Patents Examined by John F Pettitt, III
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Patent number: 10914516Abstract: The system for treating a gas deriving from the evaporation of a cryogenic liquid and supplying pressurized gas to a gas engine according to the invention comprises, on the one hand, from upstream to downstream, a reliquefaction unit (10) with compression means (11, 12, 13), a first heat exchanger (17) and expansion means (30), and, on the other hand, a pressurized gas supply line comprising, from upstream to downstream, a pump (48) for pressurizing the liquid and high-pressure vaporization means (61). The pressurized gas supply line has, upstream of the vaporization means (61), a bypass (57) for supplying a second heat exchanger (60) between, on the one hand, pressurized liquid of the supply line (56) and, on the other hand, a line (22) of the reliquefaction unit (10) downstream of the first exchanger and upstream of the expansion means (30).Type: GrantFiled: March 22, 2017Date of Patent: February 9, 2021Assignee: CRYOSTAR SASInventor: Mathias Ragot
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Patent number: 10852061Abstract: A liquefier device which may be a retrofit to an air separation plant or utilized as part of a new design. The flow needed for the liquefier comes from an air separation plant running in a maxim oxygen state, in a stable mode. The three gas flows are low pressure oxygen, low pressure nitrogen, and higher pressure nitrogen. All of the flows are found on the side of the main heat exchanger with a temperature of about 37 degrees Fahrenheit. All of the gasses put into the liquefier come out as a subcooled liquid, for storage or return to the air separation plant. This new liquefier does not include a front end electrical compressor, and will take a self produced liquid nitrogen, pump it up to a runnable 420 psig pressure, and with the use of turbines, condensers, flash pots, and multi pass heat exchangers. The liquefier will make liquid from a planned amount of any pure gas oxygen or nitrogen an air separation plant can produce.Type: GrantFiled: May 16, 2018Date of Patent: December 1, 2020Inventor: Terrence J. Ebert
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Patent number: 10845118Abstract: A distillation column system and a plant are for production of oxygen by cryogenic fractionation of air. The distillation column system has a high-pressure column and a low-pressure column, a main condenser, and an argon column with an argon column top condenser. The low-pressure column comprises an upper mass transfer region, a lower mass transfer region and a middle mass transfer region. The argon column top condenser is arranged within the low-pressure column between the upper and middle mass transfer regions and is configured as a forced-flow evaporator.Type: GrantFiled: August 11, 2016Date of Patent: November 24, 2020Assignee: LINDE AKTIENGESELLSCHAFTInventor: Dimitri Golubev
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Patent number: 10787615Abstract: The present invention relates to a method and system for treating a flow back fluid exiting a well site following stimulation of a subterranean formation. More specifically, the invention relates to processing the flow back fluid, and separating into a carbon dioxide rich stream and a carbon dioxide depleted stream, and continuing the separation until the carbon dioxide concentration in the flow back stream until the carbon dioxide concentration in the flow back gas diminishes to a point selected in a range of about 50-80 mol % in carbon dioxide concentration, after which the lower concentration carbon dioxide flow back stream continues to be separated into a carbon dioxide rich stream which is routed to waste or flare, and a hydrocarbon rich stream is formed.Type: GrantFiled: January 28, 2014Date of Patent: September 29, 2020Assignee: PRAXAIR TECHNOLOGY, INC.Inventors: Kenneth L. Burgers, Raymond F. Drnevich, Minish M. Shah, David R. Thompson
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Patent number: 10767924Abstract: This method includes introducing a downstream stream (140) of cracked gas from a downstream heat exchanger (58) in a downstream separator (60) and recovering, at the head of the downstream separator (60), a high-pressure fuel gas stream (144). The method includes the passage of the stream (144) of fuel through the downstream exchanger (58) and an intermediate exchanger (50, 54) to form a reheated high-pressure fuel stream (146), the expansion of the reheated high-pressure fuel stream (146) in at least a first dynamic expander (68) and the passage of the partially expanded fuel stream (148) from the intermediate exchanger (50, 54) in a second dynamic expander (70) to form an expanded fuel stream (152). The expanded fuel stream (152) from the second dynamic expander (70) is reheated in the downstream heat exchanger (58) and in the intermediate heat exchanger (50, 54).Type: GrantFiled: October 26, 2010Date of Patent: September 8, 2020Assignee: TECHNIP FRANCEInventors: Jean-Paul Laugier, Yvon Simon
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Patent number: 10760562Abstract: A cryopump includes a refrigerator with at least first and second stages. A radiation shield surrounds the second stage and is in thermal contact with the first stage. The radiation shield includes a drain hole to permit cryogenic fluid to traverse through the drain hole during regeneration. The cryopump also includes a primary pumping surface supporting adsorbent in thermal contact with the second stage. The second stage array assembly includes a primary condensing surface, protected surfaces having adsorbent, and non-primary condensing surfaces. A baffle is disposed over the drain hole. The baffle redirects gas from an annular space disposed between the radiation shield and the vacuum vessel that attempts to traverse through the drain hole to prevent the gas from condensing on a non-primary condensing surface. The baffle directs gas to condense on the primary condensing surface.Type: GrantFiled: January 15, 2008Date of Patent: September 1, 2020Assignee: Edwards Vacuum LLCInventors: Allen J. Bartlett, Michael A. Driscoll, Michael J. Eacobacci, Jr., William L. Johnson, Robert P. Sullivan, Sergei Syssoev, Mark A. Stira, John J. Casello
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Patent number: 10753678Abstract: A process for the recovery of ethane, ethylene, propane, propylene, and heavier hydrocarbon components from a hydrocarbon gas stream is disclosed. The stream is cooled and is thereafter expanded to the fractionation tower pressure and supplied to the fractionation tower at a lower mid-column feed position. A distillation stream is withdrawn from the column below the feed point of the stream and is then directed into heat exchange relation with the tower overhead vapor stream to cool the distillation stream and condense at least a part of it, forming a condensed stream. At least a portion of the condensed stream is directed to the fractionation tower at an upper mid-column feed position. A recycle stream is withdrawn from the tower overhead after it has been warmed and compressed. The compressed recycle stream is cooled sufficiently to substantially condense it, and is then expanded to the pressure of the fractionation tower and supplied to the tower at a top column feed position.Type: GrantFiled: May 18, 2015Date of Patent: August 25, 2020Assignee: Ortloff Engineers, Ltd.Inventors: Richard N. Pitman, John D. Wilkinson, Joe T. Lynch, Hank M. Hudson, Kyle T. Cuellar, Tony L. Martinez
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Patent number: 10712053Abstract: A cryocooler includes a displacer, a cylinder in which the displacer is accommodated, a Scotch yoke mechanism which drives the displacer, and a housing in which the Scotch yoke mechanism is accommodated. The Scotch yoke mechanism includes a crank, a yoke plate, a second drive shaft, and a first drive shaft. The housing may include a drive mechanism accommodation chamber in which the crank and the yoke plate are accommodated, a first assist chamber in which a distal end of the first drive shaft is accommodated, and a second assist chamber which is provided between the drive mechanism accommodation chamber and a gas chamber or between the drive mechanism accommodation chamber and the first assist chamber. The first assist chamber and the second assist chamber can be adjusted to a higher pressure than the pressure in the drive mechanism accommodation chamber.Type: GrantFiled: August 12, 2016Date of Patent: July 14, 2020Assignee: SUMITOMO HEAVY INDUSTRIES, LTD.Inventor: Takaaki Morie
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Patent number: 10704736Abstract: Systems and methods for optimizing the recondensation of boiloff gas in liquid natural gas storage tanks are presented. In especially preferred aspects of the inventive subject matter, BOG from a storage tank is condensed using refrigeration content of a portion of LNG sendout in a direct or indirect manner, and the BOG condensate and LNG sendout portion are combined to form a subcooled stream that is then combined with the balance of the LNG sendout, to be fed to a high pressure pump. Contemplated recondensation operations advantageously occur without using otherwise needed large volume recondensers. Moreover, the condensing and subcooling operations are decoupled from the LNG sendout rate.Type: GrantFiled: February 13, 2018Date of Patent: July 7, 2020Assignee: Fluor Technologies CorporationInventor: John Mak
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Patent number: 10690387Abstract: A system and a method for recovery and recycling of gases which are utilized in their liquid state as refrigerants in applications that require low temperatures, throughout various pressure ranges, from slightly above atmospheric pressures to pressures near the critical point for the particular gas. The system and method are based on closed-cycle cryocoolers and utilize the thermodynamic properties of the gas to achieve optimal liquefaction rates.Type: GrantFiled: August 7, 2015Date of Patent: June 23, 2020Inventors: Conrado Rillo Millán, Leticia Tocado Martínez, Richard C. Reineman, Richard J. Warburton
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Patent number: 10655912Abstract: Impurities that are less volatile than carbon dioxide, e.g. hydrogen sulfide, are removed from crude carbon dioxide by processes involving distillation of said crude carbon dioxide in a distillation column system operating at super-atmospheric pressure(s) to produce carbon dioxide-enriched overhead vapor and bottoms liquid enriched with said impurities. Where such processes involve a single heat pump cycle, significant savings in power consumption are realized when the distillation column system is re-boiled by at least partially vaporizing liquid in or taken from an intermediate location in the column system.Type: GrantFiled: October 22, 2014Date of Patent: May 19, 2020Assignee: Air Products and Chemicals, Inc.Inventors: Paul Higginbotham, John Eugene Palamara, Galip Hakan Guvelioglu
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Method for producing a methane-rich stream and a C hydrocarbon-rich stream, and associated equipment
Patent number: 10619919Abstract: This method comprises a separation of a feed stream (16) into a first fraction (41A) and a second fraction (41B). It comprises injecting the first cooled feed fraction (42) into a first separating flask (22) to produce a light head stream (44). The method comprises expanding a turbine feed fraction (48) resulting from the light head stream (44) in a first turbine (26) up to a first pressure and injecting the first expanded fraction (54) into a distillation column (30). The method comprises expanding the second fraction of the feed stream (41B) in a second turbine (40) up to a second pressure substantially equal to the first pressure. The second expanded fraction (91A) from the second dynamic expansion turbine (40) is used to form a cooled reflux stream (91B) injected into the column (30).Type: GrantFiled: December 26, 2011Date of Patent: April 14, 2020Assignee: TECHNIP FRANCEInventors: Vanessa Gahier, Julie Gouriou, Sandra Thiebault, Loic Barthe -
Patent number: 10605523Abstract: A process comprises a first set of distillation columns and a second set of distillation columns, a low-pressure column of the first set being connected to a column operating at higher pressure of the second set by means of a gas arriving from the top of the column operating at a higher pressure and/or by means of a fluid arriving from the low-pressure column.Type: GrantFiled: November 7, 2014Date of Patent: March 31, 2020Assignee: L'Air Liquide Societe Anonyme Pour L'Etude Et L'Exploitation Des Procedes Georges ClaudeInventors: Benoit Davidian, Richard Dubettier-Grenier
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Patent number: 10563913Abstract: Methods and systems for reducing the pressure of a hydrocarbon-containing stream so as to provide a cooled, reduced-pressure hydrocarbon-containing stream are provided. Facilities as described herein utilize a single closed-loop mixed refrigeration system in order to facilitate transportation, loading, and/or storage of a liquefied hydrocarbon-containing material at or near atmospheric pressure. In some aspects, the facilities can include at least one separation device for removing lighter components from the feed stream, which may separately be recovered as a vapor product for subsequent processing and/or use.Type: GrantFiled: August 22, 2014Date of Patent: February 18, 2020Assignee: BLACK & VEATCH HOLDING COMPANYInventors: Kevin L. Currence, Daniel G. McCartney
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Patent number: 10544964Abstract: A cooler operating on the Stirling cycle, of the type including a compressor with a compression piston moving in a compression cylinder, a regenerator with a regeneration piston moving in a regeneration cylinder, a driving crankshaft including a crank pin that can rotate with respect to the compression cylinder and/or the regeneration cylinder, and a compression connecting rod, including a head mounted on the front pin and a foot articulated on the compression piston, the regeneration piston being connected to the crankshaft by a link element including at least three rigid adjacent sections connected by at least two spring-type connecting rods.Type: GrantFiled: March 14, 2016Date of Patent: January 28, 2020Assignee: THALESInventor: Julien Le Bordays
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Patent number: 10539363Abstract: A method and apparatus for cooling a hydrocarbon stream such as natural gas. An initial hydrocarbon stream is passed through a first separator to provide an initial overhead stream and a mixed hydrocarbon feed stream. The initial overhead stream is cooled to provide a cooled hydrocarbon stream such as LNG, and at least a C1 overhead stream and one or more C2, C3 and C4 overhead streams are separated from the mixed hydrocarbon feed stream. At least a fraction of at least one of the group comprising: the C2 overhead stream, the C3 overhead stream and the C4 overhead stream is cooled with the C1 overhead stream to provide a cooled stream, which is further cooled against at least a fraction of the cooled, preferably liquefied, hydrocarbon stream to provide an at least partly liquefied cooled stream.Type: GrantFiled: February 12, 2009Date of Patent: January 21, 2020Assignee: SHELL OIL COMPANYInventors: Marco Dick Jager, Wouter Jan Meiring
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Patent number: 10465951Abstract: A heat pump system that uses variable magnetization to control the amount of MCM subjected to a magnetic field is provided. More particularly, the amount of MCM subjected to a magnetic field can be selected based on the amount of refrigeration needed. As such, the heat pump system can be adjusted based on e.g., changes in ambient conditions, and the energy used in operating such a heat pump system can be conserved so as to increase energy efficiency of the system.Type: GrantFiled: January 10, 2013Date of Patent: November 5, 2019Assignee: Haier US Appliance Solutions, Inc.Inventor: Michael Alexander Benedict
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Patent number: 10456706Abstract: A cryopump includes a cryopump including: a refrigerator; a first cryopanel including a radiation shield; and a second cryopanel enclosed by the first cryopanel and cooled to a lower temperature than that of the first cryopanel. The radiation shield includes an attaching pedestal located lateral to the second cryopanel for attachment of the refrigerator to the radiation shield, and a shield portion adjacent to the attaching pedestal and enclosing the second cryopanel. A lateral gap is formed between the second cryopanel and the attaching pedestal. A gap part continuing into the lateral gap is formed between the second cryopanel and the shield portion. The second cryopanel is shaped and/or located such that the lateral gap is comparable in width to the gap part.Type: GrantFiled: June 11, 2014Date of Patent: October 29, 2019Assignee: SUMITOMO HEAVY INDUSTRIES, LTD.Inventor: Ken Oikawa
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Patent number: 10436508Abstract: One object of the present invention is to provide an air separation method and an air separation apparatus which can collect a larger amount of nitrogen gas, liquefied oxygen, and liquefied nitrogen which have higher pressure than the operating pressure in the low-pressure column while inhibiting a decrease of the argon recovery, and the present invention provides an air separation method comprising a step in which the low-pressure liquefied oxygen at the bottom part of the low-pressure column is reboiled by the argon gas at the top part of the argon column and the middle-pressure nitrogen gas at the top part of the middle-pressure column, and a step in which the middle-pressure liquefied oxygen at the bottom part of the argon column is reboiled by the high-pressure nitrogen gas at the top part of the high-pressure column.Type: GrantFiled: February 3, 2014Date of Patent: October 8, 2019Assignee: TAIYO NIPPON SANSO CORPORATIONInventor: Hiroshi Tachibana
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Patent number: 10393411Abstract: A Stirling cryocooler includes a displacer having a displacer base portion disposed on a center axis and a displacer tip portion aligned along the center axis, extending from the displacer base portion to a working-gas expansion space, and a regenerator disposed surrounding the displacer tip portion such as to guide reciprocating travel of the displacer along the center axis. The displacer tip portion includes a plurality of platelike components arranged along the center axis, with each of the plurality of platelike components being furnished with a component side surface defining a portion of the outer surface of the displacer tip portion. The plurality of platelike components form working gas layers between pairs of adjoining components, and/or are formed of a synthetic resin material.Type: GrantFiled: January 25, 2016Date of Patent: August 27, 2019Assignee: SUMITOMO HEAVY INDUSTRIES, LTD.Inventors: Kyosuke Nakano, Yoshikatsu Hiratsuka, Kenta Yumoto