Patents Examined by Cabrena Holecek
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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: 10155193Abstract: A vertically oriented co-current contacting system and methods for separating impurities from a gas stream including a vertically oriented co-current contactor (VOCC) located in-line within a pipe, a vertically oriented mixer (VOM) including an annular support ring configured to maintain the VOM within the pipe, a number of radial blades configured to allow a liquid stream to flow into the VOM, and a central gas entry cone configured to allow a gas stream to flow through a hollow section within the VOM, a vertically oriented mass transfer section downstream of the VOM. The VOM and the vertically oriented mass transfer section provide for efficient incorporation of liquid droplets including impurities from the gas stream formed from the liquid stream into the gas stream. The vertically oriented co-current contacting system also includes a separation system configured to remove the liquid droplets.Type: GrantFiled: May 2, 2014Date of Patent: December 18, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: J. Tim Cullinane, Edward J. Grave, Stephanie A. Freeman
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Patent number: 10150926Abstract: A plant comprises a feed gas source, H2S removal unit, first absorber and a second, pressure reduction stages, first and second heat exchangers, stripping unit, and a conduit. The H2S removal unit selectively removes H2S from a feed gas from the feed gas source to produce an H2S depleted feed gas. The first absorber and the second absorber remove CO2 from the H2S depleted feed gas using a semi-lean and an ultralean solvent to produce a product gas and a rich solvent. The plurality of pressure reduction stages generates a cooled flashed solvent. The first heat exchanger and the second heat exchanger use the cooled flashed solvent to cool the H2S depleted feed gas and the semi-lean solvent. The stripping unit strips the flashed solvent with dried air to produce the ultralean solvent, and the conduit combines a portion of the ultralean solvent with the H2S depleted feed gas.Type: GrantFiled: February 21, 2018Date of Patent: December 11, 2018Assignee: Fluor Technologies CorporationInventor: John Mak
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Patent number: 10144001Abstract: This application is in the field of technologies for desulfurization and demercaptanization of raw gaseous hydrocarbons (including natural gas, tail gas, technological gas, etc, including gaseous media). It can be used for simultaneous dehydration and desulfurization/demercaptanization of any kind of raw gaseous hydrocarbons.Type: GrantFiled: July 4, 2016Date of Patent: December 4, 2018Assignee: START-CATALYST LLCInventors: Liudmila Aleksandrovna Tyurina, Alexander Ivanovich Tyurin, Irina Gennadievna Tarkhanova, Alexey Aleksandrovich Tyurin
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Patent number: 10144661Abstract: The present invention relates generally to the field of emission control equipment for boilers, heaters, kilns, or other flue gas-, or combustion gas-, generating devices (e.g., those located at power plants, processing plants) and, in particular to a new and useful method and apparatus designed to improve the water supplied to non-calcium-based, aqueous wet SOx scrubbers. In another embodiment, the present invention relates to a system and method for softening water for use in non-calcium-based, aqueous wet SOx scrubbers.Type: GrantFiled: October 29, 2015Date of Patent: December 4, 2018Assignee: THE BABCOCK & WILCOX COMPANYInventors: William Downs, Paul J Williams
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Patent number: 10137404Abstract: The gaseous effluent is contacted with an aqueous solution comprising at least one amine and at least one amine degradation inhibiting compound. A stainless steel withstanding corrosion upon contact with the amine degradation inhibiting compound is first selected. Equipments whose surfaces in contact with the aqueous solution are made from this stainless steel are used.Type: GrantFiled: August 26, 2013Date of Patent: November 27, 2018Assignee: IFP ENERGIES NOUVELLESInventors: Jean Kittel, Serge Gonzalez, Eric Lemaire, Alexandre Bonneau
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Patent number: 10137409Abstract: A system for producing an ion concentration gradient and a temperature-responsive electrolyte material which are utilizable, for example, for efficiently converting heat energy that has been discarded into reusable energy or for efficiently recovering an acid gas, such as carbon dioxide is provided. A temperature-responsive electrolyte is used to produce an ion concentration gradient by means of a temperature gradient. The temperature-responsive electrolyte is used in the state of an aqueous solution and also in the state of a solid phase.Type: GrantFiled: August 17, 2012Date of Patent: November 27, 2018Assignee: Kyushu University, National University CorporationInventors: Yu Hoshino, Yoshiko Miura, Kazushi Imamura, Ryohei Ohashi
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Patent number: 10137415Abstract: Provided are a reclaimer 51 that introduces, through a branch line L11, and stores a part 17a of an absorbent 17 regenerated in a regenerator of a recovery unit that recovers CO2 or H2S in a gas, a first alkaline agent supply section 53A that supplies an alkaline agent 52 to the reclaimer 51, a heating section 54 that heats the absorbent 17 stored in the reclaimer 51 and to which the alkaline agent 52 has been mixed to obtain recovered vapor 61, a first vapor cooler 55A that cools the recovered vapor 61 discharged from the reclaimer 51 through a vapor line L12, a first gas-liquid separator 56A that separates a coexisting substance 62 entrained in the cooled recovered vapor 61 into a recovered absorption agent vapor (gas) 17b and the liquid coexisting substance 62 by gas-liquid separation, and an introduction line L13 that introduces the recovered absorption agent vapor 17b separated in the first gas-liquid separator 56A into a regenerator 20.Type: GrantFiled: October 22, 2014Date of Patent: November 27, 2018Assignee: MITSUBISHI HEAVY INDUSTRIES ENGINEERING, LTD.Inventors: Hiroshi Tanaka, Hiromitsu Nagayasu, Takuya Hirata, Atsuhiro Yukumoto, Tsuyoshi Oishi, Shinsuke Nakatani
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Patent number: 10137398Abstract: The present disclosure relates to an apparatus and method of removing pollutants from exhaust gas by wet scrubbing process. In a scrubber apparatus of the present disclosure, an exhaust gas is first scrubbed in a primary mixing zone, the partially scrubbed gas discharged from the primary mixing zone is subsequently mixed forcibly in a secondary mixing zone before being discharged for polishing, demisting and/or reheating.Type: GrantFiled: September 30, 2015Date of Patent: November 27, 2018Assignee: Keppel Offshore & Marine Technology Centre Pte LtdInventors: Ming Liu, Nirmal Raman Gurunthalingam, Kok Seng Foo, John David Young
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Patent number: 10130897Abstract: A co-current contacting system is described herein. The co-current contacting system includes a co-current contactor located in-line within a pipe. The co-current contactor includes an annular support ring configured to maintain the co-current contactor within the pipe and a number of radial blades configured to allow a liquid stream to flow into the co-current contactor. The co-current contacts also includes a central gas entry cone configured to allow a gas stream to flow through a hollow section within the co-current contactor, wherein the co-current contactor provides for efficient incorporation of liquid droplets formed from the liquid stream into the gas stream. The co-current contacting system also includes a separation system configured to remove the liquid droplets from the gas stream.Type: GrantFiled: October 24, 2013Date of Patent: November 20, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Edward J. Grave, John T. Cullinane, Antonious J. A. M. Hendriks, Tom Meekhof, Frederik A. Lammers
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Patent number: 10118843Abstract: The present invention relates to a process for reducing in a gas stream the concentration of carbon dioxide and for reducing in an aqueous stream the concentration of sodium chloride, which process comprises contacting a feed gas comprising greater than or equal to 0.1% by volume carbon dioxide with an aqueous feed comprising: (a) sodium chloride; and (b) calcium oxide and/or calcium hydroxide at a total concentration of greater than or equal to 0.5% by weight, wherein the pH of the aqueous feed is greater than or equal to 10.0. A product aqueous stream obtained from the process of the invention is also described.Type: GrantFiled: August 18, 2015Date of Patent: November 6, 2018Assignees: UNITED ARAB EMIRATES UNIVERSITY, ABU DHABI OIL REFINING COMPANY (TAKREER)Inventor: Muftah El-Naas
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Patent number: 10119086Abstract: A system includes a water knock-out tank that receives a fluid material. Water from the fluid material settles on the bottom of the water knock-out tank. The system includes a mixing pipe that mixes a glycol with the fluid material transferred from the water knock-out tank and a first heat exchanger that cools the mixed fluid material and glycol. The system includes a gas-liquid separator that separates gaseous components and liquid components of the mixed fluid material and cooled glycol and a liquid-liquid separator that separates the liquid components of the mixed fluid material and cooled glycol by density. The system includes a fractional distillation column that heats a first liquid from the liquid-liquid separator. Heating the first liquid from the liquid-liquid separator gasifies a first portion of the first liquid. A second portion of the first liquid from the liquid-liquid separator remains liquid and is natural gas liquids.Type: GrantFiled: February 12, 2016Date of Patent: November 6, 2018Assignee: COLDSTREAM ENERGY HOLDINGS, LLCInventor: Steve Shotts
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Patent number: 10112146Abstract: A carbon dioxide capture system according to an embodiment includes an absorber, a stripper, and a heater. The absorber includes a first cleaning unit and a second cleaning unit. The first cleaning unit uses first cleaning liquid to clean combustion exhaust gas discharged from a carbon dioxide capturer and captures amine flowing together with the combustion exhaust gas. The second cleaning unit uses second cleaning liquid to clean the combustion exhaust gas discharged from the first cleaning unit and captures amine flowing together with the combustion exhaust gas. The heater heats the first cleaning liquid to a temperature higher than the temperature of an upper portion of the carbon dioxide capturer and of the second cleaning liquid.Type: GrantFiled: July 27, 2015Date of Patent: October 30, 2018Assignee: KABUSHIKI KAISHA TOSHIBAInventors: Koshito Fujita, Hideo Kitamura, Masatoshi Hodotsuka
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Patent number: 10099170Abstract: Ammonia-adding apparatus and methods for ammonia-based desulfurization use multi-stage control, calculate a theoretical amount of ammonia based on gas amounts provided by an inlet continuous emission monitoring system (CEMS) and an outlet CEMS of the ammonia-based desulfurization device or associated gas amounts, a SO2 concentration provided by the inlet CEMS, and a predetermined SO2 concentration of the outlet CEMS. The apparatus and methods calculate a corrected theoretical amount of ammonia using half of the ratio of the actual amount of added ammonia to the actual amount of removed sulfur dioxide as a correction coefficient for the theoretical amount of ammonia; add an ammonia absorbent equivalent to the corrected theoretical amount of ammonia to the ammonia-based desulfurization device through an ammonia metering means and an ammonia control valve, and automatically control the actual ammonia flow rate based on the actual SO2 concentration and a change trend provided by the outlet CEMS.Type: GrantFiled: July 27, 2017Date of Patent: October 16, 2018Assignee: Jiangnan Environmental Protection Group Inc.Inventors: Jing Luo, Jinyong Wang
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Patent number: 10099171Abstract: A gas capture plant is provided. The gas capture plant includes an absorption tower for dissolving an object gas that requires regeneration in a lean absorbent liquid to produce rich absorbent liquid. A regeneration tower heats the rich absorbent liquid produced in the absorption tower to produce the lean absorbent liquid from which the regeneration gas is separated and the produced lean absorbent liquid is supplied back to the absorption tower. A gas condensing device condenses the regeneration gas received from the regeneration tower to separate condensate and target gas, thereafter, supplying the separated condensate to the regeneration tower, and exhausting the separated target gas. The gas condensing device includes a condenser and a reflux apparatus disposed within one housing and the condenser is disposed above the reflux apparatus.Type: GrantFiled: December 2, 2015Date of Patent: October 16, 2018Assignees: Hyundai Motor Company, Korea Institute of Energy ResearchInventors: Shin-Tae Bae, Sungchan Nam, Sungyeoul Park, Yeoil Yoon
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Patent number: 10065147Abstract: Techniques for purifying gases, and associated systems and methods are disclosed. A representative system includes an absorption vessel that can separate impurities from an input gas, a regeneration vessel that can release the impurities from the solvent, a rich solvent storage vessel, and a lean solvent storage vessel. The system can include a solar concentrator array and a thermal storage unit for storing the thermal energy generated by the solar concentrator array.Type: GrantFiled: October 20, 2015Date of Patent: September 4, 2018Assignee: GlassPoint Solar, Inc.Inventors: John Setel O'Donnell, Peter Emery von Behrens, Philip Gregory Brodrick
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Patent number: 10065149Abstract: A gas-liquid contactor is obtained by including a header pipe for supplying washing water, in a direction perpendicular to a vertical axis direction, the header pipe being disposed above a packed bed contacting section through which exhaust gas moves upward and passes; and spray nozzles for discharging spray water, the nozzles being disposed, in an upward orientation, with predetermined intervals on the header pipe. The spray water that has been discharged from the spray nozzles is supplied at a low liquid flow rate. The discharged spray water becomes a liquid film and falls downward along the surface of the header pipe, and then falls and spreads in the packed bed contacting section, so that the washing water is made to contact the exhaust gas moving upward through the packed bed contacting section. Accordingly, the washing water is used to clear and remove water-soluble substances contained in the exhaust gas.Type: GrantFiled: January 21, 2015Date of Patent: September 4, 2018Assignee: MITSUBISHI HEAVY INDUSTRIES ENGINEERING LTD.Inventors: Hiroshi Tanaka, Hiromitsu Nagayasu, Takuya Hirata, Atsuhiro Yukumoto, Tsuyoshi Oishi, Takahiko Endo, Shimpei Kawasaki
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Patent number: 10029206Abstract: Method and apparatus for separating a target substance from a fluid or mixture. Capsules having a coating and stripping solvents encapsulated in the capsules are provided. The coating is permeable to the target substance. The capsules having a coating and stripping solvents encapsulated in the capsules are exposed to the fluid or mixture. The target substance migrates through the coating and is taken up by the stripping solvents. The target substance is separated from the fluid or mixture by driving off the target substance from the capsules.Type: GrantFiled: July 25, 2014Date of Patent: July 24, 2018Assignees: Lawrence Livermore National Security, LLC, The Board of Trustees of the University of IllinoisInventors: Roger D. Aines, Christopher M. Spadaccini, Joshuah K. Stolaroff, William L. Bourcier, Jennifer A. Lewis, Eric B. Duoss, John J. Vericella
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Patent number: 10016718Abstract: When CO2 gas is absorbed by using an absorbent circulating in an absorption tower and an absorbent regeneration tower, a first sampling part at which a lean solution sample is collected in the vicinity of an inlet for a lean solution supply line in the absorption tower, a second sampling part at which a rich solution sample is collected in the vicinity of an outlet for a rich solution supply line in the absorption tower, and an analyzing device which analyzes the collected lean solution sample and rich solution sample are provided; the lean solution sample at the first sampling part and the rich solution sample at the second sampling part are collected, respectively, in the same time period, and concentrations of CO2 gas in the lean solution sample and the rich solution sample are measured, and then the gas absorbing/regenerating operation is controlled based on measured results.Type: GrantFiled: January 21, 2015Date of Patent: July 10, 2018Assignee: MITSUBISHI HEAVY INDUSTRIES, LTD.Inventors: Shinichi Okamoto, Masaru Chiyomaru, Hiroshi Tanaka, Hiromitsu Nagayasu, Takuya Hirata, Tsuyoshi Oishi, Daisuke Shimada
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Patent number: 10010826Abstract: A carbon dioxide separation and recovery system includes an adsorption tower, a regeneration tower, and a drying tower. The adsorption tower causes a target gas to contact an adsorbent to adsorb carbon dioxide contained in the target gas to the adsorbent. The regeneration tower causes a normal-pressure wet gas which is a gas mixture of the carbon dioxide and steam to contact the adsorbent having adsorbed the carbon dioxide to desorb the carbon dioxide from the adsorbent. The drying tower dries the adsorbent. In addition, the carbon dioxide separation and recovery system includes a compressor that compresses the carbon dioxide, and an ejector that expands the carbon dioxide discharged from the compressor while suctioning negative-pressure steam, to generate the wet gas.Type: GrantFiled: March 3, 2015Date of Patent: July 3, 2018Assignee: KAWASAKI JUKOGYO KABUSHIKI KAISHAInventors: Takeshi Okumura, Yoshiharu Nonaka, Tomoyuki Ogino, Shohei Nishibe, Takatoshi Shoji