Removal Of Solid Or Liquid Particles From Gas Patents (Class 95/200)
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Patent number: 11654699Abstract: A dryer system is described that is configured to purify, by means of a wet scrubber, the exhaust gases created in the drying of a recording medium that has been printed to. Moreover, thermal energy may be extracted from the exhaust gases in the wet scrubber, which thermal energy is used in turn to dry the recording medium. An environmentally safe and energy-efficient drying may thus be enabled.Type: GrantFiled: May 3, 2021Date of Patent: May 23, 2023Assignee: Canon Production Printing Holding B.V.Inventor: Manfred Viechter
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Patent number: 10481059Abstract: A pipeline contaminant monitoring apparatus that includes a filter housing and probe configured to isokinetically sample a portion of a pipeline gas stream. The filter housing has a filter configured to trap solid contaminants within the gas stream. A first pressure sensor is located upstream of the filter and a second pressure sensor is located downstream of the filter. A processor is coupled to the first and second pressure sensors. The processor is configured to determine a solid contaminant concentration level in the gas stream based on a rate of change of the pressure drop sensed across the filter.Type: GrantFiled: September 8, 2016Date of Patent: November 19, 2019Assignee: Parker Hannifin Filtration (US), Inc.Inventors: Jack D. Burns, Stephen G. Jeane, Jeremy M. Stevens
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Patent number: 8974640Abstract: The present invention relates to a feed distribution device in separation columns and a method of operation. In particular it relates to distillation columns in which the feed stream is substantially liquid phase, or a mixture of gas and liquid upstream of the column, but where the feed vaporizes or vaporizes more when it enters the column. More specifically, the feed distribution device contains a plurality of opening which allow the feed to vaporize inside the column and where the openings are maintained in critical condition during operation. Significant advantage is achieved through the implementation and use of the present feed distribution device.Type: GrantFiled: June 17, 2011Date of Patent: March 10, 2015Assignee: Neste Oil OyjInventors: Esa Tamminen, Simo Jortikka, Martti Ruskoaho, Ulla Happonen
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Patent number: 8926799Abstract: A feed distribution device in separation columns and a method of operation for such a device. In particular, distillation columns in which the feed stream is substantially liquid phase, or a mixture of gas and liquid upstream of the column, but where the feed vaporizes or partially vaporizes prior to or as it enters the column. More specifically, the feed distribution device contains a plurality of opening which allow the feed to vaporize prior to or as it enters the column and where the openings are maintained in critical condition during operation. Significant advantage is achieved through the implementation and use of the present feed distribution devices.Type: GrantFiled: June 27, 2011Date of Patent: January 6, 2015Assignee: Neste Oil OyjInventor: Esa Tamminen
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Patent number: 8601800Abstract: The present invention provides an automotive exhaust system that removes harmful contaminants from engine exhaust and thus reduces air pollution, presents a number of distinct and significant benefits and advantages. Foremost, the Green Muffler subjects engine exhaust gases to a two-stage cleansing and purification process, first scrubbing the gases in a recirculating air-and-water bath; and then combining the remnant gases with an air-freshening chemical before release to the atmosphere. The Green Muffler, then, serves to lower a vehicle's carbon-dioxide and carbon-monoxide emissions and thereby reduces the level of air pollution and atmospheric warming due to car exhaust. Further, the Green Muffler reduces the temperature of vehicle exhaust, another plus for the planet.Type: GrantFiled: October 26, 2010Date of Patent: December 10, 2013Inventor: Akinobu Ojima
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Patent number: 8357230Abstract: The invention relates to a process for purifying crude synthesis gas (1) containing metal carbonyls, in which undesirable substances such as sulphur components and/or carbon dioxide (CO2) and/or hydrocyanic acid (HCN) are scrubbed out by scrubbing with a physically acting scrubbing medium in at least one process step (main scrub (H)), and also an apparatus for carrying out the process. The crude synthesis gas (1) before introduction into the main scrub (H) is subjected to a gas scrub (carbonyl scrub (C)) in which a partial amount (4) of the laden scrubbing medium (2) taken off from the main scrub is used as scrubbing medium, with the partial amount (4) being chosen so that the metal carbonyls are (selectively) separated off from the crude synthesis gas (1) in the carbonyl scrub (C) largely independently of the other gas components.Type: GrantFiled: November 6, 2007Date of Patent: January 22, 2013Assignee: Linde AktiengesellschaftInventor: Ulvi Kerestecioglu
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Publication number: 20100139489Abstract: The invention relates to a process for purifying crude synthesis gas (1) containing metal carbonyls, in which undesirable substances such as sulphur components and/or carbon dioxide (CO2) and/or hydrocyanic acid (HCN) are scrubbed out by scrubbing with a physically acting scrubbing medium in at least one process step (main scrub (H)), and also an apparatus for carrying out the process. The crude synthesis gas (1) before introduction into the main scrub (H) is subjected to a gas scrub (carbonyl scrub (C)) in which a partial amount (4) of the laden scrubbing medium (2) taken off from the main scrub is used as scrubbing medium, with the partial amount (4) being chosen so that the metal carbonyls are (selectively) separated off from the crude synthesis gas (1) in the carbonyl scrub (C) largely independently of the other gas components.Type: ApplicationFiled: November 6, 2007Publication date: June 10, 2010Inventor: Ulvi Kerestecioglu
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Publication number: 20100089110Abstract: A method for removing carbon dioxide from a gas stream and controlling ammonia vapor by scrubbing the carbon dioxide from the gas stream with ammonium carbonate, thereby producing ammonia vapor and ammonium bicarbonate; removing a portion of the ammonia vapor from the gas stream with ammonium bicarbonate; and polishing the flue gas to achieve an ammonia concentration of less than 10 PPM.Type: ApplicationFiled: May 9, 2008Publication date: April 15, 2010Applicant: POWERSPAN CORP.Inventors: Joanna Duncan, Christopher McLarnon, Francis Alix
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Patent number: 7374604Abstract: The present invention discloses a system for flue gas treatment, wherein the provided system comprises a quench module, a first control module, a filter collecting module, a wet scribing module and a regeneration module. In this system, parts of the particles contained in flue gas are removed in the quench module and the wet scribing module by a first scrubbing solution, and then in wet scribing module a second scrubbing liquid containing particles is formed. Next, the second scrubbing solution is treated in the regeneration module to form a third scrubbing solution, wherein the third scrubbing solution is then fed back to the quench module and/or the wet scrubbing module to substitute the first scrubbing solution for repeating what originally performed via the first scrubbing solution. Furthermore, this invention discloses a method for flue gas treatment.Type: GrantFiled: December 7, 2004Date of Patent: May 20, 2008Assignee: Chung Yuan Christian UniversityInventor: Chien-Song Chyang
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Patent number: 7267775Abstract: The invention relates to a method and to a plant for processing a gas by means of a glycol solution wherein a feed comprising a gas, a glycol, water and salts is subjected to a first stage (5) of separating the gas from a liquid effluent and said liquid effluent is subjected to a dehydration stage (14) to recover a dehydrated liquid effluent, characterized in that the salts contained in the liquid effluent, dehydrated or not, are eliminated in a membrane separation stage (10) by means of a driving force generated by mechanical pressure difference on either side of a membrane of pore size ranging between 5 and 100 Angstrom. The invention also relates to the use of the method and of the plant for regeneration of a liquid compound of the glycol family used for hydrate formation prevention when using a natural gas.Type: GrantFiled: July 30, 2004Date of Patent: September 11, 2007Assignee: Institut Francais du PetroleInventors: Arnaud Baudot, Nathalie Dupassieux, Sophie Montes
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Patent number: 6506348Abstract: There is provided a heavy oil fired boiler exhaust gas treatment apparatus which removes soot and dust and SO3 in the heavy oil fired boiler exhaust gas efficiently at a low cost without using an excessively large apparatus. The treatment apparatus comprises a charging device 3 provided at the inlet of an absorption tower of a wet type exhaust gas desulfurizer 4 and neutralizer pouring means A provided on the upstream side of the charging device 3 to pour a neutralizer into exhaust gas and neutralize SO3 in the exhaust gas.Type: GrantFiled: November 10, 1998Date of Patent: January 14, 2003Assignee: Mitsubishi Heavy Industries, Ltd.Inventors: Eiji Ochi, Takeo Shinoda, Toru Takashina, Masakazu Onizuka
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Patent number: 6197093Abstract: The exhaust gas enters via an exhaust gas line into a washing apparatus. In the washing apparatus solid matter particles are predominantly separated. The pre-washed exhaust gas flows from the washing apparatus through a droplet removing conduit to a trickling filter device in order to be subjected to an activated sludge treatment for the separating of gaseous contaminants. In order to reduce the point of condensation and accordingly the absolute humidity of the exhaust gas for the activated sludge treatment either fresh air is added through a feed line to the pre-washed exhaust gas or the washing water which is led in a closed circuit through the washing water line of the washing apparatus is cooled in a heat exchanger in a cooling tower. A portion of the washing water of the washing apparatus is led through a first solid matter removing apparatus of which a portion of the filtrate is led to an activated sludge basin located under the trickling filter device.Type: GrantFiled: April 22, 1999Date of Patent: March 6, 2001Assignee: Alois Sceuch GmbHInventor: Emil A. J. Wieser-Linhart
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Patent number: 6059934Abstract: Tray designs for use in a separation column for distilling or fractionating a feed stream are provided that incorporate co-current contact of the liquid and vapor streams and their subsequent separation on each tray. In one embodiment, located on the trays are a plurality of co-current vapor and liquid contacting sections including a volume of the tray in which vapors and liquid can be in co-current contact. Also located on the trays are a plurality of de-entrainment devices for separating entrained liquids from a vapor stream, the de-entrainment devices having an inner and an outer side, the inner side being adjacent to the co-current contacting sections.Type: GrantFiled: April 17, 1998Date of Patent: May 9, 2000Assignee: Mobil Oil CorporationInventors: Berne K. Stober, Raymond M. Sowiak
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Patent number: 6019819Abstract: Disclosed is a contaminated waste steam heat recovery apparatus 10 and method therefore which includes a primary condensing unit 38, a low pressure water washing unit 26, a liquid to liquid heat exchanger 36 and a vent fan 31. Waste gas is ducted from fryer 11 to a de-super-heating chamber 14 wherein superheated steam is converted to saturated steam by spraying water into the steam using spray nozzles 15. The gas is then introduced into a vertically disposed air to liquid heat exchanger 16 and is drafted downward therethrough. As heat is removed from the waste gas, water vapor in the steam condenses and in the process, collects some of the oil and hydrocarbons present. A plurality of condensate trays 19 are disposed below the bottom end of heat exchanger 16 in a cascading fashion to collect hold the condensate in the airflow path such that it will absorb some of the heat still present in the remaining waste gas.Type: GrantFiled: March 17, 1998Date of Patent: February 1, 2000Assignee: Alpha Engineers, Inc.Inventor: Eddy A. Williams
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Patent number: 5972171Abstract: De-entrainment devices are provided for separating an entrained liquid from a vapor stream exiting a flash zone in a separation column. Methods for utilizing the de-entrainment devices are also provided. In one embodiment, the de-entrainment device of the present invention is embodied in a de-entrainment tray that has a tray deck and a plurality of risers extending vertically up from the tray deck. The risers are provided with devices for imparting rotational movement to the fluid stream, which have the vapor stream and entrained liquid, entering the riser. The rotational movement imparted to the fluid stream causes the liquid to separate from the vapor stream and to flow upward along the riser walls. The de-entrained liquid is then transported from above the separation tray back into the flash zone by way of a liquid downcomer. The vapor stream separates from the liquid within the riser and flows out of the riser upward through the column.Type: GrantFiled: April 8, 1997Date of Patent: October 26, 1999Assignee: Mobil Oil CorporationInventors: Mark Sheldon Ross, Berne K. Stober, John Scott Buchanan
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Patent number: 5837105Abstract: A tray design for use in a separation column for distilling or fractionating a feed stream is provided that incorporates co-current contact of the liquid and vapor streams and their subsequent separation on each tray. Located on the trays are a plurality of co-current vapor and liquid contacting sections including a volume of the tray in which vapors and liquid can be in co-current contact. Also located on the trays are a plurality of de-entrainment devices for separating entrained liquids from a vapor stream, the de-entrainment devices having an inner and an outer side, the inner side being adjacent to the co-current contacting sections. The tray design further incorporates a plurality of liquid downcomers, having an upper portion and a lower portion, where the upper portion.Type: GrantFiled: April 7, 1997Date of Patent: November 17, 1998Assignee: Mobil Oil CorporationInventors: Berne K. Stober, Raymond M. Sowiak
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Patent number: 5753012Abstract: A method of operating an apparatus for the cleaning of industrial waste gases and especially power plant flue gases. The gases are fed through a quencher to a first scrubber with its own recirculation and upstream of a second scrubber having its own recirculation and aerosols of halogen compounds which are eliminated by providing the quencher is part of a prescrubber or by forming the downstream scrubber with a wet electrostatic precipitator.Type: GrantFiled: October 23, 1996Date of Patent: May 19, 1998Assignee: Krupp Koppers GmbHInventors: Bernhard Firnhaber, Michael Lang, Cort Starck, Wolfgang Schulte
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Patent number: 5707426Abstract: A method for improved removal of particulates and contaminants from a flue gas produced by the combustion of waste materials or fossil fuels in industrial processes having at least one horizontally oriented heat exchanger stage in which a wet scrubbing solution, such as an alkali reagent is sprayed in the same direction as the flue gas flow and a drain mechanism is located below the horizontally oriented heat exchanger. The horizontal orientation of the heat exchanger and the location of the drain mechanism increase the removal efficiency of very small particulates and contaminants. A collection tank is connected to the drain mechanism. A spray washing system is provided adjacent a mist eliminator and one or more additional heat exchanger stages for unplugging the heat exchanger and enhancing small particulate removal within the system.Type: GrantFiled: March 1, 1997Date of Patent: January 13, 1998Assignee: The Babcock & Wilcox CompanyInventors: Daniel S. Kalka, Dennis W. Johnson, Robert B. Myers, Pervaje A. Bhat
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Patent number: 5512085Abstract: An air pollution control system incorporating a venturi scrubber and a method of cleansing a particulate-laden, contaminated gas flow are disclosed. Spray nozzles are used to introduce optimized droplets of a scrubbing liquid into the venturi to maximize the collection efficiency for optically active particles. The spray nozzles introduce the optimized droplets substantially upstream of the throat of the venturi such that the spray mixes with the effluent gas flow and cools the gas flow to substantially its saturation temperature prior to entering the venturi throat. This promotes collection of condensibles and inhibits the revolatilization of contaminants that are collected by the scrubbing droplets which might otherwise evaporate in the hot gas flow. The optimized droplets are highly effective in rapidly cooling the effluent gas flow.Type: GrantFiled: November 4, 1994Date of Patent: April 30, 1996Assignee: EnviroCare International, Inc.Inventor: James J. Schwab
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Patent number: 5484471Abstract: An air pollution control system incorporating a venturi scrubber and a method of cleansing a particulate-laden, contaminated gas flow are disclosed. Spray nozzles are used to introduce optimized droplets of a scrubbing liquid into the venturi to maximize particle collection efficiency. Due to the very small size of the spray droplets they absorb gases in quantities in excess of the amount predicted by Henry's law. After passing through the venturi the spray droplets are reconsolidated and flow to an enclosed container. Due to the applicability of Henry's law to the relatively large reconsolidated volume of scrubbing liquid, the liquid is naturally effervescent. Bubbles formed in the liquid volume cause suspended particles in the liquid to rise to the surface where they form an easily collected surface scum. The effervescent gases, at least some of which may be noxious, are then incinerated or otherwise treated.Type: GrantFiled: January 14, 1994Date of Patent: January 16, 1996Assignee: Envirocare International, Inc.Inventor: James J. Schwab
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Patent number: 5474597Abstract: In a method for cleaning polluted gas and/or cooling of hot gas, and a device for carrying out the method, the gas is contacted with finely divided liquid. The finely divided liquid is supplied in the form of essentially umbrella-shaped shells or essentially linear curtains, in a regular arrangement, distributed in two or more planes substantially perpendicular to the main flow direction of the gas. The finely divided liquid is supplied such that the gas is alternatively concentrated and spread by the impulse action exerted by the liquid on the gas in directions perpendicular to the main flow direction of the gas. The orthogonal distance between adjacent planes in which finely divided liquid is supplied, is so adjusted that no substantial equalization of the gas flow takes place between the planes.Type: GrantFiled: August 30, 1994Date of Patent: December 12, 1995Assignee: ABB Flakt ABInventor: Claes Halldin
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Patent number: 5453115Abstract: A process for cooling and cleaning hot gas containing ultrafine particles exhausted from a coal gasification plant, a blast furnace, or the like. The process utilizes a vertical saturation stage to enrich the gas stream with water vapor and thereby saturate the ultrafine particles contained in the gas stream. The resulting mixture of particles, exhaust gas, water vapor, and water is then directed through a packing prewasher and then an annular clearance washer for removal of the particles through the rapid condensation of the water vapor. The water and particles are separated from the gas stream in several stages throughout the process resulting in a final gas exhaust stream with a significantly lower ultrafine particle content.Type: GrantFiled: November 29, 1993Date of Patent: September 26, 1995Assignee: Deutsche Voest-Alpine Industrieanlagenbau GmbHInventor: Bogdan Vuletic
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Patent number: 5451250Abstract: A method for converting a double-loop flue gas desulfurization system to a single-loop desulfurization system includes removing the deep packing from the scrubber housing and replacing the packing with a thin tray having a plurality of perforations. The return line which connects the bowl is removed from the feed tank; and a plurality of openings, apertures or perforations are provided in the shroud ring and the bowl of the housing in order to permit slurry to pass from upper spray headers to the bottom of the housing as well as permit flue gas flow upwardly through the housing to the flue gas outlet. The lower spray headers are removed from the housing and the feed line connected to the lower spray headers is reconnected to the feed tank for providing the single-loop. An oxidation air system is provided in the feed tank for creating an in-situ forced oxidation system.Type: GrantFiled: May 11, 1994Date of Patent: September 19, 1995Assignee: The Babcock & Wilcox CompanyInventors: Wadie F. Gohara, Steve Feeney
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Patent number: 5401297Abstract: Disclosed is a process for removing emissions from caprolactam polymerization operations and thermoplastic polycaprolactam processing operations by collecting air containing the emissions, directing the air, containing the emissions, to a candle filter in a candle filter housing and rinsing the air, containing the emissions, within the candle filter with an aqueous caprolactam solution, containing at least 4% by weight caprolactam.Type: GrantFiled: September 30, 1993Date of Patent: March 28, 1995Assignee: BASF CorporationInventors: Beth O. Teague, Dennis G. Shealy, William C. Hiatt
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Patent number: 5318702Abstract: The present invention is a method and apparatus for treating water and other liquids by removing minerals in solution and entrained gases. The entrained gases are forced into the atmosphere, while the minerals are returned to agglomerated solids for ease in removal using settling or filtration. The opposed vortex nozzle unit of the present invention collides a pair of fluid streams in a manner that the bonds holding the gases and minerals in the water are broken, thus, allowing the gases to escape and the minerals to agglomerate. The vortex nozzle tubes of the present invention are provided with slots which remove a small portion of the fluid streams as they flow through the nozzle tubes. The removed water is returned at a location beyond the impingement point of the two streams in order to enhance the removal of gases and agglomeration of minerals in solution.Type: GrantFiled: June 18, 1992Date of Patent: June 7, 1994Inventor: Clifford L. Ashbrook
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Patent number: 5308385Abstract: An apparatus and method for removing pollutants from a gas stream wherein a spray of steam is directed against a primary deflector plate to disperse a portion of the spray and repel the spray off of the primary deflector plate against a secondary deflector plate to disperse at least a portion of the spray rebounded against the secondary deflector plate, the placement of the primary deflector plate and secondary deflector plate adapted such that the dispersed spray from the primary and secondary deflector plates forms an aerosol in the path of the gas stream, allowing the aerosol to condense into water, and recovering the condensed water.Type: GrantFiled: June 10, 1992Date of Patent: May 3, 1994Inventor: Dennis Winn