Class / Patent application number | Description | Number of patent applications / Date published |
073610720 | By separation and subsequent measurement (e.g., by weighing, X-ray or microscope, etc.) | 23 |
20090139311 | Biological Analysis Systems, Devices, and Methods - A device for performing biological sample reactions may include a plurality of flow cells configured to be mounted to a common microscope translation stage, wherein each flow cell is configured to receive at least one sample holder containing biological sample. Each flow cell also may be configured to be selectively placed in an open position for positioning the at least one sample holder into the flow cell and a closed position for reacting biological sample contained in the at least one sample holder. The plurality of flow cells may be configured to be selectively placed in the open position and the closed position independently of each other. | 06-04-2009 |
20090217743 | DEVICE AND PROCESS FOR DETERMINING AN ORGANIC AND INORGANIC FRACTION OF A SAMPLE - A device is displayed for determining an organic and inorganic fraction of a sample, which comprises a suspension medium, particularly water, and also solids. A preferably tightly sealable treatment chamber is provided, which comprises a sampling device, a filter unit, which is constructed and attached to the sampling device such that the suspension medium can be removed from the sample through the filter unit, a suction device for removing the suspension medium, a heat energy source for supplying heat energy to the sample, a temperature measuring unit for recording the temperature of the sample, a weighing unit for weighing the sample and a control and data evaluation unit, for controlling the energy source and for receiving and storing output signals from the temperature measuring unit and also the weighing unit. All parts of the device are constructed so that a sample can be analysed within the treatment chamber, without having to remove it in the interim. This represents a considerable time saving. | 09-03-2009 |
20090272180 | CONTINUOUS TESTING DEVICE AND CONTINUOUS TESTING SYSTEM - A continuous testing device for testing the concentration of a target object in a fluid is provided. The continuous testing device includes a first chip, a signal source and a second chip. The first chip includes a separating unit and a reacting unit. The separating unit separates the target object from a non-target object in the fluid. The reacting unit enables the fluid having separated out the non-target object to react with a reagent. The signal source provides a signal passing through the fluid having reacted with the reagent. The second chip disposed at one side of the first chip includes a signal transducing element and a processing unit. The signal transducing element receives the signal passing through the fluid and outputs an electronic signal corresponding to the input signal. The processing unit acquires the concentration of the target object according to the electronic signal. | 11-05-2009 |
20110203354 | Continuous Testing Method - A continuous testing method for testing the concentration of a target object in a fluid is provided. The method comprises the following steps. A focused light is provided in the fluid to separate the target object from a non-target object in the fluid by changing the movement direction of the target object and the non-target object. The fluid having separated out the non-target object is enabled to react with a reagent. A signal is provided to pass through the fluid having reacted with the reagent. The signal passing through the fluid is received and an electronic signal is outputted corresponding to the input signal. The concentration of the target object is acquired according to the electronic signal. | 08-25-2011 |
20110214489 | Residue concentration measurement technology - A method and apparatus for measuring dissolved residue concentrations and particulate residue particle concentrations and size distribution in liquids, particularly colloidal suspensions. The method involves separating dissolved and particulate residues in liquids for subsequent analysis of the residue 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, detecting and sizing the particles, and determining the liquid volumetric inspection rate. An apparatus for separating dissolved and particulate residues in liquids for determination of the concentrations of the two residue species as well as the size distribution 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 and sizing particles. | 09-08-2011 |
20120312083 | BIOPOLYMER ANALYSIS METHOD, BIOPOLYMER ANALYZER, AND BIOPOLYMER ANALYSIS CHIP - There have been the following problems with sequence analysis using multiple nanopores: trapping a sample in the nanopores is not always 100% efficient and unnecessary time is spent to measure pores in which no sample has been trapped, resulting in low measurement efficiency. To address the problems, a labeling substance is boned to a sample, and the sample to which the labeling substance has been bonded is trapped in the nanopores. An apparatus for observing the labeling substance is used to observe the labeling substance and monitor whether or not the sample has been trapped in the nanopores. Measuring only nanopores in which the sample has been trapped allows the measurement efficiency to be improved. | 12-13-2012 |
20120312084 | PARTICLE CONCENTRATION MEASUREMENT TECHNOLOGY - 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. | 12-13-2012 |
20130074586 | DEVICE FOR MASS DETECTION OF PARTICLES IN A FLUID MEDIUM, AND IMPLEMENTATION METHOD - The invention relates to a device for mass detection of particles in a fluid medium, including an electromechanical oscillator ( | 03-28-2013 |
20130133407 | Methods For Analysis Of Water And Substrates Rinsed In Water - A method is disclosed for determining metal content in a container of water. The method includes contacting a substrate with the water for a predetermined period of time. The substrate is then dried and analyzed to determine the metal content of the substrate surface. A determination is then made of the metal content in the water from the metal content on the substrate surface. | 05-30-2013 |
20130167623 | HYDRODYNAMIC PARTICLE SEPARATION AND DETECTION SYSTEMS AND METHODS - A method of separating, detecting and determining a size of each of a plurality of particles in a fluid includes compelling the fluid to flow through a fluid channel such that larger particles of the plurality of particles travel through the fluid channel faster than smaller particles of the plurality of particles; illuminating a detection zone of the fluid channel substantially uniformly across an entire cross section of the fluid channel such that each of the plurality of particles passes through illumination light upon passing through the detection zone; detecting each of the plurality of particles based on corresponding responses to the illuminating to determine a time that each of the plurality of particles passes through the detection zone; and determining a size of each of the plurality of particles based on the time that each of the plurality of particles passes through the detection zone. | 07-04-2013 |
20130180321 | PARTICLE NUMBER COUNTING APPARATUS - To improve an offset accuracy in a particle number counting apparatus ( | 07-18-2013 |
20130239666 | Systems and Methods for the Detection of Low-Level Harmful Substances in a Large Volume of Fluid - A method and device for the detection of low-level harmful substances in a large volume of fluid comprising using a concentrator system to produce a retentate and analyzing the retantate for the presence of at one harmful substance. The concentrator system performs a method comprising pumping at least 10 liters of fluid from a sample source through a filter While pumping, the concentrator system diverts retentate from the filter into a container. The concentrator system also recirculates at least part of the retentate in the container again through the filter. The concentrator system controls the speed of the pump with a control system thereby maintaining a fluid pressure less than 25 psi during the pumping of the fluid; monitors the quantity of retentate within the container with a control system, and maintains a reduced volume level of retentate and a target volume of retentate. | 09-19-2013 |
20130269425 | Device For Measuring The Purity Of Ultrapure Water - This is a device for analyzing the quantity of organic compounds existing in a liquid, such as ultrapure water, at the outlet from a purification device including in series filter means ( | 10-17-2013 |
20130291628 | MICROPARTICLE DETECTING APPARATUS - A microparticle detecting apparatus is disclosed and includes at least one detection unit, each of which includes: a first sieve having at least a first mesh, a separator stacked on one side of the first sieve and having a separator hole, and a second sieve stacked on one side of the separator and having several second meshes. The diameter of the second mesh is smaller than that of the first mesh, and the first and second meshes are misaligned with each other in a vertical direction of the first and second sieves. The detection unit further includes at least a sensor aligned with the first or second mesh for detecting microparticles trapping into the first mesh or passing through the second mesh. Therefore, the microparticle detecting apparatus is suitably used for detecting or counting any microparticles with different size, to effectively shorten the detection processes of sample fluids. | 11-07-2013 |
20130340510 | METHOD AND APPARATUS FOR SORTING FIBERS - A method of determining the length distribution in the population of glass or plastic fibers in, for example, a fiber reinforced polymeric article wherein the fibers recovered from a representative article are immersed in a non-polar liquid and the combination of the liquid and fibers is passed through a sieve stack while an applied high electric field produces a relatively uniform alignment of the fibers as they pass through the sieves thereby improving the accuracy of the filtering process. | 12-26-2013 |
20140013831 | RESIDUE CONCENTRATION MEASUREMENT TECHNOLOGY - A method and apparatus for measuring dissolved residue concentrations and particulate residue particle concentrations and size distribution in liquids, particularly colloidal suspensions. The method involves separating dissolved and particulate residues in liquids for subsequent analysis of the residue 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, detecting and sizing the particles, and determining the liquid volumetric inspection rate. An apparatus for separating dissolved and particulate residues in liquids for determination of the concentrations of the two residue species as well as the size distribution 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 and sizing particles. | 01-16-2014 |
20140096598 | SYSTEMS AND METHODS FOR DETECTING AN ANALYTE OF INTEREST IN A SAMPLE USING MICROSTRUCTURED SURFACES - Method for detecting an analyte of interest in a sample. The method can include providing a container comprising a microstructured surface, and centrifuging the container toward the microstructured surface to form a sediment and a supernatant of the sample. Following centrifugation, the container can be inverted to decant at least a portion of the supernatant of the sample from the second portion, such that a concentrate (e.g., comprising the sediment) of the sample is retained in the microstructured surface. The concentrate can then be interrogated in the microstructured surface for the analyte of interest. In some embodiments, at least a portion of the second portion can be substantially transparent, such that the concentrate can be interrogated from the outside of the container, without requiring that the container be opened prior to interrogation. | 04-10-2014 |
20140318225 | Acoustic Standing Wave Particle Size or Distribution Detection - Apparatus features an acoustic comb filter module configured to receive signaling containing information about different frequencies F | 10-30-2014 |
20150309065 | Methods for Using A Pipetting Device with Independently Movable Pipette Units - The invention provides for a method of pipetting samples using a pipetting device including more than one pipetting unit. Each of the pipetting units are independently movable in Y and Z directions and includes an upper and a lower frame. Two adjacent pipetting units include a module arranged in a staggered manner in either of the respective upper and lower frames. | 10-29-2015 |
20160025602 | DEVICE AND METHOD FOR SAMPLING, PREPARING AND ANALYSING A SAMPLE - A device for sampling, preparing and analysing a sample, for example a suspension, comprises: a sampling device adapted to sampling a fluid sample, at least one sample preparation unit adapted to prepare the sample, and at least one analysing unit. By adapting the device for sampling and analysing a sample for placement in direct vicinity to a process pipe and adapting the sampling device to sample a fluid sample directly from a gate, a compact and cost-efficient device is provides, which also provides fast feedback to a process to be controlled. | 01-28-2016 |
20160061811 | DEVICE FOR CAPTURE OF PARTICLES IN A FLOW - Devices and methods for capture of target particles in a flow. There is a plurality of flow rate-reducing structures in a flow chamber, each structure including a trapping surface shaped to reduce flow rate in a vicinity of the trapping surface. Reduced flow rate in the vicinity of the trapping surface is non-zero and has a magnitude lower than that of flow rate in other regions of the flow chamber. The reduced flow rate is sufficiently low for an attraction force acting on the target particles to overcome drag force on the target particles, to promote capture of particles in the vicinity of the trapping surface. The device may exhibit different sorting zones for capturing particles that experience different amounts and/or types of attraction force. The device may enable sorting of cells according to their level of display of specific protein surface markers. | 03-03-2016 |
20160109340 | Microwave-Assisted Bitumen Extraction With Vacuum-Assisted Sediment Filtration - Method for characterizing a heavily biodegraded oil sand ore sample by microwave-assisted bitumen extraction. Vacuum-filtration of solvent-extracted bitumen and sediments provides a means to recover sediment fines down to a particle size of 0.8 μm, which is the analytical requirement for accurate mineralogical analysis of the clay mineral fraction. The method may be completed in hours, making it suitable for “just-in-time” analyses at the mine site. The recovered sediment and sediment fines are suitable for characterization using traditional analytical techniques to understand mineralogy, petrology, and reservoir properties. | 04-21-2016 |
20220136940 | OPEN WATER ANALYSIS SYSTEM, RELATED METHODS, AND TWO-STAGE VORTEX FILTER - The present disclosure provides an integrated collection, filtration, and analysis system which is configured to automatically collect fluid samples from a surrounding open water environment, isolate floating particles of a target size range, and perform analysis on the collected particles in-situ. The particles may also be filtered by one or more parameters other than size, and also provided herein is a two-stage vortex filter specially adapted to isolate floating particles of a desired density range from a fluid. | 05-05-2022 |