By Measuring Tracer Concentration Patents (Class 73/861.07)
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Patent number: 11585211Abstract: A method and system using the measured adsorption of a tracer substance leached from a flexible liner sealing a subterranean borehole to indicate the flow of fluid, typically water, past the borehole. The liner is provided with contaminant collectors. The liner is impregnated in its fabrication with a tracer substance. The tracer is leached from the liner as water flows past the liner in/from fractures in the surrounding geologic formation. The water containing any leached tracer may also flow past the collectors. The collectors adsorb the tracer relative to the amount of tracer leached from the liner and into the passing water, and the concentration of tracer in the flowing water is proportional to the amount of toluene leached from the liner. The tracer level in a collector is tested as an indication of the flow past the liner.Type: GrantFiled: December 9, 2020Date of Patent: February 21, 2023Inventor: Carl E. Keller
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Patent number: 10760990Abstract: Provided are a water engineering seepage behavior fusing and sensing system and method. The system comprises a seepage-hidden optical fiber locating device, a seepage flow velocity distributed optical fiber monitoring device, an online seepage line diagnosis device and a seepage behavior optical fiber self-adaptive identification device, the location of a water engineering seepage point is realized by using the seepage-hidden optical fiber locating device, then, the seepage flow velocity of a water engineering is monitored by virtue of the seepage flow velocity distributed optical fiber monitoring device, the online diagnosis of a seepage line on a section of a whole water engineering structure can be realized by using the online seepage line diagnosis device, and finally, the current seepage behavior is integrally monitored and evaluated by using the seepage behavior optical fiber self-adaptive identification device, so that the water engineering seepage behavior fusing and sensing is completed.Type: GrantFiled: October 25, 2016Date of Patent: September 1, 2020Assignee: HOHAI UNIVERSITYInventors: Huaizhi Su, Meng Yang, Chongshi Gu
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Patent number: 10309812Abstract: A system and method for parameter estimation of steady state flow in heterogeneous aquifers, and more particularly to a method and system for reducing uncertainty in calibrating aquifer flow and estimating aquifer hydraulic conductivities.Type: GrantFiled: May 27, 2014Date of Patent: June 4, 2019Inventors: Ye Zhang, Jianying Jiao, Juraj Irsa
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Publication number: 20130232976Abstract: The fuel flow rate to a gas turbine is measured using an inert gas. The inert gas is injected into the fuel flow and the concentration of the inert gas in the fuel/inert gas mixture is later measured. The concentration of the inert gas in the fuel/inert gas mixture is then used to calculate the mass flow rate of the fuel.Type: ApplicationFiled: December 19, 2012Publication date: September 12, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Steven William TILLERY, Jason Nathaniel COOK
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Patent number: 8158432Abstract: System (50) for marking a fluid by a marker, the fluid flowing from a source to a destination, the system including a sensor (58) for determining a value of a fluid property and a fluid flow controller (54) for admitting a selected amount of the marker to the fluid, wherein the selected amount is determined according to the fluid value and a predetermined concentration of the marker in the fluid in the destination.Type: GrantFiled: June 3, 2002Date of Patent: April 17, 2012Assignee: Atomic Energy Commission, State of IsrealInventors: Yair Grof, Moshe Soschin, Uziel Ben-itzhak
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Patent number: 8141433Abstract: A method of measuring the gas flow of an incondensable gas in a flowing mixture of said incondensable gas and a condensable gas comprising the steps of calibrating a leak detector; injecting a known quantity of gauge gas at a known mass flow rate into said flowing mixture of gases; drawing a sample of the said gauge mix off at a sample point; passing said sample through a condenser so as to remove said condensable gas from the gauge mix, resulting in a test mix; passing the said test mix into the leak detector so as to measure the concentration of the gauge gas within the test mix; and calculating the mass flow rate of said incondensable gas within said flowing mixture. There is also provided a method of measuring the rate of ingress of an incondensable gas at an ingress point along a flow path of a flowing mixture of said incondensable gas and a condensable gas.Type: GrantFiled: May 28, 2009Date of Patent: March 27, 2012Assignee: Plant Test Services Ltd.Inventors: Charles Michael Nadin, David Cook
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Publication number: 20110303019Abstract: An apparatus for and a method of monitoring multiphase fluid flow passing within a pipe is provided.Type: ApplicationFiled: June 15, 2011Publication date: December 15, 2011Applicant: Expro Meters, Inc.Inventor: Daniel L. Gysling
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Patent number: 7861601Abstract: A natural gradient, single well, tracer dilution non-continuous mixing apparatus and method for measuring flow of liquids through porous media are described. The method has been applied to concentrations of Light Nonaqueous Phase Liquid (LNAPL) in monitoring wells to measure the rate of LNAPL flow through the wells and through the adjacent formation. Similar measurements were made for concentrations of water in other formations. A LNAPL-soluble fluorescing tracer was added to LNAPL in the wells, and a water-soluble fluorescing tracer was added to water in the wells. The tracer is initially uniformly-mixed into the LNAPL or water in the well, and the tracer concentration is measured using a fiber optic cable and a spectrometer. The LNAPL or water with dissolved tracer is then allowed to flow from the well without any mixing. At a later time, the LNAPL or water and tracer in the well are mixed to a uniform tracer concentration, and the tracer concentration is remeasured.Type: GrantFiled: March 6, 2009Date of Patent: January 4, 2011Assignees: Colorado State University Research Foundation, Chevron CorporationInventors: Thomas C. Sale, Timothy J. Smith, Mark Lyverse
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Publication number: 20090241685Abstract: 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: ApplicationFiled: March 12, 2009Publication date: October 1, 2009Applicant: WOODS HOLE OCEANOGRAPHIC INSTITUTIONInventor: Matthew Charette
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Publication number: 20090223303Abstract: A natural gradient, single well, tracer dilution non-continuous mixing apparatus and method for measuring flow of liquids through porous media are described. The method has been applied to concentrations of Light Nonaqueous Phase Liquid (LNAPL) in monitoring wells to measure the rate of LNAPL flow through the wells and through the adjacent formation. Similar measurements were made for concentrations of water in other formations. A LNAPL-soluble fluorescing tracer was added to LNAPL in the wells, and a water-soluble fluorescing tracer was added to water in the wells. The tracer is initially uniformly-mixed into the LNAPL or water in the well, and the tracer concentration is measured using a fiber optic cable and a spectrometer. The LNAPL or water with dissolved tracer is then allowed to flow from the well without any mixing. At a later time, the LNAPL or water and tracer in the well are mixed to a uniform tracer concentration, and the tracer concentration is remeasured.Type: ApplicationFiled: March 6, 2009Publication date: September 10, 2009Applicants: COLORADO STATE UNIVERSITY RESEARCH FOUNDATION, CHEVRON CORPORATIONInventors: Thomas C. Sale, Timothy J. Smith, Mark Lyverse
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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: 7469597Abstract: The present invention relates to a method for measurement of total phase volumes in multiphase flow in pipelines. The multiphase fractions comprise hydrocarbon liquid phase and/or water phase and/or transported solid phases. One or more tracers are injected into the pipeline, preferably at the inlet and the tracer concentration(s) are measured as a function of time at the point of injection and at one or more points of measurements downstream from the point of injection. Further, the mean residence time(s) are measured for transport of the injected tracer(s) from the point of injection to said one or more point(s) measurements. The liquid phase volume(s) are calculated based on the amount of injected tracers and the measured tracer concentrations in each phase and the mean residence time.Type: GrantFiled: November 4, 2005Date of Patent: December 30, 2008Assignee: Statoil ASAInventors: Gunnar Flaten, Terje Sira
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Patent number: 7465382Abstract: A precision flow controller is capable of providing a flow rate less than 100 microliters/minute and varying the flow rate in a prescribed manner that is both predictable and reproducible where the accuracy and precision of the flowrate is less than 5% of the flow rate. A plurality of variable pressure fluid supplies pump fluid through a single outlet. Flowmeters measure the flow rates and a controller compares the flow rates to desired flowrates and, if necessary, adjusts the plurality of variable pressure fluid supplies so that the variable pressure fluid supplies pump fluid at the desired flow rate. The variable pressure fluid supplies can be pneumatically driven.Type: GrantFiled: September 17, 2002Date of Patent: December 16, 2008Assignee: Eksigent Technologies LLCInventors: Phillip H. Paul, Jason E. Rehm, Don W. Arnold
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Publication number: 20080196509Abstract: 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: ApplicationFiled: September 11, 2007Publication date: August 21, 2008Applicant: WOODS HOLE OCEANOGRAPHIC INSTITUTIONInventor: Matthew Charette
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Patent number: 7334486Abstract: An improved method and apparatus for simultaneously monitoring the magnitudes and directions of fluid fluxes and dissolved contaminants fluxes of a general flow system in both simply and multiply screened monitoring wells as well as unscreened boreholes is provided. Also, parameters such as fracture locations, separations, inclinations, orientations of inclination and apertures in a fracture flow system can be estimated. The invention comprises the use of a sorbent layer containing an insoluble sorbent matrix that retains dissolved contaminants, which is attached to an impermeable flexible liner. The matrix may also contain visible or invisible tracers that can be displaced by the fluid flow. The monitoring comprises placing devices in contact with the contaminated flow over certain intervals, thereby allowing contaminants to be sorbed to the sorbing matrix of the layer. Sufficient time is allowed for the contaminant concentrations in the flow field to reach equilibrium.Type: GrantFiled: April 24, 2006Date of Patent: February 26, 2008Assignee: University of Florida Research Foundation, Inc.Inventors: Harald Rene Klammler, Kirk Hatfield, Michael D. Annable, John Anthony Cherry, Beth Louise Parker
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Patent number: 7325443Abstract: A device and a method for measuring fluid flow and solute mass transport in flow systems includes a casing (1) having inlet (3) and outlet (9) openings and a fluid passageway therebetween, the casing containing at least one fluid permeable insoluble adsorbent matrix (7) and at least one tracer material (5, 5?) located in the fluid passageway. The tracer material (5,5?) is a fluid permeable partially soluble material which at least prior to installation is not physically or chemically bonded to the adsorbent matrix (7) and is either mixed with the adsorbent matrix or is located in at least one section (4,4?) of the casing (1) separate from but in contact with at least one section (6,6?) of the casing holding the insoluble adsorbent matrix (7,7?). The device is intended to be installed in a medium having a fluid path therein.Type: GrantFiled: May 15, 2003Date of Patent: February 5, 2008Assignee: Aahus UniversitetInventors: Hubert De Jonge, Gadi Rothenberg
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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: 7281435Abstract: A method and apparatus for measuring in situ flow of non-aqueous phase liquids (NAPLs) through a porous medium is described. A tracer is introduced into a well or boring located in the medium and the tracer concentration in the well kept uniform by mixing. The rate at which the tracer is depleted from the well has been determined to be proportional to the flow rate of the NAPL through the well or boring and surrounding formation.Type: GrantFiled: November 18, 2005Date of Patent: October 16, 2007Assignees: Colorado State University Research Foundation, Chevron U.S.A. Inc.Inventors: Thomas C. Sale, Geoffrey R. Taylor, Mark Lyverse
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Patent number: 7278325Abstract: A method and apparatus for measuring the flow rate of a single phase fluid, particularly a gas, through a conduit. A pulse of tracer fluid is discharged or injected into a first fluid flowing through a conduit, the concentration of the tracer fluid is measured as a function of time at a downstream from where it is injected, and the flow rate of the first fluid is determined based on the concentration measurements. The concentration of tracer fluid is preferably sampled substantially continuously from when the tracer gas first passes the measuring point until substantially all of the tracer fluid has passed the measuring point and the sampled concentrations integrated. The concentration of tracer fluid is preferably determined by measuring the thermal conductivity of the mixture of the first fluid and tracer fluid which is dependent upon the concentration of the tracer fluid.Type: GrantFiled: April 24, 2001Date of Patent: October 9, 2007Assignee: Lattice Intellectual Property, Ltd.Inventors: Jamie Stuart Fraser, Loraine Thurston, legal representative, Robert Richard Thurston, deceased
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Patent number: 7207228Abstract: A method and apparatus for measuring fluid flow in a duct is disclosed. The invention uses a novel high velocity tracer injector system, an optional insertable folding mixing fan for homogenizing the tracer within the duct bulk fluid flow, and a perforated hose sampling system. A preferred embodiment uses CO2 as a tracer gas for measuring air flow in commercial and/or residential ducts. In extant commercial buildings, ducts not readily accessible by hanging ceilings may be drilled with readily plugged small diameter holes to allow for injection, optional mixing where desired using a novel insertable foldable mixing fan, and sampling hose.Type: GrantFiled: August 11, 2004Date of Patent: April 24, 2007Assignee: The Regents of the University of CaliforniaInventor: Duo Wang
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Patent number: 7066972Abstract: The invention provides an apparatus for online and on-site tracer generation for tagging natural gas stored in underground storage fields wherein feedstock is drawn from a feedstock source. The feedstock undergoes initial analysis to determine hydrocarbon levels. The feedstock then undergoes reaction to produce tracers such as ethylene, propylene, acetylene hydrogen and carbon monoxide. The feedstock is then analyzed to determine post reaction tracer concentration. The feedstock including generated tracers is then introduced back into the feedstock stream. Tracer levels in the pre-reaction or initial analysis of feedstock are compared with tracer levels in the post-reaction feedstock and the rate of flow of feedstock through the system is adjusted to achieve a predetermined level of tracer concentration. The level of tracer concentration will then be used to identify the particular natural gas charge in a storage field.Type: GrantFiled: June 2, 2004Date of Patent: June 27, 2006Inventors: Dennis D. Coleman, Rodney R. Ruch, Shiaoguo Chen, Massoud Rostam-Abadi
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Patent number: 7054759Abstract: A concentration measuring method includes selecting a calibration curve optimum for computing the concentration of a measurement target substance from a plurality of calibration curves based on an output from a reaction system containing the target substance and a reactant capable of reacting with the target substance, and computing the concentration of the target substance based on the optimum calibration curve and the output. Each of the calibration curves is prepared based on a plurality of outputs generated upon lapse of a same reaction time from a plurality of standard reaction systems each containing a standard reagent of a known different concentration and the reactant. The plurality of calibration curves differ from each other in reaction time based on which the calibration curves are prepared.Type: GrantFiled: December 25, 2002Date of Patent: May 30, 2006Assignee: ARKRAY, IncInventors: Satoshi Fukunaga, Masato Nakayama
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Patent number: 6926838Abstract: 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: January 31, 2003Date of Patent: August 9, 2005Assignee: Transonic Systems, Inc.Inventors: Nikolai M. Krivitski, David R. MacGibbon
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Patent number: 6881953Abstract: The claimed method of tracing drains starts with a comprehensive building survey in which all existing drains are numbered. A Master Blueprint and a Master Spreadsheet are created using information collected in the building survey. A tracer is used to determine the flow of storm water to and from the building's storm drains. A test location, consisting of a storm manhole or a sanitary manhole is then chosen and water is run continuously through this manhole. A non-toxic fluorescent tracer is added to the target sanitary drain and a sample of the water running through the test location is withdrawn. A fluorometer is used to detect the fluorescent signal of non-toxic fluorescent tracer in the sample of water withdrawn. This procedure is repeated until all test locations have been surveyed and the information recorded on the Master Blueprint and Master Spreadsheet. The information is used to replumb drains.Type: GrantFiled: September 28, 2001Date of Patent: April 19, 2005Assignee: Nalco CompanyInventors: Michael J. Weiland, John E. Hoots
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Patent number: 6809648Abstract: An aerial sampler system includes an enclosure, a transfer system, and a measurement system. The enclosure is connected to an external surface of an aerial vehicle and receives atmospheric flow from the external surface of the aerial vehicle. The enclosure also directs at least some of the atmospheric flow into an aperture in the external surface. The transfer system transfers some of the atmospheric flow from the aperture to a measurement system. The measurement system is internal to the external surface of the aerial vehicle and measures atmospheric trace gases in the atmospheric flow.Type: GrantFiled: November 26, 2002Date of Patent: October 26, 2004Assignee: University Corporation for Atmospheric ResearchInventor: Rex J. Fleming
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Patent number: 6675660Abstract: A device for measuring fluid flow rates over a wide range of flow rates (<1 nL/min to >10 &mgr;L/min) and at pressures at least as great as 10,000 psi. The invention is particularly adapted for use in microfluidic systems. The device operates by producing compositional variations in the fluid, or pulses, that are subsequently detected downstream from the point of creation to derive a flow rate. Each pulse, comprising a small fluid volume, whose composition is different from the mean composition of the fluid, can be created by electrochemical means, such as by electrolysis of a solvent, electrolysis of a dissolved species, or electrodialysis of a dissolved ionic species.Type: GrantFiled: July 31, 2002Date of Patent: January 13, 2004Assignee: Sandia National LaboratoriesInventors: Bruce P. Mosier, Robert W. Crocker, Cindy K. Harnett
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Patent number: 6616823Abstract: The present invention generally provides methods and systems for monitoring and controlling electroosmotic flow rates in microfluidic systems. Generally, such methods and systems monitor flow rates in electroosmotically driven microfluidic systems by flowing signaling elements within these channels and measuring the flow rate of these signals. The methods of monitoring flow rates are also applied to methods and systems for continuously monitoring and controlling these flow rates in electroosmotically driven microfluidic systems.Type: GrantFiled: February 15, 2001Date of Patent: September 9, 2003Assignee: Caliper Technologies Corp.Inventor: Anne R. Kopf-Sill
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Patent number: 6554775Abstract: Absolute volumetric blood flow of the ocular fundus is quantified using video frames of fluorescent particles circulating in the retina and choroid. An optical apparatus is used to identify movements of particles in a passage of interest, and methods are provided for associating the individual particle movements with a blood flow rates so that absolute flow rates can be quantified.Type: GrantFiled: November 21, 2000Date of Patent: April 29, 2003Inventors: Gholam Peyman, Bahram Khoobehi
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Publication number: 20030071212Abstract: A method of tracing drains using non-toxic fluorescent tracers is described and claimed.Type: ApplicationFiled: September 28, 2001Publication date: April 17, 2003Inventors: Michael J. Weiland, John E. Hoots
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Patent number: 6514419Abstract: 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: December 11, 2000Date of Patent: February 4, 2003Assignee: Transonic Systems, Inc.Inventor: Nikolai M. Krivitski
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Patent number: 6452371Abstract: A flow rate of a fluid flowing in a tube is quantitatively determined by altering the electrical conductivity of the fluid by injection of a bolus of saline. The electrical conductivity of the altered conductivity is measured over the time it takes the altered conductivity fluid to pass a conductivity measuring location. The measured conductivity is integrated over the time it takes to pass the conductivity measuring location. The integral is interpreted to determine the flow rate.Type: GrantFiled: May 2, 2000Date of Patent: September 17, 2002Assignee: Gambro, Inc.Inventor: James M Brugger
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Patent number: 6401547Abstract: An improved method and apparatus for simultaneously monitoring the fluid flux, and the dissolved contaminants fluxes, in a flow field is provided comprising the use of a permeable unit containing an insoluble sorbent matrix that retains dissolved contaminants. The matrix may also contain tracers that can be displaced by the fluid flow. The method of monitoring comprises placing permeable units in contact with the contaminated flow field, thereby allowing contaminants to flow through the permeable unit and be sorbed on the insoluble sorbent matrix. Sufficient time is allowed for the contaminant concentrations in the flow field to reach equilibrium. The permeable unit is then removed from contact with the flow field and analyzed to determine cumulative contaminant fluxes and cumulative fluid fluxes.Type: GrantFiled: October 29, 1999Date of Patent: June 11, 2002Assignee: The University of FloridaInventors: Kirk Hatfield, P. Suresh C. Rao, Michael David Annable, Timothy J. Campbell
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Patent number: 6386050Abstract: A system and method for measuring flow rate within a fluid-bearing passageway include introducing heat fluctuations into the flow and then non-invasively monitoring the effects of the heat fluctuations propagating to or from one or more interrogation regions. In one embodiment, the non-invasive monitoring detects fluctuations in the refractive index of the flowing fluid as a result of variations in the temperature of the fluid. In another embodiment, electrical conductivity of the fluid is monitored. The heat fluctuations may be introduced using an optical heat generator, such as an infrared laser, or may be introduced using an electrical member, such as a heater coil. Determining the refractive index along the interrogation region may be achieved by monitoring characteristics on an interference pattern, but other optical arrangements may be utilized.Type: GrantFiled: December 21, 1999Date of Patent: May 14, 2002Assignee: Agilent Technologies, Inc.Inventors: Hongfeng Yin, Catherine Templin
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Patent number: 6280635Abstract: An autocycle method to control a cooling water system comprising the steps of: a) adding a treatment product to said cooling water system, with said treatment product comprising inert tracer and tagged treatment polymer in a set proportion; b) providing a sufficient number of fluorometers, c) using said sufficient number of fluorometers to measure the fluorescent signal of said inert tracer and the fluorescent signal of said tagged treatment polymer in the water from the cooling water system; d) using these measured fluorescent signals from step c) to determine the amount of said tagged treatment polymer present in said cooling water system; e) comparing the amount of said tagged treatment polymer present to the amount of tagged treatment polymer being fed into the system to determine the consumption of said tagged treatment polymer; and f) using said consumption of said tagged treatment polymer to control the concentration cycles of said cooling water system, with the proviso that said control is impleType: GrantFiled: May 1, 2000Date of Patent: August 28, 2001Assignee: Nalco Chemical CompanyInventors: Barbara E. Moriarty, Dennis P. Bakalik, Ronald V. Davis, John E. Hoots, Robert W. Shiely
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Patent number: 6189388Abstract: A method and apparatus in which the blood flow in a fistula is determined by comparing the property of blood entering the fistula to the property of blood being withdrawn from the fistula as the blood in the fistula flows in the direction which is the reverse of the predominant flow. A property marker fluid is injected into the blood entering the fistula in order to alter the property of the blood. Aseptic conditions are maintained during the reversal of the blood flow by maintaining a closed blood loop exterior to the patient. The blood loop closure is maintained by reversing the action of the pump which induces blood flow in the closed blood loop.Type: GrantFiled: November 12, 1997Date of Patent: February 20, 2001Assignee: Gambro, Inc.Inventors: Eugene Cole, James Brugger
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Patent number: 6176125Abstract: An exhaust gas flow rate measuring equipment for internal combustion engines supplies helium gas only to a trace gas analyzer. The condition in which the inside of the trace gas analyzer in the high-vacuum stage causes pressure fluctuation due to the viscosity of the exhaust gas and the introduction rate of helium gas fluctuates in proportion to the fluctuation rate can be prevented. Also the, problem of the sensitivity varying in accordance with the gas component ratio in the exhaust gas can be solved.Type: GrantFiled: January 23, 1998Date of Patent: January 23, 2001Assignee: Horiba, Ltd.Inventors: Takashi Hirano, Masayuki Adachi, Minoru Shimooka, Kazuki Makimura