And Filtering Patents (Class 95/268)
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Patent number: 6712884Abstract: A particle trap, such as in a honeycomb body, for separating particles out of an exhaust gas flow, includes a flow channel. An exhaust gas flow which includes particles flows through the flow channel. Internals, such as projections, humps, protuberances or the like are situated on one side of the flow channel. An opposite region of a channel wall is completely or partially porous. When a flow of exhaust gas which includes particles flows through the particle trap, the particles are diverted toward the porous channel wall, to which they adhere. They can then be removed again by regeneration. The particle trap and an associated process for separating particles out of an exhaust gas flow, are particularly advantageous when used in the exhaust system of an internal-combustion engine, in particular a diesel engine, specifically and advantageously in combination with a soot filter.Type: GrantFiled: December 27, 2002Date of Patent: March 30, 2004Assignee: EMITEC Gesellschaft fuer Emisssionstechnologies GmbHInventors: Rolf Brück, Meike Reizig, Peter Treiber
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Patent number: 6706095Abstract: Cyclonic separating apparatus (10) comprises a cyclone body (12) having an inlet (16) for introducing dirt-laden air into the cyclone body (12) in a tangential manner. A central outlet (18) is provided for conducting cleaned air out of the cyclone body (12). The apparatus (10) further comprises a dirt-collecting chamber (14) having an entry portion (30) communicating with the interior of the cyclone body (12) and a collecting portion (32). The apparatus (10) further comprises an air return duct (42) having a first end communicating with the collecting portion (32) of the dirt-collecting chamber (14) and a second end communicating with the interior of the cyclone body (12). This arrangement allows a proportion of the main airflow to be bled into the dirt-collecting chamber (14) and returned to the cyclone body (12) without passing back along the entry portion (30).Type: GrantFiled: June 21, 2002Date of Patent: March 16, 2004Assignee: Dyson LimitedInventor: Hywel Douglas Morgan
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Patent number: 6673135Abstract: A system and a method for separating interdispersed gas and liquid components of an inlet stream includes introducing the inlet steam into a vessel having a dry gas outlet and a liquid outlet, passing the inlet stream into at least one vortex tube supported within the vessel, the vortex tube having a gas outlet and a liquid outlet, rapidly rotating the inlet stream within the vortex tube to separate entrained liquid and passing reduced moisture outlet gas from the vortex tube into the interior of the vessel and passing the outlet gas through a mist eliminator within the vessel to provide gas that is passed out the vessel dry gas outlet.Type: GrantFiled: February 8, 2002Date of Patent: January 6, 2004Assignee: National Tank CompanyInventor: Hugh M. West
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Publication number: 20030233938Abstract: A bagless vacuum cleaner system dustcup assembly and method for using said system with a vacuum cleaner apparatus to separate dirt from a mixture of dirt and air inducted into said vacuum cleaner apparatus. Said bagless vacuum cleaner system generally comprises a dustcup assembly, a handle assembly and a motor intake adaptor.Type: ApplicationFiled: May 5, 2003Publication date: December 25, 2003Inventors: Arnold L. Sepke, Joseph Muclahy, Joyce Thomas
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Patent number: 6627166Abstract: The invention concerns a device for filtering gas comprising a microporous or microfibrous adsorbent filter (6) and means for forcing an air flow between an exhaust hood (2) and outlet duct (3) for the filtered air. The invention is characterized in that it comprises liquid spraying means (18) and centrifuging means arranged between the spray means and the filtered gas outlet. The particles wetted by the sprayer are blocked by the internal rotary filter and discharged with the carrier liquid towards an external container (10).Type: GrantFiled: April 12, 2001Date of Patent: September 30, 2003Inventor: François Simon
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Publication number: 20030164093Abstract: A two stage air purification system is provided for the removal of airborne impurities from an airflow prior to the airflow entering a building's ductwork. In particular, a primary air filter is mounted within the hood of, for example, a cooking area and operable to receive grease-laden air and remove a portion of the impurities. The air is then sent to a secondary filter, also mounted within the hood, that removes additional impurities. The air is then sent through the building's ductwork and eventually out the building.Type: ApplicationFiled: March 1, 2002Publication date: September 4, 2003Inventors: Kyle A. Brownell, Scott W. Mathews, Alan Lorenz Breitenfeldt, Emery W. Neitzel
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Publication number: 20030150324Abstract: A system and a method for separating interdispersed gas and liquid components of an inlet stream includes introducing the inlet steam into a vessel having a dry gas outlet and a liquid outlet, passing the inlet stream into at least one vortex tube supported within the vessel, the vortex tube having a gas outlet and a liquid outlet, rapidly rotating the inlet stream within the vortex tube to separate entrained liquid and passing reduced moisture outlet gas from the vortex tube into the interior of the vessel and passing the outlet gas through a mist eliminator within the vessel to provide gas that is passed out the vessel dry gas outlet.Type: ApplicationFiled: February 8, 2002Publication date: August 14, 2003Inventor: Hugh M. West
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Patent number: 6576045Abstract: A diesel particulate collector (10) based on the principles of inertial impaction, virtual impaction, and filtration, for controlling exhaust emissions (12) from a diesel internal combustion engine (14) includes a housing (16) having a first plate (24) with a plurality of nozzles (26) directing exhaust flow therethrough, a first impactor (28) causing particle separation and a change of flow direction, a second plate (30) having a second set of nozzles (32) directing exhaust flow therethrough, and a second impactor (34) causing particle separation and a change of flow direction, in a first of multiple stages in a sequential cascaded separation and collection system.Type: GrantFiled: September 10, 2001Date of Patent: June 10, 2003Assignee: Fleetguard, Inc.Inventors: Z. Gerald Liu, C. Raymond Cheng
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Publication number: 20030097934Abstract: A particle trap, such as in a honeycomb body, for separating particles out of an exhaust gas flow, includes a flow channel. An exhaust gas flow which includes particles flows through the flow channel. Internals, such as projections, humps, protuberances or the like are situated on one side of the flow channel. An opposite region of a channel wall is completely or partially porous. When a flow of exhaust gas which includes particles flows through the particle trap, the particles are diverted toward the porous channel wall, to which they adhere. They can then be removed again by regeneration. The particle trap and an associated process for separating particles out of an exhaust gas flow, are particularly advantageous when used in the exhaust system of an internal-combustion engine, in particular a diesel engine, specifically and advantageously in combination with a soot filter.Type: ApplicationFiled: December 27, 2002Publication date: May 29, 2003Inventors: Rolf Bruck, Meike Reizig, Peter Treiber
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Patent number: 6558453Abstract: A bagless vacuum cleaner system dustcup assembly and method for using said system with a vacuum cleaner apparatus to separate dirt from a mixture of dirt and air inducted into said vacuum cleaner apparatus. Said bagless vacuum cleaner system generally comprises a dustcup assembly, a handle assembly and a motor intake adaptor.Type: GrantFiled: January 12, 2001Date of Patent: May 6, 2003Assignee: White Consolidated Industries, Inc.Inventors: Arnold L. Sepke, Joseph Muclahy, Joyce Thomas
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Patent number: 6547856Abstract: A vacuum cleaner having a reduced velocity chamber with a high velocity air inlet, an electric motor, a rotary blade driven by the motor to create a vacuum in the chamber, an outlet for exhausting air from the chamber, which air flows in a selected path from the air inlet, through the chamber and out the air exhaust outlet and a disposable porous sheet filter layer in the chamber for removing large solid particles from the air.Type: GrantFiled: July 17, 2002Date of Patent: April 15, 2003Assignee: HMI Industries, Inc.Inventor: Mark A. Cartellone
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Publication number: 20030047074Abstract: A diesel particulate collector (10) based on the principles of inertial impaction, virtual impaction, and filtration, for controlling exhaust emissions (12) from a diesel internal combustion engine (14) includes a housing (16) having a first plate (24) with a plurality of nozzles (26) directing exhaust flow therethrough, a first impactor (28) causing particle separation and a change of flow direction, a second plate (30) having a second set of nozzles (32) directing exhaust flow therethrough, and a second impactor (34) causing particle separation and a change of flow direction, in a first of multiple stages in a sequential cascaded separation and collection system.Type: ApplicationFiled: September 10, 2001Publication date: March 13, 2003Inventors: Z. Gerald Liu, C. Raymond Cheng
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Patent number: 6511595Abstract: A means separates solid matter from liquid and includes a perforated separation panel through which the liquid can pass and which prevents the passage of the solid matter of a size larger than a predetermined size. When solid matter becomes located against the panel, the flow of liquid along the face of the panel on which the solid matter is located will tend to cause the solid matter to move from the panel so that the panel is self cleaned and does not become obstructed by the solid matter.Type: GrantFiled: August 29, 2001Date of Patent: January 28, 2003Inventors: Stephen Crompton, Paul Blanche
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Publication number: 20020194993Abstract: A vacuum cleaner includes a container having an inlet for dirty air, an outlet for clean air, a coarse dust chamber and a fine dust chamber. The coarse dust chamber includes a filtering tube disposed within a rotary cylinder. The fine dust chamber includes a rotary cone. Air containing dust is drawn into the coarse dust chamber and supplied into the gap between the cylinder's inner surface and the filtering tube's outer surface. The air is rotated within the coarse dust chamber to force coarse dust to travel away from the chamber's center and air containing only fine dust travels through the filtering tube. This air is supplied into the rotary cone within the fine dust chamber and is rotated to force fine dust away from the chamber's center. Dust free air, which is travelling in the center of the rotary cone, is supplied out of the filter as clean air.Type: ApplicationFiled: June 22, 2001Publication date: December 26, 2002Inventor: Ni Zu Gen
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Publication number: 20020189451Abstract: Cyclonic separating apparatus (10) comprises a cyclone body (12) having an inlet (16) for introducing dirt-laden air into the cyclone body (12) in a tangential manner. A central outlet (18) is provided for conducting cleaned air out of the cyclone body (12). The apparatus (10) further comprises a dirt-collecting chamber (14) having an entry portion (30) communicating with the interior of the cyclone body (12) and a collecting portion (32). The apparatus (10) further comprises an air return duct (42) having a first end communicating with the collecting portion (32) of the dirt-collecting chamber (14) and a second end communicating with the interior of the cyclone body (12). This arrangement allows a proportion of the main airflow to be bled into the dirt-collecting chamber (14) and returned to the cyclone body (12) without passing back along the entry portion (30).Type: ApplicationFiled: June 21, 2002Publication date: December 19, 2002Inventor: Hywel Douglas Morgan
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Publication number: 20020178919Abstract: A method and system for removing particles from a particulate laden gas stream through the use of centripetal and centrifugal forces. A rotating shaft and brushes create centrifugal force upon particulates within the gas, while a centripetal force created by a pressure differential, directs the gas radially inward. The centripetal force may be created and maintained by self-pumping means driven by a rotating shaft. Rinsing means are provided for periodically rinsing particles accumulated within the bristles.Type: ApplicationFiled: July 18, 2002Publication date: December 5, 2002Inventor: Charles C. Miles
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Patent number: 6488744Abstract: A vacuum cleaner having a reduced velocity chamber with a high velocity air inlet, an electric motor, a rotary blade driven by the motor to create a vacuum in the chamber, an outlet for exhausting air from the chamber, which air flows in a selected path from the air inlet, through the chamber and out the air exhaust outlet and a disposable porous sheet filter layer in the chamber for removing large solid particles from the air.Type: GrantFiled: March 19, 2001Date of Patent: December 3, 2002Assignee: HMI Industries, Inc.Inventor: Mark A. Cartellone
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Publication number: 20020170432Abstract: A vacuum cleaner having a reduced velocity chamber with a high velocity air inlet, an electric motor, a rotary blade driven by the motor to create a vacuum in the chamber, an outlet for exhausting air from the chamber, which air flows in a selected path from the air inlet, through the chamber and out the air exhaust outlet and a disposable porous sheet filter layer in the chamber for removing large solid particles from the air.Type: ApplicationFiled: July 17, 2002Publication date: November 21, 2002Applicant: HMI Industries, Inc., a Delaware corporationInventor: Mark A. Cartellone
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Patent number: 6478856Abstract: The present invention is drawn to an apparatus and method for collection, sorting, concentrating and impinging particles on a surface, primarily for use in detecting and classifying chemicals, particles, vira, and bacteria in fluids. In addition to mechanical and aerodynamic filtering, the present invention uses isokinetic filtering to acquire particles of interest by creating a local vortex in the fluid through use of a dam element at a high angle of attack. This isokinetically sorts particles by density and aerodynamic diameter.Type: GrantFiled: May 26, 2000Date of Patent: November 12, 2002Inventors: Stephen Leibholz, Sir John Manniello
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Publication number: 20020129706Abstract: A vacuum cleaner having a reduced velocity chamber with a high velocity air inlet, an electric motor, a rotary blade driven by the motor to create a vacuum in the chamber, an outlet for exhausting air from the chamber, which air flows in a selected path from the air inlet, through the chamber and out the air exhaust outlet and a disposable porous sheet filter layer in the chamber for removing large solid particles from the air.Type: ApplicationFiled: March 19, 2001Publication date: September 19, 2002Applicant: HMI Industries, Inc., a Delaware corporationInventor: Mark A. Cartellone
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Patent number: 6413300Abstract: A roof bolt machine comprising a quartz trapping device adapted to connect with an exhaust stream of a dust system circuit of a roof bolt machine for reducing the amount of respirable dust and respirable quartz that is released into the environment from the exhaust stream. The quartz trapping device comprises, a container partially filled with a liquid, at least one inlet mounted on said container and adapted to connect the container with the dust system circuit of the roof bolt machine for directing the dust exhaust stream inside the container and a plurality of downward extending and upward extending baffles arranged in an alternating configuration.Type: GrantFiled: September 24, 1999Date of Patent: July 2, 2002Inventors: Charles Larry Bane, James Dewayne Kinder
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Patent number: 6368386Abstract: The present disclosure relates to systems and methods that use a hydrophobic medium to remove salt and moisture from the intake air of a gas turbine system. The disclosure also relates to systems and methods that use a two stage filtering process to remove particulate material, salt and moisture from the intake air of a gas turbine system. Particulate material is filtered from the intake air at a first stage air cleaner. Subsequently, salt and moisture are removed from the intake air at a second stage salt barrier located downstream from the first stage air cleaner. In certain embodiments, the second stage salt barrier uses a hydrophobic medium to remove salt and moisture from the intake air.Type: GrantFiled: July 10, 2000Date of Patent: April 9, 2002Assignee: Donaldson Company, Inc.Inventors: Benny Kevin Nelson, Mark Alan Gogins
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Patent number: 6361616Abstract: A method of cleaning a pipeline for transporting a fluid without interrupting the fluid flowing through the pipeline, including applying suction to remove a mixture of the fluid and debris from the pipeline, separating the debris from the fluid, and re-injecting the fluid separated from the debris into the pipeline.Type: GrantFiled: November 15, 1999Date of Patent: March 26, 2002Assignee: Transco PLCInventor: Michael Rose
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Patent number: 6350299Abstract: An air/oil separator used with a closed loop oil seal system for a liquid ring vacuum pump, which incorporates a multi-chambered design for facilitating multiple stages of oil particulate separation is disclosed. The separator includes a rectangular reservoir tank and a tubular internal filter housing, which supports a filter element inside the reservoir tank. The filter housing extends horizontally inside the reservoir tank with an open distal end disposed within the reservoir tank and a closed proximal end protrudes from the proximal end wall of the reservoir tank. Extending horizontal across substantially the length of the reservoir tank, the filter housing and two internal baffle plates divide the reservoir tank into an upper inlet chamber and two collection chambers.Type: GrantFiled: February 28, 2000Date of Patent: February 26, 2002Assignee: Dekker Vacuun Technologies, Inc.Inventors: Jan D. Dekker, Rick-Jan Dekker, Gerald G. Geenen
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Patent number: 6299667Abstract: A method and device for removing dust from spaces having a high dust loading utilizing a blast jet chamber having a cartridge filter (2) for the exhaust volume flow and a cyclone dust separator (4) as well and an associated exhaust stack (3) for the recirculating volume flow, wherein the blast jet chamber (1) further includes intake labyrinths (6), fresh air shutters (5), recirculating air channels for the recirculating volume flow, and blowers (9, 10) with a control device (8) for producing the volume flows.Type: GrantFiled: December 20, 1999Date of Patent: October 9, 2001Assignee: KF Strahltechnik DresdenInventor: Klaus Frohne
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Publication number: 20010018865Abstract: A vacuum cleaner having a dirt collecting system including a latch to seal a positively pressurized dirt cup. The latch also serves to secure the dirt cup to the cleaner housing when in the closed position. The dirt cup is formed with a first dirt collecting chamber and a second dirt collecting chamber separated by an apertured wall. An inlet opening is formed in the dirt cup and communicates with the first dirt collecting chamber for inputting a stream of dirt laden air into the first dirt collecting chamber. An exhaust opening is formed in the second dirt collecting chamber for allowing the filtered air stream to exit the dirt cup. The aperture wall includes a pre-filter for filtering coarse particles from a stream of dirt laden and depositing the coarse particles in the first dirt collecting chamber. A filter member is positioned within the second dirt collecting chamber and communicates with the exhaust port.Type: ApplicationFiled: December 7, 2000Publication date: September 6, 2001Inventors: Jackson W. Wegelin, Greg A. Bilek, Nick M. Bosyj, John C. Porter
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Patent number: 6284025Abstract: A particle microtrap screen apparatus has an inlet, a jet orifice screen with multiple microjet orifices, and a microtrap plate having multiple microtraps spaced opposite the multiple microjet orifices for entrapping particles entrained by the jets and then released by the gas, and impacting in the microtraps with the energy imparted by the gas as the gas turns and flows between the jet orifice screen and the microtrap impact plate. Collection efficiencies of greater than 90% of particles, about 2 micrometers or larger in size, are experienced with pressure drops of less than 5 millimeters of water. The pressure drop does not increase upon increased loading with particles. The jet orifices have widths of D, about 0.5 millimeters, with spacing between orifices of about 5D and trap width and depth of about 4D and 2D, respectively, with about 2D spacing between the jet orifice screen and the microtrap plate.Type: GrantFiled: October 5, 1999Date of Patent: September 4, 2001Assignee: Aerosol Dynamics, Inc.Inventors: Nathan Kreisberg, Susanne V. Hering
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Patent number: 6264728Abstract: An improved apparatus and method of operation for separating contamination material from an air stream flow of cotton fibers, the apparatus including a primary chamber having continuous walls, the primary chamber positionable within the air stream of cotton fibers and foreign matter. The chamber may be cylindrical with the continuous walls having a plurality of holes forming porous sides extending the length of the cylindrical chamber. A secondary enclosure is utilized, the secondary enclosure is located adjacent to the primary chamber and below the porous side walls, the secondary enclosure receives foreign matter separated from the air stream of cotton fibers. The air stream flow and cotton fibers are directed through the primary chamber, with foreign matter displaced through the pores formed in the walls of the primary chamber.Type: GrantFiled: November 12, 1999Date of Patent: July 24, 2001Inventor: Todd R. Purvis
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Patent number: 6251168Abstract: A high-efficiency secondary cyclone separator used in combination with a high-efficiency primary separator produces a gas stream having low liquid content in gas for a feed stream having either a high or low liquid loading. A high surface area to volume coalescing material is combined with the secondary cyclone separator to create a more efficient gas-oil centrifugal separator system.Type: GrantFiled: July 23, 1999Date of Patent: June 26, 2001Assignees: Hudson Products Corporation, McDermott Technology, Inc.Inventors: Daniel P. Birmingham, Gregory C. Rush
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Patent number: 6245133Abstract: A gas condensing and cooling system for cooling hot vaporous emissions from a hot vaporous emissions source to a level below prescribed regulatory limits that includes a cooling unit that operates using a readily available pressurized natural gas as the refrigerant element within the cooling unit and includes a multi-chamber condenser unit having a number of chambers each containing a volume of porous rock suspended above a liquid barrier.Type: GrantFiled: June 3, 1999Date of Patent: June 12, 2001Inventor: Reed L. Bourgeois
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Patent number: 6206953Abstract: A fluid separator for separating a liquid such as oil/water from air delivered from a compressor during the condensate drain cycle of the compressor.Type: GrantFiled: January 8, 1998Date of Patent: March 27, 2001Inventor: Jonathan F. Bangs
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Patent number: 6168647Abstract: The present invention relates to an apparatus for separating liquids and solids from a gas stream and simultaneously coalescing liquids from the gas stream. The apparatus includes a closed vessel having a longitudinally extending length, an initially open interior, an input port at an extent and an output port at an opposite extent thereof. There is a partition located within the vessel interior that divides the vessel interior into a first stage and a second stage. There is at least one opening in the partition. A separator/coalescer filter element is disposed within the vessel to sealingly extend from within the first stage through the opening into the second stage. There is a chevron-type seal or an O-ring seal between the filter element and the opening.Type: GrantFiled: January 26, 1999Date of Patent: January 2, 2001Assignee: Perry Equipment CorporationInventors: Marney Dunman Perry, Jr., Stephen A. von Phul, John A. Krogue, David J. Burns
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Patent number: 6165373Abstract: An oil suction filter having an enclosed housing with a base surface and an oil intake opening, a top surface with an oil discharge opening, and a filter usually in the form of a filter cloth in the housing between the intake opening and the outlet. In one form, an oil diverting device at least partially surrounds the oil intake opening. In another form, an oil flow diverting device is provided at either or both of the oil intake opening and the oil outlet. In another form, an oil filter cloth has various densities, thicknesses or layers that control the flow. All the foregoing is for the purpose of minimizing formation of large air bubbles passing through the suction filter. Further, beads in the housing may keep the filter cloth off the base surface.Type: GrantFiled: October 8, 1999Date of Patent: December 26, 2000Assignee: Luk Fahrzeug-Hydraulik GmbH & Co., KGInventor: Ivo Agner
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Patent number: 6123751Abstract: The present disclosure relates to systems and methods that use a hydrophobic medium to remove salt and moisture from the intake air of a gas turbine system. The disclosure also relates to systems and methods that use a two stage filtering process to remove particulate material, salt and moisture from the intake air of a gas turbine system. Particulate material is filtered from the intake air at a first stage air cleaner. Subsequently, salt and moisture are removed from the intake air at a second stage salt barrier located downstream from the first stage air cleaner. In certain embodiments, the second stage salt barrier uses a hydrophobic medium to remove salt and moisture from the intake air.Type: GrantFiled: June 9, 1998Date of Patent: September 26, 2000Assignee: Donaldson Company, Inc.Inventors: Benny Kevin Nelson, Mark Alan Gogins
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Patent number: 6099622Abstract: An agglomeration and precipitation assembly which includes an agglomeration device in combination with a precipitation device. The agglomeration device is intended to receive a turbulent gas stream containing fine suspended particles and to discharge the stream in which the major part of the fine particles have agglomerated in the form of larger particles. The precipitation device is provided downstream of the agglomeration device to receive the stream coming from the agglomeration device and to separate the larger particles from the gas stream. The fine particles can be separated from a turbulent gas stream by first agglomerating the fine particles in the form of larger particles, and then separating the larger particles by precipitation.Type: GrantFiled: August 9, 1999Date of Patent: August 8, 2000Assignee: Institut Francais du PetroleInventor: Francis A. L. Dullien
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Patent number: 6090184Abstract: A vacuum cleaner having a reduced velocity chamber with a high velocity air inlet, an electric motor, a rotary mechanism driven by the motor for creating a vacuum in the chamber, an outlet for exhausting air from the chamber, which air flows in a selected path from the air inlet, through the chamber and out the air exhaust outlet and a disposable porous sheet filter layer in the chamber for removing large solid particles from the air. The vacuum cleaner also has an improved filter, wherein the improved filter includes a layer of material to remove very fine air particles and a layer of material to remove odors from the air.Type: GrantFiled: February 27, 1998Date of Patent: July 18, 2000Assignee: HMI Industries, Inc.Inventor: Mark A. Cartellone
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Patent number: 5976224Abstract: A method of separating unburned Carbon, as particulate matter, from the flyash produced as a result of the combustion process occurring in a pulverized-coal fired steam generating power plant is disclosed. More particularly the invention separates the flyash into a coarse product group and a fine product group by utilizing the differences in specific gravity between the Carbon particles and remaining flyash as well as utilization of the dynamic classification characteristics of a rotary classifier to effect the separation whereby at least one of the two product groups comprises a relatively low weight percentage of unburned Carbon while yet comprising a relatively high percentage of the total mass of product recovered after separation.Type: GrantFiled: May 4, 1998Date of Patent: November 2, 1999Inventors: James F. Durant, Glen D. Jukkola, Michael S. McCartney, Nicole M. Phyfe, Reed S. C. Rogers, Gregory R. Strich
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Patent number: 5972229Abstract: A method for filtering out particles from a fluid is disclosed, wherein unfiltered fluid is guided into a filter housing of a filter apparatus and filtered fluid is guided from the filter housing, and wherein a rotary filter element, which has a filter structure and is arranged in the filter housing and is rotatable about an axis thereof, is rotated at a speed which is sufficiently high that all particles passing in a fluid flow into the area of the rotary filter element are affected by its structure and are ejected therefrom, whereas the fluid passes the structure of the rotary filter element substantially freed from the particles and flows off from the filter housing.Type: GrantFiled: May 14, 1998Date of Patent: October 26, 1999Assignee: Nyfotek ASInventor: Eric Gustaf Lundin
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Patent number: 5958111Abstract: A method for the collection of solid or liquid particles suspended in air (aerosol). The method involves abstracting a quantity of air through a curved, porous plate with evenly spaced holes which are designed to give an accurate sample of the particle content over defined size ranges. This method differs from similar methods in that it (1) provides a minimal bias in the results from the effects of ambient air velocity or direction, (2) provides a more even distribution of particles over a collection medium, and (3) enables exclusion of particles exceeding defined upper size limits.Type: GrantFiled: May 20, 1997Date of Patent: September 28, 1999Assignee: SKC, Inc.Inventors: Klaus Willeke, Sergey A. Grinshpun
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Patent number: 5919284Abstract: The present invention relates to an apparatus for separating liquids and solids from a gas stream and simultaneously coalescing liquids from the gas stream. The apparatus includes a closed vessel having a longitudinally extending length, an initially open interior, an input port at an extent and an output port at an opposite extent thereof. There is a partition located within the vessel interior that divides the vessel interior into a first stage and a second stage. There is at least one opening in the partition. A separator/coalescer filter element is disposed within the vessel to sealingly extend from within the first stage through the opening into the second stage. There is a chevron-type seal or an O-ring seal between the filter element and the opening.Type: GrantFiled: February 2, 1998Date of Patent: July 6, 1999Inventors: Marney Dunman Perry, Jr., Stephen A. von Phul, John A. Krogue, David J. Burns
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Patent number: 5840102Abstract: A material transfer apparatus and method, the apparatus having a material separating container, a filter unit, a vacuum unit and an exhaust unit, all mounted on a mobile conveyance. Air, carrying the materials to be transferred, is drawn through pneumatic tubing into the separating container where large and small materials are separated, and then into the filter where it is filtered for re-entry into the atmosphere.Type: GrantFiled: March 31, 1997Date of Patent: November 24, 1998Inventor: Hilton G. McCracken
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Patent number: 5827350Abstract: A machine and method for separating aerosol particles in a cylindrical ultrasonic member in which the particles are agglomerated in the presence of an injected allgomeration initiator, and retaining the agglomerated particles in a filter.Type: GrantFiled: July 1, 1996Date of Patent: October 27, 1998Assignee: European Atomic Energy Community (EURATOM)Inventors: Joseph Magill, Paul Werner
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Patent number: 5803954Abstract: A unique pulse-jet cartridge type particulate collector structure and method wherein horizontally disposed particulate filter cartridges are suspendedly disposed in a particulate separation chamber defined by an outer wall so that opposite ends of the suspended particulate filter cartridges are spaced from the opposed inner faces of the outer wall with dirty gas flow being delivered from a dirty gas inlet in the outer wall through the particulate filter cartridges in a smooth manner by a large particulate particle deflector and with the particulate hopper connected to the lower section of the outer wall having a transparent particulate catching container removably sealed in communicative relation with the particulate release opening of the particulate hopper.Type: GrantFiled: April 11, 1997Date of Patent: September 8, 1998Assignee: AAF InternationalInventors: L. Alan Gunter, Keiron P. O'Connell, George Matis
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Patent number: 5800578Abstract: A separating system for separating material transported by air utilizing apparatus having a tangential inlet for a stream of air and entrained material, a bottom material exit, a boundary wall air exit and a central interior air exit. Each air exit includes a perforated wall or screen through which air is removed or separated from the entrained material. Enhanced separating action is achieved through coupling two such separators in a loop arrangement such that the material discharge from a first separator is conveyed via a relay stream of air to serve as the input to a second separator, while the entire air exhaust from the second separator is returned as one of a plurality of inlet streams to the first separator. A further advantage is realized by partitioning the air exhaust of the first separator into a plurality of parallel passageways which can be individually closed.Type: GrantFiled: September 26, 1996Date of Patent: September 1, 1998Assignee: Air Conveying CorporationInventor: Richard D. Johnson
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Patent number: 5788746Abstract: The invention relates to a filter installation having at least one filter element for the filtering of a crude gas containing impurities, in particular particulate impurities. The crude gas flow to be filtered can be supplied to the filter installation via a crude gas line and at least two filter modules, each having at least one filter element, are provided. Each filter module is fluidly connected to the crude gas line via a module crude gas line through which a part of the crude gas flow can be supplied to the respective filter module. Each module crude gas line has a blocking member through which the supply of the respective partial crude gas flow can be interrupted for the cleaning of the filter element of the respective filter module.Type: GrantFiled: November 20, 1996Date of Patent: August 4, 1998Assignee: Kvaerner Bison GmbHInventor: Werner Bartling
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Patent number: 5788848Abstract: An apparatus and method for separating material which includes solid and/or particulate matter from flowing liquid and/or gas. The apparatus includes a separation panel positioned in a fluid flow path, and the separation panel is housed in a separation chamber. Fluid can be introduced into the separation chamber by an inlet to establish a circular flow of the fluid within a confine of the separation panel, so material entrained in the fluid is trapped within the confine of the separation panel. The separation panel, separation chamber and inlet can be dimensioned and disposed such that as the apparatus operates, the flow of the fluid outside the separation panel is in a direction opposite to a direction of the flow of the fluid within the separation panel.Type: GrantFiled: March 24, 1997Date of Patent: August 4, 1998Inventors: Paul Blanche, Stephen Crompton
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Patent number: 5772710Abstract: An air treating system filters and dehumidifies contaminated air within an industrial plant. The air treating system includes a prefilter, a filter, a blower and an evaporator. A self-contained filtering unit directly communicates with a flume which receives fluid carrying contaminated particles from a machining center. Multiple self-contained filter and dehumidifier units are coupled with a single air conditioning compressor and condenser unit.Type: GrantFiled: December 19, 1995Date of Patent: June 30, 1998Assignee: Copeland CorporationInventors: Larry A. Bauer, Bruce B. Atkinson, Bruce A. Mazor, Anthony J. Coronati, Steven C. Hokky
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Patent number: 5738711Abstract: An apparatus for the separation of ash from a flue gas stream has a hopper defining a flow chamber for the flue gas stream. The hopper has an upper portion and a lower portion. The upper portion defines a horizontal flue gas inlet opening and a vertical flue gas outlet opening. The lower portion defines a hopper collector opposite the inlet opening. A plurality of generally triangular planar block-off plates are oriented horizontally across the flue gas inlet opening and define a plurality of triangular initial flue path openings therebetween. A plurality of triangular flow plates are mounted to the block-off plates adjacent the flow path openings. The flow plates extend vertically downward toward the hopper collector whereby the flow plates define second flow path openings therebetween in fluid connection with the flue gas outlet opening.Type: GrantFiled: December 6, 1996Date of Patent: April 14, 1998Assignee: ABB Air Preheater, Inc.Inventor: Harlan E. Finnemore
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Patent number: 5653786Abstract: A high capacity marine separator (30) is disclosed which uses a first stage formed by an inertial vane separator (32), a second stage formed by a coalescer stage (36) and a third stage formed by an inertial vane separator (34). The coalescer stage (36) is canted from vertical relative to the air flow direction which increases the surface area for air flow, increases the drainage rate of water from the coalescer section and provides an improved air flow distribution to the second inertial vane separator with higher velocities near the top of the second inertial vane separator. The inertial vane separators (32, 34) have flush cavities to reduce obstruction to air flow and have vanes that are greater than three inches in wavelength and spaced greater than one inch apart. The marine separator is capable of flow velocities of 50 standard feet per second.Type: GrantFiled: December 20, 1995Date of Patent: August 5, 1997Assignee: Peerless Manufacturing CompanyInventors: David Taylor, Alan A. Hashem, Kevin N. Rainey, Kenneth J. Fewel, Jr.
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Patent number: 5645620Abstract: A system for separating particulate solids and condensable vapor materials from a hot feed gas stream such as a fuel gas containing such materials, so as to provide a clean gas product stream. The system includes a cyclone-type separator in which coarser particulate solids are removed downwardly, and an overhead gas stream containing a reduced concentration of finer particles is passed through a cooling step such as a heat exchanger for solidification and removal of condensable materials, and then passed to a filter vessel. In the filter vessel, the cooled gas and solidified particles pass through a filtering surface for further removal of the finer particles and solidified materials, after which the cleaned product gas is removed through an upper outlet connection.Type: GrantFiled: May 25, 1995Date of Patent: July 8, 1997Assignee: Foster Wheeler Development Corp.Inventor: Jack David Shenker