Abstract: A hand held particle sensing device includes a housing having a component portion that encloses a particulate sensor, and a handle portion extending from the component portion for enabling the device to be carried by a user. An onboard power source may be housed within the handle portion. A display is positioned on the housing for outputting a signal, such as a visual or audible signal, corresponding to the level of particulates sensed by the sensor. The device may include an air flow path extending through the device, which may be air tight and separate from the rest of the device. A controller may be connected to the power source, the particulate sensor and the display for operating the particulate sensor and the output display.

Abstract: Disclosed herein is a microchip including a substrate and a sample flow path within the substrate. The sample flow path includes a changing flow path and a microtube connected to the changing flow path. The changing flow path is configured to change a cross sectional shape of the sample flow path from a quadrangular shape at a first end to a circular shape at a second end. The microtube is connected to the second end of the changing flow path and is disposed within the substrate.

Abstract: A method and system for determining particle size distribution and/or filterable solids in bitumen-containing fluid is described. A sample of bitumen-containing fluid, such as bitumen-froth feed, bitumen-froth solvent or paraffinic-froth-treated (PFT) bitumen-solvent is obtained. An optimized diluent combination is determined, comprising an aromatic or cycloaliphatic solvent such as toluene, benzene, naphthalene, xylene, anthracene, or cyclohexane together with a C3 to C12 paraffinic solvent. The combination is considered optimized when diluting the sample with the combination maintains substantially the same level of deasphalting in the diluted sample as in the undiluted sample. Upon dilution of the sample with optimized diluent combination, particle size distribution can be accurately determined using optical instrumentation, laser diffraction instrumentation, electrical counting instrumentation, or ultrasonic instrumentation.

Abstract: The present invention relates to an apparatus for characterizing particles suspended in a liquid, especially a self-contained disposable cartridge for single-use analysis, such as for single-use analysis of a small quantity of whole blood. Furthermore, the present invention relates to a method for characterizing particles in liquid and a device for sampling a small and accurate volume of liquid. The apparatus comprises a housing having a mixing chamber and a collection chamber separated by a wall containing an opening, a first bore in the outer surface of the housing for entrance of a liquid sample, a first cavity for receiving and holding a first liquid sample, and a second cavity for receiving and holding a second liquid sample.

Abstract: Colloidal-crystal quantum dots as tracers are disclosed. According to one embodiment, a method comprises injecting a solution of quantum dots into a subterranean formation, and monitoring a flow of the quantum dots from the subterranean formation to determine a property of the subterranean formation.

Abstract: A water quality evaluation method capable of evaluating quality of water to be evaluated with high precision and a substrate contacting apparatus used in the water quality evaluation method are provided. The substrate contacting apparatus 10 has a sealing performance keeping the interior at a vacuum degree lower than or equal to ?0.094 MPa. A substrate W is accommodated in the substrate contacting apparatus 10 and water to be evaluated is fed therein, after stopping feeding water, the interior of the substrate contacting apparatus 10 is sealed, and the substrate contacting apparatus 10 is sent to an analysis device with the substrate W accommodated therein.

Abstract: Devices, systems and methods for measuring and detecting properties of a variety of particles or cells in suspension. Properties, such as, for example, velocity of particles, concentration and/or size may be measured according to the methods of the invention. Acoustic energy may be introduced to a focal zone and narrow band interrogating signals may be used. The acoustic energy may cause movement or streaming of the fluid or suspension. The acoustic streaming may allow a Doppler effect measurement without any other source of velocity.

Abstract: A microfluidic sensor formed by stacking a plurality of substantially non-electrically conductive layers, typically formed from thin polymer films. Certain layers may carry patterned electrodes that are arranged to permit their connection to an electrical interrogation circuit. Electrodes may be disposed in a 3-dimensional array in the sensor. A fluid path through the sensor includes an orifice sized to promote single-file travel of particles. The orifice may be defined by a tunnel passing through at least one layer. Particles entrained in an electrolytic carrier fluid may be detected, or otherwise characterized, by interrogation circuitry connected to certain embodiments of the sensor. Sensors generally include portions of a fluid path disposed parallel to the layers. Sensors may operate under the Coulter principle, and/or Stokes' shift phenomena. In certain embodiments, the sensor may be carried by a cartridge, which is adapted to couple with an interrogation platform.

Abstract: Systems and methods are provided for monitoring a solid-liquid interface during a casting process. The systems and methods enable determination of the location of a solid-liquid interface during the casting process.

Abstract: An apparatus which enables characterization of particles suspended in a liquid includes a housing with a mixing chamber and a collection chamber separated by a wall containing an aperture for passage of particles between, the mixing chamber and the collection chamber, the mixing chamber further containing a mixing member, a first electrode in the mixing chamber and a second electrode in the collection chamber for conduction of an electrical current through the aperture, a processor that is adapted for controlling the measurement sequence of the apparatus and detecting possible blockage of the aperture by detecting extended duration of the electrical pulse caused by the blocking particle, and upon detection of a blockage, reversing the liquid flow while mixing in the mixing chamber for removal of the blocking particle, and restarting particle counting.

Abstract: A sample analyzer includes a loading section in which a measuring unit is removably set, the measuring unit being adapted to receive a sample; and a control section which analyzes a signal acquired from the sample received in the measuring unit set in the loading section to provide a result of analysis of the sample; wherein the control section judges whether or not the measuring unit is properly set in the loading section.

Abstract: Provided is a method for analyzing a dispersion made by dispersing a liquid or solid dispersoid into a liquid dispersion medium. The method includes the steps of: preparing a sample liquid from the dispersion by forming an agglomerate of the dispersoid in the dispersion medium; redispersing the dispersoid that forms the agglomerate in the sample liquid into the dispersion medium of the sample liquid; and measuring the amount of the dispersoid that has been redispersed from the agglomerate in the sample liquid.

Abstract: A device for the accommodation of a solid in a measuring cell (24), in which the release of the solid can be determined in a solution medium flowing through the measuring cell (24), has an insert (1) which can be introduced into the measuring cell (24) and which has a recess for the accommodation of a pressed disc (31). The recess for the accommodation of the pressed disc (31) is arranged on a side (16) of the insert (1) which faces the inflowing solution medium. A wall surface (32) of the insert (1) which surrounds the recess for the accommodation of the pressed disc (31) is tilted in the flow direction, so that the inflowing solution medium is transported laterally away from the pressed disc (31). The insert (1) has a housing (2) with a hole (3) through it, a sleeve (4) for the accommodation of the pressed disc (31), which can be accommodated in the hole (3), and a closure device (10). The housing (2) and the closure device (10) essentially consist of a plastic material and the sleeve (4) consists of metal.

Abstract: The present invention relates to a method for detecting residues on a component and particularly on the surface of the component. In order to also allow the testing of surfaces which are difficult to access, without the apparatus outlay growing, the method according to the present invention comprises the following steps: producing a base solution and a reference solution from water, producing a washing solution by adding fresh solvent to the base solution, filling the component to be tested with the washing solution, wetting the entire inner surface of the component with the washing solution, draining the washing solution out of the component, producing a test solution by adding the washing solution to the base solution, comparing the test solution to the reference solution, and testing whether a turbidity occurs in the mixing zone between the washing solution and the base solution, as proof for lubricant on the surface of the component.

Abstract: Systems and methods for determining the presence of a target material in a suspension are provided. In one embodiment, a system (100) for isolating a target material in suspension includes at least one tube and float system (106,108), an offset fluid (135) disposed with at least one chamber (101-104), and a centrifuge (109) for centrifugally processing the suspension disposed within the at least one tube and float system the at least one chamber.

Abstract: The method is for monitoring water quality in a water system. A water pipe is provided for conveying water therein. A particle sensor is in operative engagement with the water pipe. The particle sensor continuously counts particles in the water of the water pipe. The particle sensor triggers the taking of a water sample only when the particle count reaches a predetermined level.

Abstract: A method for monitoring water in a distribution system is disclosed where the sensor sampling schedule is changed in real time in response to a contaminant or other chemical passing through the sampling location. This results in finer determination of where the contaminant is located in the water distribution and identification of the contaminant with a lower false rate than random or scheduled sampling.

Abstract: Disclosed is a device for measuring the concentration of the particles contained in a fluid. The device comprises a control volume body having a predetermined effective volume. An inlet path is formed at an end of the control volume body to feed the fluid into the control volume body therethrough. An outlet path is formed at another end of the control volume body to discharge the fluid from the control volume body therethrough. Measuring instruments are provided at the inlet path and the outlet path to emit electrical signals when the fine particles pass through the inlet path and the outlet path. A computing machine receives the electrical signals transmitted from the measuring instruments, and then computes the number and the concentration of fine particles contained in the control volume body. The device is easily integrated with Micro-TAS (Total analysis System).

Abstract: Systems and methods for crystallization in microfluidic systems are generally described. Many applications require the collection of time-resolved data to determine advantageous conditions for crystallization. The present invention provides tools and related techniques which address this need, as well as a platform for the growth of crystals within microfluidic channels. The systems and methods described herein provide, in one aspect, tools that allow for controlled, stable crystallization of organic materials in microfluidic channels. The invention can interface not only with microfluidic/microscale equipment, but with macroscale equipment to allow for the easy injection of fluids (e.g., fluids containing crystal precursor), extraction of crystals, determination of one or more crystal properties (e.g., crystal size, size distribution among multiple crystals, morphology, etc.), etc.

Abstract: The invention includes methods for testing membranes and membrane-based systems by introducing particles into a feed liquid passing across the surface of a membrane wherein the particles have a size larger than the nominal cut-off of the membrane, and measuring the presence of the particles within a permeate solution which passes through the membrane. In one embodiment, the particles are selected from those which dissolve within the permeate solution after being measured. In another embodiment, the particles are selected from inorganic salts. Many additional embodiments are disclosed.

Abstract: A test system for measuring the concentration of an analyte in a biological fluid sample comprises: a plurality of test members (16) in a container (10), each test member (16) including reagent means for indicating the catalytic activity of an enzyme when in the presence of a biological fluid containing an analyte acted upon by the enzyme; 0 a test meter (2) for receiving a test member (16), the meter (2) having circuitry for performing a measurement on a test member received therein to produce a measured physical value, means for determining an analyte concentration value for a specified biological fluid from said measured physical value, and means (4) for indicating a determined analyte concentration value; a Container RFID tag (14) associated with the container (10) which includes data specific to said plurality of test members (16); and a Patient RFID tag (28) which includes data specific to a patient; and wherein said test meter (2) includes means for reading and storing data from said Container RFID tag

Abstract: The present invention relates to a method, device and system for measuring and/or treating contaminating components dissolved in a liquid in a liquid flow, such as in a water treatment, the method comprising the steps of: —carrying at least a part of the liquid from the liquid flow with contaminating components present therein into a container or a conduit; —causing precipitation of at least a part of the dissolved contaminating components, wherein solid particles are formed, and/or treating the quantity of process liquid; optionally followed by: —measuring the presence and/or the quantity of solid particles formed.

Abstract: A particle characterization apparatus in which particles suspended in a liquid pass through an orifice or aperture for detection and characterization of the particles utilizing impedance determination. In particular, the apparatus includes a membrane of a polymer as a base material for precision machining of a sub-millimeter orifice. Forming the orifice in a polymer membrane facilitates the construction of a single use cartridge for haematology analysis due to low material and production costs.

Abstract: A method for calibrating machines suitable to effect an analysis of a blood sample by measuring the erythrocyte sedimentation rate (ESR) and/or aggregation of the red corpuscles, wherein the measurement is effected by exploiting the optical density kinetics obtained from the measurement of the variation in the optical density of the blood sample in an interval of time, to include measuring in which, by the same machine with which the measurement of the optical density is effected on the blood sample, a measurement is effected of the optical density of two latexes, or turbidimetric samples. Each of the two latexes has a known optical density that is reproducible, measurable and different from each other. The method also calibrates in which the difference is calculated between the values of optical density of the latexes as obtained from the measurement performed by the machine and the known values of optical density, to determine at least one correction factor usable to calibrate machine.

Abstract: Apparatus (50) is described for use with a drug on a drug patch (28), the drug patch including a drug side and a back side. An absorbent material (54) is configured to be disposed on a surface (56) and underneath the drug patch. A squeezing device (52) having a squeezing surface is configured to squeeze the drug patch together with the absorbent material. Other embodiments are also described.

Abstract: Disclosed is a device for measuring the concentration of the particles contained in a fluid. The device comprises a control volume body having a predetermined effective volume. An inlet path is formed at an end of the control volume body to feed the fluid into the control volume body therethrough. An outlet path is formed at another end of the control volume body to discharge the fluid from the control volume body therethrough. Measuring instruments are provided at the inlet path and the outlet path to emit electrical signals when the fine particles pass through the inlet path and the outlet path. A computing machine receives the electrical signals transmitted from the measuring instruments, and then computes the number and the concentration of fine particles contained in the control volume body. The device is easily integrated with Micro-TAS (Total analysis System).

Abstract: A method of focusing a plurality of discrete particles. The method comprises establishing a flow of a fluid medium carrying a plurality of discrete particles within a capillary having a plurality of separate walls and a longitudinal axis. The method further includes vibrating the plurality of separate walls to apply an acoustic field having a central axis substantially along the longitudinal axis to focus the plurality of discrete particles substantially along the longitudinal axis.

Abstract: A surface comprises a surface member and a plurality of components thereon. Such heterogenous surface compositions and configurations, related systems and methods for sensing particle or analyte interaction therewith can selectively and/or differentially interact with a range of particles/analytes, in lieu of specific molecular sensor-analyte interactions for each particle.

Abstract: A method for evaluating chemical solution includes determining number of particles in liquid for each size of the particles by measurement, expressing a relationship between size of the particles and number of particles corresponding to the size by a function based on the number of particles for each size of the particles determined by the measurement, and evaluating influence of particles having size less than or equal to a measurement limit in the liquid based on the function.

Abstract: A process is disclosed for providing a flow of particulate matter such as a catalyst to a reactor, comprising intermittently adding said particulate matter and a diluent to a mixing tank, and continuously withdrawing a slurry of particulate matter in diluent from the mixing tank for introduction into the reactor, wherein prior to each addition of particulate matter and diluent to the mixing tank, the concentration of particulate matter in the diluent already in the mixing tank is measured or calculated, and the amount of particulate matter and diluent subsequently added is measured so as to achieve the same concentration at the end of the addition as that measured or calculated prior to the addition. Preferably measurement of the amount of particulate matter and diluent added to the mixing tank is carried out before any diluent is added to the particulate matter.

Abstract: A method and apparatus for continuously extracting liquid in at least two separate streams from a vessel, continuously diluting and/or conditioning a first stream in one or more stages, producing, as a result of the extraction, dilution and/or conditioning, the first stream consisting of a dispersion of particles to be characterized, and diluting and/or conditioning a second stream, the second stream consisting of soluble components; and subjecting the first and second streams to various characterizing measurements.

Abstract: A device and method for measuring a sensor chip with bond pads uses a plurality of conductive elements configured to be sufficiently rigid to penetrate oxidation on the bond pads to electrically connect to the bond pads of the sensor chip to exchange measurement information with the sensor chip.

Abstract: A system for early detection of component failure in a hydraulic system comprises a particle detection device disposed in a fluid flow channel of a machine, the particle detection device configured to monitor a current particle count associated with fluid flowing through the fluid flow channel. The system further includes a condition monitoring system in wireless data communication with the particle detection device. The condition monitoring system is configured to receive data indicative of the current particle count and analyze historic particle count data collected by the particle detection device. The condition monitoring system is also configured to estimate a trend in the historic particle count data based on the analysis. A failure event associated with one or more components associated with the fluid flow channel is predicted if the data indicative of the current particle count deviates from the trend by a threshold amount.

Abstract: The method is for monitoring water quality in a water system. A pipe is provided for conveying water therein to a water system having a first particle sensor in operative engagement with the pipe. A second particle sensor of a monitor device is provided in operative engagement with the pipe upstream and outside the water system. The second particle sensor senses particles in the water of the pipe. The second particle sensor triggers a shut off of a valve, disposed downstream of the second particle sensor and upstream of the first particle sensor only when a sensed value of particles in the water reaches a predetermined level to prevent the water from entering the water system. The water in the pipe is diverted into a re-circulation line.

Abstract: The crystallization of chemical species/polymorphs comprises forming droplets of a solution of a substance with optionally different concentrations of said substance in an inert phase; producing and storing the droplets in at least one storage microchannel (1); forming crystals in all droplets; increasing the temperature in order to induce the dissolution of at least a portion of the crystals in at least some droplets; and analyzing the crystallization and dissolution process.

Abstract: Methods and devices for detecting particles in a fluid within a medium, such the analyzing device includes: a source adapted to transmit signals into the medium; at least one detector adapted to detect signals transmitted from the source such that the at least one detector and the source are structured and arranged on opposite sides of the medium; at least one processing unit in communication with the at least one detector and adapted to produce a plurality of output signals representative of one of at least one particle characteristic or one or more particle property.

Abstract: A method and apparatus for measuring the size and distribution of particles within a multiphase fluid flowing within a pipe is provided, wherein the apparatus includes at least one metering device for determining at least one of the mixture density of the fluid, the flow rate of the fluid and the dispersion of the fluid, wherein the at least one metering device generates meter data responsive to at least one of the mixture density of the fluid, the flow rate of the fluid and the dispersion of the fluid and a processing device communicated with the at least one metering device, wherein the processing device receives and processes the meter data to generate fluid information responsive to the size and distribution of the particles within the fluid.

Abstract: A particle monitor (1) including a module (3) for measuring a particle content of a sample, the module including an analysis chamber (4) for receipt of the sample and a heating unit (24) for maintaining an operating temperature of the chamber (4) and for heating the air used for purging the sample from the chamber (4). The invention also relates to a particle monitor (1) with a vibrator assembly (6) and to a particle monitor (1) with a valve assembly (8) for effecting a fast purge mode, for clearing a sample tube (5), and a slow purge mode.

Abstract: A GMR based sensor device (100) for sensing first particles (504, 505) e.g. magnetic beads for immuno assay of a sample comprising the first particles (504, 505) and second particles (503) e.g. red blood cells, the sensor device (100) comprising a detection unit (11, 12) adapted to detect a signal which depends on a quantity of the first particles (504, 505) and which depends on a quantity of the second particles (503)? based on a measurement performed with the sample comprising the first particles (504, 505) and the second particles (503), an estimation unit (30) for estimating information indicative of the quantity of the second particles (503) e.g. haematocrit based on an impedance measurement, and a determining unit (20) adapted for determining the quantity of the first particles (504, 505) based on the detected signal under consideration of the estimated information. The advantage of this arrangement is that whole blood samples may be used.

Abstract: A Coulter-style, microfluidic sensor formed by stacking a plurality of substantially non-electrically conductive layers, typically formed from thin polymer films. Certain layers carry patterned electrodes that are arranged to permit their connection to an electrical interrogation circuit. Electrodes may be disposed in a 3-dimensional array in the sensor. A fluid path through the sensor includes an orifice sized to promote single-file travel of particles. The orifice may be defined by a tunnel passing through at least one layer. Particles entrained in an electrolytic carrier fluid may be detected, or otherwise characterized, by interrogation circuitry connected to the sensor. Certain sensors may include portions of a fluid path disposed parallel to the layers. In certain preferred embodiments, the sensor is carried by a cartridge, which is adapted to couple with an interrogation platform.

Abstract: A sensor or a sensor array connected to an electrical measuring apparatus is disclosed. In one embodiment, at least one sensor contains a layer of conductive modified particles which forms an electrical pathway or electrical circuit between two electrodes which are connected to an electrical measuring apparatus. In another embodiment, the first sensor contains at least one region of a nonconducting material and also a region that contains one or more modified particles. The modified particles are preferably conductive. An electrical path exists though the regions of the nonconducting material and the region containing the modified particles. The modified particles are conductive and more preferably are pigment particles such as modified carbon black, wherein the modified particles have attached at least one organic group.

Abstract: The present invention relates to a method for detecting residues on a component and particularly on the surface of the component. In order to also allow the testing of surfaces which are difficult to access, without the apparatus outlay growing, the method according to the present invention comprises the following steps: producing a base solution and a reference solution from water, producing a washing solution by adding fresh solvent to the base solution, filling the component to be tested with the washing solution, wetting the entire inner surface of the component with the washing solution, draining the washing solution out of the component, producing a test solution by adding the washing solution to the base solution, comparing the test solution to the reference solution, and testing whether a turbidity occurs in the mixing zone between the washing solution and the base solution, as proof for lubricant on the surface of the component.

Abstract: A sensor is provided which is configured to detect the presence of multiple analytes, for example chemical or biological compounds, through the measurement of induced resonance shifts in a coupled array of microelectromechanical or micromechanical resonators.

Abstract: The invention relates to a method and a magnetic sensor device for the determination of the concentration of target particles (2) in a sample fluid, wherein the amount of the target particles (2) in a sensitive region (14) is observed by sampling measurement signals with associated sensor units (10a-10d). The target particles (2) may optionally be bound to binding sites (3) in the sensitive region, and a parametric binding curve, e.g. a Langmuir isotherm, may be fitted to the sampled measurement signals to determine the desired particle concentration in the sample. Moreover, parameters like the sampling rate and the size of the sensitive region (14) can be dynamically fitted during the ongoing sampling process to improve the signal-to-noise ratio. In another embodiment of the invention, single events corresponding to the movement of target particles into, out of, or within the sensitive region are detected and counted.

Abstract: Methods, systems, and computer program products for determining a property of construction material. According to one aspect, a material property gauge operable to determine a property of construction material is disclosed. The gauge may include an electromagnetic sensor operable to measure a response of construction material to an electromagnetic field. Further, the electromagnetic sensor may be operable to produce a signal representing the measured response by the construction material to the electromagnetic field. An acoustic detector may be operable to detect a response of the construction material to the acoustical energy. Further, the acoustic detector may be operable to produce a signal representing the detected response by the construction material to the acoustical energy. A material property calculation function may be configured to calculate a property value associated with the construction material based upon the signals produced by the electromagnetic sensor and the acoustic detector.

Abstract: The present invention relates to a system for measuring the level of granular material in a container immersed in an aqueous medium, particularly, but not exclusively, for use as a measure of sanitizer level in spa and whirlpool halogenation systems. Electrodes fixed in the container wall are used to measure the electrical conductance along a path which is part filled with the granular material. Coils of wire are arranged such that the interrogating signal is coupled inductively to the sensor head. In this way the granule container can be made demountable, with no bare conductor material exposed to the aqueous medium. A separate reference circuit is used to measure the conductivity of the water in the system, and this signal is used to normalize the signal obtained from inside the container.

Abstract: A method is proposed for characterizing a totality of particles (318). The method can be used in particular for charactering microparticular or nanoparticular aerosols. The method comprises the following steps: a) in a classification step, a class of the totality is selected, wherein the particles (318) of the selected class have a prespecified mobility dm; b) in a counting step, a number N of the particles (318) of the selected class is determined; c) in a charge determination step, a charge Q of the particles (318) of the selected class is determined; and d) in an evaluation step, at least one morphological parameter is determined from the charge Q, the number N and the mobility dm, wherein the morphological parameter comprises at least one item of information about an agglomerate state of the particles (318).

Abstract: A method and apparatus for monitoring marking liquid including a carrier liquid having solid particles therein. A transmitter emits an ultrasonic signal into the marking liquid. The ultrasonic signal is received by a receiver and processed by a controller to determine at least one of the temperature of the marking liquid and the concentration of solid particles in the marking liquid.

Abstract: A method and apparatus for measuring particle concentration and size distribution of particles in liquids. The method involve separating dissolved and particulate residues in liquids for determination of the size and concentration of the particulate species. The method includes the steps of forming an aerosol from the liquid sample to be analyzed, evaporating the droplets in the aerosol to dryness, and detecting the particles. An apparatus for separating dissolved and particulate residues in liquids for determination of the size and concentration of the particulate species is also disclosed. The apparatus includes a droplet former, a dryer communicatively connected to the droplet former, and a detector communicatively connected to the evaporator for detecting particles.

Abstract: The invention relates to a micro-fluidic system including a fluid medium channel that holds a fluid medium containing particles in suspension. According to the invention, the fluid medium channel has an expanded section with an enlarged cross-section along part of its length, in order to reduce the flow speed to allow the analysis of the particles.