Class / Patent application number | Description | Number of patent applications / Date published |
073280040 | Separator detail | 46 |
20090031786 | Fine-particle counter - The present invention provides a fine-particle counter with which the number density of nanometer-sized fine particles born in a gas phase, which is extremely low, can be accurately measured under wide-ranging pressure conditions from pressurized conditions to low-pressure conditions. | 02-05-2009 |
20090044599 | Quantitative Aerosol Dilution System - An inlet conduit ( | 02-19-2009 |
20090064760 | CONTAINER CLEANLINESS MEASUREMENT APPARATUS AND METHOD, AND SUBSTRATE PROCESSING SYSTEM - A container cleanliness measurement apparatus capable of preventing particles from being adhered to substrates, while improving the operation efficiency of a container for housing substrates. An FOUP inspection apparatus includes a particle-separation promoting nozzle for promoting separation of particles adhered to an inner wall of an FOUP and to carries for holding peripheral portions of wafers inside the FOUP, a particle collecting nozzle for collecting particles separated from the inner wall of the FOUP, etc., and a particle counter for measuring an amount of collected particles. The particle-separation promoting nozzle and the particle collecting nozzle constitute a probe nozzle which is adapted to enter inside the FOUP. | 03-12-2009 |
20090241638 | DEVICE FOR DETECTION OF SULFUR CONCENTRATION IN FUEL OR OIL - A metal compound ( | 10-01-2009 |
20090301171 | METHOD FOR MEASURING RECOVERY OF CATALYTIC ELEMENTS FROM FUEL CELLS - A method is provided for measuring the concentration of a catalytic clement in a fuel cell powder. The method includes depositing on a porous substrate at least one layer of a powder mixture comprising the fuel cell powder and an internal standard material, ablating a sample of the powder mixture using a laser, and vaporizing the sample using an inductively coupled plasma. A normalized concentration of catalytic element in the sample is determined by quantifying the intensity of a first signal correlated to the amount of catalytic element in the sample, quantifying the intensity of a second signal correlated to the amount of internal standard material in the sample, and using a ratio of the first signal intensity to the second signal intensity to cancel out the effects of sample size. | 12-10-2009 |
20100024522 | Device for removing air dispersed contaminants - A device for removing liquid or solid contaminants such as oil or dust dispersed in air in which an air flow is directed through a space formed by a spiral wall in a cyclonic chamber condenses the particles or droplet which drops down into a collection chamber below the cyclonic chamber while the cleaned air passes out through an outlet extending back up through the cyclonic chamber. A baffle plate array is located at the bottom of the collection chamber composed of spaced apart shallowly inclined partially overlapping plates which captures any cyclonic air flow at the bottom of the collection chamber. This removes contaminants which would otherwise accumulate at the center of the bottom of the collection chamber and be entrained in the air exiting the device. | 02-04-2010 |
20100031733 | Method and Device For Operating a Particle Sensor - Method and device for operating a particle sensor arranged in an exhaust tract of an internal combustion engine of a motor vehicle. The particle sensor including a sensor carrier having two sensor electrodes arranged at a predetermined distance from one another on one side of the sensor carrier. The two sensor electrodes are exposed to an exhaust gas stream in the exhaust tract. The at least two sensor electrodes are acted upon with a collective potential, the collective potential having a value such that electrically charged particles are attracted out of the exhaust gas stream in the exhaust tract. The attracted particles in this case accumulate on and/or between the two sensor electrodes. | 02-11-2010 |
20100043528 | DEVICE AND METHOD FOR CONTINUOUS MEASUREMENT OF CONCENTRATIONS OF TARS IN A GAS FLOW - The measurement is conducted by means of thermogravimetric scales ( | 02-25-2010 |
20100107739 | AIR POLLUTION SENSOR SYSTEM - The invention relates to an air pollution sensor system ( | 05-06-2010 |
20100132435 | DETERMINATION OF FUEL CHARACTERISTICS AND THEIR INFLUENCE ON EXHAUST GAS EMISSIONS DURING OPERATION OF AN INTERNAL COMBUSTION ENGINE - A method for determining a deviation of a fuel quality from a reference quality and for determining a change in exhaust gas emissions caused by this deviation by evaluating pressure waves in a fuel system of an internal combustion engine outfitted with one of a discontinuous fuel delivery and a fuel take-off. The method includes detecting pressure oscillations in the fuel system during operation by at least one sensor; determining at least one of a fuel type and the deviation from a reference fuel quality by analyzing the detected pressure oscillations in an electronic monitoring unit; and at least one of changing behavior of an exhaust gas aftertreatment system downstream of the internal combustion engine based at least in part on deviations of the untreated emissions of the internal combustion engine from the untreated emissions occurring when using the reference fuel, changing service intervals when a deviation from the reference fuel quality is determined, changing engine oil change intervals are changed when a deviation from the reference fuel quality is determined displaying information about use of a fuel deviating from the reference fuel is, displaying the changed service interval, changing operating parameters of the internal combustion engine, and changing operating parameters of the exhaust gas aftertreatment system downstream of the internal combustion engine. | 06-03-2010 |
20100175459 | Device for the determination of the concentration of solid particles - A device for determination of solid particle concentration includes a pre-diluter ( | 07-15-2010 |
20100180669 | MONITORING OF A PARTICLE LIMIT VALUE IN THE EXHAUST GAS OF AN INTERNAL COMBUSTION ENGINE - The invention relates to a method for diagnosing a particle filter used for filtering particles out of the exhaust gas of an internal combustion engine, wherein a collecting particle sensor is disposed downstream of the particle filter in the direction of flow of the exhaust gas and wherein a measurement for the loading of the particle sensor is determined from an output signal of the particle sensor. Provision is thereby made for the temporal integral of a parameter correlating to the particle emissions of the internal combustion engine to be formed during a measurement cycle, for the measurement for the loading of the particle sensor to be associated with the integral at least one measurement point in time during the measurement cycle and for a defective particle filter to be suggested if the measurement for the loading of the particle sensor is higher than a loading threshold value associated with the integral or if the integral is lower than an integral threshold value associated with the measurement for the loading of the particle sensor. The invention further relates to a device for carrying out the method. The method and the device allow for the diagnosis of the functionality of a particle filter in the exhaust gas of an internal combustion engine during any operating conditions passed through by the internal combustion engine. | 07-22-2010 |
20100218595 | PARTICULATE FILTER AND METHOD OF USE - A particulate filter particularly suited for analytical gravimetric weighing applications is disclosed. The particulate filter includes a polytetrafluoroethylene (PTFE) media supported by a ring and yields stable microgram and submicrogram weighing results. The support ring may be PTFE, metal foil, or another non-hygroscopic polymer such that the mass of the filter does not vary with changes in atmospheric moisture. The filter simplifies the discharge of electrostatic charge buildup such that when a conductive filter media is combined with a conductive ring device, the discharge may be accomplished by placing the filter on a grounded weighing pan or other surface. The particulate filter can simplify filter identification by including identification symbols imprinted on each side of the filter media. Due to the chemically inert qualities of its components, the particulate filter is particularly suited for extraction techniques used during the detection of polycyclic hydrocarbons as is conducted in emissions and ambient air testing. | 09-02-2010 |
20110048107 | DEVICE FOR GAS ANALYSIS - A device for gas analysis includes a detector tube ( | 03-03-2011 |
20110100094 | Diagnostic Method for an Internal Combustion Engine Exhaust Gas System that includes a Particle Filter - In a method for the diagnostics of an internal combustion engine exhaust gas system that includes a particle filter, first and second sets of value vectors are determined, each including associated values for absolute pressure upstream and downstream of the particle filter, a differential pressure determined from the values of the absolute pressure, an exhaust gas volume flow through the particle filter, and a temperature of the exhaust gas volume flow. After a temperature-standardization of the pressure values, characteristics for dependence of the pressure values are generated from temperature-standardized values of the first set of value vectors and possibly stored as reference characteristics. By comparing temperature-standardized values for the absolute pressure on the inlet and outlet sides of the particle filter and the differential pressure of the second set of value vectors with reference characteristics, flow anomalies can be determined in the exhaust gas system. | 05-05-2011 |
20110120211 | ROTARY PARTICLE SENSOR ASSEMBLY AND AN AIR CLEANER HAVING IT - A rotary particle sensor assembly and an air cleaner having the rotary particle sensor assembly are disclosed. Particularly, in the present invention, regardless of the orientation of the air cleaner, the rotary particle sensor assembly can always be oriented in the direction of gravity. The rotary particle sensor assembly includes a particle sensor, which measures the pollution level of air drawn into the air cleaner. The particle sensor is supported in the air cleaner so as to be rotatable using a rotating shaft and has a weight at a predetermined position. Thus, the particle sensor can always be oriented in the direction of gravity by the weight regardless of the orientation of the air cleaner. Therefore, the present invention ensures the accuracy of measurement of the pollution level of air. | 05-26-2011 |
20110203350 | METHOD FOR MEASURING DUST CONCENTRATION IN FLOWING GAS AND DEVICE FOR MEASURING DUST CONCENTRATION IN FLOWING GAS - The present invention discloses a method and device for measuring dust concentration in flowing gas, particularly atmospheric air. Aerodynamic forces continuously position the intake nozzle ( | 08-25-2011 |
20110271740 | METHOD OF DETECTING PARTICULATES - A ceramic honeycomb filter including trapping holes forming lattices is used to detect particulates trapped in the filter. An electromagnetic wave is transmitted to the filter in a plane perpendicular to the longitudinal direction of the trapping hole. The electromagnetic wave after the electromagnetic wave passes through the filter is received and the particulates trapped in the filter are detected on the base of a received intensity of the electromagnetic wave. The electromagnetic wave has a frequency of 0.294 c/a or more and c/a or less (a represents a lattice spacing of said trapping holes and c represents the speed of light). The electromagnetic wave is irradiated to the filter wherein the particulates are not trapped and an inclined angle θ of the electromagnetic wave with respect to the lattices is changed so as to increase a received intensity of the electromagnetic wave. | 11-10-2011 |
20120090379 | SENSOR UTILIZING BAND PASS FILTERS - The invention relates to a sensor having a filter arrangement, downstream of which there is arranged a detector arrangement, and an evaluating device which is connected to the detector arrangement, the filter arrangement has at least a first filter, the suspect filter, which is configured as a band pass filter allowing the passage of a first predetermined band, the suspect band, at least one second filter, the reference filter(s), which is configured as a band pass filter allowing the passage of a second predetermined band(s), the reference band(s), and where the detector arrangement has at least one detector associated with at least one of the filters. The band passes reference filters are distributed above and below the band pass of the suspect filter. The sensor with advantage could be utilized within the IR band, and could advantageously be used to detect CO | 04-19-2012 |
20120096925 | METHOD AND ANALYZER FOR DETERMINING THE CONTENT OF CARBON-CONTAINING PARTICLES FILTERED FROM AN AIR STREAM - An improved analyzer and method of analyzing the content of carbon-containing particles in samples filtered from an air stream is presented. The air stream may be, for example and without limitation, ambient air impacted by pollution; air breathed in an occupational situation such as the atmosphere in a factory or mine; or a combustion exhaust stream such as an engine tailpipe, a chimney, or a smoke plume. The analyzer may operate without the use of bottled gases, such as unfiltered air, and may be operated to provide a very large dynamic range. | 04-26-2012 |
20120160010 | AIR-SAMPLING DEVICE AND METHOD OF USE - The present disclosure concerns embodiments of a sampling apparatus that utilizes one or more cyclone separators to collect airborne particles from the atmosphere. In one representative embodiment, the sampling apparatus includes a collection-vessel retaining member that is adapted to be removably coupled to a collection vessel. The retaining member has an air-inlet conduit for permitting air to flow through the open end of the collection vessel and an air-outlet conduit for permitting air to exit the open end of the collection vessel. The air-inlet conduit and the air-outlet conduit are configured to cause air flowing into the collection vessel to establishes a cyclonic flow path, which causes airborne particles to separate out from the air stream and collect in the collection vessel. | 06-28-2012 |
20130061659 | FILTER BYPASS - There is described a filter arrangement for a particle detector for detecting particles in an environment. The particle detector can include one or more sensors for analyzing fluid in a detection region to produce sensor output. The filter arrangement includes structure defining flow paths, for conveying fluid from the environment towards the detection region, including a first flow path, which includes a filter, and a second flow path bypassing the filter. There is also provided a mechanism for controlling relative flow rates of fluid through the first flow path and the second flow path and a controller configured to receive the sensor output corresponding to at least two relative flow rates and apply logic thereto to generate an output indicative of a condition of the filter. | 03-14-2013 |
20130067993 | Apparatus and Method for Aerosol Collection and Fluid Analysis - An apparatus for aerosol collection and fluid analysis includes a rotary motor, an aerosol-collection disk configured for mounting on the rotary motor, and a fluid-analysis disk that is also configured for mounting on the rotary motor. The aerosol-collection disk includes at least one interior inlet, at least one peripheral outlet and a passage coupling the interior inlet with the peripheral outlet, and a particle collector opposite the peripheral outlet. The fluid-analysis disk includes at least one fluid in each of a first reservoir and in a second reservoir on or in the fluid-analysis disk and offset from a central axis of the disk, wherein each reservoir has an outlet and a stopper in the outlet of each reservoir to seal the reservoirs; and release of the fluids from the reservoirs is spin-induced. | 03-21-2013 |
20130125623 | PARTICULATE FILTER AND METHOD OF USE - A particulate filter particularly suited for analytical gravimetric weighing applications is disclosed. The particulate filter includes a polytetrafluoroethylene (PTFE) media supported by a ring and yields stable microgram and submicrogram weighing results. The support ring may be PTFE, metal foil, or another non-hygroscopic polymer such that the mass of the filter does not vary with changes in atmospheric moisture. The filter simplifies the discharge of electrostatic charge buildup such that when a conductive filter media is combined with a conductive ring device, the discharge may be accomplished by placing the filter on a grounded weighing pan or other surface. The particulate filter can simplify filter identification by including identification symbols imprinted on each side of the filter media. Due to the chemically inert qualities of its components, the particulate filter is particularly suited for extraction techniques used during the detection of polycyclic hydrocarbons as is conducted in emissions and ambient air testing. | 05-23-2013 |
20130174643 | MEASUREMENT OF PARTICLE MORPHOLOGY USING FILTRATION - A system and method for characterizing a totality of particles selects a class of the totality of particles having a defined mobility; determines the total particle concentration of the class of particles; filters the class of particles using the filter apparatus and determines a filtered particle concentration indicative of the particles of the class which penetrate the filter apparatus; and determines at least one morphological parameter based on the fraction of particles of a class penetrating the filter apparatus. | 07-11-2013 |
20130192341 | PARTICLE PRECIPITATOR - A particle separation system for separating particles in an airflow upstream of a detection chamber in an aspirating smoke detector is disclosed. The particle separation system includes an airflow path for directing the airflow from an inlet to an outlet. The airflow path includes a first airflow path section in a first direction and a second airflow path section in a second direction, the first and second directions being different relative to each other. The airflow path also includes at least one electrically charged surface such that the airflow undergoes electrostatic precipitation as it traverses the airflow path. A method of separating particles in an airflow upstream of a detection chamber in an aspirating smoke detector is also disclosed. | 08-01-2013 |
20130199270 | DUST DISCRIMINATION FOR SENSING SYSTEMS - A sensing system and method for detecting particles in an air volume includes a main airflow path including an inlet from the air volume. Also included is a collection site within the main airflow path. The collection site is for drawing an air sample from the main airflow path. Additionally the system includes a means to induce a localized increase in particle speed at the collection site relative to air speed along the remainder of the main airflow path. The means to induce a localized increase includes an auxiliary airflow path from the main airflow path. The auxiliary airflow path has an exit upstream of the collection site. In an alternative form of the invention, the means to induce the localized increase in particle speed at the collection site comprises a venturi in the main airflow path with the collection site being disposed along the venturi. | 08-08-2013 |
20130199271 | METHOD AND DEVICE FOR DETECTING EXPLOSIVE-SUBSTANCE PARTICLES IN A GAS FLOW - A method for detecting explosive substance particles in a gas flow includes passing the gas flow through an adsorption net for a specified time period so as to adsorb explosive-substance particles in the gas flow on the adsorption net. The adsorption not includes a microfilter having a pore size that is smaller than the particle size of the explosive-substance particles. The adsorption net is heated to a heating temperature so as to desorb the explosive-substance particles from the adsorption net. A gas flow comprising the desorbed explosive-substance particles is supplied to a detector so as to detect the explosive-substance particles. | 08-08-2013 |
20130213115 | METHODS AND APPARATUS FOR DETECTING PARTICLES ENTRAINED IN FLUIDS - Apparatus and methods for size-specific detection of particles entrained in fluids are provided. A particle size selector separates particles entrained in a sample fluid stream using a curved channel. Shroud fluid streams are interposed between the sample fluid stream and walls of the channel. Centrifugal forces arising from fluid flow through the curved channel separate differently-sized particles into different transverse sections of the channel. A detector downstream from the particle size selector specifically detects particles in one or more transverse sections of the channel. | 08-22-2013 |
20130276514 | METHOD AND SYSTEM FOR CONTROLLING A FILTER - According to the method for controlling a filter ( | 10-24-2013 |
20130276515 | MEASURING DEVICE FOR DUST IN FLUE GAS - A measuring device ( | 10-24-2013 |
20140060155 | SYSTEM AND METHOD FOR THE CONCENTRATED COLLECTION OF AIRBORNE PARTICLES - A system and a method is described herein for the collection of small particles in a concentrated manner, whereby particles are deposited onto a solid surface or collected into a volume of liquid. The collected samples readily interface to any of a number of different elemental, chemical, or biological or other analysis techniques. | 03-06-2014 |
20140260542 | ANALYZER FOR SUBSTANCE - Provided is an analyzer for a substance, including: a first particle holding unit having a tubular shape; a first intake pipe for sucking a gas from an upper side of the first particle holding unit to cause a cyclonic phenomenon inside the first particle holding unit; a first supply pipe for supplying a sample containing particles, the first supply pipe being connected to a side surface of the first particle holding unit; a first flow control unit for controlling a flow rate of a gas flowing into the first particle holding unit to hold the rotationally moving particles inside the first particle holding unit for a predetermined time period and then cause the particles to settle, the first flow control unit being connected to a lower part of the first particle holding unit; a first collection heating unit for collecting and heating the settled particles; and an analysis unit for analyzing a substance vaporized from the particles through the heating by the first collection heating unit, the analysis unit being connected to the first collection heating unit through a pipe. | 09-18-2014 |
20150308930 | PARTICLE MEASURING DEVICE AND METHOD FOR OPERATING THE PARTICLE MEASURING DEVICE - In order to effectively protect a particle measuring device ( | 10-29-2015 |
20150362468 | Low Pressure Biogas Sample Takeoff and Conditioning System - A temperature and pressure regulating biogas sample extraction system and method for providing a conditioned biogas sample for constituent analysis. | 12-17-2015 |
20160116390 | METHOD AND APPARATUS FOR A PORTABLE PM2.5 MONITORING DEVICE - The disclosure is directed at apparatus for portable PM2.5 monitoring including a PM2.5 sampling device including a housing portion for collecting and separating air-borne particulate matter, an inlet port, connected to the housing portion, for receiving the air-borne particulate matter, a core portion, located within the housing portion, the core portion assisting in generating a cyclonic airflow pattern to produce a uniflow system for separating particulate matter below a predetermined size from particulate matter above a predetermined size within the air-borne particulate matter, and an outlet port for receiving the particulate matter below the predetermined size; a particle counter, connected to the outlet port, for receiving the particulate matter smaller than the predetermined size and for determining a mass of the particulate matter below the predetermined size; and a processor for determining a PM2.5 level based on the mass of the particulate matter below the predetermined size. | 04-28-2016 |
20160187232 | ANALYSIS APPARATUS - In order to remove dust attached to a filter member | 06-30-2016 |
073280050 | Impactor | 9 |
20090056417 | PARTICULATE MONITOR - A particulate monitor includes a housing, an air-moving device coupled to the housing, and an air passageway disposed at least partially within the housing. The air-moving device is operable to create an airflow through the air passageway. The particulate monitor also includes a real-time measuring device positioned at least partially within the housing and in fluid communication with the air passageway and a particulate collection device positioned at least partially within the housing and in fluid communication with the air passageway. The collection device is positioned downstream of the real-time measuring device. | 03-05-2009 |
20090320562 | PARTICULATE MONITOR - A particulate monitor includes a housing, an air-moving device coupled to the housing, and an air passageway disposed at least partially within the housing. The air-moving device is operable to create an airflow through the air passageway. The particulate monitor may include a real-time measuring device positioned at least partially within the housing and in fluid communication with the air passageway and a particulate collection device positioned at least partially within the housing and in fluid communication with the air passageway. A collection device may be positioned downstream of the real-time measuring device. At least one impactor may be movably coupled to the housing to be movable between a first position adjacent the air passageway and a second position displaced from the air passageway | 12-31-2009 |
20110209528 | Nozzle plate containing multiple micro-orifices for cascade impactor and method for manufacturing the same - A nozzle plate containing multiple micro-orifices for the cascade impactor and a method for manufacturing the same are disclosed. The nozzle plate is formed by a series of semiconductor processes, including lithography, etching and electroplating. The nozzle plate comprises a plate body and a plurality of micro-orifices formed on the plate body. The orifice has a diameter which gradually expands in the direction away from the bottom of the plate body to achieve a smooth inner surface, allowing particles to pass therethrough smoothly without being clogged in the nozzle plate. | 09-01-2011 |
20110252869 | PARTICULATE MONITOR - A particulate monitor includes a housing, an air-moving device coupled to the housing, and an air passageway disposed at least partially within the housing. The air-moving device is operable to create an airflow through the air passageway. The particulate monitor may include a real-time measuring device positioned at least partially within the housing and in fluid communication with the air passageway and a particulate collection device positioned at least partially within the housing and in fluid communication with the air passageway. A collection device may be positioned downstream of the real-time measuring device. At least one impactor may be movably coupled to the housing to be movable between a first position adjacent the air passageway and a second position displaced from the air passageway | 10-20-2011 |
20120304740 | APPARATUS FOR METALLIC PARTICULATE QUANTIFICATION - Some embodiments relate to an apparatus for metallic particulate detection. The apparatus comprises: an entry stage defining an input chamber to receive an element having particulate matter thereon; a sensor defining a passage in fluid communication with the input chamber to receive the particulate matter from the input chamber and to detect the particles in the particulate matter; a vented recovery stage defining a recovery chamber to receive and capture at least some of the particulate matter passing through the passage; and at least one air outlet positioned in the input chamber to direct pressurised air from the at least one air outlet to impinge on the element to remove the particulate matter from the element. | 12-06-2012 |
20140013823 | METHOD AND APPARATUS TO ENHANCE COLLECTION OF PARTICLES IN PARTICULATE MASS MEASUREMENT DEVICE - A particulate mass measuring device of the beta attenuation type featuring a sheath air plenum from which a radial sheath airflow pathway extends which is in fluid communication with an ambient air chamber. The radial sheath airflow from the radial sheath airflow pathway merges with an axial ambient airflow from the ambient air chamber deflecting particulate matter from surfaces of the ambient air chamber thereby increasing the accuracy of particulate mass measurements. The radial sheath airflow is particle free or substantially particle free. In other embodiments, the radial sheath airflow is used to deflect particulate matter in other particulate mass measuring devices, such as those that measure particulate mass in liquid and gas samples. | 01-16-2014 |
20140053630 | IMPACTOR AND METHOD FOR CHARACTERIZING A CARRIER GAS ENRICHED WITH SUSPENDED PARTICLES - In the case of an impactor ( | 02-27-2014 |
20140123730 | VARIABLE FLOW PATH WIDTH VIRTUAL IMPACTOR AND PARTICLE DETECTING DEVICE - A virtual impactor includes a jet nozzle that jets, from a jet outlet, a gas that contains particles, an opposing nozzle that is disposed with a specific separation distance from the jet nozzle and draws in, as a secondary flow, from a vacuum inlet at one end portion, a portion of the gas that is jetted from the jet nozzle, and a variable mechanism that varies at least one of a width of the jet outlet, the specific distance, and a width of the vacuum inlet. | 05-08-2014 |
073280060 | Fractionalizing | 1 |
20090288475 | Skimmer for Concentrating an Aerosol - A skimmer device for concentrating an aerosol from a flowing gas stream, having an inlet with inlet aperture and inlet raceway, an outlet with virtual impact void and collector channel, and bulk flow divertors symmetrically disposed on either side of the long axis of flow, further characterized in that the downstream walls of the bulk flow divertors are concavedly curved and reverse the direction of bulk flow. In section, the four channels or passages of the “skimmer” thus form a “crossed tee” with concavedly contoured lateral arms curving back around. The lateral flow channels are for diverting the bulk flow into exhaust chimney spaces, and the chimney spaces are positioned proximate to the inlet element and anterior to the collection channel. In operation, the bulk flow streamlines are thereby folded more than 90 degrees away from the long axis of flow on the laterally disposed concave walls of the bulk flow channels. While counterintuitive, this was found using computational fluid dynamics (CFD) and experimentation to dramatically reduce wall separation and related instabilities and to improve particle recoveries. Large two-dimensional arrays of closely stacked inlet and skimmer elements are thus achieved by fitting the chimneys into spaces between parallel inlet elements. The interlinked problems of flow instability, manufacturability of arrays, and scale-up of chimney cross-sectional area to equalize pressure differentials in the bulk flow diverter exhaust ducts, particularly in two-dimensional arrays at high throughput, are uniquely solved with this geometry. | 11-26-2009 |