Abstract: Automated apparatuses for use in examining gas sorption materials are described. Devices utilize a noncontact magnetic induction heating approach for controlling the temperature of tested materials. The apparatuses can be used to generate single or multiple isotherms simultaneously. The apparatuses can examine nanogram or microgram-scale quantities of materials of interest and can do so automatically and unattended. Pressure-composition isotherms can be provided through use of disclosed apparatuses in a period of a few hours.
Type:
Grant
Filed:
March 23, 2020
Date of Patent:
April 19, 2022
Assignee:
Savannah River Nuclear Solutions, LLC
Inventors:
Simona E. Hunyadi Murph, Henry T. Sessions, Michael A. Brown
Abstract: A sheet feeding apparatus includes a sheet stacking portion on which a sheet is stacked, and a conveyance portion to convey the sheet stacked on the sheet stacking portion. The conveyance portion includes a roller to convey the sheet and a shaft supporting the roller. The roller includes an end surface formed on a downstream end side in a detaching direction which is a direction of detaching the roller, an extension portion extending downstream in the detaching direction beyond the end surface, an engage portion formed on the extension portion and engageable with the shaft, and a grip portion extending downstream in the detaching direction beyond the end surface and disposed outside, in a radial direction orthogonal to the axial direction, from the extension portion. The grip portion includes a hole portion penetrating through in the radial direction.
Abstract: The present invention is related to a method for indicating soil additives for improving soil water infiltration and/or modulating soil water repellence, a corresponding arrangement and the use thereof.
Type:
Grant
Filed:
November 5, 2018
Date of Patent:
April 19, 2022
Assignee:
BASF SE
Inventors:
David Edward Mainwaring, Pandiyan Murugaraj, Rohan Davies, Klaus Däschner, Alexander Wissemeier, Hao Hao
Abstract: The present disclosure discloses a laboratory test device for permeation grouting of impermeable material, which comprises a slurry storage device with a stirrer, a grouting pump, electromagnetic flow meters, pressure sensors, a pressure chamber, a slurry collection tank, a pH value meter, a conductivity meter, electronic scales, an image acquisition system and a computer system. The computer system automatically acquires related data to save the labor, and the data is recorded completely so as to facilitate tests and researches. Software installed in the computer system can automatically process the data and displays a permeability coefficient in real time so as to achieve quick determination and real-time display of the permeability coefficient and facilitate development of laboratory tests and researches. Three pressure sensors are arranged on an organic glass cylinder of the pressure chamber at the equal intervals.
Abstract: A method for testing for a possible water leak in at least a part of a water system, comprising: closing all known water usage taps (42) within the part of the water system to be tested; closing at least one stop cock (14) or valve of the water system to isolate the part of the water system from its replacement water source (12) (or sources), and any external replacement pressure source (or sources); and then a) detecting a first pressure P0 within the isolated part of the water system at a sensor (62, 48) connected to the part of the water system, waiting a period of time t and then detecting a second pressure within the isolated part of the water system at that sensor (62, 48); and b) releasing a volume of water VR from the water system out of the isolated part of the water system via a vent (42) in the isolated part of the water system, before then closing the vent (42), step b) further comprising detecting the pressures either side of that release at that sensor (62, 48); using the pressure drop caused by
Type:
Grant
Filed:
October 5, 2018
Date of Patent:
April 12, 2022
Assignee:
HOMESERVE PLC
Inventors:
Samuel Bailey, Philip Yorke, Richard Lawrence
Abstract: A document transport device includes a placement portion, a slide member, a movable piece, and a detector. A document is to be placed on the placement portion. The slide member includes a document guide that contacts one lateral side of the document which is placed on the placement portion. The movable piece is provided to the slide member, and includes a shading pattern composed of plural patches that have plural densities corresponding to plural document sizes and having plural adjacent patch density differences that are different from each other. The detector detects a density of the shading pattern, and outputs an output signal for document size recognition.
Abstract: The present invention provides a gas pipeline leakage monitoring system and a monitoring method, which solve the technical problem that the existing gas pipeline network leakage monitoring method has low monitoring efficiency and poor accuracy due to the presence of interference signals. In the present invention, the gas pipeline leakage monitoring system is provided with a pressure regulating apparatus, and further provided with a control apparatus, a front end and a rear end of the pressure regulating apparatus each are provided with a signal collecting apparatus, the signal collecting apparatus is for collecting signals at the front end and the rear end of the pressure regulating apparatus and uploading the signals to the control apparatus, and the signal collecting apparatus is provided with a timing apparatus. Meantime, the present invention provides a gas pipeline leakage monitoring method. The present invention can be widely applied to leakage monitoring of a gas pipeline.
Abstract: A system for analyzing fluid flow in unconventional, hydraulically-fractured porous media. In one embodiment, the system comprises a reservoir test sample, wherein the reservoir test sample comprises a core barrel, annular fluid, a synthetic tubing, supporting layers, and a core sample stack, wherein the core sample stack comprises one or more core slots.
Type:
Grant
Filed:
March 30, 2020
Date of Patent:
March 29, 2022
Assignee:
Stratum Reservoir Intermediate, LLC
Inventors:
Forast Brent Thomas, William Mackinnon Gibb, Michael Steven Piwowar
Abstract: Techniques for inspecting a weld of a nuclear waste canister include positioning a gamma ray image detector near a nuclear waste canister that encloses nuclear waste. The nuclear waste canister includes a housing that includes a volume in which the waste is enclosed and a top connected to the housing with at least one weld to seal the nuclear waste in the nuclear waste canister. The techniques further include receiving, at the gamma ray image detector, gamma rays from the nuclear waste that travel through one or more voids in the weld; generating an image of the received gamma rays with the gamma ray image detector; and based on the generated image, determining an integrity of the at least one weld.
Abstract: A burst-duct detection system is provided. The system may include a manifold; a rolling diaphragm dividing a chamber within the manifold into a top portion and a bottom portion; a high pressure chamber in fluid communication with the top portion of the manifold; an ambient pressure chamber in fluid communication with the top portion of the manifold; a piston disposed within the top portion of the manifold and operably connected to the diaphragm; a mechanical link may include a proximal end, a distal end, and a middle portion, the mechanical link being disposed within a core chamber of the manifold and the proximal end operably connected to the piston; and an indicator piston operably connected to the mechanical link.
Abstract: An apparel printing system for printing on regions of tubular fabrics with repeating patterns includes a textile printer having a print head and a tubular platen that includes features on the platen surface to retain and register the tubular fabric on the platen surface during printing.
Abstract: Apparatus is provided having an acoustic-based air probe with an acoustic source configured to provide an acoustic signal into a mixture of concrete; and an acoustic receiver configured to be substantially co-planar with the acoustic source, to respond to the acoustic signal, and to provide signaling containing information about the acoustic signal injected into the mixture of concrete.
Type:
Grant
Filed:
October 19, 2018
Date of Patent:
March 15, 2022
Assignee:
CiDRA Corporate Services Inc.
Inventors:
John Biesak, Douglas H. Loose, Michael A. Davis
Abstract: The invention relates to a method for producing a sensor housing for a pressure sensor and to a sensor housing for a pressure sensor, to a pressure sensor having such a sensor housing, and to the use of an additive production device for producing such a sensor housing. A sensor body and/or at least one membrane stamp is applied to a provided metal plate by means of additive production. The additive production produces an integrally joined, in particular planar joint connection between the sensor body and/or the at least one membrane stamp, on the one side, and the metal plate, on the other side.
Type:
Grant
Filed:
November 6, 2017
Date of Patent:
March 8, 2022
Assignee:
PIEZOCRYST ADVANCED SENSORICS GMBH
Inventors:
Martin Baumgartner, Robert Strmsek, Dietmar Kröger
Abstract: A temperature correction device includes a data acquisition portion that acquires physical quantity data based on an output signal from a physical quantity sensor and temperature data based on an output signal from a temperature sensor, a physical quantity measurement portion that measures a physical quantity detected by the physical quantity sensor based on the physical quantity data, a correction value calculation portion that calculates a correction value based on a product of a temperature gradient value for a first period from a first time to a second time obtained based on the temperature data and a correction coefficient value, and a correction portion that corrects a measurement value of the physical quantity measured by the physical quantity measurement portion based on the correction value.
Abstract: A sensor element includes: a supporting body; and a sensor body, the sensor body being planar in shape, being made of an elastic material, and having a first surface and a second surface coated so as to be electrically conductive. The sensor body includes a measuring segment and a fastening segment. A layer thickness of the fastening segment is greater than a layer thickness of the measuring segment.
Type:
Grant
Filed:
December 6, 2019
Date of Patent:
March 1, 2022
Assignee:
CARL FREUDENBERG KG
Inventors:
Tanja Claus, Boris Traber, Stefan Sindlinger, Olaf Nahrwold, Christian Kleinke
Abstract: Described herein are systems, devices, and methods for detecting leaks of liquids or gases in a transporting network. In one embodiment, a flow detector for detecting volume and direction of flow is attached to a system transporting such liquid or gas, changes are sensed over time, and data is sent to and from a controller. In alternative embodiments, static and dynamic states are identified and differentiated to identify relatively small leaks. In some embodiments, the transporting network is emptied in whole or in part, thereby allowing the measurement of relatively small leaks. In some embodiments, aggregate measurement data is processed to identify usage and performance features particular to the transporting network, which allows a continuous improvement in the measurement of leaks and flow direction. In some embodiments, corrective action is taken automatically, while in other embodiments human operators order corrective action.
Abstract: A system used in monitoring one or more operating parameters of a coolant-fluid cooled industrial installation includes one or more an acoustic sensors positioned to receive and sense one or more acoustic signals in an installation coolant-fluid flow. The acoustic sensor assembly operates to emit and sense acoustic signals at frequency ranges above and/or below the background noise frequency ranges which are associated with the normal industrial installation operation. Output data signals representative of sensed acoustic signals are compared to target frequency profiles predetermined as representing an acoustic frequency associated with a predetermined installation operating parameter or event.
Abstract: A monitoring device for a pipe system includes a housing defining a mounting surface and a pair of mounting receptacles on a mounting side, the housing configured to mount on an exterior surface of a pipe element of the pipe system, the housing including a housing body defining a wet compartment intersecting the mounting surface; a tamper-resistant housing fastener configured to resist unfastening without a special removal tool; and a strap assembly including a mounting tab, the strap assembly secured to the housing by receiving the housing fastener through the mounting tab and within a first mounting receptacle of the pair of mounting receptacles.
Type:
Grant
Filed:
January 3, 2020
Date of Patent:
February 22, 2022
Assignee:
Mueller International, LLC
Inventors:
Daryl Lee Gibson, David James Carlos Dunn
Abstract: A method for expanding the dynamic range of a capacitive pressure sensor and a capacitive pressure sensor having an expanded dynamic range are provided. The capacitive pressure sensor may comprise capacitive plates. At least one plate may be contoured to increase a surface area exposed to the other of the capacitive plates. The capacitive pressure sensor may comprise a diaphragm that is movably responsive to pressure. The diaphragm may have a hollowed volume within an interior of the diaphragm operative to increase a flexibility of the diaphragm in response to the pressure. The capacitive pressure sensor may be one of a plurality of capacitive pressure sensors in a pressure sensing device. The capacitive pressure sensors may have different capacitive responses and may each output a pressure measurement, whereby the device may select a pressure measurement to output based at least in part on the capacitive responses.
Abstract: An industrial process differential pressure sensing device includes a housing having first and second isolation cavities that are respectively sealed by first and second diaphragms, a differential pressure sensor, a static pressure sensor, an eddy current displacement sensor, and a controller. The static pressure sensor is configured to output a static pressure signal that is based on a pressure of fill fluid in the first isolation cavity. The differential pressure sensor is configured to output a differential pressure signal that is indicative a pressure difference between the first and second isolation cavities. The eddy current displacement sensor is configured to output a position signal that is indicative of a position of the first isolation diaphragm relative to the housing. The controller is configured to detect a loss of a seal of the isolation cavity based on the position signal, the static pressure signal and the differential pressure signal.