Patents Examined by Robert Spitzer
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Patent number: 6022398Abstract: A high purity isobutane adsorption separation and purification apparatus is provided including a pressure regulator which regulates the pressure of an isobutane-containing gas; the at least one adsorption bed packed with zeolite 5A and carbon molecular sieve arranged downstream of and operatively associated with the pressure regulator; a flow control valve disposed between the pressure regulator and the at least one adsorption bed; a surge tank operatively associated with and for receiving a purified isobutane product from the at least one adsorption bed; a vacuum pump operatively associated with and for removal of impurities from the at least one adsorption bed; and valves disposed between the pressure regulator and the at least one adsorption bed, between the at least one adsorption bed and the surge tank, and between the at least one adsorption bed and the vacuum pump. An adsorptive separation and isobutane purification process is also provided which may be used with the apparatus of the invention.Type: GrantFiled: March 2, 1998Date of Patent: February 8, 2000Assignee: Korea Institute of Energy ResearchInventors: Soon-Haeng Cho, Sang-Sup Han, Jong-Nam Kim, Kuck-Tack Chue, Jung-Il Yang, Hee-Tae Beum
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Patent number: 6017382Abstract: A method of processing semiconductor manufacturing exhaust gases for recovering at least hexafluoroethane in which a feed stream composed of the exhaust gases is passed through an adsorbent bed selected to adsorb oxygen, and also nitrogen if present, but not to appreciably adsorb the hexafluoroethane. As a result, a product stream, discharged from the adsorbent bed, has a higher concentration of hexafluoroethane than in the feed stream. In one embodiment, only a single adsorbent such as carbon molecular sieve is provided to adsorb the oxygen or a modified 4A zeolite could be used to adsorb both oxygen and nitrogen. When nitrogen is a potential constituent, layers of carbon molecular sieve and zeolite are provided to adsorb the oxygen and then the nitrogen, respectively. A third adsorbent, preferably 5A zeolite may be provided in addition to the foregoing two adsorbents to also adsorb any carbon tetrafluoride produced as a by-product.Type: GrantFiled: March 30, 1998Date of Patent: January 25, 2000Assignee: The BOC Group, Inc.Inventors: Wenchang Ji, Dongmin Shen, Ravi Jain, Arthur I. Shirley, Atul M. Athalye, Piotr J. Sadkowski
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Patent number: 6010556Abstract: In a process for separating a gas mixture in a pressure swing adsorption device comprising an adsorber, two outlet vessels and a rotary machine at the inlet, the rotation of the rotary machine is reversed during the first depressurization step (c-d) then during the first repressurization step (g-h), so that these first steps are each broken down into two sub-steps in which the inlet for the adsorber successively experiences two opposite flows, whereas the outlet of the adsorber experiences a flow, respectively leaving or entering, of constant direction. The process is particularly useful in the production of oxygen from air.Type: GrantFiled: July 2, 1998Date of Patent: January 4, 2000Assignee: L'Air Liquide, Societe Anonyme Pour L'Exploitation des Procedes Georges ClaudeInventor: Pierre Petit
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Patent number: 6010555Abstract: A vacuum pressure swing adsorbent (VPSA) system and method for separating a component from a fluid mixture and including a fluid source for introducing the mixture into the system and a supply apparatus for collecting the separated component. A pair of adsorbent bed vessels is interposed between the fluid source and the supply apparatus to adsorb and desorb a predetermined component under respective adsorption and desorption pressures characterized by a low pressure ratio and relatively high desorption pressure values. Implementation of a single-stage vacuum device made possible by the use of the high desorption pressure, results in further reduction in both equipment and operating costs.Type: GrantFiled: November 4, 1997Date of Patent: January 4, 2000Assignee: Praxair Technology, Inc.Inventors: James Smolarek, John Harry Fassbaugh, Michael Kenneth Rogan, Herbert Raymond Schaub
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Patent number: 6007603Abstract: A system for controlling the atmosphere in the container comprising a membrane separation apparatus to separate nitrogen and a second separation apparatus, adapted to separate carbon dioxide and water vapor from a gas mixture in the container. The separated nitrogen is returned to the container, as is at least a portion of the carbon dioxide and water vapor, so as to produce and/or maintain a pre-determined atmosphere composition within the container thereby to prevent spoilage of perishable products within the container.Type: GrantFiled: June 26, 1998Date of Patent: December 28, 1999Assignee: The BOC Group plcInventor: Michael E. Garrett
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Patent number: 6007606Abstract: A PSA process involving the storage of products of various purities in segregated storage tanks for subsequent usage is disclosed. Products of increasing purities, admitted at the product end of the bed, are used during purging and repressurization steps. In addition, different composition streams collected at the feed end of the bed during the countercurrent depressurization step are admitted at the feed end of the bed, in the order of increasing product component content, during the rising pressure step(s). This cycle gives higher recovery and lower bed size factor than prior art PSA cycles.Type: GrantFiled: December 9, 1997Date of Patent: December 28, 1999Assignee: Praxair Technology, Inc.Inventors: Mohamed Safdar Allie Baksh, Frank Notaro
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Patent number: 6004385Abstract: A gas/oil separation system for monitoring the performance of a compact, gas/oil separator apparatus which utilizes at least one pair of centrifugal force primary and secondary separators for separating a wellhead fluid containing crude oil, produced water, and hydrocarbon gas from a hydrocarbon production system into its gas and liquid parts employs relatively simple differential pressure instrumentation for producing real-time signals representative of the compact, gas/oil separator apparatus' liquid carryover performance.Type: GrantFiled: May 4, 1998Date of Patent: December 21, 1999Assignee: Hudson Products CorporationInventor: Daniel P. Birmingham
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Patent number: 6004383Abstract: A membrane dryer apparatus for moist air includes a housing (1) that contains a tubular fabric strand bundle (7) of tubular fabric strands (8) made of selective absorption material through which air to be dried flows, water vapor diffusing through the fabric and collecting on its outside. A portion of the dried compressed output air is channeled off near the discharge (12) of the membrane dryer and passed through a scavenging air duct (14) having a throttle (16) and passed around the outside of the fabric strand bundle to scavenge moisture and remove it through discharge openings (17, 18) to the outside air. To limit consumption of scavenging air, an independent shut-off valve (19), working as an airflow sensor, is installed in the output air duct (13), and this shut-off valve (19) opens only when output air is actually extracted by a user.Type: GrantFiled: September 9, 1998Date of Patent: December 21, 1999Assignees: HYGRAMA AG, ULTRATROC GmbHInventor: Herbert Kuhnelt
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Patent number: 6004377Abstract: SF.sub.6 gas is collected from the inside of a gas insulated machine during maintenance and inspection and is refined. Compositions of the refined SF.sub.6 gas are analyzed and confirmed to be reusable at the site. In the process of SF.sub.6 gas collecting and refining, acidic gases are neutralized and removed by a dry method using filters and the refined SF.sub.6 gas is collected in a collecting tank. In particular, after the refining, the composition of the collected SF.sub.6 gas is measured and confirmed by analysis equipment to quantitatively confirm whether or not the refined SF.sub.6 gas is reusable.Type: GrantFiled: June 16, 1998Date of Patent: December 21, 1999Assignees: Hitachi Engineering & Services Co., Ltd., Showa Denko K.K.Inventors: Shin Tamata, Toru Tsubaki, Akio Nadamura, Koji Ito, Toshio Ohi, Hiromoto Ohno
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Patent number: 6004374Abstract: A carbonaceous adsorbent membrane is prepared by contacting a hydrophobic carbonaceous adsorbent membrane with an aqueous solution of one or more oxidizing acids and one or more metals selected from the group consisting of copper (+2), chromium (+3), and nickel (+2). The treated membrane is rinsed and dried to yield a hydrophilic carbonaceous adsorbent membrane which is useful for removing water from water-containing gas mixtures.Type: GrantFiled: October 10, 1997Date of Patent: December 21, 1999Assignee: Air Products and Chemicals, Inc.Inventors: Madhukar Bhaskara Rao, Shivaji Sircar, Timothy Christopher Golden
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Patent number: 6004378Abstract: In an adsorptive alternating pressure process for the enrichment of air with oxygen using a molecular sieve zeolite in an adsorber, wherein adsorbed components are desorbed under a pressure below the pressure at which air separation and N.sub.2 adsorption is effected and, after desorption, the molecular sieve adsorber is at least partly returned to the air separation pressure with oxygen gas produced in countercurrent to the air separation gas flow, the improvement which comprises cooling product gas and covering the molecular sieve adsorber with the cooled product gas.Type: GrantFiled: February 24, 1992Date of Patent: December 21, 1999Assignee: Bayer AktiengesellschaftInventors: Gerhard Reiss, Lothar Puppe
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Patent number: 6004384Abstract: An apparatus for removing moisture from an air or gas stream by adsorption is disclosed. More particularly, the invention relates to an improved seal and method for removing the seal and an improved L-, V-, or pie-shaped duct that promotes laminar flow (viz. not turbulent) of a moisture- or solvent-laden stream within the rotary adsorption apparatus. This, in turn, reduces the amount of insulation needed as well as isolates the heated duct from the exterior surfaces. The method allows for simplified maintenance of the rotary adsorption apparatus in comparison with conventional seals, which are typically riveted, screwed, or mechanically attached to an adsorption apparatus.Type: GrantFiled: June 3, 1998Date of Patent: December 21, 1999Assignee: Bry-Air, Inc.Inventor: Wayne Caudle
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Patent number: 5997618Abstract: A filter is provided which includes an organic vapor adsorbing layer, a first particulate removal layer, and a second particulate removal layer. The organic vapor adsorbing layer includes porous adsorbent beads which allow air or gas to flow therethrough with little resistance and provide increased surface area by virtue of the pores. The particulate removal layer can be made from an electrostatic and/or polytetraflouroethylene. The filter can have a figure of merit greater than about 10 and a capacity for permanently adsorbing organic vapors, wherein the figure of merit is calculated based upon a fractional efficiency determined for particles having a size of 0.3 .mu.m in an air flow having a velocity of 10.5 ft./min and for Frazier permeability at 0.5 inches H.sub.2 O.Type: GrantFiled: September 25, 1997Date of Patent: December 7, 1999Assignee: Donaldson Company, Inc.Inventors: Kirk A. Schneider, Henry J. Drasner, III, Allan L. Liebrenz, Katsushi Isogawa, Stanley Bucknam Miller, III, Paul Lawrence Kojetin, Cynthia D. Bellefeuille, Andrew J. Dallas, Suzan K. Nunnink
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Patent number: 5997611Abstract: A process for separating the components of a gas mixture in a single adsorption vessel pressure swing adsorption system including the steps: (a) cocurrently passing the gas mixture through the adsorption vessel at a desired adsorption pressure and collecting the nonadsorbed product gas in a storage vessel, (b) cocurrently depressurizing the adsorption vessel and pumping gas removed from the adsorption vessel during this step to the storage vessel, (c) regenerating the adsorbent in the adsorption vessel by countercurrently depressurizing the adsorption vessel, and (d) repressurizing the adsorption vessel to the desired adsorption pressure. Steps (a) and (b) are carried out using gas pumping or compressing devices, and the same or different gas pumping or compressing devices can be used for steps (a) and (b). Step (c) can also be carried out with the pumping device used in step (a).Type: GrantFiled: July 24, 1998Date of Patent: December 7, 1999Assignee: The BOC Group, Inc.Inventors: Shain-Jer Doong, Andrew William Shuttleworth, John R. Ambriano, Apurva Maheshwary, Ian Douglas Travis
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Patent number: 5997612Abstract: A process and apparatus for separating the components of a gas mixture by PSA in a four-vessel adsorption system operated as two pairs of adsorption vessels. The vessels of each pair are operated 180.degree. out of phase, such that one vessel of a pair is in the adsorption mode while the other vessel of the pair is undergoing adsorbent regeneration. The apparatus includes the two pairs of adsorption vessels, an intermediate gas storage reservoir which is used to temporarily store gas removed from the nonadsorbed gas outlet end of the adsorption vessels for use in various steps of the process, one gas blower and a pair of vacuum pumps. The adsorption cycle is such that the pairs of adsorption vessels are operated out of phase relative to each other and the blower and both vacuum pumps are in continuous operation throughout the process. The process and system are particularly well adapted to the separation of nitrogen from oxygen by vacuum swing adsorption.Type: GrantFiled: July 24, 1998Date of Patent: December 7, 1999Assignee: The BOC Group, Inc.Inventor: Shain-Jer Doong
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Patent number: 5997615Abstract: A gas chromatograph includes a heating enclosure, an injection port extending through a wall of the enclosure, a capillary column within the heating enclosure and connected at a distal end thereof to a detector. The injection port is arranged to accept a carrier gas for gaseous components an analyte solution through the capillary column to the detector. An expansion chamber is located within the heating enclosure between the injection port and the capillary column. The expansion chamber is arranged such that it provides fluid communication between the injection port and the capillary column. First and second conduits are attached to the expansion chamber in fluid communication therewith. The first conduit is arranged to accept the carrier gas from outside the heating enclosure and the second conduit is arranged to vent excess vapor from the chamber to a point outside the heating enclosure.Type: GrantFiled: June 23, 1998Date of Patent: December 7, 1999Inventors: Huan V. Luong, Hsing Kuang Lin, Howard Fruwirth, George S. Mueller
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Patent number: 5993515Abstract: A pervaporation process for selectively removing a component from a multicomponent aqueous solution which is practiced with an assembly comprising a feed chamber for holding and introducting the multicomponent aqueous solution to be treated therein, the feed chamber having a pressure, an exit chamber having a pressure, and located adjacent to the feed chamber and downstream thereof; at least one membrane composite located between the feed chamber and the exit chamber and adapted for fluid registry therewith, the membrane composite comprised of a porous membrane having a first and second surface, and a nonporous membrane permanently disposed on the second surface of the porous membrane, and having a permeability selective to the component, the membrane composite aligned such that the nonporous membrane is connected to the feed chamber; and a vacuum pump connected to the exit chamber for evacuating the component from the chamber.Type: GrantFiled: November 18, 1997Date of Patent: November 30, 1999Assignee: New Jersey Institute of TechnologyInventor: Kamalesh K. Sirkar
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Patent number: 5993516Abstract: An adsorbent for separating nitrogen from a feed gas containing at least one other gas having molecular dimensions equal to or larger than methane, the adsorbent comprising clinoptilolite having a sodium ion content of at least 17 equivalent percent of the total ion exchangeable cations and optionally one or more non-univalent cations, which if present comprise in total less than 12 equivalent percent of the total ion exchangeable cations, the balance, if any, being one or more non-sodium univalent cations.Type: GrantFiled: April 9, 1998Date of Patent: November 30, 1999Assignee: BG plcInventors: Michael Morris, Stuart Charles Frank Robinson, David Frederick Lander
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Patent number: 5989313Abstract: A pressure swing adsorber (PSA) air prepurifier includes at least a first adsorber and a second adsorber and a controller for controlling air feed to the first adsorber and the second adsorber. The invention is a "realtime" method for controlling cycle times for each adsorber and includes the following steps. During a determined time period, flow is measured to an adsorber that is coupled to an air inlet. An actual totalized flow to the on-line adsorber is accumulated, based upon the measured flow values. During this time, air feed conditions (e.g., temperature, pressure, relative humidity) are monitored and periodically, a maximum totalized flow to the adsorber is calculated, determined, at least in part, based upon the monitored air feed conditions.Type: GrantFiled: December 19, 1997Date of Patent: November 23, 1999Assignee: Praxair Technology, Inc.Inventor: James Brian Mize
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Patent number: 5989314Abstract: A pressure swing adsorption air prepurifier is used to remove water, carbon dioxide and hydrocarbons from a feed gas stream, such as a feed air stream, passing to a cryogenic air separation plant. By the incorporation of a regenerative heat exchange as an integral part of the air prepurifier, the cooling effects of the desorption of water are stored and transferred so as to cool the incoming feed air stream passing to the adsorbent material within the air prepurifier. The productive capacity of the adsorbent material is enhanced thereby.Type: GrantFiled: December 16, 1997Date of Patent: November 23, 1999Assignee: Praxair Technology, Inc.Inventors: Herbert Raymond Schaub, Frederick Wells Leavitt