Abstract: A method of forming a supporting substrate for a cutting element comprises forming a precursor composition comprising discrete WC particles, a binding agent, and discrete particles comprising Co, Al, and one or more of C and W. The precursor composition is subjected to a consolidation process to form a consolidated structure including WC particles dispersed in a homogenized binder comprising Co, Al, W, and C. A method of forming a cutting element, a cutting element, a related structure, and an earth-boring tool are also described.

Abstract: A shear ram system includes an upper block coupled to a first arm, the upper block positioned to transition from a first location outside a bore to a second location within the bore, the upper block including an upper blade having a cutout formed at a radially outward end, the cutout having a cutout profile. The shear ram system also includes a lower block coupled to a second arm, the lower block positioned to transition from the first location outside the bore to the second location within the bore, the lower block including a gap control arm including a wear insert arranged axially higher than a lower blade, the gap control arm having an arm profile that substantially conforms to the cutout profile. The wear insert of the gap control arm is configured to engage the cutout when the upper block and the lower block are moved to the second location.

Abstract: A system for determining a stuck point of a pipe positioned within a wellbore includes a tubular housing and a sensor array positioned within the tubular housing, the sensor array arranged at a first end. The system also includes a first magnetic source positioned within the tubular housing, the first magnetic source arranged at a second end. The system further includes a second magnetic source positioned within the tubular housing, the second magnetic source arranged between the sensor array and the second end. The first magnetic source and the second magnetic source have a different magnetic field source.

Abstract: Methods, systems, devices, and products for ultrasonic borehole logging using an ultrasonic borehole imaging tool in a borehole intersecting the earth formation. Methods may include adjusting a focus for an ultrasonic beam generated from a single-transducer ultrasonic assembly of the ultrasonic imaging tool; using a receiver to generate measurement information responsive to an ultrasonic signal caused by the ultrasonic beam; and estimating a parameter of interest from the measurement information. Methods may include adjusting the focus in dependence upon environmental conditions, the environmental conditions comprising at least one of: i) standoff between the ultrasonic imaging tool and a wall of the borehole; and ii) borehole annulus conditions. Methods may include adjusting the focus in substantially real-time. The ultrasonic beam may be focused with a focal zone at the borehole wall configured to produce a beam spot size of a selected diameter.

Abstract: A gas detector sensor node includes a first sensor conductor having a terminal end, a second sensor conductor including an end section, and a coupler joining the terminal end of the first sensor conductor with the end section of the second sensor conductor. The coupler is permeable to gas.

Abstract: An example system for optimal storage of load data for lifetime prediction for a piece of equipment used in a well operation includes a sensor collecting load data of the piece of equipment and a processing device for executing computer readable instructions. The computer readable instructions include: determining a lifetime model for the piece of equipment; calculating a bucket size using one of the lifetime model and a distribution of load data; discretizing a load data spectrum into one or more buckets using the calculated bucket size; assigning the collected load data to the one or more buckets of the load data spectrum; storing the collected load data assigned to the one or more buckets to a memory; and determining a lifetime estimation of the piece of equipment based on the load data assigned to the one or more buckets of the load data spectrum and stored to the memory.

Abstract: An inflow control device (ICD) includes an inlet, an outlet spaced from the inlet, and a flapping member arranged between the inlet and the outlet. The flapping member is responsive to vortex induced vibrations to selectively exclude at least one fluid from passing through the outlet.

Abstract: A method for determining a hydrocarbon concentration from drilling fluid includes pumping the drilling fluid into a wellbore and circulating a sample of the drilling fluid uphole from the wellbore so that ?13C isotopic signatures can be determined for one or more hydrocarbon components and for methane in the sample where the methane includes natural methane originating from the earth formation and artificially-produced methane caused by drill bit metamorphism (DBM). A processor is adapted to determine the concentration of the natural methane in the sample based in part on the ?13C isotopic signatures which may be performed during the drilling of the wellbore.

Abstract: A system for covering a sensitive component in a downhole string includes a sub section in the downhole string including a longitudinal axis and a reduced diameter portion along the longitudinal axis. The system also includes a guard element, arranged over the reduced diameter portion. The system further includes a mounting system adapted to axially couple the guard element to the sub section. The mounting system includes a pocket in one of the sub section and the guard element, the pocket including a shoulder. The mounting system also includes a threaded bore in the other of the sub section and the guard element, the threaded bore oriented at least partially parallel to the longitudinal axis of the sub section. The mounting system further includes a fastener engaging the threaded bore through the pocket and axially coupling the guard element to the sub section.

Abstract: A submersible well pump assembly having a motor with a shaft, a stator, a rotor coupled to the shaft, and bearing sleeves between the shaft and a bearing assembly. The rotor includes a number of rotor sections located along an axis of the shaft, where each rotor section includes a stack of rotor disks and end rings on each end of the stack. Each bearing sleeve attaches to an end ring and extends axially away from the end ring into abutment with an end of another bearing sleeve attached to an adjacent end ring.

Abstract: A frac sleeve assembly and method of operation. The frac sleeve assembly includes a ball seat that retains a frac ball. The ball seat moves within a sleeve. The sleeve includes a profile that separates the first half and the second half to allow passage of the frac ball through the ball seat when the ball seat moves within the sleeve. Alternatively, the ball seat has a ring for receiving the frac ball and the sleeve has a protrusion that selectively engages a shifting pin to move the ring with respect to a ridge to release the ball from the ball seat when the ball seat moves within the sleeve.

Abstract: A method of estimating downhole fluid properties includes deploying a borehole string in a borehole in a resource bearing formation, simulating a downhole fluid property distribution along a length of the borehole string using a mathematical hydraulics model, the fluid property distribution related to downhole fluid pressure, measuring a downhole fluid property related to downhole fluid pressure at a selected location along the length of the borehole string to generate a measured fluid property value, and comparing the measured fluid property value to a simulated downhole fluid property at the selected location. The method also includes calculating a correction value based on a difference between the measured fluid property value and the simulated fluid property value at the selected location, correcting an entirety of the fluid property distribution along the length based on the correction value, and controlling a downhole operation based on the corrected fluid property distribution.

Abstract: In an aspect, a method includes receiving data characterizing measurements recorded while drilling a wellbore. The method can also include determining, using the measurements and a reservoir map, a storage capacity of the wellbore and a flow capacity of the wellbore. The method can further include determining a well construction plan using the storage capacity and the flow capacity. The method can also include providing the well construction plan. Related systems, techniques, and non-transitory computer readable mediums are also described.

Abstract: An apparatus for use in a wellbore includes a downhole tool, a fuel cell, a pressure applicator, and a desiccant. The wellbore has a wellbore fluid at hydrostatic pressure. The downhole tool is conveyed into the wellbore with a conveyance device. The fuel cell is associated with the downhole tool and receives a flow of an oxidant and a flow of hydrogen. The pressure applicator applies at least a portion of the hydrostatic pressure of the wellbore fluid to the fuel cell to increase a pressure applied to the fuel cell. The desiccant receives a fluid byproduct produced by the fuel cell.

Abstract: An apparatus for generating power includes a fluid chamber configured to receive borehole fluid, one or more conductive coils surrounding the fluid chamber, a reciprocating magnetic shuttle disposed in the fluid chamber and dividing the fluid chamber into a first volume and a second volume, a first conduit connected to the first volume, and a second conduit connected to the second volume, the first conduit and the second conduit extending from a tubular conduit to an annulus. The apparatus includes a switching assembly configured to alternate between a first operating state where the first volume is in fluid communication with the annulus and a second operating state where the first volume is in fluid communication with the tubular conduit, to alternate a direction of differential pressure between the first volume and the second volume and cause the magnetic shuttle to move in a reciprocating motion and generate an electric current.

Abstract: A non-destructive testing system includes a probe positioning assembly, a matrix array ultrasonic probe arranged on the probe positioning assembly configured to position the matrix array ultrasonic probe adjacent to a mating axial surface of a wheel for ultrasonic communication with the wheel. The matrix array ultrasonic probe is configured to emit a validation ultrasonic signal directed towards a coupling validation section within the wheel, measure the emitted validation ultrasonic signal after reflection from the coupling validation section, emit a plurality of ultrasonic inspection signals directed towards at least one inspection section of the wheel, and measure each of the plurality of ultrasonic inspection signals reflected from a defect positioned within the inspection section of the wheel.

Abstract: An apparatus for setting a plug in a borehole penetrating a subsurface formation includes a tool mandrel defining a chamber having a port and a power charge disposed in the chamber for emitting a pressurized gas upon ignition. The apparatus also includes an outer sleeve at least partially surrounding the tool mandrel and defining an annulus between the outer sleeve and the tool mandrel where the annulus is in communication with the port. The apparatus further includes a piston disposed in the annulus and having an outer surface facing uphole within the annulus, the piston being in mechanical communication with a setting sleeve of the plug, wherein displacement of the setting sleeve causes setting of a slip and a seal of the plug.

Abstract: Systems and methods for vibration attenuation, and for investigating a subsurface volume of interest from a borehole. System embodiments may include a vibration attenuation system, comprising: at least one vibration attenuator configured to dynamically isolate a vibration source, the at least one vibration attenuator comprising metamaterial defining a plurality of cells; wherein at least one cell of the plurality of cells comprises a plurality of sub-cells azimuthally arrayed about an axis of alignment, and at least one sub-cell of the plurality is defined by a solid, the at least one sub-cell including a plurality of cell segments substantially oriented in alignment with a mapping geometry comprising an inversion of a canonical tangent circles mapping. The vibration source may comprise an acoustic source. The system may have an enclosure having the acoustic source and the at least one receiver disposed therein, with the at least one acoustic attenuator is positioned between.

Abstract: A modular screen system includes a tubular member having an outer surface defining an outer diameter and an inner surface defining an inner diameter. The outer surface includes an opening and a recess extending about the opening. A flow control device is positioned at the opening in the recess, and a screen member is detachably mounted to the tubular in the recess. The screen member includes a filtering surface that does not project proudly of the outer surface.

Abstract: A method and apparatus for performing an operation in a wellbore penetrating the earth's formation. The apparatus includes a string and a first processor. The string is disposed in the wellbore. The first processor a first processor determines, by using a first friction test at a first friction test time, a first friction parameter between a first selected subregion and the wellbore and a second friction parameter between a second selected subregion and the wellbore.