Patents Examined by David J. Wiggins
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Patent number: 6622544Abstract: A measuring device (1) has a measuring housing (5) in which a measuring head (6) is movably supported, the measuring housing having at least one connection (13) for the supply of pressurized air for supporting by air the measuring head (6) in the measuring housing (5). The measuring head is designed to let out air and to generate an air cushion towards a measuring object (3). On the measuring head (6) there is provided at least one guide element (20) that is extending axially and protrudes into a chamber (12) in the measuring housing (5), the guide element gliding in and being supported by air in a channel (21) in a guide part (15), which forms an end wall to the chamber (12). Also a shaft (16) included in the measuring head extends through and is supported by air in the guide part (15).Type: GrantFiled: July 12, 2002Date of Patent: September 23, 2003Inventor: Bengt Akerblom
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Patent number: 6622554Abstract: Systems and methods particularly suitable for open hole formation testing are provided. In a described embodiment, a method of performing a test on a formation intersected by a wellbore includes the steps of flowing fluid into an apparatus from the formation, displacing a fluid barrier of the apparatus in one direction, flowing the formation fluid out of the apparatus and back into the formation by applying pressure to the apparatus, and displacing the fluid barrier in an opposite direction.Type: GrantFiled: June 4, 2001Date of Patent: September 23, 2003Assignee: Halliburton Energy Services, Inc.Inventors: Kevin R. Manke, Harold Wayne Nivens, Samuel Bianco, Charles M. MacPhail, Ricardo Maldonado
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Patent number: 6615653Abstract: A method for determining the liquefaction tendency of a water saturated soil is provided in which a driven or self boring probe with a plurality of expanding and contracting bladders imposes a cyclic shear stress reversal on a body of soil in situ, and from the measurement of pore water pressure, the liquefaction potential of the soil can be quantified. A pore water pressure increase during cyclic shear stress reversals indicates a contractive soil which has the potential to liquefy. The method can also quantify the potential of electro-osmosis in preventing soil liquefaction, by energizing a group of at least three electrodes by a d-c power source during the potential onset of liquefaction, and measure the reduction in pore water pressure during subsequent repeated shear stress reversals imposed on the soil by the device.Type: GrantFiled: September 27, 2001Date of Patent: September 9, 2003Assignee: GeoSierra, LLCInventor: Grant Hocking
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Patent number: 6604406Abstract: A preconcentrator system and apparatus suited to human portable use wherein sample potentially containing a target chemical substance is drawn into a chamber and through a pervious screen. The screen is adapted to capture target chemicals and then, upon heating, to release those chemicals into the chamber. Chemicals captured and then released in this fashion are then carried to a portable chemical detection device such as a portable ion mobility spectrometer. In the preferred embodiment, the means for drawing sample into the chamber comprises a reversible fan which, when operated in reverse direction, creates a backpressure that facilitates evolution of captured target chemicals into the chamber when the screen is heated. The screen can be positioned directly in front of the detector prior to heating to improve detection capability.Type: GrantFiled: July 26, 2001Date of Patent: August 12, 2003Assignee: Sandia CorporationInventors: Kevin L. Linker, Charles A. Brusseau, David W. Hannum, James G. Puissant, Nathan R. Varley
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Patent number: 6601439Abstract: A method of reducing baseline instabilities in liquid chromatographic measurements is disclosed. A mobile phase comprising sample substances passes through a chromatographic column comprising a stationary phase, and subsequently through a detector. An additional solid body or liquid bath having a high heat capacity and heat conductance is coupled to the column and to an inlet capillary of the column such that the inlet capillary and the column are enclosed by said solid body or liquid bath. In that way temperature stabilization of the column and inlet capillaries is achieved and baseline variations due to temperature dependent adsorption of water at the stationary phase, in particular stationary phases with amino functional groups, are reduced.Type: GrantFiled: July 17, 2001Date of Patent: August 5, 2003Assignee: Agilent Technologies, Inc.Inventor: Konstantin Choikhet
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Patent number: 6595041Abstract: A method to maintain magnetic levitation that is stabilized by means of Hall effect sensors is disclosed. The method and device comprising a Hall effect sensor or sensors used to control an electromagnet to maintain the position between two magnets or objects. The present invention has been used to suspend a magnet in a high pressure tube that is magnetically coupled to a magnet outside the tube connected to an analytical balance that can accurately measure the force on the magnet inside the tube. This force measurement can be used to determine fluid density, flow, viscosity, and solubility. This magnetic levitation method also has application for other devices such as motors, generators, trains, turbines, wind tunnels, and entertainment devices.Type: GrantFiled: June 28, 2001Date of Patent: July 22, 2003Inventor: Brian Nils Hansen
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Patent number: 6595035Abstract: A sealant stream anomaly detecting assembly for detecting anomalies such as gas bubbles in a high-pressure sealant stream. The assembly includes an ultrasonic transducer supported on a manifold defining a sensing chamber of a fluid channel. The transducer converts electrical voltage pulses into ultrasonic acoustic pulses and propagates the acoustic pulses through the manifold and into the sensing chamber. The transducer also receives resulting echo pulses from a back wall of the sensing chamber and converts the echo pulses into electrical output impulses. A control module including drive electronics is connected to the transducer. The module detects diminished and lost echo pulses by comparing the output impulse strength values for a given fluid passing through the sensing chamber to a known output impulse strength value for that same type of fluid having no anomalies.Type: GrantFiled: May 4, 2001Date of Patent: July 22, 2003Assignee: Jesco Products Company, Inc.Inventor: Myron G. Maley
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Patent number: 6595036Abstract: In a volumetric gas adsorption measuring method, an initial dead volume of the sample cell and an initial dead volume of a reference cell at the same time point are preliminarily determined. When the gas adsorption on the solid sample is to be measured, a change in the dead volume of the sample cell is calculated on the basis of an internal gas with the sample cell and reference cell immersed in a pressure of the reference cell measured at this time point cryogenic fluid temperature bath, the initial dead volume of the reference cell, and an initial gas pressure of the reference cell measured at a time point of the measurement of the initial dead volume of the reference cell. Then, the initial dead volume of the sample cell preliminarily measured is corrected on the basis of the change in the dead volume of the sample cell for the calculation of the amount of the gas adsorbed on the solid sample.Type: GrantFiled: February 27, 2002Date of Patent: July 22, 2003Assignee: Bel Japan, Inc.Inventor: Kazuyuki Nakai
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Patent number: 6591673Abstract: A method of identifying the fluid type of subterranean formations according to the correlation between the variation trend of electrical resistivity with depth downhole in a borehole and the variation trend of porosity with depth downhole in the same borehole. The method includes the steps of: a) determining the rate of change with depth of a resistivity parameter (such as deep resistivity) of the formation surrounding the borehole; b) determining the rate of change with depth of a porosity parameter (such as total porosity and/or free fluid porosity measured by a nuclear magnetic resonance technique) of the formation surrounding the borehole; c) determining a comparison of the rate of change with depth of such resistivity parameter and the rate of change with depth of such porosity parameter for a given depth in the borehole; and d) using the comparison to determine the nature of the fluid in the formation surrounding the borehole at that depth downhole or in a given depth window downhole.Type: GrantFiled: November 28, 2001Date of Patent: July 15, 2003Assignee: Schlumberger Technology CorporationInventor: Cheng Bing Liu
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Patent number: 6588255Abstract: A method and device for determining the concentration of analytes in a sample. The device has a surface with an extraction coating thereon. The method is carried out while the sample is highly agitated to maintain a substantially constant boundary layer. The sample is brought into contact with the coating for a limited time so that all the analytes that pass through the boundary layer are adsorbed by the coating. The amount of analytes in the coating is determined and the concentration of those same analytes in the sample is then calculated from the diffusion coefficient of the analytes. The device is first calibrated using analytes of known concentration.Type: GrantFiled: January 30, 2001Date of Patent: July 8, 2003Inventor: Janusz B. Pawliszyn
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Patent number: 6584825Abstract: An apparatus and method for measuring the quantity of hydrogen in a hydrogen storage vessel of a hydrogen fuel cell using the Pressure, Composition, Temperature (PCT) relationship of the storage media is disclosed. The method of measuring the quantity of hydrogen involves, measuring the temperature 310 of the hydrogen storage media at one or more points on the hydrogen storage vessel 300, measuring the mechanical strain 320 at one or more points on the hydrogen storage vessel, computing the pressure 330 inside the vessel based on the strain measurements, referring to a lookup table 340 or an equation representing the discharge PCT curve for the particular composition of the hydrogen storage media at the measured temperature and computing the hydrogen concentration at the measured pressure.Type: GrantFiled: August 13, 2001Date of Patent: July 1, 2003Assignee: Motorola, Inc.Inventors: Steven D. Pratt, Sivakumar Muthuswamy, Ronald J. Kelley, Robert W. Pennisi
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Patent number: 6581454Abstract: An apparatus is provided comprising a first tubular having an inside surface and outside surface defining an outside diameter; a second tubular concentric with the first tubular, the second tubular having an inside surface defining an inside diameter greater than the outside diameter of the first tubular, an outside surface, and a longitudinal axis; a plurality of spacers between the first and second tubulars, each spacer having a longitudinal axis parallel to the longitudinal axis of the second tubular, wherein at least one spacer is hollow; and at least one data sensing device and/or at least one data collecting device and/or at least one data transmitting device is carried within the at least one hollow spacer.Type: GrantFiled: August 3, 1999Date of Patent: June 24, 2003Assignee: Shell Oil CompanyInventor: David Randolph Smith
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Patent number: 6581453Abstract: A method and a device for detecting and localizing unwanted matter, e.g., cement deposits, internally in a drill string. A sleeve-shaped indicator body is dropped down through the drill string while the same occupies an operative position. Then, the indicator body lands either in a seat at the lower end of the drill string, or the indicator body becomes stuck within a pipe section at a higher level in the drill string. The drill string overlying the position of the indicator body may be considered free of deposits formed on the pipe section walls thereof, and these pipe sections thus may be re-used without any further examination or cleaning. If stuck at a higher level, the indicator body is subsequently localized at the surface through examination in context of disassembling the drill string. The indicator body also may comprise an indicator element that provides a detection signal or sign for its detection and localizing on the surface.Type: GrantFiled: November 14, 2000Date of Patent: June 24, 2003Inventor: Thor Bjørnstad
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Patent number: 6575016Abstract: For leak testing closed containers (9) which are filled with a filling product containing at least one liquid component the container is introduced in a test cavity (1) which is evacuated at least down to vapour pressure of that liquid component. The pressure in the surrounding of the container (9) and thus within test cavity (1) is monitored. Monitoring is performed by a vacuum pressure sensor (7), whereas lowering pressure surrounding the container (9) is performed by a vacuum pump (5). Leakage is detected by monitoring a pressure change in the surrounding of the container which is due to evaporation of liquid emerging from a leak and being evaporated in the low pressure surrounding.Type: GrantFiled: July 15, 2002Date of Patent: June 10, 2003Inventor: Martin Lehmann
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Patent number: 6575014Abstract: A micro-machined back-flush injector that allows for a sample introduced into the injector to be properly injected into a gas chromatography apparatus in a short time period of between 10 and 100 milliseconds. A micro-machined injector having back-flushing capability that allows back-purging of unwanted components in the device and provides clean-up of channels in contact with the sample. Further, a method of operating an injector such that a sample is properly injected and purged from the system to which the injector is operably attached.Type: GrantFiled: June 1, 2001Date of Patent: June 10, 2003Assignee: Agilent Technologies, Inc.Inventors: Chi K. Lo, Tak K. Wang
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Patent number: 6575021Abstract: A sample surface component for an instrument the measures viscosity and viscoelasticity. The instrument has a cam, a follower arm, a flat spring, a plate fixture, and a removable plate assembly. The cam is a rotating circular disk with a spiral slot. A cam follower on the follower arm resides in the spiral slot so that the follower arm pivots about its fixed end as the cam rotates. The spring is attached to and collinear with the fixed end of the follower arm so that the spring pivots in the opposite direction as the follower arm. The sample surface component include a removable plate assembly with a lower plate and an upper plate with mating sample surfaces on which test fluid is placed. The lower plate fits into a lower jaw of the plate fixture that is attached to the instrument base. The upper plate fits into an upper jaw of the plate fixture attached to the free end of the spring. A fluid is placed on the lower sample surface.Type: GrantFiled: April 10, 2002Date of Patent: June 10, 2003Assignee: Boston Rheology, Inc.Inventors: Harold J. Kosasky, Elias G. Noukas, Paul D. Murray, Alfredo O. Kenig
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Patent number: 6571605Abstract: A constant-head soil permeameter for determining hydraulic conductivity of earthen materials is inserted into a borehole at the desired test depth. A calibrated reservoir, disposed on the ground surface, is attached thereto with a suitable length of hose. Water is added to the calibrated reservoir and allowed to flow freely into the borehole until an equilibrium level is reached in the borehole and inside the soil permeameter. The water flowing to the permeameter is throttled by buoyant float pressure that is greatly increased by a lever-and-link valve control assembly which provides considerable mechanical advantage, thereby allowing better constant head control and much greater depths of testing than previously attained by known permeameters. A filtered vent system, backflow check valve, and seals restrict entry of soil particles and debris, thereby minimizing cleaning and maintenance of the invention.Type: GrantFiled: January 19, 2001Date of Patent: June 3, 2003Inventor: Larry Keith Johnson
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Patent number: 6571607Abstract: Fluid leak detection through thermal sensing is disclosed. A sensor includes one or more flexible, thermally conductive, fluid isolating layers, and a thermally sensitive detector situated within the flexible, thermally conductive, fluid isolating layers. The detector is responsive to a temperature change resulting from leaking fluid coming in contact with the sensor. The sensor may also including an affixing mechanism, such as glue, on the isolating layers, to affix the sensor to a potential fluid leak source, such as a tank or a piping line. The sensor may further include connectors located at its ends. The detector may be a thermally sensitive resistor, such as platinum or nickel, and the, fluid isolating layers may be capton.Type: GrantFiled: June 13, 2001Date of Patent: June 3, 2003Assignee: Taiwan Semiconductor Manufacturing Co., LtdInventors: Ruei-Hung Jang, Chih-Lin Ying, Tien-Hsing Woo, Ming-Kuo Yu
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Patent number: 6564615Abstract: A method of leakage testing a volatile liquid tank farm together with a vapour recovery system, to collect vapour from the tanks at the time of re-filling them with volatile liquid. The tank farm has individual fill-pipes (13) for each tank (10) with each fill-pipe outlet below the normal minimum liquid level in the tank and each tank having a vent-pipe (11) connected to a common manifold (25). To perform the test, the common manifold is closed to atmosphere and one side of a shut-off valve (17) is connected to the manifold (25), a flow meter (20) being connected to the other side of the shut-off valve.Type: GrantFiled: January 4, 2002Date of Patent: May 20, 2003Inventor: Rodney Carter
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Patent number: RE38129Abstract: An improved method of fluid analysis in the borehole of a well. A fluid sampling tool is fitted with a pumpout module that can be used to draw fluids from the formation, circulate them through the instrument, and then expel this fluid to the borehole. It has been determined that certain measurements would be most valuable to implement down hole, such as the formation fluid bubble point and dew point. Accurate bubble point and dew point measurements are made by forming bubbles or a liquid drop in a measured sample, and detecting same.Type: GrantFiled: August 22, 2001Date of Patent: June 3, 2003Assignee: Schlumberger Technology CorporationInventor: Robert L. Kleinberg