Class / Patent application number | Description | Number of patent applications / Date published |
436055000 | CONDITION RESPONSIVE CONTROL | 29 |
20080206877 | Reactors for selective enhancement reactions and methods of using such reactors - Micro-reactors for selective enhancement of ligands by exponential enrichment (ISOS) include a reactant chamber defined in a fluoropolymer. A target exposure aperture controls a surface area, crystal face or orientation and surface features of a target that is exposed to a random mixture of candidate molecules. The surface area of the target can be selected based on number or concentration of candidate species to enhance candidate competition. The target surface can be formed by deposition of a thin film of a target material on a rigid substrate such as a glass plate. Selected exposure areas are typically substantially smaller than a characteristic cross sectional area of a reactant chamber volume and can be at least as small as 0.1 mm | 08-28-2008 |
20090170207 | REFERENCE PH SENSOR, PREPARATION AND APPLICATION THEREOF - A reference pH sensor, the preparation and application thereof. The reference pH sensor is an extended gate field effect transistor (EGFET) structure and comprises a metal oxide semiconductor field effect transistor (MOSFET) on a semiconductor substrate, a sensing unit comprising a substrate, a solid-state conductive sensing layer on the substrate, and a polypyrrole layer on the solid-state conductive sensing layer, and a metal wire connecting the MOSFET and the sensing unit. | 07-02-2009 |
20090325299 | ANALYZER AND METHOD FOR ASPIRATING SPECIMEN - An analyzer comprising: a specimen container setting portion including a plurality of container holders for holding a plurality of specimen containers of different types; an aspiration section for aspirating the specimen from the specimen container set in the specimen container setting portion; a sensor for detecting the presence of the specimen container set in at least one of the plurality of container holders; and a controller for determining in which of the plurality of container holders the specimen container is set based on the detection result of the sensor, and controlling the operation of the aspiration section, is disclosed. A method for aspirating a specimen is also disclosed. | 12-31-2009 |
20100099194 | ANALYZER AND ANALYSIS METHOD - An analyzer analyzes a specimen on basis of an absorbance of a reaction liquid of the specimen and a reagent and includes a measuring unit that measures absorbances of two or more identifying samples having different concentrations and having absorbance characteristics such that there is no extremum in a wavelength band including a desired wavelength to be measured and also measures an absorbance of a reaction liquid; a calculating unit that calculates a gradient of a straight line indicating a relationship between the concentrations and the absorbances of the identifying samples; a correcting unit that corrects the absorbance of the reaction liquid by using a reference gradient of a straight line indicating a relationship between concentrations and absorbances of the identifying samples obtained in advance for the desired wavelength, and the calculated gradient; and an analyzing unit that analyzes the specimen on the basis of the corrected absorbance. | 04-22-2010 |
20100311173 | Procedure and System for the Agricultural Evaluation of Livestock Excrement - A system consisting of livestock farms ( | 12-09-2010 |
20110111509 | System and Method for Alkylation Process Analysis - Closed-loop control of a hydrocarbon process is provided by an analyzer including an instrument configured for measuring a property of the liquid mixture, and having responsivities to concentrations of one of the components, independent of concentrations of others of the components. A temperature detector generates temperature data for the liquid mixture, and a processor captures data generated by the temperature detector and the instrument, and uses the data in combination with a model of responsivities to various concentrations of the components at various temperatures, to determine a temperature compensated concentration of the components while the liquid mixture flows continuously through the analyzer. A process control module including a process model of the hydrocarbon process, is coupled to the analyzer and is couplable to the hydrocarbon process, to receive the temperature compensated concentration and to generate at least one output configured to affect operation of the hydrocarbon process. | 05-12-2011 |
20110165688 | SINGLE-USE HANDHELD DIAGNOSTIC TEST DEVICE, AND AN BIOLOGICAL AND ENVIRONMENTAL TEST SAMPLES - In a single-use handheld diagnostic test device and an associated system and method, a biological and/or environmental test sample is received and reacted with reagents. The test device tests a single sample and includes a sensor to detect test data. The test device mates with, and transmits the test data to, an electronic device. A processor of the electronic device applies algorithms to the test data to generate highly sensitive and accurate quantitative test results. A presentation element of the electronic device presents the test results to a user. The test device is adapted for disposal, or for sterilization and re-use, after the electronic device receives the test data. The electronic device may be, for example, a mobile communications device, a personal digital assistant, a laptop computer, a navigation device, a digital audio player, a camera, or a gaming device. | 07-07-2011 |
20110244583 | SAMPLE RACK TRANSPORT SYSTEM AND SAMPLE RACK TRANSPORT METHOD - A sample rack transport system comprising: a plurality of transport apparatuses which are connected so as to transport a sample rack to a plurality of sample processing apparatuses; and a control apparatus which communicates with the plurality of transport apparatuses and controls the transport of the sample rack by the plurality of transport apparatuses, wherein at least one of the plurality of transport apparatuses includes a transmission switch which is operated by a user to transmit a signal to the control apparatus, and when the transport of the sample rack has stopped due to a trouble which occurred in one of the plurality of transport apparatuses, responsive to an operation of a transmission switch of another transport apparatus, the control apparatus restarts the transport of the sample rack by the plurality of transport apparatuses. Also, a method for transporting a sample rack. | 10-06-2011 |
20120156789 | TITANIUM BEARING MATERIAL FLOW CONTROL IN THE MANUFACTURE OF TITIANIUM TETRACHLORIDE USING A COMBINATION OF FEEDBACK AND FEED FORWARD RESPONSES - This disclosure relates to process for controlling chlorination reactions in manufacturing titanium tetrachloride in a fluidized bed reactor, optionally followed by processing to form a titanium product comprising a minor amount of silica, the process comprising: (a) feeding carbonaceous material, titanium bearing material comprising an amount of silica, and chlorine to the fluidized bed reactor to form a gaseous stream, and condensing the gaseous stream to form titanium tetra-chloride, a non-condensed gas stream and a condensable product stream, wherein at least one of the titanium tetrachloride and the non-condensed gas stream comprise silicon tetrachloride; (b) analyzing the non-condensed gas stream, the titanium tetrachloride or both, to determine the analyzed concentration of silicon tetrachloride; (c) identifying a set point concentration of silicon tetrachloride based on the desired amount of silica in the titanium product; (d) calculating the difference between the analyzed concentration of silicon tetra-chloride and the set point concentration of silicon tetrachloride; (e) measuring the titanium tetrachloride flow to a processing reactor that releases chlorine; (f) measuring the flow of fresh chlorine added to the fluidized bed; (g) measuring the flow of the titanium bearing material added to the fluidized bed reactor and establishing a historic average flow of the titanium bearing material added to the fluidized bed reactor; (h) calculating the chlorine released from the titanium tetrachloride that is processed using the titanium tetrachloride flow data from step (e); (i) calculating the total chlorine flow to the fluidized bed reactor by adding the chlorine flow in step (f) to the chlorine flow calculated in step (h) and establishing a historic average chlorine flow; (j) calculating a unit titanium bearing material consumption per unit chlorine; (k) calculating an estimated current consumption rate of titanium bearing material based on the total chlorine flow from step (i) times the unit titanium bearing material consumption per unit chlorine from step (j); and (l) generating a signal based on difference generated in step (d) that provides a feedback response and combining this to the estimated current consumption rate of titanium bearing material from step (k) to provide a feed forward response to control the flow of the titanium bearing material into the fluidized bed reactor. | 06-21-2012 |
20120156790 | TITANIUM BEARING MATERIAL FLOW CONTROL IN THE MANUFACTURE OF TITANIUM TETRACHLORIDE WITH SILICA CONTENT MONITORING OF THE TITANIUM PRODUCT - This disclosure relates to a process for controlling chlorination reactions in manufacturing titanium tetrachloride in a fluidized bed reactor, followed by processing to form a titanium product comprising an amount of silica, the process comprising: (a) feeding carbonaceous material, titanium bearing material comprising an amount of silica, and chlorine to the fluidized bed reactor to form a gaseous stream, and condensing the gaseous stream to form titanium tetrachloride, a non-condensed gas stream and a condensable product stream; (b) processing the titanium tetrachloride to form a titanium product comprising an amount of silica; (c) analyzing the titanium product comprising an amount of silica to determine the analyzed concentration of silica; (d) identifying a set point concentration of silica; (e) calculating the difference between the analyzed concentration of silica and the set point concentration of silica; and (f) generating a signal which corresponds to the difference calculated in step (e) which provides a feedback response that controls the flow of the titanium bearing material into the fluidized bed reactor. | 06-21-2012 |
20120164736 | PROCESS FOR CONTROLLING THE FLOW OF TITANIUM BEARING MATERIAL INTO THE FLUIDIZED BED REACTOR IN THE MANUFACTURE OF TITANIUM TETRACHLORIDE - This disclosure relates to a process for controlling chlorination reactions in manufacturing titanium tetrachloride in a fluidized bed reactor, optionally followed by processing to form a titanium product comprising an amount of silica, the process comprising: (a) feeding carbonaceous material, titanium bearing material comprising an amount of silica, and chlorine to the fluidized bed reactor to form a gaseous stream, and condensing the gaseous stream to form titanium tetrachloride, a non-condensed gas stream and a condensable product stream, wherein at least one of the titanium tetrachloride and the non-condensed gas stream comprise silicon tetrachloride; (b) analyzing the non-condensed gas stream, the titanium tetrachloride or both, to determine the analyzed concentration of silicon tetrachloride; (c) identifying a set point concentration of silicon tetrachloride based on the desired amount of silica in the titanium product; (d) calculating the difference between the analyzed concentration of silicon tetrachloride and the set point concentration of silicon tetrachloride; and (e) generating a signal which corresponds to the difference calculated in step (d) which provides a feedback response that controls the flow of the titanium bearing material into the fluidized bed reactor. | 06-28-2012 |
20120164737 | TITANIUM BEARING MATERIAL FLOW CONTROL IN THE MANUFACTURE OF TITANIUM TETRACHLORIDE WITH SILICA CONTENT MONITORING OF THE TITANIUM PRODUCT USING FEEDBACK AND FEED FORWARD RESPONSES - This disclosure relates to a process for controlling chlorination reactions in manufacturing titanium tetrachloride in a fluidized bed reactor, followed by processing to form a titanium product comprising an amount of silica, the process comprising: (a) feeding carbonaceous material, titanium bearing material comprising an amount of silica, and chlorine to the fluidized bed reactor to form a gaseous stream, and condensing the gaseous stream to form titanium tetrachloride, a non-condensed gas stream and a condensable product stream; (b) processing the titanium tetrachloride to form a titanium product comprising an amount of silica; (c) analyzing the titanium product comprising an amount of silica to determine the analyzed concentration of silica; (d) identifying a set point concentration of silica; (e) calculating the difference between the analyzed concentration of silica and the set point concentration of silica; (f) measuring the titanium tetrachloride flow to a processing reactor that releases chlorine; (g) measuring the flow of fresh chlorine added to the fluidized bed; (h) measuring the flow of the titanium bearing material added to the fluidized bed reactor and establishing a historic average flow of the titanium bearing material added to the fluidized bed reactor; (i) calculating the chlorine released from the titanium tetrachloride that is processed using the titanium tetrachloride flow data from step (f); (j) calculating the total chlorine flow to the fluidized bed reactor by adding the chlorine flow in step (g) to the chlorine flow calculated in step (i) and establishing a historic average chlorine flow; (k) calculating a unit titanium bearing material consumption per unit chlorine; (l) calculating an estimated current consumption rate of titanium bearing material based on the total chlorine flow from step (j) times the unit titanium bearing material consumption per unit chlorine from step (k); (l) calculating an estimated current consumption rate of titanium bearing material based on the total chlorine flow from step (j) times the unit titanium bearing material consumption per unit chlorine from step (k); and (m) generating a signal based on difference generated in step (e) that provides a feedback response and combining this to the estimated current consumption rate of titanium bearing material from step (l) to provide a feed forward response to control the flow of the titanium bearing material into the fluidized bed reactor. | 06-28-2012 |
20130115703 | DILUTION METHOD FOR DIGITAL MICROFLUIDIC BIOCHIPS - Systems and methods are provided for producing fluids with desired concentration factors. According to one embodiment, a sequence of mix steps comprises mixing a resultant solution of a preceding mix step with one of the input solutions of the preceding mix step depending on a concentration factor of the resultant solution. If the concentration factor of the resultant solution is higher than the target concentration factor, then the resultant solution is mixed with the input solution having the lower concentration factor. If the concentration factor of the resultant solution is lower than the target concentration factor, then the resultant solution is mixed with the input solution having the higher concentration factor. | 05-09-2013 |
20130171735 | System and Method for Monitoring Bubble Formation Within A Reactor - Bubble formation is monitored in a reactor such as a loop polymerization reactor which effectively operates at pressures above or near the vapor pressure of a circulating slurry liquid. The method measures a property of the reactor composition at a first location within the reactor, and then at a second location within the reactor. The process is repeated, followed by determining if the difference in measured property varies from a reference difference, derived under bubble-free conditions. When the difference in measured physical property has changed relative to the reference difference, an effect may be implemented, e.g., increase of reactor pressure, decrease of composition vapor pressure, and decrease of reactor temperature, to an extent sufficient to reduce or eliminate bubbling. | 07-04-2013 |
20130217134 | Methods and Systems for Monitoring Content of Coating Solutions Using Automated Titration Devices - A method for monitoring content of a coating solution for coating components includes supplying a tank with the coating solution containing a concentration of a solvent and a concentration of a coating material. The concentration of the coating material is tested using a titration process. The titration process may include controllably contacting a volume of the coating solution with a reagent solution to form a mixture and using a color processing device to obtain input color data of the mixture to detect an end-point of the titration process. One or both of the solvent and the coating material is supplied to the tank based on an amount of coating solution contacted with the reagent solution when the color processing device detects an input color data signaling the end-point of the titration process. | 08-22-2013 |
20130273663 | Ion Mobility Spectrometers - An ion mobility spectrometer has a reaction region separated from a drift region by an electrostatic gate. A doping circuit supplies a dopant to the reaction region but the drift region is undoped. Two high field ion modifiers are located one after the other in the drift region. One ion modifier can be turned on to remove dopant adducts from the admitted ions, or both ion modifiers can be turned on so that the ions are also fragmented. In this way, several different responses can be produced to provide additional information about the nature of the analyte substance and distinguish it from interferents. | 10-17-2013 |
20140004610 | PROCESSES AND APPARATUSES FOR CONVERTING A FEEDSTOCK | 01-02-2014 |
20140017794 | METHOD AND SYSTEM FOR MITIGATING UREA DEPOSITS WITHIN AN SCR CATALYST SYSTEM - A method and system for mitigating a urea deposit within an SCR system that includes determining a mass of an accumulated urea deposit present within the SCR catalyst and SCR piping, comparing the mass of the accumulated urea deposit with a deposit upper threshold limit, and initiating an SCR regeneration event when the mass of the accumulated urea deposit is greater than the deposit upper threshold limit. The method further includes determining an amount of NH | 01-16-2014 |
20140017795 | TEST DEVICE AND CONTROL METHOD THEREOF - A test device to detect a detection object of a microfluidic device and a control method thereof are provided. The test device includes a light emitting element configured to emit light onto the microfluidic device, a light receiving element configured to capture an image of the detection object through light emitted from the light emitting element, and a controller configured to determine a signal value of a predetermined area of the image of the detection object, and adjust an exposure level of the light receiving element according to a difference between the signal value and a predetermined target value. | 01-16-2014 |
20140099722 | FLOW-RATE CONTROL IN A MICROFLUIDIC DEVICE - A method for controlling a flow-rate of fluid flowing in a microfluidic network comprising a microchannel and a plurality of inlet/outlet interface ports is disclosed. The method includes: successively applying a plurality of pressures on at least one inlet/outlet interface port, measuring a time series of flow-rate values of the fluid generated in response to the plurality of applied pressures, estimating parameters of a model of the microfluidic network response to input pressure values based on the applied pressure values and the measured time series of output flow-rate values, computing a target pressure value at each of the inlet/outlet interface ports corresponding to a predetermined flow-rate value at the flow-rate measuring point, wherein the predetermined flow-rate value corresponds to an output value of the model of the microfluidic network response to the target pressure value, and applying the computed target pressure value on the at least one inlet/outlet interface port. | 04-10-2014 |
20140170757 | METHOD AND APPARATUS FOR ANALYTE MEASUREMENT - A method is provided for a portable computing device to read a reaction area on a test strip, which is located in a peripheral device placed over an image sensor and a light source of the portable computing device. Light is provided with the light source, which the peripheral device directs to the reaction area. An image including the reaction area is captured with the image sensor. An analyte characteristic is determined based on a color of the captured reaction area in the image. | 06-19-2014 |
20140199771 | METHOD AND APPARATUS FOR ANALYSIS AND SELECTIVE CATALYTIC REDUCTION OF NOx-CONTAINING GAS STREAMS - An apparatus and method for measuring and controlling the NO | 07-17-2014 |
20140206089 | DEVICE AND METHOD FOR PRODUCING AROMATIC AMINES - The invention relates to a method for producing organic amino compounds from organic nitro compounds, wherein the organic nitro compound hydrogenated to the organic amino compound with a hydrogen-containing gas stream by means of a catalyst, the reaction course of the hydrogenation being monitored by analysis of secondary products forming during hydrogenation, wherein the method is characterised in that the concentration of one or more gaseous secondary products is determined in the gas phase and if the concentration falls below a predefinable minimum concentration the hydrogenating activity of the catalyst is increased. The present invention also relates to a device for performing said method. | 07-24-2014 |
20150017730 | UREA SOLUTION QUALITY DETERMINING SYSTEM - A urea solution quality determining system may include a urea tank in which a urea solution is filled through a charging hole, a test chamber positioned below the charging hole for holding a portion of the urea solution, a main line connected to the urea tank at a lower part of the urea tank below the test chamber, a test line connected to the test chamber, a pumping line to which the main line and the test line are joined, a pump in the pumping line to pump the urea solution from the test chamber or from the urea tank, a control valve for selectively connecting the main line or the test line to the pumping line, and an injector at an end of the pumping line to inject the urea solution into an exhaust line through which an exhaust gas flows. A method is also described. | 01-15-2015 |
20150323937 | FLUID CONTROL SYSTEM, FLUID DEVICE, AND FLUID CONTROL METHOD - A fluid control system includes a fluid device including a flow channel including a reaction part in which a first fluid is subjected to a reaction, and a position control apparatus. The position control apparatus includes a position information acquisition unit that acquires information of a position of an interface between the first fluid and a second fluid in the flow channel or between the second fluid and a third fluid in the flow channel. The position control apparatus controls the position of the first fluid in the flow channel based on the information of the position acquired by the position information acquisition unit. The information of the position by the position information acquisition unit is acquired in an interface detection part located upstream or downstream with respect to the reaction part and having a smaller average cross section than in the reaction part. | 11-12-2015 |
20150335769 | BIOMOLECULE LABELING REACTION CONTAINER, AND REACTOR AND REACTION METHOD USING THE SAME - A reaction container in which to mix a first chemical compound with a second chemical compound has a main body and a lid member formed oppositely on a top face side of the main body; a flow channel on the top face of the main body; and a labeling agent solidification section at an intermediate section of the flow channel to remove a solvent in a solution of the second chemical compound and solidify the second chemical compound. First and second chemical compound supply sections and a mixture discharge section are formed on the upstream and downstream sides of the labeling agent solidification section, respectively. The reactor is provided with a liquid sending unit to supply the first and second chemical compounds and reciprocally send a solution of the first chemical compound to an upper part of the second chemical compound solidified at the solidification section. | 11-26-2015 |
20150377791 | GAS SENSOR, REFRIGERATOR HAVING THE GAS SENSOR AND METHOD OF CONTROLLING THE REFRIGERATOR - A gas sensor configured to be discolored in response to a pH change upon reaction with a target gas, a refrigerator including the gas sensor, and a method of controlling the refrigerator includes a hydrogel support discolored through reaction with the target gas, and the hydrogel support includes dye provided to be discolored in response to a pH change upon reaction with the target gas. | 12-31-2015 |
20160018373 | SYSTEMS AND METHODS FOR MONITORING AND CONTROLLED CAPTURE OF AIR SAMPLES FOR ANALYSIS - There are provided methods for analyzing air including monitoring the air. For example, monitoring the air includes electronically sensing the air and determining whether an event in the air is occurring based on at least the electronically sensing. If an event is occurring, a sample of the air is collected for a further analysis. For example, the analysis is carried out to identify components present in the sample. There are also provided systems for analyzing air comprising : an air intake; an electronic sensor and a controller configured to monitor the air. Monitoring air includes controlling the air intake, controlling the electronic sensor to electronically sensing the air and determining whether an event in the air is occurring based on at least the electronically sensing. If an event is occurring, a sample of the air is collected for further analysis (e.g. to identify components present in the sample). | 01-21-2016 |
20160123952 | Systems, Buffer Solutions, and Methods for Predicting Acidic Amendment Requirements in Soils - A method and system for testing soil includes wetting a selected soil sample to obtain a soil solution and measuring an initial pH of the soil solution. A buffer solution is then applied to the soil solution to displace alkaline anions from soil colloids of the soil solution with a displacement agent and to neutralize the alkaline anions with a neutralization agent in a buffer having a buffer pH of between 4.38 and 4.42. A resultant pH of the soil solution is then measured. A target pH for the soil sample is selected, and using mathematical relationships of the disclosure, an acidic amendment recommendation is obtained as a function of the initial pH, the resultant pH, and the target pH. | 05-05-2016 |