processor, the NDT device to perform the inspection procedure by applying the determined user interface configuration.
G06F 3/0484 - Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
G01N 21/17 - Systems in which incident light is modified in accordance with the properties of the material investigated
G01N 21/954 - Inspecting the inner surface of hollow bodies, e.g. bores
A method for determining a health indicator parameter of a fluid are described. The method can include contacting at least one first functionalized electrode included in a plurality of functionalized electrodes of a sensing unit with a fluid. The method can also include generating a first electrical signal within the fluid by the at least one first functionalized electrode. The method can further include receiving, by at least one second functionalized electrode included in the plurality of functionalized electrodes of the sensing unit, a second electrical signal in response to the first electrical signal. The sensing unit can determine a health indicator parameter of the fluid based on the second electrical signal. The health indicator parameter can be associated with an electrochemical response signal included in the second electrical signal. The sensing unit can provide the health indicator parameter to a computing device communicably coupled to the sensing unit.
A method for determining a health indicator parameter of a fluid are described. The method can include contacting at least one first functionalized electrode included in a plurality of functionalized electrodes of a sensing unit with a fluid. The method can also include generating a first electrical signal within the fluid by the at least one first functionalized electrode. The method can further include receiving, by at least one second functionalized electrode included in the plurality of functionalized electrodes of the sensing unit, a second electrical signal in response to the first electrical signal. The sensing unit can determine a health indicator parameter of the fluid based on the second electrical signal. The health indicator parameter can be associated with an electrochemical response signal included in the second electrical signal. The sensing unit can provide the health indicator parameter to a computing device communicably coupled to the sensing unit.
Data includes a first dataset with a first set of attributes and a second dataset with a second set of attributes is received. The first dataset and the second dataset are associated with an industrial asset. A first attribute value of a first attribute in the first set of attributes is assigned a first priority value and a second attribute value of the first attribute in the second set of attributes is assigned a second priority value. A third dataset that includes a third set of attributes of the industrial asset is generated. The third set of attributes includes the first attribute. An attribute value between the first attribute value and the second attribute value is selected based on the first priority value and the second priority value. The first attribute of the third set of attributes of the third dataset is set to the selected attribute value.
Data includes a first dataset with a first set of attributes and a second dataset with a second set of attributes is received. The first dataset and the second dataset are associated with an industrial asset. A first attribute value of a first attribute in the first set of attributes is assigned a first priority value and a second attribute value of the first attribute in the second set of attributes is assigned a second priority value. A third dataset that includes a third set of attributes of the industrial asset is generated. The third set of attributes includes the first attribute. An attribute value between the first attribute value and the second attribute value is selected based on the first priority value and the second priority value. The first attribute of the third set of attributes of the third dataset is set to the selected attribute value.
A method for measuring a feature near the edge of an object comprising receiving image data characterizing the object, identifying an edge of the object, identifying a point on the perimeter of the feature at a position opposite the edge of the object, determining a reference plane, determining a three-dimensional reference line on the reference plane associated with the edge of the object, determining a three-dimensional measurement point on the reference plane based on the point on the perimeter of the feature, and determining the perpendicular distance from the measurement point to the reference line.
A method for measuring a feature near the edge of an object comprising receiving image data characterizing the object, identifying an edge of the object, identifying a point on the perimeter of the feature at a position opposite the edge of the object, determining a reference plane, determining a three-dimensional reference line on the reference plane associated with the edge of the object, determining a three-dimensional measurement point on the reference plane based on the point on the perimeter of the feature, and determining the perpendicular distance from the measurement point to the reference line.
G01B 11/02 - Measuring arrangements characterised by the use of optical techniques for measuring length, width, or thickness
G01B 11/03 - Measuring arrangements characterised by the use of optical techniques for measuring length, width, or thickness by measuring coordinates of points
G01B 11/25 - Measuring arrangements characterised by the use of optical techniques for measuring contours or curvatures by projecting a pattern, e.g. moiré fringes, on the object
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Computer software, namely, computer tools for well logging
and well data acquisition; software for use in well logging;
software for use in well logging analysis. Well logging services.
21.
PROBABILITY OF DETECTION OF LIFECYCLE PHASES OF CORROSION UNDER INSULATION USING ARTIFICIAL INTELLIGENCE AND TEMPORAL THERMOGRAPHY
A system for determining corrosion under insulation of an industrial asset is provided. The system includes an infrared camera configured to acquire one or more time-series infrared images of an industrial asset. The system further includes a computing device configured to receive data characterizing the one or more time-series infrared images, and to identify an area of interest of the industrial asset within the one or more time-series infrared images. The computing device further configured to identify, by a machine learning algorithm, a plurality of defects within the area of interest based on pixel-wise assignment of at least one defect category selected from a plurality of defect categories associated with corrosion under insulation of the industrial asset, and to provide the plurality of defects within the area of interest of the industrial asset. Related methods, apparatuses, and computer-readable mediums are also provided.
G06T 5/50 - Image enhancement or restoration by the use of more than one image, e.g. averaging, subtraction
G06V 10/25 - Determination of region of interest [ROI] or a volume of interest [VOI]
G06V 10/762 - Arrangements for image or video recognition or understanding using pattern recognition or machine learning using clustering, e.g. of similar faces in social networks
G06V 20/70 - Labelling scene content, e.g. deriving syntactic or semantic representations
G01J 5/48 - Thermography; Techniques using wholly visual means
22.
PROBABILITY OF DETECTION OF LIFECYCLE PHASES OF CORROSION UNDER INSULATION USING ARTIFICIAL INTELLIGENCE AND TEMPORAL THERMOGRAPHY
A system for determining corrosion under insulation of an industrial asset is provided. The system includes an infrared camera configured to acquire one or more time-series infrared images of an industrial asset. The system further includes a computing device configured to receive data characterizing the one or more time-series infrared images, and to identify an area of interest of the industrial asset within the one or more time-series infrared images. The computing device further configured to identify, by a machine learning algorithm, a plurality of defects within the area of interest based on pixel-wise assignment of at least one defect category selected from a plurality of defect categories associated with corrosion under insulation of the industrial asset, and to provide the plurality of defects within the area of interest of the industrial asset. Related methods, apparatuses, and computer-readable mediums are also provided.
A relay logic evaluator includes circuitry configured to receive signals indicative of a status change. The circuitry is configured to send a second signal indicative of the status changes received by the circuitry. A controller is coupled to the relay logic evaluator. The controller is configured to determine a value indicative of a count of status changes responsive to receiving the second signal from the circuitry. The controller is configured to provide a signal indicative of the value.
G06F 30/331 - Design verification, e.g. functional simulation or model checking using simulation with hardware acceleration, e.g. by using field programmable gate array [FPGA] or emulation
A method for inspecting an object using CT is provided. In an embodiment, the method can include providing an object for an inspection. The object can be provided on a base configured to rotate the object. The method can also include acquiring a first plurality of inspection data characterizing the object during rotation through a first scan sector. The first plurality of inspection data can be acquired by a first inspection chain. The method can further include acquiring a second plurality of inspection data characterizing the object during rotation through a second scan sector. The second plurality of inspection data can be acquired by a second inspection chain. The method can also include providing the first plurality of inspection data and the second plurality of inspection data. Related systems, apparatuses, and non-transitory computer readable mediums are also provided.
G01N 23/046 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and forming images of the material using tomography, e.g. computed tomography [CT]
G01N 23/083 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and measuring the absorption the radiation being X-rays
G01N 23/18 - Investigating the presence of defects or foreign matter
A first set of data is received by a non-destructive testing device (NDT device) from a remote system. A second set of data is received by the NDT device from a sensor on the NDT device. In response to receiving the second set of data, the first set of data and the second set of data are synchronized to create a synchronized set of data by comparing the first set of data and the second set of data, identifying differences between the first set of data and the second set of data, and providing a set of data that include elements of both the first set of data and the second set of data. Synchronizing occurs automatically during an inspection. The synchronizing occurs between the NDT device and the remote system such that the synchronized set of data is present on both the NDT device and the remote system.
A first set of data is received by a non-destructive testing device (NDT device) from a remote system. A second set of data is received by the NDT device from a sensor on the NDT device. In response to receiving the second set of data, the first set of data and the second set of data are synchronized to create a synchronized set of data by comparing the first set of data and the second set of data, identifying differences between the first set of data and the second set of data, and providing a set of data that include elements of both the first set of data and the second set of data. Synchronizing occurs automatically during an inspection. The synchronizing occurs between the NDT device and the remote system such that the synchronized set of data is present on both the NDT device and the remote system.
A tubular for reservoir fines control includes a body having an outer surface and an inner surface defining a flow path. A plurality of openings is formed in the body connecting the outer surface and the flow path. A pre-formed member including a material mesh is overlaid onto the outer surface. The material mesh is formed from a material swellable upon exposure to a selected fluid introduced into a wellbore. The material mesh has a selected porosity allowing methane to pass into the flow path while preventing passage of fines.
A method includes receiving data characterizing a target surface extending in three dimensions. The method also includes rendering in a graphical user interface display space, a first visual representation including a two-dimensional image of a first portion of the target surface, and a second visual representation including a three-dimensional representation of at least a subset of the first portion of the target surface included in the first visual representation. The method further includes receiving, based on a first user interaction with the three-dimensional representation via a cursor configured to move over the three-dimensional representation, a first user input indicative of selection of a first location of the target surface. The method also includes rendering a first graphical object at a first target position in the three-dimensional representation and a second graphical object at a second target position in the two-dimensional image. The first and the second target positions are indicative of the first location of the target surface.
G06F 3/04815 - Interaction with a metaphor-based environment or interaction object displayed as three-dimensional, e.g. changing the user viewpoint with respect to the environment or object
A calibration method includes receiving data characterizing a first pressure broadening coefficient, a second pressure broadening coefficient and a third pressure broadening coefficient of the target gas absorption associated with a first background gas, a second background gas and a third background gas, respectively. The method further includes, determining a molar ratio associated with the second background gas and the third background such that an effective pressure broadening coefficient associated with a target gas mixture including the second background gas and the third background gas mixed at the determined molar ratio is within a predetermined threshold of the first broadening coefficient. The target gas mixture further includes a target gas. The method also includes calibrating a gas analyzer using the target gas mixture to replace the calibration of the target in the first background gas. The calibration is based on absorption of electromagnetic radiation by the target gas in the target gas mixture.
G01N 33/00 - Investigating or analysing materials by specific methods not covered by groups
G01N 21/39 - Investigating relative effect of material at wavelengths characteristic of specific elements or molecules, e.g. atomic absorption spectrometry using tunable lasers
06 - Common metals and ores; objects made of metal
09 - Scientific and electric apparatus and instruments
Goods & Services
Downhole tools for hydrocarbon wellbore completion and production, namely, metal sand screens Downhole tools for hydrocarbon wellbore completion and production, namely, control valves for regulating the flow of liquids; downhole tools for hydrocarbon wellbore completion and production, namely, electrical monitoring devices for monitoring temperature and pressure of hydrocarbon wellbore fluids
31.
INTERACTIVE MEASUREMENT BASED ON THREE-DIMENSIONAL REPRESENTATIONS OF OBJECTS
A method, a system, and computer program product for rendering a visual representation of a target object using a selection of a first position on the surface of the target object. A reference surface is determined based on selected positions on the surface of the target object. A graphical object overlaying the visual representation of the target object is rendered. A location of the graphical object in the graphical user interface is based on the reference surface. The graphical object has a perimeter including the perimeter positions. A perimeter position of the perimeter positions is mapped to a second point on a three-dimensional representation of the target object. A distance between a first point and a second point on the three-dimensional representation of the target object is less than or equal to a second distance. The first point on the three-dimensional representation is associated with the first position.
G06F 3/04815 - Interaction with a metaphor-based environment or interaction object displayed as three-dimensional, e.g. changing the user viewpoint with respect to the environment or object
G06T 19/00 - Manipulating 3D models or images for computer graphics
Polycrystalline compacts include a polycrystalline superabrasive material comprising a first plurality of grains of superabrasive material having a first average grain size and a second plurality of grains of superabrasive material having a second average grain size smaller than the first average grain size. The first plurality of grains is dispersed within a substantially continuous matrix of the second plurality of grains. Earth-boring tools may include a body and at least one polycrystalline compact attached thereto. Methods of forming polycrystalline compacts may include coating relatively larger grains of superabrasive material with relatively smaller grains of superabrasive material, forming a green structure comprising the coated grains, and sintering the green structure. Other methods include mixing diamond grains with a catalyst and subjecting the mixture to a pressure greater than about five gigapascals (5.0 GPa) and a temperature greater than about 1,300° C. to form a polycrystalline diamond compact.
B22F 3/14 - Both compacting and sintering simultaneously
B01J 3/06 - Processes using ultra-high pressure, e.g. for the formation of diamonds; Apparatus therefor, e.g. moulds or dies
B24D 99/00 - Subject matter not provided for in other groups of this subclass
B82Y 30/00 - Nanotechnology for materials or surface science, e.g. nanocomposites
C04B 35/52 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbon, e.g. graphite
C04B 35/56 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides
C04B 35/565 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides based on silicon carbide
C04B 35/5831 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on borides, nitrides or silicides based on boron nitride based on cubic boron nitride
C04B 35/584 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on borides, nitrides or silicides based on silicon nitride
C04B 35/63 - Preparing or treating the powders individually or as batches using additives specially adapted for forming the products
A system including a computing device, including at least one processor, communicatively coupled to a digital detector array (DDA) including a plurality of functioning pixels and one or more defective pixels. The processor is configured to receive first data characterizing defective pixels and their positions, and receive second data characterizing a first inspection image of an object, wherein the first inspection image includes dark regions aligned with the defective pixels. The processor is also configured to determine a shift setting based on the first data and/or the second data. The shift setting includes a measure of physical adjustment to be applied to the DDA or the object. The processor is also configured to provide the shift setting to a positioning device configured to shift the DDA and/or the object, receive third data characterizing a second inspection image, and apply at least a portion of the second inspection image to the first inspection image.
An asset management system is provided and includes a memory and an event analyzer. The memory maintains event data and at least one cost. The event data characterizes events experienced by assets distributed among sites of a fleet. The event data include an asset location within an asset hierarchy of the fleet and event parameters corresponding to the event. Costs can be correlated to respective events. The analyzer generates a GUI displaying a first window hierarchically listing of assets organized by their hierarchical position within the fleet. The analyzer receives, via the GUI, a user selection of a hierarchical level within the hierarchical list, and identifies events associated with the selected hierarchical level. The analyzer updates the GUI to display a second window in response to receipt of the user selection. The second window lists the identified events, with corresponding event data costs.
G06Q 10/06 - Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
G06F 3/0482 - Interaction with lists of selectable items, e.g. menus
G06F 3/0484 - Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable software for use with production systems in the
oil and gas industry; downloadable and recorded computer
software for automation of oil and gas production systems,
monitoring of oil and gas production systems, and control of
production systems for use in the oil and gas industry;
downloadable computer software for enabling oil and gas
wells to automate operations of production systems. Platform as a service (PaaS) services featuring software for
use with production systems in the oil and gas industry;
software as a service (SaaS) services featuring software for
automation of oil and gas production systems, monitoring of
oil and gas production systems, and control of production
systems for use in the oil and gas industry; providing
online non-downloadable software for use with production
systems in the oil and gas industry.
An element backup including a first ring defining an axis; a first parting line through the first ring, the first parting line having a first plurality of generally axially extending segments and a first generally non-axially extending segment extending between the first plurality of axially extending segments; a second ring defining an axis; a second parting line through the second ring, the second parting line having a second plurality of generally axially extending segments and a second generally non-axially extending segment extending between the second plurality of axially extending segments; and an interconnection releasably securing the first and second rings to one another.
A flexible digital detector array apparatus including a control system including a block control module, a gate control module, and at least one data module. The block control module and the gate control module can be arranged to execute a multiplexing operation. The apparatus can also include a flexible substrate coupled to the control system at an edge of the flexible substrate via a plurality of connectors. The flexible substrate can include a switching area including a plurality of switching pixels arranged within a plurality of blocks. Each switching pixel can be communicatively coupled to the block control module and the gate control module. The apparatus can also include a sensing area including an array of sensing pixels. The array of sensing pixels can generate image data responsive to X-rays incident thereon and provide the image data to the plurality of data modules. Each switching pixel of the plurality of switching pixels can be arranged to control a read state of a portion of sensing pixels.
G01N 23/18 - Investigating the presence of defects or foreign matter
H04N 25/30 - Circuitry of solid-state image sensors [SSIS]; Control thereof for transforming X-rays into image signals
G01N 23/083 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and measuring the absorption the radiation being X-rays
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Inspection robot; downloadable inspection software and
hardware for collecting non-destructive testing data while
eliminating the need for confined space entry inspections;
downloadable inspection software and hardware for use in
connection with a robot, camera, ultrasonic or eddy current
probes, video borescope probes, or sensor, all for
collecting non-destructive testing data while eliminating
the need for confined space entry inspections. Remote inspection services for collecting non-destructive
testing data while eliminating the need for confined space
entry inspections; remote inspection services using a robot,
camera, ultrasonic or eddy current probes, or video
borescope probes, or sensor, all for collecting
non-destructive testing data while eliminating the need for
confined space entry inspections; non-downloadable
inspection software for collecting non-destructive testing
data while eliminating the need for confined space entry
inspections (terms too vague in the opinion of the
International Bureau – Rule 13 (2) (b) of the Regulations);
non-downloadable inspection software for use in connection
with a robot, camera, ultrasonic or eddy current probes, or
video borescope probes, or sensor, all for collecting
non-destructive testing data while eliminating the need for
confined space entry inspections (terms too vague in the
opinion of the International Bureau – Rule 13 (2) (b) of the
Regulations).
A method and system for identifying combustion dynamics in a combustion chamber, includes an optical sensor that receives energy from a flame within the combustion chamber. A processor is configured to receive a first signal from the sensor indicative of energy at a first wavelength and a second signal indicative of energy at a second wavelength. The processor can generate a data set of combustion quality indicators from the first signal and the second signal. The processor can convert the data set of combustion quality indicators in a time domain to a combustion quality spectrum in a frequency domain. The processor can analyze the combustion quality spectrum to determine anomalies, wherein the anomalies indicate at least one frequency where combustion dynamics occur in the combustion chamber and output a signal indicative of the at least one frequency where combustion dynamics occur.
A method is provided and includes receiving a list including a footprint of one or more sites, three-dimensional locations of one or more assets located, respectively at the one or more sites, and obstacles located at the site. A first circle associated with selected ones of the assets can be identified and a plurality of discrete nodes along the circumference of each first circle can be determined. Inspection planning rules can be received and include a respective perimeter associated with each of the selected assets, and a no-travel zone associated with each of the selected assets and/or the obstacles. A node-node cost between each node of the first circles and a node-node time for travel between respective nodes of the first circles can be determined. An inspection plan can be determined based on the node-node cost and the node-node time and provided to an autonomous vehicle.
A method for detecting structures is provided. The method can include receiving inspection image data characterizing a region of interest of an object being inspected. The regions of interest can include one or more structures of the object. The method can also include determining, using a computer vision algorithm, a structure within the region of interest with respect to photometric properties of pixel data in the inspection image data. The structure can be determined using a predictive model trained to determine image filter parameter values for image filters of the computer vision algorithm based on applying optimization techniques using training image data and annotation data. An indication of the structure can be provided, for example for display or storage in memory. Systems and computer-readable mediums implementing the method are also provided.
A method of manufacturing is provided. The method can include determining a cross- sectional shape of an object to be inspected using a sensor configured with a sensor coil. The method can also include providing a substrate having a profile matching the cross-sectional shape of the object. The method can further include applying a dielectric material to the substrate in a patter matching a shape of the sensor coil. The method can also include forming a first layer of a first material on the dielectric material by sputtering particles of the first material on the dielectric material in the pattern and forming additional layers of the first material atop the first layer by iteratively depositing the additional layers in the pattern via an additive manufacturing technique. A sensor including a sensor coil formed via the method is also provided.
G01N 29/22 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object - Details
G01N 29/265 - Arrangements for orientation or scanning by moving the sensor relative to a stationary material
G01N 27/90 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating magnetic variables for investigating the presence of flaws using eddy currents
A method of manufacturing is provided. The method can include determining a cross-sectional shape of an object to be inspected using a sensor configured with a sensor coil. The method can also include providing a substrate having a profile matching the cross-sectional shape of the object. The method can further include applying a dielectric material to the substrate in a patter matching a shape of the sensor coil. The method can also include forming a first layer of a first material on the dielectric material by sputtering particles of the first material on the dielectric material in the pattern and forming additional layers of the first material atop the first layer by iteratively depositing the additional layers in the pattern via an additive manufacturing technique. A sensor including a sensor coil formed via the method is also provided.
G01N 27/90 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating magnetic variables for investigating the presence of flaws using eddy currents
B29C 64/153 - Processes of additive manufacturing using only solid materials using layers of powder being selectively joined, e.g. by selective laser sintering or melting
B22F 5/12 - Manufacture of workpieces or articles from metallic powder characterised by the special shape of the product of tubes or wires
BAKER HUGHES ENERGY TECHNOLOGY UK LIMITED (United Kingdom)
BAKER HUGHES HOLDINGS LLC (USA)
Inventor
Meduri, Uday
Martini, Carlo Maria
Bigi, Manuele
Mani, Saminathan
Pal, Subrata
Abstract
A pump for use with fluids having particulates has an inlet to allow the fluids into a chamber of the pump. The chamber has a direct flow path of at least one larger width than a side flow path, and has a movable blade and diffuser stack within the chamber. Power features of the pump cause the movable blade to impart a centrifugal force on the fluids within the chamber, while at least one protrusion located circumferentially with respect to the chamber causes the particulates of a direct flow path to gather or causes the particulates to divert from a direction associated with at least one cavity of the chamber.
F04D 7/04 - Pumps adapted for handling specific fluids, e.g. by selection of specific materials for pumps or pump parts of centrifugal type the fluids being viscous or non-homogeneous
F04D 13/06 - Units comprising pumps and their driving means the pump being electrically driven
F04D 29/16 - Sealings between pressure and suction sides
A method for manufacturing a motor lead cable includes the steps of forming one or more motor leads and placing external armor around the one or motor leads. The step of forming each of the one or more motor leads includes providing an insulated conductor, providing an open capillary tube that has opposing sides that have not been joined together, placing the insulated conductor inside the unclosed capillary tube, approximating the sides of the unclosed capillary tube around the insulated conductor, and welding the sides of the capillary tube together to form a closed capillary tube around the insulated conductor.
E21B 47/125 - Means for transmitting measuring-signals or control signals from the well to the surface, or from the surface to the well, e.g. for logging while drilling using earth as an electrical conductor
E21B 17/20 - Flexible or articulated drilling pipes
A method of preserving context filter criteria includes receiving data characterizing selection of a first application of a plurality of applications associated with an industrial via a first tab of a web browser that includes a graphical user interface (GUI). The industrial enterprise includes a plurality of industrial assets. The method further includes generating a first context dataset associated with the first application based on a second context dataset associated with a second application. The first context dataset includes a first set of filter criteria. The second context dataset is selected based on a first tab identifier indicative of the first tab of the GUI. The method also includes providing the first context dataset to the first application. The method further includes providing a first operation summary in the graphical user interface of the first tab of the web browser. The first operation summary includes search results generated based on the first context dataset.
G06F 3/0484 - Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
G06F 3/0483 - Interaction with page-structured environments, e.g. book metaphor
53.
Continuously Welded Capillary Tubing Over Insulated Conductor for ESP Applications
A method for manufacturing a motor lead cable includes the steps of forming one or more motor leads and placing external armor around the one or motor leads. The step of forming each of the one or more motor leads includes providing an insulated conductor, providing an open capillary tube that has opposing sides that have not been joined together, placing the insulated conductor inside the unclosed capillary tube, approximating the sides of the unclosed capillary tube around the insulated conductor, and welding the sides of the capillary tube together to form a closed capillary tube around the insulated conductor.
Baker Hughes Energy Technology UK Limited (United Kingdom)
Baker Hughes Holdings LLC (USA)
Inventor
Meduri, Uday
Martini, Carlo Maria
Bigi, Manuele
Mani, Saminathan
Pal, Subrata
Abstract
A pump for use with fluids having particulates has an inlet to allow the fluids into a chamber of the pump. The chamber has a direct flow path of at least one larger width than a side flow path, and has a movable blade and diffuser stack within the chamber. Power features of the pump cause the movable blade to impart a centrifugal force on the fluids within the chamber, while at least one protrusion located circumferentially with respect to the chamber causes the particulates of a direct flow path to gather or causes the particulates to divert from a direction associated with at least one cavity of the chamber.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Pumps; valves; gears for machines. Downloadable software for use in asset performance management, condition health and monitoring, inspection, process optimization, and sustainability management; recorded software for use in asset performance management, condition health and monitoring, inspection, process optimization, and sustainability management rotating equipment; control servers; downloadable software for use with internet of things (IoT) hardware; hardware for use with internet of things (IoT) devices; sensors; condition monitoring systems; vibration monitors; non-destructive testing equipment; industrial radiography equipment; ultrasonic testing equipment; hardware for use in the control, monitoring, compression, power generation, and non-destructive (NDT) inspection of industrial assets; all of the foregoing for use in the oil and gas, refinery and petrochemical, power generation, hydrogen, carbon capture, utilization and storage, renewable power generation, metals and mining, pulp and paper, automotive, aerospace, electronics manufacturing, consumer goods, utilities, marine, food and beverage manufacturing, and nuclear field. Software as a service (SaaS) services software for use in asset performance management, namely, condition health and monitoring, inspection, process optimization, and sustainability management; technological consulting services in the field of alternative energy generation, namely, providing machine quality and inspection services, support services, maintenance services, remote monitoring, asset health and management services, process optimization services, outcome-based services, contractual service agreements, and services relating to equipment upgrades; all of the foregoing for use in the oil and gas, refinery and petrochemical, power generation, hydrogen, carbon capture, utilization and storage, renewable power generation, metals and mining, pulp and paper, automotive, aerospace, electronics manufacturing, consumer goods, utilities, marine, food and beverage manufacturing, and nuclear fields.
56.
DISPLAY ADJUSTMENT IN VISUAL REPRESENTATION OF ULTRASONIC MEASUREMENT
A method includes receiving data characterizing an acoustic signals reflected by a defect in a target object, a thickness of the target object and an expected depth of the defect. The acoustic signal is detected by a detector located on the surface of the target object. The method also includes determining a display range based on the thickness of the target object and a display delay based on the expected depth the target object of the defect in target object. The method further includes rendering, in a graph in a graphical user interface display space, a first visual representation of the acoustic signal, the graph including a first axis indicative of distance between the defect and the detector, and a second axis indicative of amplitudes of acoustic signals detected by the detector. The first axis extends from a first distance value to a second distance value, the first distance value is set to the display delay and a difference between the second distance value and the first distance value is set to the display range. The method further includes rendering, in the graphical user interface display space, a second visual representation of a first measurement gate.
A sensor having a sensor head including a unibody construction, a first electrode, and at least one second electrode is provided. The first electrode can include a first pair of sensing elements coupled to each over via at least one bridge element extending from a first sensing element to a second sensing element. The at least one second electrode can include a second pair of sensing elements interleaved with the first pair of sensing elements. The second pair of sensing elements can be coupled to each other via at least one second bridge element extending from a third sensing element to a fourth sensing element. A method of manufacturing the sensor is also provided.
G01N 27/02 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance
G01K 7/02 - Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat using thermoelectric elements, e.g. thermocouples
A system and method for safe site navigation through an industrial operating environment is provided. The system can include a first computing device communicatively coupled to a second computing device via a network. The second computing device can include at least one data processor configured to receive first data from the first computing device. The first data identifying an industrial equipment configured in an oil and gas production environment. The at least one data processor can determine, based on the first data, second data including a visual depiction of the industrial equipment and can provide, to the first computing device, the visual depiction for display on the first computing device.
Data characterizing a first set of locations of a plurality of sensors at an industrial site is received. Gas concentration, wind velocity at the industrial site, and an identified leakage area at the industrial site are detected by the plurality of sensors. Locations and leakage rates of one or more leakage sources is determined in the identified leakage area by a predictive dispersion model. The predictive dispersion model is configured to receive the wind velocity at the industrial site and the locations and leakage rates of the one or more potential leakage sources as input and generate the set of estimated gas concentration as output. A comparative metric based on the set of estimated gas concentrations is compared to the detected gas concentrations. The selected location and leakage rates of the potential leakage sources in a current iteration of the iterative determination are provided.
A method includes receiving data characterizing locations of potential sources and of potential sensors at an industrial site, and receiving data characterizing a plurality of wind velocities at the industrial site. The method includes calculating a first prediction error of localization associated with a first set of potential sensors of the plurality of potential sensors, calculating a second prediction error of localization associated with a second set of potential sensors of the plurality of potential sensors, the calculating being based on a second set of scenario prediction errors associated with the plurality of scenarios, and selecting the first set of potential sensors to provide locations associated the first sub-set of potential sensors.
In one aspect, a method includes receiving data characterizing an alarm event report associated with a first industrial machine generated by a first user via a first web-based graphical user interface (GUI). The first web-based GUI associated with an enterprise monitoring system of an industrial enterprise that includes the first industrial machine. The alarm event report includes at least a portion of an event dataset including information of an alarm event associated with the first industrial machine, and an identity of a second user assigned to work on the alarm event report by the first user. The method further includes providing the alarm event report to a second web-based graphical user interface (GUI) associated with the enterprise monitoring system. The method also includes receiving, via a first GUI of a first monitoring system, data characterizing additional information associated with the alarm event and/or edits to the event dataset.
Systems and methods for improved visualization of events logged by an asset management system are provided herein. In one aspect, a priority index can be determined for respective assets based upon the events they experience. In another aspect, one or more graphical user interfaces (GUIs) can be generated by a computing device for navigation between different assets. The GUIs can allow a user to choose from multiple navigation options for display of assets and respective asset information. As an example, asset views can include views based upon one or more of an asset hierarchy within a fleet, a priority index, or a shortlist of assets based upon personal interests of a user or shared interests of a group, also referred to as a watchlist herein. The GUIs can further allow a user to view summaries of events and/or details regarding events for selected assets, such as alarms and case assignments.
G06F 3/0482 - Interaction with lists of selectable items, e.g. menus
G06F 3/0484 - Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
In some aspect, a method includes receiving data characterizing user selection of a industrial machine via a web-based graphical user interface (GUI) associated with an industrial enterprise including a plurality of industrial machines. The web-based GUI includes a first portion and a second portion. The first portion includes a first interactive graphical object indicative of a industrial machine of the plurality of industrial machines. The method also includes retrieving the data associated with the industrial machine from a first monitoring system configured to monitor the industrial machine. The method further includes generating a first visual representation of the data associated with the industrial machine. Generating the first visual representation is based on a first visual framework associated with a first identifier characteristic of the industrial machine. The method also includes displaying, in the second portion of the web-based GUI, the first visual representation.
Data characterizing a first set of locations of a plurality of sensors at an industrial site is received. Gas concentration, wind velocity at the industrial site, and an identified leakage area at the industrial site are detected by the plurality of sensors. Locations and leakage rates of one or more leakage sources is determined in the identified leakage area by a predictive dispersion model. The predictive dispersion model is configured to receive the wind velocity at the industrial site and the locations and leakage rates of the one or more potential leakage sources as input and generate the set of estimated gas concentration as output. A comparative metric based on the set of estimated gas concentrations is compared to the detected gas concentrations. The selected location and leakage rates of the potential leakage sources in a current iteration of the iterative determination are provided.
A method includes receiving data characterizing locations of potential sources and of potential sensors at an industrial site, and receiving data characterizing a plurality of wind velocities at the industrial site. The method includes calculating a first prediction error of localization associated with a first set of potential sensors of the plurality of potential sensors, calculating a second prediction error of localization associated with a second set of potential sensors of the plurality of potential sensors, the calculating being based on a second set of scenario prediction errors associated with the plurality of scenarios, and selecting the first set of potential sensors to provide locations associated the first sub-set of potential sensors.
G06Q 10/06 - Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
G01W 1/02 - Instruments for indicating weather conditions by measuring two or more variables, e.g. humidity, pressure, temperature, cloud cover or wind speed
An interface circuit includes an input circuit. The input circuit includes a first input pin, a second input pin and a third input pin. The input circuit further includes a first operational amplifier including a first output pin, a first non-inverting input pin electrically coupled to the first input pin via a first impedance and a first switch, and a first inverting input pin coupled to the first output pin. The input circuit also includes a second operational amplifier including a second output pin, a second non-inverting input electrically coupled to the second input pin via a second impedance and a second inverting input pin electrically coupled to the third input pin via a third impedance and a second switch. The first input pin and the second input pin are electrically coupled via a third switch and a fourth impedance.
A downhole tool for controlling the flow of a fluid in a wellbore includes a component that comprises: a cementitious material; an aggregate; and a ductility modifying agent comprising one or more of the following: an ionomer; a functionalized filler; the functionalized filler comprising one or more of the following: functionalized carbon; functionalized clay; functionalized silica; functionalized alumina; functionalized zirconia; functionalized titanium dioxide; functionalized silsesquioxane; functionalized halloysite; or functionalized boron nitride; a metallic fiber; or a polymeric fiber.
C04B 28/14 - Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements containing calcium sulfate cements
C04B 28/18 - Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements containing mixtures of the silica-lime type
69.
SUPPORTING SUBSTRATES FOR CUTTING ELEMENTS, AND RELATED METHODS
A cutting element comprises a supporting substrate, and a cutting table attached to an end of the supporting substrate. The cutting table comprises inter-bonded diamond particles, and a thermally stable material within interstitial spaces between the inter-bonded diamond particles. The thermally stable material comprises a carbide precipitate having the general chemical formula, A3XZn-1, where A comprises one or more of Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Zr, Nb, Mo, Tc, Ru, Rh, Pd, Ag, Cd, Hf, Ta, W, Re, Os, Ir, Pt, Au, Hg, La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu, Ac, Th, Pa, and U; X comprises one or more of Al, Ga, Sn, Be, Bi, Te, Sb, Se, As, Ge, Si, B, and P; Z comprises C; and n is greater than or equal to 0 and less than or equal to 0.75. A method of forming a cutting element, an earth-boring tool, a supporting substrate, and a method of forming a supporting substrate are also described.
E21B 10/573 - Button-type inserts with preformed cutting elements mounted on a distinct support, e.g. polycrystalline inserts - characterised by support details, e.g. the substrate construction or the interface between the substrate and the cutting element
C04B 35/528 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbon, e.g. graphite obtained from carbonaceous particles with or without other non-organic components
C04B 35/56 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides
C04B 35/565 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides based on silicon carbide
C04B 35/563 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides based on boron carbide
An asset management system can be configured to receive at least a portion of a plurality of data and to determine a concentricity of at least one of the rotor or stator. The rotor or stator concentricity can be a vector including an amplitude and an angle and can characterizes a difference between a location of a predetermined center point and a location of a geometric center point of the rotor or stator, respectively. The system can also receive a concentricity vector selection including at least one of the rotor concentricity vector or the stator concentricity vector and can receive a selection of one of the correlated operating parameters. A plot format selection can be received and a graphical user interface (GUI) including a plot can be generated. The plot can include a portion of the selected concentricity vector as a function of the selected correlated operating parameter.
H02K 11/20 - Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
H02K 15/16 - Centering rotors within the stator; Balancing rotors
G06F 3/048 - Interaction techniques based on graphical user interfaces [GUI]
G06F 30/17 - Mechanical parametric or variational design
G06F 30/20 - Design optimisation, verification or simulation
An apparatus for suspending a sensor element is provided. The apparatus can include a housing including a cavity, an inner surface, and a first end cap integrally formed within a first end of the housing. The housing can include a sensor element therein. The first end cap can include a first plurality of suspension elements integrally formed within the first end cap and arranged to project from a surface of the first end cap toward the cavity. The inner surface of the housing and/or the first plurality of suspension elements can suspend the sensor element within the cavity as the sensor element translates within the cavity. Related systems and methods of manufacture are also described.
An asset management system can be configured to receive at least a portion of a plurality of data and to determine a concentricity of at least one of the rotor or stator. The rotor or stator concentricity can be a vector including an amplitude and an angle and can characterizes a difference between a location of a predetermined center point and a location of a geometric center point of the rotor or stator, respectively. The system can also receive a concentricity vector selection including at least one of the rotor concentricity vector or the stator concentricity vector and can receive a selection of one of the correlated operating parameters. A plot format selection can be received and a graphical user interface (GUI) including a plot can be generated. The plot can include a portion of the selected concentricity vector as a function of the selected correlated operating parameter.
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable and recorded inspection software and hardware
for non-destructive testing data; video monitors; image
processing equipment for industrial applications, namely,
video image viewing apparatus, image enhancing apparatus,
optical probes, fibrescopes, prismascopes, miniprobes and
video borescopes, digital image processing apparatus; parts
and accessories therefor, namely, housings, video processing
apparatus, video processing circuits, image processing
circuits, edge enhancement circuits, image subtraction
circuits, image superimposing circuits, image sensors,
imaging devices, joysticks, feed shafts, eyepieces, lenses,
adapters, fibre optics, mirrors and lenses; all for visual
remote monitoring inspections in the industrial, aerospace,
oil and gas, automotive and energy sectors.
75.
MACHINE LEARNING BASED TECHNIQUES FOR PREDICTING COMPONENT CORROSION LIKELIHOOD
A machine learning based method for determining a likelihood of corrosion of a component is provided. The method comprises receiving data associated with a portion of at least one component, the data describing one or more operating conditions of the portion of the at least one component, applying, to the data associated with the portion, a first machine learning model, determining, responsive to the applying of the first machine learning model, a likelihood of corrosion specific to the at least one component based at least in part on the one or more operating conditions of the portion, and outputting, automatically and without user intervention, the likelihood of corrosion specific to the at least one component on a display.
The method includes receiving data characterizing a first segregator code, a first aggregator code and a plurality of configuration parameters associated with a data transmission system. The data transmission system is configured to receive operation data characterizing an operation of an industrial system and transmit a portion of the operation data to a first analytical model. The method also includes modifying the first segregator code and the first aggregator code based on one or more configuration parameters of the plurality of configuration parameters. The method further includes deploying the first segregator code and the first aggregator code in the data transmission system. The first segregator code is configured to provide a first portion of the operation data to the first analytical model via a first data transmission route that includes the first segregator code and the first aggregator code.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable computer software, namely, downloadable computer software tools for well logging and well data acquisition; Downloadable software for recording and analyzing data for use in well logging; Downloadable computer software for use in well logging analysis Providing temporary use of online non-downloadable computer software tools for well logging and well data acquisition; Providing temporary use of online non-downloadable software for recording and analyzing data for use in well logging; Providing temporary use of online non-downloadable software for use in well logging analysis; Well logging services
81.
Boron trifluoride as a quench gas for neutron proportional counters
A machine learning based method for determining a likelihood of corrosion of a component is provided. The method comprises receiving data associated with a portion of at least one component, the data describing one or more operating conditions of the portion of the at least one component, applying, to the data associated with the portion, a first machine learning model, determining, responsive to the applying of the first machine learning model, a likelihood of corrosion specific to the at least one component based at least in part on the one or more operating conditions of the portion, and outputting, automatically and without user intervention, the likelihood of corrosion specific to the at least one component on a display.
01 - Chemical and biological materials for industrial, scientific and agricultural use
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
09 - Scientific and electric apparatus and instruments
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Chemicals and chemical compositions for use in the oil and gas field; chemicals and chemical compositions for use in petrochemical and industrial applications Subsea wellheads and related equipment, namely, subsea manifolds of metal for pipelines, subsea jumpers of metal, subsea metal pipe connectors, flowline connectors and tubes of metal for subsea pipelines; expandable metal tubular products, namely, sand screens, casing patches, and expandable liners and liner hangers; metal pipes; metal tubing; metal seals for use in the oil and gas industry; metal junctions for metal pipes Machines, machine tools and machine parts for use in the oil and gas, geothermal, and subterranean drilling fields, namely, drilling and completions systems comprising directional drilling tools, frac balls, frac sleeves, frac plugs, frac darts, liner hangers, and casing packers; flow control valves for controlling the flow of oil in pipelines being machines parts, flow regulators being machine parts, mandrels being machine parts, valves being machine parts, wellhead machines; hydraulic fracturing equipment, namely, fracturing pumps; cutting elements for drill bits being parts for drill bits for subsurface drilling, drill bits for subsurface rock and earth formation drilling spears; subsurface assemblies for use in geothermal, water, oil and gas wells used for the extraction of oil, gas or water, namely, oilfield completion tools and machines comprising sliding sleeves, jetting assemblies, packers, equipment activation devices, latching mechanisms, and coiled tubing driven machine tools; overshot machines, grapple buckets and blades for making earth milling and drilling machines, and whipstocks; oilfield cementing and floating machines and machine tools, namely, float collars, float shoes, and guide shoes, casing scrapers and brushes being machine parts, setting tools for setting and operating downhole tools, perforating guns for perforating casing, liners and geological formations, each of the foregoing comprised of or primarily comprised of metallic parts used in oil and gas and geothermal well completion; downhole tools for wellbore completion and production, namely, electrical, acoustic and optical monitoring devices for monitoring downhole properties and conditions of wellbore equipment, fluids, geological formations and reservoirs sold as integral components of oil, gas, and geothermal subterranean completion machines; artificial lift systems comprising power operated lifts and pumps for use in oil and gas wells and components therefor, namely, gas, mechanical and hydraulic lift systems with pumps including for use in wells and at wellsites; metallic and non-metallic rotatable drill bits, namely, polycrystalline diamond (PCD) compact drill bits, tricone roller cone bits, hybrid bits, coring bits and reamers as well as cutters therefor; turbines not being for land vehicles, machine compressors, valves being parts of machines, centrifugal pumps, and integral structural parts therefor Measurement and control apparatus for use in the oil and gas field, namely, control valves for regulating the flow of gases and oils, flowmeters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; measuring, detecting and monitoring instruments for industrial applications, namely, control valves for regulating the flow of gases and oils, flow meters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; fluid analysis instruments, namely, instruments for the analysis of oil in situ and for industrial applications, instruments for the analysis of oil, instruments for the analysis of moisture in gas fluids, instruments for measuring the pressure of fluids, instruments for measuring the phases of fluids in a pipeline; nondestructive testing equipment used in industrial applications, namely, electrical eddy current test equipment, electronic ultrasound flaw detectors and radiography for remote visual and predictive corrosion management applications; electronic and telemetry instruments for use in the oil and gas industry, namely, pulsers and pulse decoding technology, wired pipe technology, sensors, detectors, fluid analyzers, calibrators; measurement and control equipment for oil and gas, aerospace, automotive, power and energy industries, namely, gas sensors for measuring gas concentration, gasometers Non-metal flexible pipes and tubing; non-metal junctions for pipes not for metal pipes; all for use in the oil and gas industry Consulting services in the field of oil and gas, namely, consultation in the field of offshore oil and gas facility construction; consulting services in the field of installation of carbon capture and reduction equipment, control systems, and machinery for use in carbon capture and sequestration; technical consulting services relating to the installation of equipment, control systems, machinery, and facility construction, all in the oil and gas field; consulting services related to the installation and maintenance of turbines and compressors and related equipment in the oil, gas and industrial industries; acquisition, deployment and maintenance of measurement and inspection equipment for use in the oil and gas, aerospace, automotive, chemical, power and energy industries; consulting in the acquisition, deployment and maintenance of industrial control systems; oil and gas drilling, well construction and completion; construction of pipelines, structures for the production of crude oil, and offshore oil facilities; consulting services in the field of oil and gas, namely, consulting in the field hydraulic fracturing of subsurface geologic formations and reservoirs to enhance well production; consulting services in the field of oil and gas, namely, consultation in the field of well drilling and completion; drilling, steering, logging, and coring oil and gas wells Well treatment services in the oil and gas field; equipment treatment services in the oil and gas field; treatment services of chemicals and petrochemicals in the field of oil and gas production and processing; compressor, turbine, and centrifugal pump treatment services; consulting services in the field of oil and gas, namely, technical consulting in the field of oil and gas production and processing; production of oil and gas Educational services, namely, conducting classes, seminars, conferences, and workshops in the fields of oil and gas exploration; educational services, namely, training in the use and operation of turbines, compressors and centrifugal pumps; educational services, namely, training in the use and operation of monitoring, inspection, testing and control equipment Testing the functionality of apparatus and instruments in the nature of oil and gas equipment; exploration and searching of oil and gas; providing industrial measurement and control services; technical assessment, evaluation and optimization for turbine, compressor, centrifugal pump use in oil and gas and industrial applications; engineering consultation services in the field of carbon capture and sequestration; consulting services related to the design of turbines and compressors and related equipment in the oil, gas and industrial industries; measurement and inspection services for quality control purposes in the oil and gas, aerospace, automotive, chemical, power and energy industries; design and IT integration services for industrial control systems; well measurement and monitoring services for quality control in the oil and gas field; measurement and monitoring services for quality control of chemicals and petrochemicals; well monitoring for optimization of production; consulting services relating to technical and scientific monitoring of oil and gas wells
01 - Chemical and biological materials for industrial, scientific and agricultural use
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
09 - Scientific and electric apparatus and instruments
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Chemicals and chemical compositions for use in the oil and gas field; chemicals and chemical compositions for use in petrochemical and industrial applications Subsea wellheads and related equipment, namely, subsea manifolds of metal for pipelines, subsea jumpers of metal, subsea metal pipe connectors, flowline connectors and tubes of metal for subsea pipelines; expandable metal tubular products, namely, sand screens, casing patches, and expandable liners and liner hangers; metal pipes; metal tubing; metal seals for use in the oil and gas industry; metal junctions for metal pipes Machines, machine tools and machine parts for use in the oil and gas, geothermal, and subterranean drilling fields, namely, drilling and completions systems comprising directional drilling tools, frac balls, frac sleeves, frac plugs, frac darts, liner hangers, and casing packers; flow control valves for controlling the flow of oil in pipelines being machines parts, flow regulators being machine parts, mandrels being machine parts, valves being machine parts, wellhead machines; hydraulic fracturing equipment, namely, fracturing pumps; cutting elements for drill bits being parts for drill bits for subsurface drilling, drill bits for subsurface rock and earth formation drilling spears; subsurface assemblies for use in geothermal, water, oil and gas wells used for the extraction of oil, gas or water, namely, oilfield completion tools and machines comprising sliding sleeves, jetting assemblies, packers, equipment activation devices, latching mechanisms, and coiled tubing driven machine tools; overshot machines, grapple buckets and blades for making earth milling and drilling machines, and whipstocks; oilfield cementing and floating machines and machine tools, namely, float collars, float shoes, and guide shoes, casing scrapers and brushes being machine parts, setting tools for setting and operating downhole tools, perforating guns for perforating casing, liners and geological formations, each of the foregoing comprised of or primarily comprised of metallic parts used in oil and gas and geothermal well completion; downhole tools for wellbore completion and production, namely, electrical, acoustic and optical monitoring devices for monitoring downhole properties and conditions of wellbore equipment, fluids, geological formations and reservoirs sold as integral components of oil, gas, and geothermal subterranean completion machines; artificial lift systems comprising power operated lifts and pumps for use in oil and gas wells and components therefor, namely, gas, mechanical and hydraulic lift systems with pumps including for use in wells and at wellsites; metallic and non-metallic rotatable drill bits, namely, polycrystalline diamond (PCD) compact drill bits, tricone roller cone bits, hybrid bits, coring bits and reamers as well as cutters therefor; turbines not being for land vehicles, machine compressors, valves being parts of machines, centrifugal pumps, and integral structural parts therefor Measurement and control apparatus for use in the oil and gas field, namely, control valves for regulating the flow of gases and oils, flowmeters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; measuring, detecting and monitoring instruments for industrial applications, namely, control valves for regulating the flow of gases and oils, flow meters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; fluid analysis instruments, namely, instruments for the analysis of oil in situ and for industrial applications, instruments for the analysis of oil, instruments for the analysis of moisture in gas fluids, instruments for measuring the pressure of fluids, instruments for measuring the phases of fluids in a pipeline; nondestructive testing equipment used in industrial applications, namely, electrical eddy current test equipment, electronic ultrasound flaw detectors and radiography for remote visual and predictive corrosion management applications; electronic and telemetry instruments for use in the oil and gas industry, namely, pulsers and pulse decoding technology, wired pipe technology, sensors, detectors, fluid analyzers, calibrators; measurement and control equipment for oil and gas, aerospace, automotive, power and energy industries, namely, gas sensors for measuring gas concentration, gasometers Non-metal flexible pipes and tubing; non-metal junctions for pipes not for metal pipes; all for use in the oil and gas industry Consulting services in the field of oil and gas, namely, consultation in the field of offshore oil and gas facility construction; consulting services in the field of installation of carbon capture and reduction equipment, control systems, and machinery for use in carbon capture and sequestration; technical consulting services relating to the installation of equipment, control systems, machinery, and facility construction, all in the oil and gas field; consulting services related to the installation and maintenance of turbines and compressors and related equipment in the oil, gas and industrial industries; acquisition, deployment and maintenance of measurement and inspection equipment for use in the oil and gas, aerospace, automotive, chemical, power and energy industries; consulting in the acquisition, deployment and maintenance of industrial control systems; oil and gas drilling, well construction and completion; construction of pipelines, structures for the production of crude oil, and offshore oil facilities; consulting services in the field of oil and gas, namely, consulting in the field hydraulic fracturing of subsurface geologic formations and reservoirs to enhance well production; consulting services in the field of oil and gas, namely, consultation in the field of well drilling and completion; drilling, steering, logging, and coring oil and gas wells Well treatment services in the oil and gas field; equipment treatment services in the oil and gas field; treatment services of chemicals and petrochemicals in the field of oil and gas production and processing; compressor, turbine, and centrifugal pump treatment services; consulting services in the field of oil and gas, namely, technical consulting in the field of oil and gas production and processing; production of oil and gas Educational services, namely, conducting classes, seminars, conferences, and workshops in the fields of oil and gas exploration; educational services, namely, training in the use and operation of turbines, compressors and centrifugal pumps; educational services, namely, training in the use and operation of monitoring, inspection, testing and control equipment Testing the functionality of apparatus and instruments in the nature of oil and gas equipment; exploration and searching of oil and gas; providing industrial measurement and control services; technical assessment, evaluation and optimization for turbine, compressor, centrifugal pump use in oil and gas and industrial applications; engineering consultation services in the field of carbon capture and sequestration; consulting services related to the design of turbines and compressors and related equipment in the oil, gas and industrial industries; measurement and inspection services for quality control purposes in the oil and gas, aerospace, automotive, chemical, power and energy industries; design and IT integration services for industrial control systems; well measurement and monitoring services for quality control in the oil and gas field; measurement and monitoring services for quality control of chemicals and petrochemicals; well monitoring for optimization of production; consulting services relating to technical and scientific monitoring of oil and gas wells
85.
BORON TRIFLUORIDE AS A QUENCH GAS FOR NEUTRON PROPORTIONAL COUNTERS
A neutron proportional counter is provided. The proportional counter can include a chamber and a gas mixture. The chamber includes an anode and a cathode. The gas mixture is contained within the chamber and includes at least one neutron sensitive fill gas and a quench gas including BF3. In certain embodiments, the neutron sensitive fill gas can be configured for detection of thermal neutrons (e.g., He-3), fast neutrons (e.g., He-4, H2), or both (e.g., UF6).
01 - Chemical and biological materials for industrial, scientific and agricultural use
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
09 - Scientific and electric apparatus and instruments
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Chemicals and chemical compositions for use in the oil and gas field; chemicals and chemical compositions for use in petrochemical and industrial applications Subsea wellheads and related equipment, namely, subsea manifolds of metal for pipelines, subsea jumpers of metal, subsea metal pipe connectors, flowline connectors and tubes of metal for subsea pipelines; expandable metal tubular products, namely, sand screens, casing patches, and expandable liners and liner hangers; metal pipes; metal tubing; metal seals for use in the oil and gas industry; metal junctions for metal pipes Machines, machine tools and machine parts for use in the oil and gas, geothermal, and subterranean drilling fields, namely, drilling and completions systems comprising directional drilling tools, frac balls, frac sleeves, frac plugs, frac darts, liner hangers, and casing packers; flow control valves for controlling the flow of oil in pipelines being machines parts, flow regulators being machine parts, mandrels being machine parts, valves being machine parts, wellhead machines; hydraulic fracturing equipment, namely, fracturing pumps; cutting elements for drill bits being parts for drill bits for subsurface drilling, drill bits for subsurface rock and earth formation drilling spears; subsurface assemblies for use in geothermal, water, oil and gas wells used for the extraction of oil, gas or water, namely, oilfield completion tools and machines comprising sliding sleeves, jetting assemblies, packers, equipment activation devices, latching mechanisms, and coiled tubing driven machine tools; overshot machines, grapple buckets and blades for making earth milling and drilling machines, and whipstocks; oilfield cementing and floating machines and machine tools, namely, float collars, float shoes, and guide shoes, casing scrapers and brushes being machine parts, setting tools for setting and operating downhole tools, perforating guns for perforating casing, liners and geological formations, each of the foregoing comprised of or primarily comprised of metallic parts used in oil and gas and geothermal well completion; house mark for downhole tools for wellbore completion and production, namely, electrical, acoustic and optical monitoring devices for monitoring downhole properties and conditions of wellbore equipment, fluids, geological formations and reservoirs sold as integral components of oil, gas, and geothermal subterranean completion machines; house mark for artificial lift systems comprising power operated lifts and pumps for use in oil and gas wells and components therefor, namely, gas, mechanical and hydraulic lift systems with pumps including for use in wells and at wellsites; house mark for metallic and non-metallic rotatable drill bits, namely, polycrystalline diamond (PCD) compact drill bits, tricone roller cone bits, hybrid bits, coring bits and reamers as well as cutters therefor; house mark for turbines not being for land vehicles, machine compressors, valves being parts of machines, centrifugal pumps, and integral structural parts therefor Measurement and control apparatus for use in the oil and gas field, namely, control valves for regulating the flow of gases and oils, flowmeters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; measuring, detecting and monitoring instruments for industrial applications, namely, control valves for regulating the flow of gases and oils, flow meters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; fluid analysis instruments, namely, instruments for the analysis of oil in situ and for industrial applications, instruments for the analysis of oil, instruments for the analysis of moisture in gas fluids, instruments for measuring the pressure of fluids, instruments for measuring the phases of fluids in a pipeline; nondestructive testing equipment used in industrial applications, namely, electrical eddy current test equipment, electronic ultrasound flaw detectors and radiography for remote visual and predictive corrosion management applications; electronic and telemetry instruments for use in the oil and gas industry, namely, pulsers and pulse decoding technology, wired pipe technology, sensors, detectors, fluid analyzers, calibrators; measurement and control equipment for oil and gas, aerospace, automotive, power and energy industries, namely, gas sensors for measuring gas concentration, gasometers Non-metal flexible pipes and tubing; non-metal junctions for pipes not for metal pipes; all for use in the oil and gas industry Consulting services in the field of oil and gas, namely, consultation in the field of offshore oil and gas facility construction; consulting services in the field of installation of carbon capture and reduction equipment, control systems, and machinery for use in carbon capture and sequestration; technical consulting services relating to the installation of equipment, control systems, machinery, and facility construction, all in the oil and gas field; consulting services related to the installation and maintenance of turbines and compressors and related equipment in the oil, gas and industrial industries; acquisition, deployment and maintenance of measurement and inspection equipment for use in the oil and gas, aerospace, automotive, chemical, power and energy industries; consulting in the acquisition, deployment and maintenance of industrial control systems; oil and gas drilling, well construction and completion; construction of pipelines, structures for the production of crude oil, and offshore oil facilities; consulting services in the field of oil and gas, namely, consulting in the field hydraulic fracturing of subsurface geologic formations and reservoirs to enhance well production; consulting services in the field of oil and gas, namely, consultation in the field of well drilling and completion; drilling, steering, logging, and coring oil and gas wells Well treatment services in the oil and gas field; equipment treatment services in the oil and gas field; treatment services of chemicals and petrochemicals in the field of oil and gas production and processing; compressor, turbine, and centrifugal pump treatment services; consulting services in the field of oil and gas, namely, technical consulting in the field of oil and gas production and processing; production of oil and gas Educational services, namely, conducting classes, seminars, conferences, and workshops in the fields of oil and gas exploration; educational services, namely, training in the use and operation of turbines, compressors and centrifugal pumps; educational services, namely, training in the use and operation of monitoring, inspection, testing and control equipment Testing the functionality of apparatus and instruments in the nature of oil and gas equipment; exploration and searching of oil and gas; providing industrial measurement and control services; technical assessment, evaluation and optimization for turbine, compressor, centrifugal pump use in oil and gas and industrial applications; engineering consultation services in the field of carbon capture and sequestration; consulting services related to the design of turbines and compressors and related equipment in the oil, gas and industrial industries; measurement and inspection services for quality control purposes in the oil and gas, aerospace, automotive, chemical, power and energy industries; design and IT integration services for industrial control systems; well measurement and monitoring services for quality control in the oil and gas field; measurement and monitoring services for quality control of chemicals and petrochemicals; well monitoring for optimization of production; consulting services relating to technical and scientific monitoring of oil and gas wells
01 - Chemical and biological materials for industrial, scientific and agricultural use
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
09 - Scientific and electric apparatus and instruments
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Chemicals and chemical compositions for use in the oil and gas field; chemicals and chemical compositions for use in petrochemical and industrial applications Subsea wellheads and related equipment, namely, subsea manifolds of metal for pipelines, subsea jumpers of metal, subsea metal pipe connectors, flowline connectors and tubes of metal for subsea pipelines; expandable metal tubular products, namely, sand screens, casing patches, and expandable liners and liner hangers; metal pipes; metal tubing; metal seals for use in the oil and gas industry; metal junctions for metal pipes Machines, machine tools and machine parts for use in the oil and gas, geothermal, and subterranean drilling fields, namely, drilling and completions systems comprising directional drilling tools, frac balls, frac sleeves, frac plugs, frac darts, liner hangers, and casing packers; flow control valves for controlling the flow of oil in pipelines being machines parts, flow regulators being machine parts, mandrels being machine parts, valves being machine parts, wellhead machines; hydraulic fracturing equipment, namely, fracturing pumps; cutting elements for drill bits being parts for drill bits for subsurface drilling, drill bits for subsurface rock and earth formation drilling spears; subsurface assemblies for use in geothermal, water, oil and gas wells used for the extraction of oil, gas or water, namely, oilfield completion tools and machines comprising sliding sleeves, jetting assemblies, packers, equipment activation devices, latching mechanisms, and coiled tubing driven machine tools; overshot machines, grapple buckets and blades for making earth milling and drilling machines, and whipstocks; oilfield cementing and floating machines and machine tools, namely, float collars, float shoes, and guide shoes, casing scrapers and brushes being machine parts, setting tools for setting and operating downhole tools, perforating guns for perforating casing, liners and geological formations, each of the foregoing comprised of or primarily comprised of metallic parts used in oil and gas and geothermal well completion; downhole tools for wellbore completion and production, namely, electrical, acoustic and optical monitoring devices for monitoring downhole properties and conditions of wellbore equipment, fluids, geological formations and reservoirs sold as integral components of oil, gas, and geothermal subterranean completion machines; artificial lift systems comprising power operated lifts and pumps for use in oil and gas wells and components therefor, namely, gas, mechanical and hydraulic lift systems with pumps including for use in wells and at wellsites; metallic and non-metallic rotatable drill bits, namely, polycrystalline diamond (PCD) compact drill bits, tricone roller cone bits, hybrid bits, coring bits and reamers as well as cutters therefor; turbines not being for land vehicles, machine compressors, valves being parts of machines, centrifugal pumps, and integral structural parts therefor Measurement and control apparatus for use in the oil and gas field, namely, control valves for regulating the flow of gases and oils, flowmeters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; measuring, detecting and monitoring instruments for industrial applications, namely, control valves for regulating the flow of gases and oils, flow meters, sensors, detectors, indicators, analyzers, switches, calibrators, pressure controllers, temperature measuring instruments, temperature controlling instruments; fluid analysis instruments, namely, instruments for the analysis of oil in situ and for industrial applications, instruments for the analysis of oil, instruments for the analysis of moisture in gas fluids, instruments for measuring the pressure of fluids, instruments for measuring the phases of fluids in a pipeline; nondestructive testing equipment used in industrial applications, namely, electrical eddy current test equipment, electronic ultrasound flaw detectors and radiography for remote visual and predictive corrosion management applications; electronic and telemetry instruments for use in the oil and gas industry, namely, pulsers and pulse decoding technology, wired pipe technology, sensors, detectors, fluid analyzers, calibrators; measurement and control equipment for oil and gas, aerospace, automotive, power and energy industries, namely, gas sensors for measuring gas concentration, gasometers Non-metal flexible pipes and tubing; non-metal junctions for pipes not for metal pipes; all for use in the oil and gas industry Consulting services in the field of oil and gas, namely, consultation in the field of offshore oil and gas facility construction; consulting services in the field of installation of carbon capture and reduction equipment, control systems, and machinery for use in carbon capture and sequestration; technical consulting services relating to the installation of equipment, control systems, machinery, and facility construction, all in the oil and gas field; consulting services related to the installation and maintenance of turbines and compressors and related equipment in the oil, gas and industrial industries; acquisition, deployment and maintenance of measurement and inspection equipment for use in the oil and gas, aerospace, automotive, chemical, power and energy industries; consulting in the acquisition, deployment and maintenance of industrial control systems; oil and gas drilling, well construction and completion; construction of pipelines, structures for the production of crude oil, and offshore oil facilities; consulting services in the field of oil and gas, namely, consulting in the field hydraulic fracturing of subsurface geologic formations and reservoirs to enhance well production; consulting services in the field of oil and gas, namely, consultation in the field of well drilling and completion; drilling, steering, logging, and coring oil and gas wells Well treatment services in the oil and gas field; equipment treatment services in the oil and gas field; treatment services of chemicals and petrochemicals in the field of oil and gas production and processing; compressor, turbine, and centrifugal pump treatment services; consulting services in the field of oil and gas, namely, technical consulting in the field of oil and gas production and processing; production of oil and gas Educational services, namely, conducting classes, seminars, conferences, and workshops in the fields of oil and gas exploration; educational services, namely, training in the use and operation of turbines, compressors and centrifugal pumps; educational services, namely, training in the use and operation of monitoring, inspection, testing and control equipment Testing the functionality of apparatus and instruments in the nature of oil and gas equipment; exploration and searching of oil and gas; providing industrial measurement and control services; technical assessment, evaluation and optimization for turbine, compressor, centrifugal pump use in oil and gas and industrial applications; engineering consultation services in the field of carbon capture and sequestration; consulting services related to the design of turbines and compressors and related equipment in the oil, gas and industrial industries; measurement and inspection services for quality control purposes in the oil and gas, aerospace, automotive, chemical, power and energy industries; design and IT integration services for industrial control systems; well measurement and monitoring services for quality control in the oil and gas field; measurement and monitoring services for quality control of chemicals and petrochemicals; well monitoring for optimization of production; consulting services relating to technical and scientific monitoring of oil and gas wells
Oil and gas well downhole equipment in the nature of filters being parts of machines for the oil and gas downhole industry, namely, metal alloy particle sand control filter disposable within a well for preventing formation particles from entering a production string
A system is provided including an unmanned aerial vehicle. The unmanned aerial vehicle can include at least one gas sensor and a manifold coupled to the at least one gas sensor. The manifold can include at least one sample conduit including a sample inlet, a filter, and a valve coupled to the filter. The unmanned aerial vehicle can include a controller and a computing device coupled to the controller. The computing device can include a processor configured to perform operations to receive sensor data characterizing a first sample of a first gas sampled via the at least one sensor. The processor can also determine sample data associated with the first gas based on the sensor data. The sample data can include a concentration and a type of the first gas. The processor can further provide the sample data. Related methods, apparatus, techniques and articles are also described.
A system is provided including an unmanned aerial vehicle. The unmanned aerial vehicle can include at least one gas sensor and a manifold coupled to the at least one gas sensor. The manifold can include at least one sample conduit including a sample inlet, a filter, and a valve coupled to the filter. The unmanned aerial vehicle can include a controller and a computing device coupled to the controller. The computing device can include a processor configured to perform operations to receive sensor data characterizing a first sample of a first gas sampled via the at least one sensor. The processor can also determine sample data associated with the first gas based on the sensor data. The sample data can include a concentration and a type of the first gas. The processor can further provide the sample data. Related methods, apparatus, techniques and articles are also described.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable software for use in managing production systems in the oil and gas industry; downloadable software for use in controlling production systems in the oil and gas industry; downloadable and recorded computer software for automation of oil and gas production systems, monitoring of oil and gas production systems, and control of production systems for use in the oil and gas industry; downloadable computer software for enabling oil and gas wells to automate operations of production systems Platform as a service (PaaS) services featuring software for managing oil and gas production systems; platform as a service (PaaS) services featuring software for controlling oil and gas production systems; software as a service (SaaS) services featuring software for automation of oil and gas production systems, monitoring of oil and gas production systems, and control of production systems for use in the oil and gas industry; providing online non-downloadable software for use with production systems in the oil and gas industry
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable software for use in asset performance management, condition health and monitoring, inspection, process optimization, and sustainability management; recorded software for use in asset performance management, condition health and monitoring, inspection, process optimization, and sustainability management for monitoring rotating equipment, pumps, valves, and gears; control servers; downloadable software for use with internet of things (IoT) hardware; hardware for use with internet of things (IoT) devices; sensors; condition monitoring systems; vibration monitors; non-destructive testing equipment; industrial radiography equipment; ultrasonic testing equipment; hardware for use in the control, monitoring, compression, power generation, and non-destructive (NDT) inspection of industrial assets; all of the foregoing for use in the oil and gas, refinery and petrochemical, power generation, hydrogen, carbon capture, utilization and storage, renewable power generation, metals and mining, pulp and paper, automotive, aerospace, electronics manufacturing, consumer goods, utilities, marine, food and beverage manufacturing, and nuclear fields Software as a service (SaaS) services software for use in asset performance management, namely, condition health and monitoring, inspection, process optimization, and sustainability management; computer software consulting services in the field of providing machine quality and inspection services, support services, maintenance services, remote monitoring, asset health and management services, process optimization services, outcome-based services, contractual service agreements, and services relating to equipment upgrades; all of the foregoing for use in the oil and gas, refinery and petrochemical, power generation, hydrogen, carbon capture, utilization and storage, renewable power generation, metals and mining, pulp and paper, automotive, aerospace, electronics manufacturing, consumer goods, utilities, marine, food and beverage manufacturing, and nuclear fields
A method for configuring an asset monitoring system is provided. The method can include receiving a configuration including a configuration property of a measurement determined by an asset monitoring system configured to monitor an asset. The method can also include generating a graphical user interface including an identifier of the measurement and one or more configuration properties corresponding to the measurement. The method can also include validating the received configuration and receiving a selection of a measurement within the first window of the GUI. The method can further include updating the GUI to include a validation error corresponding to the selected measurement within a second window. The method can also include correcting the validation error and updating the GUI to include a third window listing at least one correction corresponding to the selected validation error. Related systems and non-transitory medium related to the method are also provided.
A method for configuring an asset monitoring system is provided. The method can include receiving a configuration including a configuration property of a measurement determined by an asset monitoring system configured to monitor an asset. The method can also include generating a graphical user interface including an identifier of the measurement and one or more configuration properties corresponding to the measurement. The method can also include validating the received configuration and receiving a selection of a measurement within the first window of the GUI. The method can further include updating the GUI to include a validation error corresponding to the selected measurement within a second window. The method can also include correcting the validation error and updating the GUI to include a third window listing at least one correction corresponding to the selected validation error. Related systems and non- transitory medium related to the method are also provided.
Systems and methods for asset management are provided. Event data characterizing events experienced by assets distributed among different sites of a fleet is maintained. The event data includes an asset location within an asset hierarchy of the fleet and an event parameter corresponding to the event. A graphical user interface (GUI) is generated that displays a first window including a hierarchical list of assets organized according to their position within the asset hierarchy. When the GUI receives a selection of a level within the hierarchical list, events associated with the selected level can be identified. Identified events can be classified based upon their event data as a unique event having a single occurrence or a repeat event having multiple occurrences. In response to receipt of the selection, the GUI is updated to display a second window listing single entries for respective unique events and single entries for respective repeat events.
A method of analyzing an asset is provided. The method can include receiving first data characterizing an industrial asset. The first data can be acquired via a sensor. The method can also include determining a condition of the industrial asset based on a 3D digital twin of the industrial asset. The 3D digital twin can be generated using second data acquired prior to the first data. The digital twin can include at least one 3D digital instance of at least one component of the industrial asset and a list of components of the industrial asset described according to a pre-defmed taxonomy associated with the industrial asset. The method can also include providing the condition of the industrial asset. Related apparatuses, systems, and computer-readable mediums are also provided.
A hydraulic tool includes a rotor rotatably disposed within a stator. At least an inner portion of the stator and/or at least an outer portion of the rotor is configured to be installed in a drill string in either of two inverted orientations along a longitudinal axis of the hydraulic tool. The rotor is configured to rotate within the stator in either of the two orientations. A method includes disposing a rotor within a cavity defined by a stator, passing a fluid through the stator to rotate the rotor, and reversing the stator or the rotor. A drilling system includes a fluid source, a hydraulic tool, a drive shaft operatively associated with the rotor of the hydraulic tool, and a drill bit operatively associated with the drive shaft.
A method of analyzing an asset is provided. The method can include receiving first data characterizing an industrial asset. The first data can be acquired via a sensor. The method can also include determining a condition of the industrial asset based on a 3D digital twin of the industrial asset. The 3D digital twin can be generated using second data acquired prior to the first data. The digital twin can include at least one 3D digital instance of at least one component of the industrial asset and a list of components of the industrial asset described according to a pre-defined taxonomy associated with the industrial asset. The method can also include providing the condition of the industrial asset. Related apparatuses, systems, and computer-readable mediums are also provided.
G06F 30/27 - Design optimisation, verification or simulation using machine learning, e.g. artificial intelligence, neural networks, support vector machines [SVM] or training a model
A calibration method includes receiving data characterizing a plurality of acoustic signals reflected by a defect in a target object, and a first depth of the defect relative to a surface of the target object. A first acoustic signal and a second acoustic signal are detected by a detector at a first location and a second location, respectively, on the surface of the target object. The plurality of acoustic signal includes the first acoustic signal and the second acoustic signal. The method also includes determining an envelope function based on at least the first acoustic signal and the second acoustic signal. The method further includes identifying a target distance between the detector and the defect. The target distance is associated with a peak value of the envelop function. The method also includes calculating a detection angle based on the target distance and the first depth of the defect.
G01N 29/30 - Arrangements for calibrating or comparing, e.g. with standard objects
G01N 29/06 - Visualisation of the interior, e.g. acoustic microscopy
G01N 29/28 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object - Details providing acoustic coupling
G01N 29/44 - Processing the detected response signal
100.
Casing-Embedded Fiber-Optics Telemetry for Real-Time Well Integrity Monitoring
Optic fibers are embedded within the body of a casing section making up a wellbore casing string. The optic fibers are used to detect damage or deformation of the casing string over the lifespan of a wellbore.
E21B 47/135 - Means for transmitting measuring-signals or control signals from the well to the surface, or from the surface to the well, e.g. for logging while drilling by electromagnetic energy, e.g. of radio frequency range using light waves, e.g. infrared or ultraviolet waves
E21B 47/10 - Locating fluid leaks, intrusions or movements
G01B 11/16 - Measuring arrangements characterised by the use of optical techniques for measuring the deformation in a solid, e.g. optical strain gauge
E21B 43/12 - Methods or apparatus for controlling the flow of the obtained fluid to or in wells