Class / Patent application number | Description | Number of patent applications / Date published |
436155000 | PYROLYSIS, COMBUSTION, OR ELEVATED TEMPERATURE CONVERSION | 21 |
20110151575 | Energetic Material Detector - Energy released from energized particles is sensed. Whether the energized particles include a possible energetic material is determined based on the sensed energy. If a determination is made that the energized materials include a possible energetic material, a spectral signature of the sensed energy is determined. The spectral signature of the sensed energy is compared to one or more known spectral signatures associated with energetic materials. Whether the possible energetic material is an actual energetic material is determined based on the comparison. | 06-23-2011 |
20110244587 | QUANTIFICATION OF LUBRICANT REACTIVITY USING CONSTANT VOLUME COMBUSTION DEVICE - A method for identifying a lubricant composition that reduces the propensity for knock in an engine. The lubricant composition is mixed with a solvent to reduce the viscosity of the lubricant composition, thereby forming a lubricant-solvent mixture having a viscosity similar to or less than that of engine fuel. A sample of a lubricant-solvent mixture is then subjected to a constant volume combustion test to determine the reactivity associated with the lubricant-solvent mixture. The test is repeated for a range of lubricant-solvent ratios, and statistical methods are used to calculate the reactivity of the lubricant composition without solvent. | 10-06-2011 |
20120295365 | FUEL PROPERTY DETERMINATION METHOD AND FUEL PROPERTY DETERMINATION DEVICE - A fuel property determination method includes a reaction mechanism analysis process (S1) of analyzing elementary reactions that compose chemical reactions between a plurality of types of initial materials including the materials that compose the fuel and obtaining the elementary reactions as fuel elementary reactions, and an octane number determination process (S2) of calculating the combustion characteristics of the fuel by performing a simulation based on the fuel elementary reactions and determining the octane number based on the combustion characteristics of the fuel. | 11-22-2012 |
20120309100 | Sample preparation for isotopic analysis without an oxidizer - A sample preparation chamber for gas analysis that includes a heating element within is provided. The heating element is maintained at an elevated temperature, such that organic compounds that may be present in an input gas sample are removed via oxidation and/or thermal decomposition to provide a treated gas sample that is substantially free of organic contaminants. The treated gas sample may then be analyzed in a gas analysis instrument (e.g., an optical spectroscopic instrument, a mass spectrometer, etc.) to provide results that are free from interference due to organic contaminants. Preferably, the heating element is configured as a Ni—Cr wire. An important feature of this approach is that the heating element (and the rest of the sample preparation chamber) are not altered in operation to remove the organic compounds. | 12-06-2012 |
20140057361 | HEADSPACE SAMPLING DEVICE AND METHOD FOR SAMPLING - A device and method for headspace sampling is disclosed herein. The headspace sampling device comprises a sample holding device configured to be sealed in a vial. The sample holding device has a pair of electrodes gap spaced from one another and a basket extending between the electrodes configured to hold a sample. The basket is configured to heat a sample held therewith and volatize at least a portion of the sample upon an electrical current being passed through the electrodes and the basket. | 02-27-2014 |
436157000 | Multiple stages of heating or heating at multiple temperatures or application of temperature gradient | 3 |
20080299670 | COMBUSTION TUBE AND METHOD FOR COMBUSTING A SAMPLE FOR COMBUSTION ANALYSIS - Combustion tube ( | 12-04-2008 |
20150125962 | HEATING APPARATUS FOR A GAS CHROMATOGRAPH, AND HEATING METHOD FOR A GAS CHROMATOGRAPH - To provide a heating apparatus for a gas chromatograph, and a heating method for a gas chromatograph, wherein vapor phase components can be analyzed at an arbitrary temperature and can be instantaneously heated and pyrolized at a set temperature, thereby enabling analysis to be carried out with good reproducibility. The heating apparatus for a gas chromatograph | 05-07-2015 |
20190145870 | THERMOPHORETIC PARTICLE CONCENTRATOR | 05-16-2019 |
436158000 | Dividing or separating a sample stream | 4 |
20090081804 | Monitor and methods for characterizing airborne particulates - A dust monitor is disclosed that is suitably deployed in dusty environments and capable of providing near real-time indications of exposure to airborne particulates. The monitor includes a filter and filter assembly made of materials that do not interfere with subsequent instrumental (such as spectrometric) analysis for detecting and/or quantitating an analyte. In some disclosed embodiments, the filter is made of nylon or other material that is readily subjected to thermal destruction prior to spectrometric analysis. The dust monitor also includes a humidity correction feature that permits the filter to be made of ashable organic materials even if those materials are not highly hydrophobic. Transport devices are provided for shipment of the filter and/or filter assembly to an analytical laboratory which prevent loss of particulate matter and which facilitate an accurate analysis procedure. | 03-26-2009 |
20100055802 | Analysis using separation combined with chemical conversion followed by optical spectroscopy - The present invention relates to the separation, quantitative measurement, and analysis of trace species using a combination of three steps in succession. First, trace species are separated from other species that are present. Second, the trace species are chemically modified to convert them into specific species that are advantageous for the third and final step. In this last step, cavity enhanced optical detection of the converted species is performed to detect and measure the concentrations of the species of interest. Because the last step has spectroscopic resolution, the concentration of isotopologues in each converted species can be determined. Further processing can provide the ratios between pairs of isotopologues, in particular the ratio of the rare isotopologues to the most abundant isotopologue. | 03-04-2010 |
20140080221 | Semi-Continious Non-Methane Organic Carbon Analyzer - An instrument to provide on-site analyses utilizing a combination cryotrap and absorbent traps in the extraction of constituents from the sample gas stream consistent with the requirements of 40 CFR Pt. 60 App. A Method 25. | 03-20-2014 |
20150079691 | CATALYTIC OXIDATION OF POLAR MODIFIERS IN CHROMATOGRAPHIC MOBILE PHASES - The present disclosure relates to an oxidizer, and related methods, for oxidizing polar modifiers in chromatographic mobile phases. The oxidizer enables the use of flame-based detection in chromatographic separations, such as carbon dioxide based chromatography, which employ polar modifiers, such as methanol. Upon exiting a chromatographic column, the mobile phase containing the polar modifier is flowed through an oxidizer that contains a catalyst to oxidize at least a portion of the polar modifier to a species that does not interfere with the function of the flame-based detector. The oxidizer allows for flame-based detection, such as flame ionization detection, in applications in which a polar modifier with a reduced form of carbon is used. | 03-19-2015 |
436159000 | With catalyst or accelerator | 1 |
20120083042 | INDUCTION FURNACE OPERATING IN A RANGE FROM 2-9 MHZ FOR PROVIDING ANALYTICAL SAMPLES AND METHOD OF SAME - An analytical induction furnace and method for combusting conductive sample materials ( | 04-05-2012 |
436160000 | Combustion with oxygen containing gas | 8 |
20120252130 | Particulate Matter Generator For Use With An Emissions Control Device Aging System - A particulate matter generator implemented as a “mini-burner”, and used in conjunction with a larger test system for the specific purpose of enhancing the particulate matter content of exhaust gas. The exhaust stream of the larger system is supplemented with exhaust from the mini-burner to produce exhaust with desired particulate matter characteristics. The exhaust gas may then be used for various test purposes, such as testing emissions control devices. | 10-04-2012 |
20130023057 | BIDIRECTIONAL BALLAST - An analyzer with a combustion furnace includes a flow path of byproducts of combustion coupled to a bidirectional ballast chamber by valves which are sequentially actuated for alternately filling and exhausting byproducts of combustion from opposite sides of the chamber during combustion. Alternately, a plurality of low volume ballast chambers are employed. A method of determining the concentration of elements in a sample includes the steps of combusting a sample; and alternately collecting and exhausting the byproduct gases of combustion in opposite sides of a bidirectional ballast. The bidirectional ballast chamber has an outer wall defining a chamber with sealed enclosures at opposite ends of the wall, a movable piston positioned within the chamber, and gas ports associated with the chamber on opposite sides of the piston. | 01-24-2013 |
20130316465 | DEVICE AND METHOD FOR COMBUSTION ANALYSIS BY MEANS OF INDUCTION FURNACES AND PROTECTIVE ELEMENT FOR INDUCTION FURNACES FOR THE COMBUSTION ANALYSIS - With a device for combustion analysis, comprising an induction furnace with a furnace chamber, in which carrier gas can flow during operation via at least one gas inlet to a gas outlet, and in which a sample to be analyzed can be arranged and burned in a sample container, a hollow protective element is provided and, with normal operation of the device, is arranged in the furnace chamber directly above the sample in such a way that the end of the protective element facing towards the sample, together with the sample container, forms a constriction for the carrier gas flow, wherein the protective element is desgned to convey gases produced during the combustion of the sample through the protective element and to the gas outlet. | 11-28-2013 |
20140256054 | METHODS FOR ELEMENTAL ANALYSIS BY COMBUSTING A SAMPLE IN A COMBUSTION TUBE - Methods are provided for conducting chemical analyses by combusting a sample in a combustion tube. A primary combustion chamber receives and combusts a sample to form first combustion products. A secondary combustion chamber receives and combusts the first combustion products to form second combustion products. The secondary chamber is disposed around the primary chamber and comprises a plurality of—preferably, three—combustion compartments. Each successive compartment is disposed around the preceding compartment and defines a respective gas flow channel having an inlet opening and an outlet opening at opposite ends. Each successive gas flow channel shares its inlet opening with the outlet opening of the preceding channel. The plurality of combustion compartments define a substantially continuous gas flow conduit from the inlet opening of the innermost compartment to the outlet opening of the outermost compartment. Static gas mixers may be employed to enhance mixing of the combustion products. | 09-11-2014 |
20140287519 | Method, Control Device and Device for Analyzing a Gas - A method for analyzing a gas at a heatable element for a lambda probe includes reading a value of a heating power available to the heatable element for maintaining a predetermined temperature of the heatable element, and determining a gas composition of the gas at the heatable element using the value of the heating power. | 09-25-2014 |
20150011009 | Method and Apparatus For Determining A Calorific Value Parameter, As Well As A Gas-Powered System Comprising Such An Apparatus - A method and an apparatus for determining the calorific value parameter describing the calorific value of a gaseous fuel. The apparatus comprises a test burner with a test combustion chamber. An air ratio sensor is arranged in an exhaust gas duct of the test burner and measures an air ratio signal that corresponds to the air ratio of the exhaust gas. As a function of the received air ratio signal, at least one setting signal is generated for a test supply unit via a test control unit. The setting signal controls the amount and/or the proportion of a gaseous fuel or an oxygen-containing gas that is supplied to the test combustion chamber. A calorific value sensor arrangement is provided in the combustion chamber and has an ionization sensor and, a temperature sensor. The sensor signal of the calorific value sensor is transmitted to a determination unit. | 01-08-2015 |
20150301000 | FLAME IONIZATION DETECTION FOR SUPERCRITICAL FLUID CHROMATOGRAPHY EMPLOYING A MATCHED SEPARATION COLUMN AND FLAME BURNER - The present disclosure relates to flame based detection methods for compressed mobile phase chromatography. In particular, the present disclosure relates to the operation of a flame ionization detector for carbon dioxide based chromatography, such as supercritical fluid chromatography. The present disclosure includes a method of matching a chromatographic column with a flame ionization detector inner burner including providing a chromatographic column with an internal diameter, determining an optimal mobile phase flow rate for the chromatographic column, calculating an optimal inner diameter of the inner burner that combined with the internal diameter and flow rate of the column produces optimal detector performance, and providing a flame ionization detector inner burner having an inner diameter substantially equal to the calculated optimal inner diameter. | 10-22-2015 |
20150323467 | CHEMILUMINESCENCE IMAGING SYSTEM AND METHOD OF MONITORING A COMBUSTOR FLAME OF A TURBINE ENGINE - A chemiluminescence imaging system that may be used for monitoring a combustor flame of a gas turbine engine includes a sensor array having a plurality of pixels operable to capture an image. A multispectral mask array and an attenuation filer array of the system may be generally placed in front of the sensor array and each have a plurality of cells that are generally align, respectively, to the plurality of pixels. Each cell is generally one of a plurality of band-pass filter types distributed randomly across the multispectral mask array and an image reconstruction algorithm is used to produce at least one image for evaluating properties of the flame. | 11-12-2015 |