Pressure Sensing Means Patents (Class 96/253)
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Patent number: 10155195Abstract: A gas scrubber cone condition monitoring system has a sealed gas scrubber cone (9) moveably mounted in a gas pipe (1), a collar (5) fixedly mounted radially outward of the cone in the gas pipe and a pressure tap (12) into the sealed cone. The pressure tap is coupled to a condition monitor (17, 18) via an input line (16). An output line (14) from the condition monitor is coupled to a gas pipe (15), downstream of the sealed cone. The condition monitor includes at least one of a pressure gauge and a gas flow meter.Type: GrantFiled: September 24, 2015Date of Patent: December 18, 2018Assignee: PRIMETALS TECHNOLOGIES AUSTRIA GMBHInventor: Gareth Kaps
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Patent number: 8864887Abstract: A slug-containing vapor recovery system wherein pressure and/or fluid level sensors are provided which monitor for conditions caused by the entry of a slug of hydrocarbon liquid, including that caused by a plunger-lift system. The system can be configured to accommodate virtually any anticipated slug-events.Type: GrantFiled: September 30, 2011Date of Patent: October 21, 2014Inventors: Rodney T. Heath, Forrest D. Heath, Gary Heath
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Patent number: 8795516Abstract: A gypsum dewatering device 2 installed in a desulfurization facility 105 in which sulfur oxide in flue gas G is absorbed by limestone in an absorber 1, includes a belt filter 22 that absorbs sulfur oxide and dewaters gypsum slurry SS fed from the absorber 1 to form a gypsum cake SC, a vacuum suction mechanism 23 that sucks moisture in the gypsum cake SC via the belt filter 22, a moisture measuring means H1 that measures a moisture content of the gypsum cake SC to be dewatered by the belt filter 22, a heating means 25 that heats the gypsum cake SC dewatered by the belt filter 22 by hot water or steam, and a control means 26 that controls a heated state by the heating means 25 when the moisture content of the gypsum cake SC input from the moisture measuring means H1 has exceeded a predetermined amount.Type: GrantFiled: September 30, 2010Date of Patent: August 5, 2014Assignee: Mitsubishi Heavy Industries, Ltd.Inventors: Hideki Ito, Naoyuki Kamiyama, Makoto Tsutsui, Seiji Kagawa, Tatsuto Nagayasu, Norikazu Inaba
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Patent number: 8728221Abstract: A modified wet scrubber for removing airborne toner particles including, increased recirculation pumping capacity, and controlling the operating fluid level by relating the pressure differential between the inlet and outlet air streams to proper operating fluid level.Type: GrantFiled: September 14, 2012Date of Patent: May 20, 2014Inventors: Donald F. Laffler, Lacee L. Lamphere, Robert Vines, James T. Hardin
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Patent number: 8591626Abstract: The invention relates to a method as well as a device for separation of a carbon-dioxide-containing gas mixture (1), whereby carbon dioxide is separated from the carbon-dioxide-containing gas mixture (1) by physical gas washing (W1) and is converted into two product streams (3, 4) that consist primarily of carbon dioxide and have different pressures, and in the event of an operational breakdown, after their pressures are balanced, the product streams are subjected to an after-treatment step (W2) and then are released into the atmosphere. For balancing the pressures of the two carbon dioxide product streams (3, 4), the carbon dioxide stream (3, 7) that has the lower pressure is compressed by a gas jet ventilator (G), whereby the carbon dioxide stream (4) that has the higher pressure is used as a pumping medium (6).Type: GrantFiled: November 3, 2011Date of Patent: November 26, 2013Assignee: Linde AktiengesellschaftInventor: Alexander Brandl
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Publication number: 20130213231Abstract: An improved flue gas scrubbing apparatus and method are disclosed. The flue gas scrubber comprises a double-pipe or a two-pipe system whereby flue gas enters the system. Scrubbing is accomplished by interaction between the flue gas and base in a pre-injection zone, followed by further reaction in a primary injection zone and passage through a cyclone unit. In preferred embodiments of the invention, it comprises a bypass system by which flue gas is automatically exhausted directly to the atmosphere in case of a system failure. The gas exhausted from the apparatus following scrubbing meets or exceeds international emissions standards.Type: ApplicationFiled: July 25, 2011Publication date: August 22, 2013Applicant: CLEAN MARINE ASInventors: Nils Høy-Petersen, Johan Ivar Ervik, Riki Canari
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Publication number: 20130104738Abstract: The present invention relates to a glass laboratory apparatus that includes a pre filter and a main filter to scrub solids from a gas using water filtration. A preferred embodiment of the present invention includes a main vessel adapted to hold a volume of a liquid such as water and an inlet conduit with an opening above the liquid level in the main vessel and an outlet below the surface of the liquid level in the main vessel. A pre filter arranges in the inlet conduit at a level above the liquid level in the main vessel. A main filter is located below the water level in the main vessel. A negative pressure is supplied to draw a gas through the first, pre-filter, through the water and second main filter.Type: ApplicationFiled: October 31, 2011Publication date: May 2, 2013Inventor: David Goldstein
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Publication number: 20120037003Abstract: Various apparatus provide for spraying high velocity droplets of liquid into a low velocity gas stream. Finely atomized droplets may quickly transfer their momentum to the gas, resulting in deceleration of the spray and acceleration of the gas. A high velocity spray of atomized liquid may transfer a substantial fraction of its kinetic energy to the gas before contacting a surface, in some aspects, suspended particles in the gas phase may be removed by high velocity liquid droplets passing through the gas. Certain aspects provide for controlling a gas flow by controlling the relative amounts of upstream and downstream momenta transferred to the gas by one or more liquid sprays.Type: ApplicationFiled: August 15, 2011Publication date: February 16, 2012Applicant: Airgard, Inc.Inventors: Mark Johnsgard, Kris Johnsgard
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Publication number: 20100089238Abstract: Method for the dissolution of a gas in an input gas flow, in which a soaked solid comprising a porous substrate comprising pores each having a size less than 100 nanometres (nm) and each containing a solvent of the gas, is swept with the input gas flow comprising at least the gas.Type: ApplicationFiled: December 5, 2008Publication date: April 15, 2010Applicant: Centre National de la Recherche ScientifiqueInventors: Sylvain Miachon, Sylvie Lemeulle, Mae Miachon-Lemeulle, Telio Miachon-Lemeulle, Marc Pera Titus, Volaniaina Rakotovao, Jean-Alain Dalmon
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Publication number: 20090120285Abstract: A system and methods of reducing sulfur emissions are provided. In one embodiment, a method for reducing sulfur emissions is provided. The method includes routing at least a portion of an untreated gas to a low pressure absorber, removing at least a portion of sulfur from the untreated gas to create a low pressure absorber overhead gas, and further processing the low pressure absorber overhead gas.Type: ApplicationFiled: November 9, 2007Publication date: May 14, 2009Inventors: Pradeep Thacker, Sachin Naphad
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Publication number: 20080307967Abstract: An apparatus for reducing NOx comprising an exhaust conduit (101) of an IC engine (not shown) in which is placed a urea hydrolysis reactor (102) supplied with aqueous urea from urea storage tank (103). Flow of the hot exhaust gas through the exhaust conduit (101) heats the reactor (102) and causes the temperature of the urea therein to rise, promoting its hydrolysis and producing gaseous hydrolysis products. A pressure control valve (106) controls the release of the gaseous hydrolysis products from the reactor to a condenser (107). The condenser (107) is provided with a heat exchanger (108) which has an inlet (109) and an outlet (110) for connection to a coolant supply. When the gaseous hydrolysis gas enters the condenser (107) it is cooled by heat exchange with the engine cooling fluid and the ammonia and steam condense to form a pool of liquid in the bottom of the condenser (107).Type: ApplicationFiled: October 26, 2006Publication date: December 18, 2008Applicant: IMI Vision LimitedInventors: James Martin Coates, Alan Bhimani
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Publication number: 20080006154Abstract: A process for producing a solution of a gas in a liquid in which the gas is soluble, the solution having a predetermined concentration up to saturation. The gas and the liquid are brought together under controlled supply in a proportion corresponding to the predetermined concentration of the solution, and the gas and the liquid are caused to form a stream passing through a common conduit. The gas and the liquid in the stream are caused to intermix under the action of gravity, and the intermixing is repeated before the gas and the liquid have separated, so that the gas is substantially absorbed in the liquid, forming a gas-liquid solution of the predetermined concentration. The stream may be brought into turbulence for intensifying the intermixing of the gas and the liquid. An apparatus for performing the process comprises a conduit including a continuous tubular coil formed with a plurality of upwardly and downwardly directed sections.Type: ApplicationFiled: December 16, 2004Publication date: January 10, 2008Applicant: OUTOKUMPU OYJInventors: Robert Johansson, Yngve Lundgren, Sam Marklund
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Patent number: 7314509Abstract: A gas/liquid phase separator includes a fluid inlet, a vapor outlet, a liquid outlet, and first and second valves disposed in fluid communication with the liquid outlet. Both valves are controllable in response to a fluid level in the gas/liquid phase separator. Both valves are further disposed in parallel fluid communication with each other. A method of controlling a liquid level in the phase separator includes sensing an amount of liquid in the phase separator, sensing a system pressure, and selectively opening a valve disposed in fluid communication with the phase separator to drain the liquid.Type: GrantFiled: July 28, 2004Date of Patent: January 1, 2008Assignee: Proton Energy System, Inc.Inventors: A. John Speranza, Andrzej E. Stanek, Angelo A. Morson, Justin D. Baltrucki
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Patent number: 7192469Abstract: A device, system and methods related to the same are provided for the treatment of exhaust gases from internal combustion engines. An exhaust treatment device is provided comprising a chamber containing a liquid bath through which exhaust gases are directed for removing exhaust products from the exhaust gas. A thermal reducer is provided for reducing the temperature of the exhaust gas prior to entry into the exhaust gas treatment device, as desired. Further provided are related methods for removing carbon monoxide from exhaust gas, liquid hydrocarbon solutions for use as the liquid bath in the exhaust gas treatment device, and methods for preparing such liquid hydrocarbon bath solutions.Type: GrantFiled: July 2, 2004Date of Patent: March 20, 2007Inventors: Joann Rumell, legal representative, Joseph J. Rumell, Fred A. VanDeVander, Demetrius A. Rumell, deceased
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Patent number: 6926756Abstract: A method and system to control the operation of a scrubber, in which, the system includes a valve to control the flow of an exhaust from a tool, a sensor to determine whether the valve is open or closed and a controller to control the operation of the scrubber depending on whether the valve is open or closed.Type: GrantFiled: March 31, 2003Date of Patent: August 9, 2005Assignee: Macronix International Co. Ltd.Inventors: Cheng Mu Yuan, Hour Chin Di
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Patent number: 6652624Abstract: A self-cleaning nozzle that can be used for wet scrubbers comprises an electromagnetic coil that, when energized, causes an outlet orifice of the nozzle to enlarge so that pollutant particles clogging the nozzle fall down the orifice unclogging it. The coil is in turn controlled by a signal responsive to an increased pressure in the pipe supplying the nozzle with water, which increase is indicative of clogging the nozzle.Type: GrantFiled: October 10, 2001Date of Patent: November 25, 2003Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Yi-Lang Ku, Chieh-Chung Wang
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Patent number: 6565636Abstract: An exhaust cleaning device for removing a portion of carbon containing molecules from exhaust. The exhaust cleaning device includes a tubular member which is elongate and has a first end and a second end. The first and second ends are placed in communication with an exhaust system. The tubular member has a middle section and two legs. A cleaning assembly for cleaning the exhaust includes a plurality of apertures extending through the middle section of the tubular member. A housing is attached to an outer surface of the bottom half of the middle section and covers the apertures such that the apertures extend into the housing. A container is extendable into the housing. A filter member is removably positioned in the container. A water pump sprays water into the tubular member such that the water binds to carbon containing molecules in the exhaust and deposits the molecules in the filter.Type: GrantFiled: July 13, 2001Date of Patent: May 20, 2003Inventor: Benjamin G. Thompson
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Publication number: 20030066421Abstract: A self-cleaning nozzle that can be used for wet scrubbers comprises an electromagnetic coil that, when energized, causes an outlet orifice of the nozzle to enlarge so that pollutant particles clogging the nozzle fall down the orifice unclogging it. The coil is in turn controlled by a signal responsive to an increased pressure in the pipe supplying the nozzle with water, which increase is indicative of clogging the nozzle.Type: ApplicationFiled: October 10, 2001Publication date: April 10, 2003Applicant: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Yi-Lang Ku, Chieh-Chung Wang