By Measuring Transit Time Of Tracer Or Tag Patents (Class 73/861.05)
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Patent number: 11879860Abstract: A device for measuring conductivity of a fluid. The device including a chamber and at least two electrodes. The chamber includes an inlet, an outlet, an upper surface, and a lower surface that runs separate from the upper surface. The fluid enters the chamber through the inlet and flows out of the chamber through the outlet. Moving along a length of the chamber from the inlet to the outlet or from the outlet to the inlet, a distance between the upper surface and the lower surface changes in at least one dimension of the chamber. The two electrodes are configured to measure electrical voltage in the fluid that enters the chamber through the inlet and flows out of the chamber through the outlet.Type: GrantFiled: April 21, 2020Date of Patent: January 23, 2024Assignee: Fresenius Medical Care Holdings, Inc.Inventors: Philip Scott James, Jon F. Moss, Lynn E. Jensen, Mary Hoover, Spencer Barrett
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Patent number: 11841337Abstract: A device for measuring conductivity of a fluid. The device including a chamber and at least two electrodes. The chamber includes an inlet, an outlet, an upper surface, and a lower surface that runs separate from the upper surface. The fluid enters the chamber through the inlet and flows out of the chamber through the outlet. Moving along a length of the chamber from the inlet to the outlet or from the outlet to the inlet, a distance between the upper surface and the lower surface changes in at least one dimension of the chamber. The two electrodes are configured to measure electrical voltage in the fluid that enters the chamber through the inlet and flows out of the chamber through the outlet.Type: GrantFiled: April 21, 2020Date of Patent: December 12, 2023Assignee: Fresenius Medical Care Holdings, Inc.Inventors: Philip Scott James, Jon F. Moss, Lynn E. Jensen, Mary Hoover, Spencer Barrett
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Patent number: 11796362Abstract: Conductivity probe fluid property measurement systems and related methods are disclosed herein. An example apparatus includes a flow meter and a fluid conduit to provide a flow path for a fluid relative to the flow meter. The example apparatus includes a conductivity probe coupled to the fluid conduit to generate brine conductivity data of the fluid during flow of the fluid through the fluid conduit. The example apparatus includes a processor to modify fluid flow data generated by the flow meter based on the brine conductivity data.Type: GrantFiled: March 2, 2018Date of Patent: October 24, 2023Assignee: Schlumberger Technology CorporationInventors: Bertrand Theuveny, Ryan Donald Williams, Cheng-Gang Xie, Guillaume Jolivet
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Patent number: 10975349Abstract: An apparatus and method for determining fluid flow (e.g., sterile media flow, filtrate flow, etc.) through tubing is provided. The apparatus includes an air source, a flow valve, a first sensor, a second sensor, and a media tubing section extending between the first sensor and the second sensor. In operation, air from the air source is introduced by the flow valve into a fluid flow to create a lead line of fluid immediately following the introduced air. As the lead line of fluid passes each sensor, the sensors are used to determine a time between when the lead line passes the first sensor and the second sensor and that determined elapsed time is used, along with a determined volume of the media tubing section to determine the rate of flow of the fluid flow.Type: GrantFiled: February 15, 2019Date of Patent: April 13, 2021Assignee: Flownamics Analytical Instruments, Inc.Inventor: Michael Biksacky
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Patent number: 9739788Abstract: A detector arrangement for a blood culture bottle incorporating a colorimetric sensor which is subject to change of color due to change in pH or CO2 of a sample medium within the blood culture bottle. The detector arrangement includes a sensor LED illuminating the colorimetric sensor, a reference LED illuminating the colorimetric sensor, a control circuit for selectively and alternately activating the sensor LED and the reference LED, and a photodetector. The photodetector measures reflectance from the colorimetric sensor during the selective and alternating illumination of the colorimetric sensor with the sensor LED and the reference LED and generates intensity signals. The reference LED is selected to have a peak wavelength of illumination such that the intensity signals of the photodetector from illumination by the reference LED are not substantially affected by changes in the color of the colorimetric sensor.Type: GrantFiled: July 19, 2011Date of Patent: August 22, 2017Assignee: BioMerieux, Inc.Inventor: Bradford G. Clay
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Patent number: 9718666Abstract: Systems and methods for regulating the flow rate of fluid at a fluid dispensing nozzle. In one embodiment, a nozzle includes a body, a spout coupled with the body, and at least one fluid flow path disposed within the body. The at least one fluid flow path is configured for fluid communication with a fluid dispensing hose. An ultrasonic transducer is disposed within the body and operatively coupled with the at least one flow path. Control electronics are in electronic communication with the ultrasonic transducer. The control electronics are operative to cause the ultrasonic transducer to transmit ultrasonic waves into the at least one fluid flow path. The ultrasonic waves are modulated with information representative of a desired fluid flow rate.Type: GrantFiled: December 9, 2015Date of Patent: August 1, 2017Assignee: Veeder-Root CompanyInventor: Kenneth D. Cornett
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Patent number: 9599340Abstract: Coal-fired power station with controller for air-fuel ratio in combustion of ground coal, with pneumatic conveying of ground coal to burners of power station. An electrode (10) with average radius rm with 0.1 mm?rm?1.2 mm arranged in channel carrying air in flow direction of air upstream of sensors (11) of correlation measurement device (12) at distance l with 1× unobstructed width of flow cross-section of the channel carrying the air<l<10× unobstructed width of the flow cross-section of the channel carrying the air in the region of the sensors (11). A counter electrode (13, 25) electrically operative relative to electrode (10) is arranged in upstream of sensors (11), and electrode (10) and counter electrode (13, 25) are connected with different poles of a high-voltage source (9) configured for providing a voltage U of 12 kV?U?20 kV.Type: GrantFiled: July 11, 2012Date of Patent: March 21, 2017Assignee: PROMECON Prozess-Und Messtechnik Conrads GmbHInventors: Hans Georg Conrads, Alexander Halm, Martin Bohm
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Patent number: 9404783Abstract: Embodiments of the present invention provide a sediment bed passive flux meter (SBPFM) and associated methods. In one embodiment, an SBPFM is provided. The SBPFM comprises a casing. The casing comprises an intake portion, an exhaust portion, and an intermediate portion between the intake and exhaust portions. The SBPFM further comprises a permeable sock positioned within the intermediate portion of the casing and a sorptive matrix positioned within the sock. The sorptive matrix is impregnated with one or more tracers. The SBPFM is configured to passively intercept, but not retain, groundwater flow passing through the SBPFM from the intake portion to the exhaust portion.Type: GrantFiled: March 24, 2015Date of Patent: August 2, 2016Assignee: UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INCORPORATEDInventors: Harald Rene Klammler, Kirk Hatfield, Michael D. Annable, Mark A. Newman, Jaehyun Cho, Leif E. Layton
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Patent number: 9297682Abstract: A continuous, inline, flow rate measurement system for rapidly measuring a flow rate in an analytical instrument having a primary pump that outputs a primary fluid at the flow rate to be measured or verified. The flow rate measurement system includes an auxiliary pump that outputs an auxiliary fluid bubble having a detectable characteristic that is distinguishable from the primary fluid, a bubble injection system that injects a small portion of the auxiliary fluid into the conduit, and a bubble detection system for measuring the position of the auxiliary fluid bubble as a function of time based on a time of detecting the detectable characteristic of the auxiliary fluid, and a controller for converting the measured position of the auxiliary fluid bubble as a function of time into a volumetric flow rate based on a known volume of the conduit.Type: GrantFiled: September 10, 2014Date of Patent: March 29, 2016Inventor: Serge Njamfa
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Patent number: 9096712Abstract: A curable composition comprises: an epoxy silane represented by formula X—Si(OR1)(OR2)(OR3) wherein R1-R3 represent C1 to C4 alkyl groups, and X represents an organic group having at least one oxirane ring; a fluorinated silane represented by formula; wherein: Rf represents a perfluoroalkyl group having from 3 to 5 carbon atoms, R4 represents H or a C1 to C4 alkyl group, and R5-R7 represent C1 to C4 alkyl groups; and a photoacid. Use of the curable composition to coat a phototool, thereby providing a protective coating on the phototool is also disclosed.Type: GrantFiled: June 29, 2010Date of Patent: August 4, 2015Assignee: 3M Innovative Properties CompanyInventor: Zai-Ming Qiu
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Publication number: 20150033872Abstract: The present invention provides a microfluidic device which includes at least 3 chambers, a chamber inlet, at least 2 dichotomously branching generations of channels, a channel inlet, and a channel outlet, wherein the channels and the chambers are separated by deformable walls, wherein each wall is lined with at least one cavity, and wherein the cavity is fluidly connected to the channel.Type: ApplicationFiled: August 1, 2014Publication date: February 5, 2015Inventors: Rami Fishler, Josue Sznitman
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Patent number: 8910890Abstract: Tracer particles together with air are jetted from a nozzle of a seeder into a hood, the air is guided by a collision surface of the hood, deflected to a downstream side in an airflow direction in a wind tunnel, and flows out into the wind tunnel through an opening of the hood. Tracer particles having a large diameter fly straightly without being drifted by the deflected air and collide with the collision surface and are trapped thereon and are prevented from being supplied into the wind tunnel. Tracer particles having a small diameter are drifted by the deflected air, thereby deflected, and supplied into the wind tunnel without collision with and adhesion to the collision surface.Type: GrantFiled: November 22, 2011Date of Patent: December 16, 2014Assignee: Honda Motor Co., Ltd.Inventors: Kei Ambo, Makoto Yanaka, Yuji Ishitsuka, Yuichi Fukuchi
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Patent number: 8850899Abstract: Processes and systems for logging production of fluid produced into a well bore without intervention of the well are disclosed. Two or more markers may be introduced into produced fluid at spaced apart locations along a well. The time for each marker to reach a common point may be measured and production rates for produced fluids at each spaced apart location may be calculated.Type: GrantFiled: April 7, 2011Date of Patent: October 7, 2014Assignee: Marathon Oil CompanyInventor: Philip M Snider
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Patent number: 8578789Abstract: An analysis method using an analysis apparatus are described herein. By way of an example, the analysis method includes a first step of driving a pressurizing pump and a pressure-reduction pump, and of filling a liquid from a supply piping in an interior of a resistive body through which a sample passes, a second step of discharging, from a discharging piping, some of the liquid filled in the interior of the resistive body, and of securing a space in the interior of the resistive body for filling the sample, a third step of supplying the sample into the space, a fourth step of causing the sample to travel in the interior of the resistive body, and a fifth step of measuring a travel time of the sample in the interior of the resistive body by using the flow rate sensor.Type: GrantFiled: September 17, 2009Date of Patent: November 12, 2013Assignee: Arkray, Inc.Inventor: Yasuhito Murata
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Patent number: 8525533Abstract: A conductivity detector detects the electrical conductivity of a fluid under analysis for determining chemical or physical properties of the fluid that are related its electrical properties. Such conductivity detectors may find use in, for example, hemodialysis systems for analyzing the effectiveness of the hemodialysis treatment. In an aspect, to improve accuracy of the conductivity measurements, the detector utilizes four-wire resistance measurement methods. In another aspect, to avoid fouling or contamination of the electrodes, the detector utilizes capacitively-coupled contactless conductivity detection (C4D) methods so that the electrodes are physically unconnected to the fluid contained in a fluid chamber. In a possible further aspect, the fluid chamber may be a disposable component removable from the electrodes. The conductivity detector can include other features such as calibration circuits and features for electrically isolating the fluid under detection from the fluid in the rest of the system.Type: GrantFiled: September 16, 2010Date of Patent: September 3, 2013Assignee: Fresenius Medical Care Holdings, Inc.Inventor: Thomas A. Sullivan
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Publication number: 20130197830Abstract: A system, a method and a computer program to determine the usability of a lubricant such as, e.g., engine oil, and when to replace the lubricant in a particular engine. The system, method, and computer program are further configured to generate a lubricant discard interval for each engine in, e.g., a company's fleet of vehicles. The system, method, and computer program are configured to generate lubricant discard interval schedule for each of the vehicles in the company's fleet based on the lubricant discard intervals.Type: ApplicationFiled: February 1, 2012Publication date: August 1, 2013Applicant: AFTON CHEMICAL CORPORATIONInventors: Todd M. Dvorak, Robert T. Dittmeier, Dewey P. Szemenyei
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Publication number: 20130139607Abstract: A water flow detector has a spring driven mechanical timer responsive to the movement of a lever. The lever is connected to a paddle. The paddle is responsive to the flow of water in a pipe. The detector via the spring driven timer responds to the flow of water in the pipe after a predetermined delay.Type: ApplicationFiled: December 2, 2011Publication date: June 6, 2013Applicant: Honeywell International Inc.Inventors: William F. Laubach, Zoltan Borbath, Fred M. Butalla, III, James M. Murphy
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Patent number: 8457907Abstract: A compensation device for fluidic oscillation flow meters is provided. The compensation device includes a fluid supply unit, a fluidic oscillator, an electronic valve, a reference tank and a computer. The fluid supply unit supplies fluid into a pipe. The fluidic oscillator generates a characteristic oscillation frequency when the fluid supplied from the fluid supply unit passes through the fluidic oscillator. The electronic valve controls a flow rate of the fluid passing through the fluidic oscillator. The reference tank accumulates and stores the fluid passing through the electronic valve. The computer calculates a characteristic linear compensation coefficient using data about the time for which the fluid had passed through the fluidic oscillator, an oscillation frequency of the fluidic oscillator, a preset flow rate of the electronic valve, and a preset fluid accumulation amount of the reference tank. The computer stores the calculated characteristic linear compensation coefficient.Type: GrantFiled: October 8, 2010Date of Patent: June 4, 2013Assignee: Shindonga Electronics Co., LtdInventors: Moon Young Kim, Young Geun Hong, Hyoung Kee Yang, In Sung Cha
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Patent number: 8361021Abstract: A method and pump that accurately senses air in a fluid delivery line pulses or activates and deactivates the air sensor(s) multiple times during the pumping phase of the fluid delivery cycle and can generate alarms based upon a single indication or a cumulative indication of air in the line. The pump can include multiple air sensors spaced along the delivery line so that the method can use the multiple signals therefrom to distinguish real moving air bubbles from false positives and/or air bubbles adhered to the inner wall of the line.Type: GrantFiled: June 7, 2011Date of Patent: January 29, 2013Assignee: Hospira, Inc.Inventors: David T. Wang, Robert P. Cousineau, Lori E. Lucke, Marwan A. Fathallah, John Stephen Ziegler
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Patent number: 8342006Abstract: The invention relates to a method for detecting and/or quantifying water leaks in a water pipe, and to a device for realizing said method. The method of the invention comprises measuring the water flow rate in the pipe in at least two different locations, i.e., one downstream and one upstream relative to the suspected leak, the water flow rate being measured by injecting a tracing agent that modifies the water conductivity instantaneously at an upstream location and a downstream location relative to the suspected leak location, continuously measuring the water conductivity downstream from said locations and, from the conductivity values, calculating the water flow rates upstream and downstream relative to the suspected leak location in the pipe. The method of the invention can be used for quantifying a leak flow rate that can even be a very small one.Type: GrantFiled: November 27, 2007Date of Patent: January 1, 2013Assignee: Commissariat a l'Energie AtomiqueInventors: Daniel Getto, Patrick Burghoffer
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Publication number: 20120260741Abstract: A method is provided of determining the internal cross-sectional area of a pipe along its length. The method includes the steps of: (a) filling the pipe with a first fluid; (b) feeding a second fluid into the pipe at a known flow rate, a meniscus being formed between the first and the second fluid, and the meniscus moving along the pipe as the second fluid displaces the first fluid in the pipe; (c) ultrasonically detecting the position of the meniscus as it moves along the pipe; and (d) determining from the second fluid flow rate and the meniscus position, the internal cross-sectional area of the pipe along its length.Type: ApplicationFiled: April 4, 2012Publication date: October 18, 2012Applicant: ROLLS-ROYCE PLCInventors: Anthony G. RAZZELL, Robert J. MITCHELL
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Patent number: 8150637Abstract: Apparatuses, methods, and computer program products for evaluating the performance of a gas lift well are disclosed. A gas lift well surveillance kit is disclosed. A method for evaluating the performance of a gas lift well includes injecting a tracer into an annulus, measuring a concentration of the tracer present in a substance retrieved from the well, determining actual travel times of the tracer, segmenting the gas lift well into a plurality of ranges of well depth, determining lift gas loss parameters, calculating lift gas velocities in the annulus and in the production tubing for each of the plurality of ranges of well depth based on the lift gas loss parameters, and determining points of entry of the lift gas into the production tubing based on: (i) the actual travel times of the tracer, and (ii) the lift gas velocities in the annulus and in the production tubing.Type: GrantFiled: January 29, 2010Date of Patent: April 3, 2012Assignee: WellTracer Technology, LLCInventors: Larry Peacock, Dan Dees
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Patent number: 8133185Abstract: A catheter for retrograde orientation in a blood flow is used to determine the blood flow rate by thermodilution measurements. The determination of the blood flow rate accommodates injectate induced thermal influences on a dilution thermal sensor, wherein the thermal influences can occur prior to introduction of the injectate into the blood flow.Type: GrantFiled: September 9, 2003Date of Patent: March 13, 2012Assignee: Transonic Systems, Inc.Inventors: Nikolai M. Krivitski, Victor V. Kislukhin
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Patent number: 8091433Abstract: A gas meter gas a conduit for passage of a gas flow; an ioniser arranged to ionise the gas flow in the conduit; a modulating electrode structure arranged for modulating the ion distribution in the ionised gas flow; and at least a detecting electrode structure downstream of the modulating electrode structure arranged for detecting the modulated ion distribution in the ionised gas flow. The modulating electrode structure is arranged downstream of the ioniser and is configured to generate an electrical field which is substantial in a parallel to the direction of the gas flow.Type: GrantFiled: October 5, 2006Date of Patent: January 10, 2012Assignee: Sentec LimitedInventors: Edward Grellier Colby, Hans Joachim Steiner, Kimon Sopoulos, Matthew Emmanuel Milton Storkey, Simon Adam Shakepeare
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Patent number: 8019559Abstract: A flow meter and method for measuring flow in liquids which may have entrained bubbles or foreign matter. The meter performs alternate transit time and Doppler measurements. The transit time measurements are used to calculate flow so long as they are successful. If the transit time measurements are not successful, the Doppler measurements are used.Type: GrantFiled: May 30, 2007Date of Patent: September 13, 2011Assignee: Racine Federated, Inc.Inventors: Robert K. Stevens, Richard L. Little, William W. Roeber
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Publication number: 20110203386Abstract: Method and apparatus enable direct measurement of at least one flow velocity for one or more phases within a multiphase fluid mixture flowing in a conduit. Some embodiments provide determination of actual individual phase flow rates for three phases (e.g., oil, water and gas) that are distinct from one another within the fluid mixture. A multiphase flowmeter according to embodiments of the invention includes at least two optical sensors spatially distributed along a length of the conduit and designed to detect light interactions with the fluid mixture unique to the phases such that detected time-varying signals can be processed via cross-correlation or an array processing algorithm to provide desired individual phase flow velocity for oil, water and/or gas phases. This flow velocity can be applied to phase fraction measurements, which can be obtained utilizing the same flowmeter or another separate device, to calculate the flow rates for the phases.Type: ApplicationFiled: February 1, 2011Publication date: August 25, 2011Inventor: ESPEN S. JOHANSEN
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Patent number: 8004414Abstract: Material passing through a piping is laced with Radio Frequency Identification (RFID) tags. As the RFID tags pass an RFID sensor, which is either adjacent to or within the piping, a flow-rate of the material is determined by counting the rate at which the RFID tags pass the RFID sensor.Type: GrantFiled: March 14, 2008Date of Patent: August 23, 2011Assignee: International Business Machines CorporationInventors: Robert L. Angell, James R. Kraemer
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Patent number: 7997148Abstract: The systems and methods described herein allow for intercepting submarine groundwater discharge to be used as a supply source for desalination processes. In one practice a dye-dilution seepage meter is employed as a device for locating water sources. These meters can be placed in estuaries and other locations that may be candidate locations to test for flows of groundwater. In areas of suspected SGD, the meters can be deployed to quantify the potential yield and quality (e.g. salt content) of the resource. Regarding the water quality, it is important to note that even brackish water sources can greatly reduce the energy needed to achieve potable water by desalination.Type: GrantFiled: March 12, 2009Date of Patent: August 16, 2011Assignee: Woods Hole Oceanographic InstitutionInventor: Matthew Charette
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Patent number: 7981082Abstract: A method and pump that accurately senses air in a fluid delivery line pulses or activates and deactivates the air sensor(s) multiple times during the pumping phase of the fluid delivery cycle and can generate alarms based upon a single indication or a cumulative indication of air in the line. The pump can include multiple air sensors spaced along the delivery line so that the method can use the multiple signals therefrom to distinguish real moving air bubbles from false positives and/or air bubbles adhered to the inner wall of the line.Type: GrantFiled: August 20, 2008Date of Patent: July 19, 2011Assignee: Hospira, Inc.Inventors: David T. Wang, Robert P. Cousineau, Lori E. Lucke, Marwan A. Fathallah, John S. Ziegler
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Publication number: 20110154910Abstract: The present invention relates to an analysis apparatus 1 including a resistive body 2 through which a sample passes, and a flow rate sensor 53 for measuring a travel time of the sample at the resistive body 2. The flow rate sensor 53 is arranged at the halfway of discharging pipings 74 to 77 for discharging a liquid supplied to the resistive body 2. Preferably, the flow rate sensor 53 includes a tubular body through which a liquid or a gas passes, and a sensor unit with plural detecting areas for detecting an interface between the liquid and the air traveling in the tubular body.Type: ApplicationFiled: September 17, 2009Publication date: June 30, 2011Applicant: ARKRAY, INC.Inventor: Yasuhito Murata
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Patent number: 7908931Abstract: A system and method for measuring the flow rate of a liquid in a tube non-invasively has a heating element that generates energy that is applied to the liquid to produce a heat marker that is detected by a temperature sensor located at a known distance from the heating element and the flow rate is calculated from measuring the travel time of the heat marker from the heating element to the sensor. A second temperature sensor measures the ambient temperature of the liquid before the heat marker is produced and detection of the heat marker is made on the basis of the difference between the ambient temperatures and the temperature of the heat marker.Type: GrantFiled: December 14, 2009Date of Patent: March 22, 2011Assignee: Cosense, Inc.Inventor: Naim Dam
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Publication number: 20110011183Abstract: Methods and apparatus utilize a rate of drop in pressure upstream of a gas flow controller (GFC) to accurately measure a rate of flow through the GFC. Measurement of the gas flow through the many gas flow controllers in production use today is enabled, without requiring any special or sophisticated pressure regulators or other special components. Various provisions ensure that none of the changes in pressure that occur during or after the measurement perturb the constant flow of gas through the GFC under test.Type: ApplicationFiled: September 27, 2010Publication date: January 20, 2011Applicant: Pivotal Systems CorporationInventors: Joseph R. MONKOWSKI, Jialing Chen, Tao Ding, James MacAllen Chalmers
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Publication number: 20100223976Abstract: A method includes introducing a tag into a fluid stream, the tag being suspended in the fluid stream. The tag is detected at a first end of a calibrated volume and a first detection signal is generated responsive thereto. The tag is detected at a second end of the calibrated volume and a second detection signal is generated responsive thereto. A flow parameter for the fluid stream is determined based the first and second detection signals and the calibrated volume.Type: ApplicationFiled: March 6, 2009Publication date: September 9, 2010Inventor: Peter P. Jakubenas
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Publication number: 20100198533Abstract: Apparatuses, methods, and computer program products for evaluating the performance of a gas lift well are disclosed. A gas lift well surveillance kit is disclosed. A method for evaluating the performance of a gas lift well includes injecting a tracer into an annulus, measuring a concentration of the tracer present in a substance retrieved from the well, determining actual travel times of the tracer, segmenting the gas lift well into a plurality of ranges of well depth, determining lift gas loss parameters, calculating lift gas velocities in the annulus and in the production tubing for each of the plurality of ranges of well depth based on the lift gas loss parameters, and determining points of entry of the lift gas into the production tubing based on: (i) the actual travel times of the tracer, and (ii) the lift gas velocities in the annulus and in the production tubing.Type: ApplicationFiled: January 29, 2010Publication date: August 5, 2010Applicant: WELLTRACER TECHNOLOGY, L.L.C.Inventors: Larry Peacock, Dan Dees
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Patent number: 7703336Abstract: A device for measuring fluid flow rates over a wide range of flow rates. The invention is particularly adapted for use in micro-fluidic systems including fluids administration to a body of a patient. The device operates by producing characteristics variations in the fluid, or pulses, that are subsequently sensed by more than one detector spaced apart from the point of creation of the mark to derive a flow rate. Each pulse comprises a small fluid volume, whose characteristics are different from the mean characteristics of the fluid, such as by composition variations created by electrochemical means, such as by electrolysis of a solvent, electrolysis of a dissolved species, or electrodialysis of a dissolved ionic species, or a thermal variation created by focused electromagnetic radiation.Type: GrantFiled: January 8, 2009Date of Patent: April 27, 2010Assignee: Fluonic Inc.Inventor: Amir Genosar
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Publication number: 20100064776Abstract: The invention relates to a method for detecting and/or quantifying water leaks in a water pipe, and to a device for realizing said method. The method of the invention comprises measuring the water flow rate in the pipe in at least two different locations, i.e., one downstream and one upstream relative to the suspected leak, the water flow rate being measured by injecting a tracing agent that modifies the water conductivity instantaneously at an upstream location and a downstream location relative to the suspected leak location, continuously measuring the water conductivity downstream from said locations and, from the conductivity values, calculating the water flow rates upstream and downstream relative to the suspected leak location in the pipe. The method of the invention can be used for quantifying a leak flow rate that can even be a very small one.Type: ApplicationFiled: November 27, 2007Publication date: March 18, 2010Applicant: COMMISSARITA A L'ENERGIE ATOMIQUEInventors: Daniel Getto, Patrick Burghoffer
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Publication number: 20100033707Abstract: A method for repairing turbine blades by replacing at least a part of the blade profile, the method having: a) manufacture of a replacement blade part; b) separation of the damaged area with a standardized cutting plane, leaving behind a remaining blade; c) matching of the replacement blade part to the actual geometry of the remaining blade; d) connecting or joining of the replacement blade part to the remaining blade by soldering of at least one web and welding of an outer contour.Type: ApplicationFiled: September 7, 2007Publication date: February 11, 2010Inventors: Christof Gerlach, Michael Zielinski
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Patent number: 7637168Abstract: Automated seepage meters that can detect and quantify groundwater outflow and seawater infiltration. In addition to its capabilities in saltwater-influenced systems, the automated seepage meter can detect and quantify groundwater outflow and surface water infiltration in freshwater systems (e.g., aquatic, riverine, lacustrine environments). Based on a dye-dilution technique, this instrument provides high resolution time series data for submarine groundwater discharge to the coastal zone. The dye dilution method may employ two repeatable steps: the timed injection of a water-soluble dye into a dye mixing chamber mounted in series with a seepage or collection chamber and the subsequent timed measurements of the absorbance of the dyed solution.Type: GrantFiled: September 11, 2007Date of Patent: December 29, 2009Assignee: Woods Hole Oceanographic InstitutionInventor: Matthew Charette
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Publication number: 20090173166Abstract: A device for measuring fluid flow rates over a wide range of flow rates. The invention is particularly adapted for use in micro-fluidic systems including fluids administration to a body of a patient. The device operates by producing characteristics variations in the fluid, or pulses, that are subsequently sensed by more than one detector spaced apart from the point of creation of the mark to derive a flow rate. Each pulse comprises a small fluid volume, whose characteristics are different from the mean characteristics of the fluid, such as by composition variations created by electrochemical means, such as by electrolysis of a solvent, electrolysis of a dissolved species, or electrodialysis of a dissolved ionic species, or a thermal variation created by focused electromagnetic radiation.Type: ApplicationFiled: January 8, 2009Publication date: July 9, 2009Applicant: Fluonic Inc.Inventor: Amir Genosar
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Publication number: 20090126503Abstract: A heat signal writing device forming a clear writing pattern of a heat signal is provided. A heat signal writing device 10 for writing a heat signal in a medium traveling through a channel, which is secured to an appropriate position on the channel through which the medium flows, includes a Peltier element 11 for writing the heat signal having a temperature change according to a desired pattern by heating or cooling; a channel supporting member 12 shaped as a pyramid formed of a heat conductive material and having a bottom surface in close contact with a surface of the Peltier element 11, the tip of the pyramid being in direct contact with the channel 1; a heat sink 13 in close contact with another surface of the Peltier element 11; and a heat-resistant cover for covering the periphery of the Peltier element 11, excluding a channel contact surface 12a at the tip, and the channel supporting member 12.Type: ApplicationFiled: March 5, 2007Publication date: May 21, 2009Applicant: Surpass Industry Co., Ltd.Inventors: Hiroshi Imai, Keiichi Matsushima, Yoshihiro Ushigusa
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Publication number: 20090038407Abstract: The invention relates to the field of experimental aero- and hydrodynamics, particularly to optical methods of studying a structure of a gas or liquid stream on object surfaces. The invention makes it possible to study several flow modes per a single preparation of an object. A surface to be studied is coated with a viscous liquid (VL) layer having optically foreign particles insoluble in the VL. Particles subjected to an outer stream move together with the VL. Two or more sequential images of a particle distribution on the object surface to be studied are recorded in a gas or liquid flow mode of interest. Particle motion parameters are determined by analyzing the recorded sequence of images. Reconstructing the pattern of the gas or liquid flow on the object surface. The object can be used for studying other flow-around mode without additional preparation due to sufficiency of a small displacement of particles for reconstruction of the flow pattern.Type: ApplicationFiled: March 10, 2006Publication date: February 12, 2009Applicant: FEDERALNOE GOSUDARSTVENNOE UNITARNOE PREDPRIJATIE CENTRAL AEROHYDRODYNAMIC INSTITUTEInventors: Vladimir Yevgenyevich Mosharov, Vladimir Nikolaevich Radchenko, Anatoly Antonovich Orlov
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Patent number: 7473371Abstract: The measurement of blood flow in a dialysis shunt is obtained by injection of an indicator material into a venous line leading from dialysis equipment to the shunt. The blood flow in an arterial line leading from the shunt at a location downstream of the venous line to the dialysis equipment is monitored by an arterial line sensor for the presence of the indicator material. A detector connected to the sensor provides a dilution curve in response to the presence of the indicator material and the blood flow in the shunt is calculated from the area under the dilution curve. The locations of the arterial and venous lines in the shunt can be reversed to obtain a measurement of blood recirculation from the venous line into the arterial line.Type: GrantFiled: April 13, 2005Date of Patent: January 6, 2009Assignee: Transonic Systems, Inc.Inventors: Nikolai M. Krivitski, David R. MacGibbon
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Patent number: 7318336Abstract: Various methods for controlling one or more parameters of a flow cytometer type measurement system are provided. One embodiment includes monitoring parameter(s) of the measurement system during measurements of sample microspheres. The method also includes altering the parameter(s) in real time based on the monitoring. Another method includes monitoring a temperature proximate to the measurement system. One such method includes altering a bias voltage of an avalanche photo diode in response to the temperature using empirically derived data. A different such method includes altering output signals of a photomultiplier tube in response to the temperature using a characteristic curve. Some methods include monitoring a temperature of a fluid, in which sample microspheres are disposed, that will flow through the flow cytometer type measurement system. This method also includes determining a velocity of the sample microspheres in the measurement system from a viscosity of the fluid at the temperature.Type: GrantFiled: August 13, 2004Date of Patent: January 15, 2008Assignee: Luminex CorporationInventors: Wayne D. Roth, Douglas E. Moore
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Patent number: 7297280Abstract: The measurement of blood flow in a dialysis shunt is obtained by injection of an indicator material into a venous line leading from dialysis equipment to the shunt. The blood flow in an arterial line leading from the shunt at a location downstream of the venous line to the dialysis equipment is monitored by an arterial line sensor for the presence of the indicator material. A detector connected to the sensor provides a dilution curve in response to the presence of the indicator material and the blood flow in the shunt is calculated from the area under the dilution curve. The locations of the arterial and venous lines in the shunt can be reversed to obtain a measurement of blood recirculation from the venous line into the arterial line.Type: GrantFiled: June 18, 2004Date of Patent: November 20, 2007Assignee: Transonic Systems, Inc.Inventors: Nikolai M. Krivitski, David R. MacGibbon
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Patent number: 7275447Abstract: A method and apparatus for determining an initial flow rate in a conduit is disclosed. A known change is made to the flow to be measured, resulting changes (or values corresponding to these changes), or relative changes in the flow to be measured are monitored and the initial flow in the conduit is calculated from the value of the known change and monitored changes. Devices to practice the method include catheters having one or two sensors and one or two sites for introducing the volume change.Type: GrantFiled: February 13, 2007Date of Patent: October 2, 2007Assignee: Transonic Systems, Inc.Inventors: Nikolai M. Krivitski, Cornelis J. Drost
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Patent number: 7265832Abstract: An optical system design for measuring the velocity of fluids flowing through pipes or other conduits is disclosed. The optical system is comprised of a means for delivering two beams through a window in the wall of the pipe, focused to two points aligned along an axis of the pipe and separated by a known distance, and means for detecting light that is scattered by particles carried in the fluid stream through a second window, that is disposed on the opposite side of the pipe. By measuring the time delay between detected signals, the velocity of the fluid can be determined. The delivered light beams are focused in a shallow cone of light and are blocked by an obstruction disposed behind the second window. The scattered light passes through an aperture behind the second window that surrounds the obscuration, and is focused on to a detector surface.Type: GrantFiled: September 3, 2004Date of Patent: September 4, 2007Assignee: Photon Control Inc.Inventors: Derek Montgomery, Daryl James, David Yue Yan
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Patent number: 7210359Abstract: A method and apparatus for determining an initial flow rate in a conduit is disclosed. A known change is made to the flow to be measured, resulting changes (or values corresponding to these changes), or relative changes in the flow to be measured are monitored and the initial flow in the conduit is calculated from the value of the known change and monitored changes. Devices to practice the method include catheters having one or two sensors and one or two sites for introducing the volume change.Type: GrantFiled: July 11, 2006Date of Patent: May 1, 2007Assignee: Transonic Systems, Inc.Inventors: Nikolai M. Krivitski, Cornelis J. Drost
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Patent number: 7040144Abstract: Microfluidic devices, systems, and methods measure viscosity, flow times, and/or pressures, other flow characteristics within the channels, and the measured flow characteristics can be used to generate a desired flow. Multi-reservoir pressure modulator and pressure controller systems, electrokinetic systems and/or other fluid transport mechanisms can generate the flow, controllably mix fluids, and the like.Type: GrantFiled: July 26, 2002Date of Patent: May 9, 2006Assignee: Caliper Life Sciences, Inc.Inventors: Michael Spaid, Andrea W. Chow, Benjamin N. Wang, Ring-Ling Chien, J. Wallace Parce, Anne R. Kopf-Sill, Josh Molho, Anubhav Tripathi, Matthew B. Kerby
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Patent number: 7013739Abstract: A device for confining an object to a region proximate to a fluid flow stagnation point includes one or more inlets for carrying the fluid into the region, one or more outlets for carrying the fluid out of the region, and a controller, in fluidic communication with the inlets and outlets, for adjusting the motion of the fluid to produce a stagnation point in the region, thereby confining the object to the region. Applications include, for example, prolonged observation of the object, manipulation of the object, etc. The device optionally may employ a feedback control mechanism, a sensing apparatus (e.g., for imaging), and a storage medium for storing, and a computer for analyzing and manipulating, data acquired from observing the object. The invention further provides methods of using such a device and system in a number of fields, including biology, chemistry, physics, material science, and medical science.Type: GrantFiled: May 7, 2004Date of Patent: March 21, 2006Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Charles M. Schroeder, Eric S. G. Shaqfeh, Hazen P. Babcock, Steven Chu
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Patent number: 6943690Abstract: A flow verification sensor apparatus (30) is used with a constant volume pump (11) that pumps a liquid product (13) from a container (12). A plummet (32) is positioned in a flow tube (31). A sensor (33) is positioned upward from the lower end of the flow tube (31). A timer (34) measures the length of time for the plummet (32) to move from a first position to a second position after activation of the pump (11). Suitable alarms (50) are operated to indicate low flow or out of product conditions.Type: GrantFiled: September 4, 2003Date of Patent: September 13, 2005Assignee: Ecolab Inc.Inventor: David R. Johnson