Synthetic Resin Patents (Class 210/654)
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Publication number: 20120107720Abstract: The present invention relates to self-supporting dynamic polymer membranes (called “dynamer” membranes) of the polyimine type, to their method of preparation and to their use in separation processes, especially for separating gaseous CP species.Type: ApplicationFiled: March 11, 2010Publication date: May 3, 2012Inventors: Gihane Nasr, Mihai-Dumitru Barboiu, Christophe Charmette, José Gregorio Sanchez Marcano
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Publication number: 20120097612Abstract: Separation of the components of liquid mixtures is achieved by contacting a liquid mixture with a nonporous membrane having a fluoropolymer selectively permeable layer and imposing a pressure gradient across the membrane from feed side to permeate side. Unusually high transmembrane flux is obtained when the membrane is subjected to one or more process conditions prior to separation. These include (a) leaving some residual amount of membrane casting solvent in the membrane, and (b) contacting the membrane with a component of the mixture to be separated for a duration effective to saturate the membrane with the component.Type: ApplicationFiled: October 24, 2011Publication date: April 26, 2012Applicant: CMS TECHNOLOGIES HOLDINGS, INC.Inventors: Stuart M. Nemser, Praveen Kosaraju, John Bowser
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Publication number: 20120080381Abstract: Processes for manufacturing a thin film composite membrane comprising multi-walled carbon nanotubes include contacting under interfacial polymerization conditions an organic solution comprising a polyacid halide and carbon nanotubes with an aqueous solution comprising a polyamine to form a thin film composite membrane on a surface of a porous base membrane, wherein the organic solution additionally comprises a saturated cyclic C5-C20 hydrocarbon solvent.Type: ApplicationFiled: September 30, 2010Publication date: April 5, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Hua Wang, Gary William Yeager, Steven Thomas Rice
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Publication number: 20120080380Abstract: Processes for manufacturing a thin film composite membrane comprising multi-walled carbon nanotubes include contacting under interfacial polymerization conditions an organic solution comprising a polyacid halide with an aqueous solution comprising a polyamine to form a thin film composite membrane on a surface of a porous base membrane; at least one of the organic solution and the aqueous solution further including multi-walled carbon nanotubes having an outside diameter of less than about 30 nm.Type: ApplicationFiled: September 30, 2010Publication date: April 5, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Hua Wang, Gary William Yeager, Joseph Anthony Suriano, Steven Thomas Rice
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Publication number: 20120074064Abstract: Permselective asymmetric membranes suitable e.g. for hemodialysis, hemodiafiltration and hemofiltration of blood, and having improved performance, including improved sieving characteristics, providing enhanced removal of middle molecular weight substances, e.g. inflammatory mediators having a molecular weight between 20 and 40 kDa. The improved sieving characteristics are due to a narrow pore size distribution of the membranes created in the production process. Processes for the preparation of these membranes, devices comprising these membranes, and the use of these membranes in hemodialysis, hemodiafiltration and hemofiltration of blood, as well as in bioprocessing, plasma fractionation and the preparation of protein solutions.Type: ApplicationFiled: May 19, 2010Publication date: March 29, 2012Applicant: GAMBRO LUNDIA ABInventors: Bernd Krause, Carina Zweigart, Heinrich Behr
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Publication number: 20120074063Abstract: Permselective asymmetric membranes suitable e.g. for hemodialysis, hemodiafiltration and hemofiltration of blood, and having improved sieving characteristics providing enhanced removal of middle molecular weight substances, e.g. inflammatory mediators having a molecular weight between 20 and 40 kDa. The membranes comprise polyethersulfone and polyvinylpyrrolidone and are coated with hyaluronic acid or copolymers of 2-methacryloyloxyethyl phosphoryl choline and other vinyl polymerizable monomers. Processes for the preparation of these membranes, devices comprising these membranes, and the use of these membranes in hemodialysis, hemodiafiltration and hemofiltration of blood, as well as in bioprocessing, plasma fractionation and the preparation of protein solutions.Type: ApplicationFiled: May 19, 2010Publication date: March 29, 2012Applicant: GAMBRO LUNDIA ABInventors: Bernd Krause, Carina Zweigart
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Publication number: 20120067822Abstract: A method for treating wastewater containing heavy metals comprising directing the wastewater across a reverse osmosis aromatic polyamide membrane at low pressure ranging from 40-120 psi, the membrane being capable of removing at least 90% of the target heavy metals from the wastewater.Type: ApplicationFiled: May 25, 2010Publication date: March 22, 2012Inventors: Zaini Ujang, Myzairah Hamdzah, Hiroaki Ozaki
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Publication number: 20120048805Abstract: The disclosure provides a method of modifying thin film composite membrane support structures. In particular, the disclosure provides method of modifying thin film composite membrane support structures with poly(dopamine) for use with engineered osmosis applications.Type: ApplicationFiled: July 18, 2011Publication date: March 1, 2012Applicants: University of Texas at Austin, UNIVERSITY OF CONNECTICUTInventors: Jeffrey McCutcheon, Jason Arena, Benny Freeman, Bryan McCloskey
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Publication number: 20120012527Abstract: A polymeric membrane includes an active layer on a support. The active layer includes at least two chemically distinct crosslinked, polyamide films, and the films are crosslinked with each other at an interface.Type: ApplicationFiled: July 15, 2010Publication date: January 19, 2012Applicant: International Business Machines CorporationInventors: Robert David Allen, Young-Hye Na, Ratnam Sooriyakumaran
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Publication number: 20120000852Abstract: A membrane comprising polybenzimidazole and aromatic polyester wherein said aromatic polyester is removed is disclosed. The membrane is used for a process of deacidification.Type: ApplicationFiled: February 24, 2010Publication date: January 5, 2012Applicant: COUNCIL OF SCIENTIFIC AND INDUSTRIAL RESEARCHInventors: Ulhas Kanhaiyalal Kharul, Ramchandra Vitthal Gadre, Vithal Venkatrao Jogdand, Yogesh Jayasing Chendake
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Patent number: 8083946Abstract: This invention relates to the fabrication of a polymeric membrane and a process for utilizing the polymeric membrane for separating components of a feedstream. More particularly, but not by way of limitation, this invention relates to the fabrication of a polymeric membrane and a process for utilizing the polymeric membrane in the separation of aromatics from a hydrocarbon based feedstream. The membranes of the present invention possess low soft segment glass transition temperatures and improved separation characteristics.Type: GrantFiled: August 3, 2007Date of Patent: December 27, 2011Assignee: ExxonMobil Research and Engineering CompanyInventors: Craig Y. Sabottke, Bal K. Kaul, Dennis G. Peiffer
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Patent number: 8075780Abstract: The present invention is an ultrafiltration (UF) membrane having a nominal molecular weight cut off (NMWCO) of from about 0.5 KD to about 10 KD wherein the membrane surfaces have a charge that is either positive or negative. The present invention is also a method of using the charged UF membrane to purify and concentrate synthetic biological molecules by using the charged surface either to repel the synthetic biomolecules retaining them in the retentate or to attract the synthetic biomolecules preferentially for filtration through the membrane.Type: GrantFiled: November 4, 2004Date of Patent: December 13, 2011Assignee: Millipore CorporationInventor: Richard James Pearce
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Publication number: 20110290730Abstract: This invention relates to heterogenous pore polymer nanotube membranes useful in filtration, such as reverse osmosis desalination, nanofiltration, ultrafiltration and gas separation.Type: ApplicationFiled: August 8, 2011Publication date: December 1, 2011Applicant: NanOasis Technologies Inc.Inventors: Timothy V. Ratto, Jason K. Holt, Alan W. Szmodis
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Patent number: 7997426Abstract: A multi-layer membrane structure including a crosslinked polymeric membrane, such as a crosslinked polyvinyl sulfate membrane or a crosslinked copolymer polyvinyl sulfate and polyvinyl alcohol membrane, is provided. The membrane structure is suitable for use in an acid environment, and is suitable for recovering acid from a feed mixture comprising acid, hydrocarbons and water.Type: GrantFiled: August 7, 2007Date of Patent: August 16, 2011Assignee: Exxonmobil Research and Engineering CompanyInventors: Bhupender S. Minhas, Dennis G. Peiffer, Michael Mayers, Lloyd S. White, William A. Feehley
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Publication number: 20110168631Abstract: Membranes for use in methods and apparatuses for water filtration are composed of at least one polyarylethernitrile membrane having structural units of formula 1 and structural units of formula 2, 3, or a combination thereof wherein Z is independently a direct bond, O, S, CH2, SO, SO2, CO, RPO, CH2, alkenyl, alkynyl, a C1-C12 aliphatic radical, a C6-C12 cycloaliphatic radical, a C6-C12 aromatic radical or a combination thereof, and wherein R is equal to C6-C12 aryl radical; Q is a direct bond, O, S, CH2, alkenyl, alkynyl, a C1-C12 aliphatic radical, a C3-C12 cycloaliphatic radical, a C6-C12 aromatic radical or a combination thereof; R1, R2, R3 and R4 are independently H, halo, nitro, a C1-C12 aliphatic radical, a C3-C12 cycloaliphatic radical, a C6-C12 aromatic radical, or a combination thereof; a is 0, 1, 2 or 3; b, c, and d are independently 0, 1, 2, 3 or 4; and p, m and n are independently 0 or 1; and Q and Z are different.Type: ApplicationFiled: March 18, 2011Publication date: July 14, 2011Applicant: GENERAL ELECTRIC COMPANYInventors: Gary William Yeager, Daniel Steiger, Yanshi Zhang
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Patent number: 7943037Abstract: A heavy residual petroleum feed boiling above 650° F.+ (345° C.+) is subjected to membrane separation to produce a produce a permeate which is low in metals and Microcarbon Residue (MCR) as well as a retentate, containing most of the MCR and metals, the retentate is then subjected to hydroconversion at elevated temperature in the presence of hydrogen at a hydrogen pressure not higher than 500 psig (3500 kPag) using a dispersed metal-on-carbon catalyst to produce a hydroconverted effluent which is fractionated to give naphtha, distillate and gas oil fractions. The permeate from the membrane separation may be used as FCC feed either as such or with moderate hydrotreatment to remove residual heteroatoms. The process has the advantage that the hydroconversion may be carried out in low pressure equipment with a low hydrogen consumption as saturation of aromatics is reduced.Type: GrantFiled: March 11, 2008Date of Patent: May 17, 2011Assignee: ExxonMobil Research & Engineering CompanyInventors: Martin L. Gorbaty, David T. Ferrughelli, Edward W. Corcoran, Stephen M. Cundy
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Patent number: 7931798Abstract: A heavy residual petroleum feed boiling above 650° F.+ (345° C.+) is subjected to hydroconversion at elevated temperature in the presence of hydrogen at a hydrogen pressure not normally higher than 500 psig (3500 kPag) using a dispersed metal-on-carbon catalyst to produce a hydroconverted effluent which is fractionated to form a low boiling fraction and a relatively higher boiling fraction which is subjected to membrane separation to produce a permeate which is low in metals and Microcarbon Residue (MCR) as well as a retentate, containing most of the MCR and metals. The process has the advantage that the hydroconversion may be carried out in low pressure equipment with a low hydrogen consumption as saturation of aromatics is reduced.Type: GrantFiled: March 11, 2008Date of Patent: April 26, 2011Assignee: ExxonMobil Research and Engineering CompanyInventors: Martin L. Gorbaty, David T. Ferrughelli, Edward W. Corcoran, Stephen M. Cundy, Andrew Kaldor
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Publication number: 20110049055Abstract: Improved methods for reducing boron concentration in seawater or brackish water, while simultaneously maintaining or improving the salt rejection of membrane and flow performance of polyamide reverse osmosis (RO) membranes include contacting the water with a composite membrane comprising moieties derived from an aromatic sulfonyl halide, a heteroaromatic sulfonyl halide, a sulfinyl halide; a sulfenyl halide; a sulfuryl halide; a phosphoryl halide; a phosphonyl halide; a phosphinyl halide; a thiophosphoryl halide; a thiophosphonyl halide, an isocyanate, a urea, a cyanate, an aromatic carbonyl halide, an epoxide or a mixture thereof.Type: ApplicationFiled: August 31, 2009Publication date: March 3, 2011Applicant: GENERAL ELECTRIC COMPANYInventors: Hua Wang, David Allen Olson, Jiang Ji, Michael Todd Luttrell, Gary William Yeager, Joseph Anthony Suriano, Lawrence Charles Costa
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Publication number: 20110036775Abstract: The present invention includes systems and methods for treatment of seawater RO system for recovering most of the water (i.e., 85-90%) from the concentrate of a brackish groundwater reverse osmosis treatment system that may use, e.g., a batch method. With proper pH control and antiscalant dosage, the batch-treatment SWRO system of the present invention can be used to recovery water from silica-saturated RO concentrate without fouling the membranes. Silica concentrations of over 1000 mg/L are attainable with relatively minimal pre-treatment of the silica-saturated feed solution.Type: ApplicationFiled: August 6, 2010Publication date: February 17, 2011Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventor: Anthony J. Tarquin
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Publication number: 20100305217Abstract: The invention relates to a micro-porous membrane comprising a porous membrane carrier made of a first polymeric material (A) and comprising a second polymeric material (B) intimately divided throughout the porous membrane carrier, wherein the porous membrane carrier comprises a plurality of interconnected polymeric fibers, fibrils, filaments and/or lamellae having a thickness of less than 1 ?m, the porous membrane carrier has an interconnected open porous structure formed by the plurality of interconnected polymeric fibers, fibrils, filaments and/or lamellae and a porosity of at least 50%; and the polymeric material (B) comprises a thermoplastic polycondensation polymer and is present in an amount of at most 30 wt. %, relative to the total weight of (A) and (B).Type: ApplicationFiled: November 14, 2008Publication date: December 2, 2010Inventors: Jun Qiu, Rudy Rulkens, Johannes Leornardus Maria OP Den Kamp, Jens Christoph Thies
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Publication number: 20100294719Abstract: A process for treating produced water in heavy oil production comprises, providing an oil/water mixture gathered from an oil/water collection well, whereby oil from said oil/water mixture is separated to provide an oil product and a produced water product containing oil, dissolved gases and dissolved solutes. Said produced water product is then deoiled, and the deoiled water subsequently passes though a membrane system, resulting in permeate water and reject. The resulting permeate water is sent on to a boiler system for production of steam, and the reject is introduced into an evaporator to result in distillate water and blow down. Thereafter, the blow down may be charged into zero liquid discharge treatment; and the distillate water added to the membrane permeate.Type: ApplicationFiled: May 19, 2009Publication date: November 25, 2010Inventors: David M. Polizzotti, Graham Sim
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Patent number: 7815987Abstract: A polyamide membrane and method for making and using the same, including use within a spiral wound module. While many different embodiments are described, one embodiment includes a polyamide membrane including a coating comprising a combination of a polyalkylene oxide compound and a polyacrylamide compound.Type: GrantFiled: December 4, 2008Date of Patent: October 19, 2010Assignee: Dow Global Technologies Inc.Inventors: William E. Mickols, Chunming Zhang
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Publication number: 20100206811Abstract: The present invention relates to semipermeable membranes with nanotubes dispersed therein, and the methods of preparing the same.Type: ApplicationFiled: September 10, 2008Publication date: August 19, 2010Applicant: NATIONAL UNIVERSITY OF SINGAPOREInventors: How Yong Ng, Wei Duan
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Polymer Membranes Prepared from Aromatic Polyimide Membranes by Thermal Treating and UV Crosslinking
Publication number: 20100133192Abstract: The present invention discloses a new type of high performance polymer membranes prepared from aromatic polyimide membranes by thermal treating and crosslinking and methods for making and using these membranes. The polymer membranes were prepared from aromatic polyimide membranes by thermal treating under inert atmosphere followed by crosslinking preferably by using a UV radiation source. The aromatic polyimide membranes were made from aromatic polyimide polymers comprising both pendent hydroxy functional groups ortho to the heterocyclic imide nitrogen and cross-linkable functional groups in the polymer backbone. The membranes showed significantly improved selectivity and permeability for gas separations compared to the aromatic polyimide membranes without any treatment. The membranes can be fabricated into any convenient geometry and are not only suitable for a variety of liquid, gas, and vapor separations, but also can be used for other applications such as for catalysis and fuel cell applications.Type: ApplicationFiled: March 27, 2009Publication date: June 3, 2010Inventors: Chunqing Liu, Peter K. Coughlin, Man-Wing Tang, Raisa Serbayeva, Lubo Zhou -
Publication number: 20100133186Abstract: In the present invention high performance cross-linked polybenzoxazole and polybenzothiazole polymer membranes and methods for making and using these membranes have been developed. The cross-linked polybenzoxazole and polybenzothiazole polymer membranes are prepared by: 1) first synthesizing polyimide polymers comprising pendent functional groups (e.g., —OH or —SH) ortho to the heterocyclic imide nitrogen and cross-linkable functional groups in the polymer backbone; 2) fabricating polyimide membranes from these polymers; 3) converting the polyimide membranes to polybenzoxazole or polybenzothiazole membranes by heating under inert atmosphere such as nitrogen or vacuum; and 4) finally converting the membranes to high performance cross-linked polybenzoxazole or polybenzothiazole membranes by a crosslinking treatment, preferably UV radiation. The membranes can be fabricated into any convenient geometry.Type: ApplicationFiled: March 27, 2009Publication date: June 3, 2010Inventors: Chunqing Liu, Man-Wing Tang, Raisa Serbayeva, Lubo Zhou
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Publication number: 20100133188Abstract: The present invention discloses high performance polybenzoxazole membranes prepared from aromatic poly(o-hydroxy amide) membranes by thermal cyclization and a method for using these membranes. The polybenzoxazole membranes were prepared by thermal treating aromatic poly(o-hydroxy amide) membranes in a temperature range of 200° to 550° C. under inert atmosphere. The aromatic poly(o-hydroxy amide) membranes used for making the polybenzoxazole membranes were prepared from aromatic poly(o-hydroxy amide) polymers comprising pendent phenolic hydroxyl groups ortho to the amide nitrogen in the polymer backbone. In some embodiments of the invention, the polybenzoxazole membranes may be subjected to an additional crosslinking step to increase the selectivity of the membranes.Type: ApplicationFiled: June 25, 2009Publication date: June 3, 2010Inventors: Chunqing Liu, Raisa Minkov, Syed A. Faheem, Man-Wing Tang, Lubo Zhou, Jeffery C. Bricker
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Publication number: 20100108607Abstract: The present invention relates to methods and apparatuses for water filtration comprising contacting a water stream with a membrane comprising a polysulfone having structural units of Formula I wherein X is OH, NR1R2, or OR3; R1 and R2 are independently at each occurrence hydrogen, a C1-C5000 aliphatic radical, a C3-C12 cycloaliphatic radical, a C3-C12 aromatic radical, a polypeptide, a combination thereof, or R1 and R2 taken together form a 5- or 6-membered aliphatic ring or a 5-membered aromatic ring; R3 is a C1-C20 aliphatic radical, C3-C12 cycloaliphatic radical, C3-C12 aromatic radical, or a combination thereof; B? and C? are independently at each occurrence a nitro group, C1-C20 aliphatic radical, C3-C12 cycloaliphatic radical, C3-C12 aromatic radical, or a combination thereof; and q and r are independently at each occurrence 0 to 4.Type: ApplicationFiled: October 31, 2008Publication date: May 6, 2010Applicant: GENERAL ELECTRIC COMPANYInventors: Gary William Yeager, Liming Yu, Daniel Steiger, Yanshi Zhang
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Publication number: 20100018926Abstract: The present invention discloses mixed matrix membranes (MMMs) comprising ion-exchanged molecular sieves such as UZM-5 zeolite ion-exchanged with Li+ cation (Li-UZM-5) and a continuous polymer matrix and methods for making and using these membranes. These MMMs, comprising ion-exchanged molecular sieves, in the form of symmetric dense films, asymmetric flat sheets, asymmetric hollow fibers, or thin-film composites, have exhibited simultaneously increased selectivity and permeability (or permeance) over polymer-only membranes and the mixed matrix membranes made from molecular sieves that have not been ion exchanged for gas separations. These MMMs are suitable for a variety of liquid, gas, and vapor separations such as desalination of water by reverse osmosis, deep desulfurization of gasoline and diesel fuels, ethanol/water separations, pervaporation dehydration of aqueous/organic mixtures, CO2/CH4, CO2/N2, H2/CH4, O2/N2, olefin/paraffin, iso/normal paraffins separations, and other light gas mixture separations.Type: ApplicationFiled: June 25, 2008Publication date: January 28, 2010Inventors: Chunqing Liu, Jaime G. Moscoso, Raisa Serbayeva, Stephen T. Wilson, David A. Lesch
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Publication number: 20090294361Abstract: A permeate tube for spiral wound membrane comprising at least one tubular unit, which unit has spaced along its length a plurality of permeate transfer means, and one or more external grooves forming flow channels connecting the permeate transfer means. The present invention relates further to a process for treating a material having a viscosity less than 50 cP by the use of a spiral wound membrane comprising a permeate tube having at least one tubular unit, which unit has spaced along its length a plurality of permeate transfer means, and one or more external grooves forming flow channels connecting the permeate transfer means, around the permeate tube are one or more permeate transfer leaves, one or more membrane leaves and one or more space leaves wound. The present invention relates also to a process of operating a spiral wound membrane. The present invention relates further to uses of the spiral wound membrane.Type: ApplicationFiled: October 19, 2005Publication date: December 3, 2009Inventor: Knud Verner Larsen
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Patent number: 7625351Abstract: Provided herein is an innovative hemoperfusion system and method including a thermal-fused broad-spectrum biocidal iodinated interactive polymer for the treatment of biological contaminants in body fluids. In one exemplary embodiment, the system and method utilizes a Triosyn® thermal fused broad-spectrum iodinated interactive polymer, included in a hemoperfusion column, for devitalizing high levels of cell-free microorganisms in whole blood and biological fluids in relation with the characterization of blood cells viability and function post-treatment.Type: GrantFiled: September 10, 2004Date of Patent: December 1, 2009Assignee: Triosyn Holding, Inc.Inventor: Pierre Messier
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Publication number: 20090283476Abstract: A polysulfone having a first polyphenylene sulfone unit (i.e. PPSU unit) based on one biphenol group and one diphenyl sulfone group and a second sulfone unit (i.e. PSU-AF unit) based on one hexafluorobisphenol A group and one diphenylsulfone group. The polysulfone is transparent and has a total heat release and peak heat release of less than 65 kW·min/m2 and 65 kW/m2, respectively. Compositions containing the polysulfone and articles made by molding and/or extruding the polysulfone.Type: ApplicationFiled: May 14, 2009Publication date: November 19, 2009Applicant: SOLVAY ADVANCED POLYMERS, L.L.C.Inventors: Thomas H. SCHWAB, Theodore MOORE
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Publication number: 20090114596Abstract: Nanofilms useful for filtration are prepared from oriented amphiphilic molecules and oriented macrocyclic modules. The amphiphilic species may be oriented on an interface or surface. The nanofilm may be prepared by depositing or attaching an oriented layer to a substrate. A nanofilm may also be prepared by coupling the oriented macrocyclic modules to provide a membrane.Type: ApplicationFiled: July 31, 2008Publication date: May 7, 2009Inventors: Joshua W. KRIESEL, Timothy B. Karpishin, Donald B. Bivin, Grant Merrill, Martin S. Edelstein, Thomas H. Smith, Jeffery A. Whiteford, Robert T. Jonas, Mark Micklatcher, Serena Joshi
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Publication number: 20090032465Abstract: Process for separating a metal complex catalyst from a reaction mixture obtained from a telomerization reaction, wherein the metal complex catalyst is separated off at least one membrane which is more permeable to the telomerization product than to the metal complex catalyst.Type: ApplicationFiled: December 7, 2006Publication date: February 5, 2009Applicant: Evonik Oxeno GmbHInventors: Goetz Baumgarten, Dagmara Ortmann, Franz-Felix Kuppinger, Cornelia Borgmann, Stephan Houbrechts
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Patent number: 7473412Abstract: Process for the purification of aqueous peroxygen solutions comprising the treatment of an aqueous peroxygen solution with (a) at least one membrane purification step, (b) optionally at least one ion exchange purification step, (c) optionally at least one dilution step, and (d) at least one other purification step, all of which can be conducted in any sequence. Aqueous peroxygen solutions having a TOC level of less than 1 mg/kg can be obtained by this process. They can be used in the manufacture of semiconductors.Type: GrantFiled: October 1, 2004Date of Patent: January 6, 2009Assignee: Solvay (Société Anonyme)Inventors: Robert Owen, Juergen Bosse, Michael Sell
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Publication number: 20080318134Abstract: The invention relates to novel organic/inorganic hybrid membranes which have the following composition: a polymer acid containing —SO3H, —PO3H2, —COOH or B(OH)2 groups, a polymeric base (optional), which contains primary, secondary or tertiary amino groups, pyridine groups, imidazole, benzimidazole, triazole, benzotriazole, pyrazole or benzopyrazole groups, either in the side chain or in the main chain; an additional polymeric base (optional) containing the aforementioned basic groups; an element or metal oxide or hydroxide, which has been obtained by hydrolysis and/or sol-gel reaction of an elementalorganic and/or metalorganic compound during the membrane forming process and/or by a re-treatment of the membrane in aqueous acidic, alkaline or neutral electrolytes. The invention also relates to methods for producing said membranes and to various uses for membranes of this type.Type: ApplicationFiled: April 14, 2008Publication date: December 25, 2008Inventor: Jochen Kerres
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Publication number: 20080308497Abstract: A radial flow filter element (10) includes at least one wound body (14) comprising a radially extending filtration zone (20) with alternating co-wound liquid-permeable layers respectively of a predominantly cellulosic material and a predominantly synthetic plastics or polymeric material.Type: ApplicationFiled: November 29, 2006Publication date: December 18, 2008Inventors: Malcolm David Walker, Roger William Gemmell, Hector Brian Salzwedel
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Publication number: 20080296225Abstract: Water permeable membranes and methods of forming water permeable membranes are provided. The water permeable membranes are comprised of a cross-linked polyamide containing at least one bifunctional additive that is hydrophilic and reactive. Additionally, in accordance with other embodiments of this invention, methods of forming water permeable membranes comprised of a cross-linked polyamide containing at least one bifunctional additive that is hydrophilic and reactive are provided. Specifically, the water permeable membranes may comprise a membrane formed from a cross-linked aromatic or aromatic/aliphatic polyamide interfacially polymerized on a porous support. The presence of the at least one hydrophilic and reactive additive improves the flux and salt retention properties of the membrane in comparison to a membrane formed without the at least one hydrophilic and reactive additive.Type: ApplicationFiled: July 17, 2008Publication date: December 4, 2008Inventor: W.S. Winston Ho
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Publication number: 20080290034Abstract: This invention is related to the fields of organic chemistry and nanotechnology. In particular, it relates to materials and methods for the preparation of organic synthons and bridged macrocyclic module compounds. The bridged macrocyclic module compounds may be used to prepare macrocyclic compositions such as nanofilms, which may be useful for filtration.Type: ApplicationFiled: March 19, 2008Publication date: November 27, 2008Inventors: Jeffery A. Whiteford, William Freeman, Joshua W. Kriesel
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Publication number: 20080223785Abstract: Compositions and processes are disclosed for economical separation of fluid mixtures. Broadly, the present invention discloses ionic polymer compositions that are useful for perm-selective membrane separations. More particularly, ionic polymers of the invention comprise a plurality of repeating structural units having as a constituent part thereof organic ionic moieties consisting of nitrogen containing anions and/or cations. In the form of non-porous membranes, ionic polymers of the invention facilitate recovery of purified organic and inorganic products from fluid mixtures by means of perm-selective membrane separations. The present invention also provides methods for forming the ionic polymers, for example by treating selected nitrogen-containing organic polymers with acids, or treating a polymeric material comprising a plurality of carboxylate groups with an amine.Type: ApplicationFiled: March 13, 2007Publication date: September 18, 2008Inventors: Jeffrey T. Miller, George A. Huff, William John Koros, Charles Richard Hoppin
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Patent number: 7365142Abstract: The present invention is directed to enantioselective polyelectrolyte complex films. Further, said films may be free or isolated membranes, or coatings on substrates such a porous substrates, capillary tubes, chromatographic packing material, and monolithic stationary phases and used to separate chiral compounds. The present invention is also directed to a method for forming such enantioselective polyelectrolyte complex films.Type: GrantFiled: August 7, 2006Date of Patent: April 29, 2008Assignee: Florida State University Research Foundation, Inc.Inventors: Joseph B. Schlenoff, Hassan Rmaile
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Patent number: 7339008Abstract: The present invention relates to the use of a hydrophilic, biocompatible and biodegradable elastomer membrane or film for the selective separation of a gas mixture. Accordingly, processes for selective gas separation of a gas mixture are provided in which a gas mixture is contacted with such a membrane such that a selective portion of the gas mixture passes through the membrane.Type: GrantFiled: June 27, 2006Date of Patent: March 4, 2008Assignee: Centre National de la Recherche ScientifiqueInventors: José-Grégorio Sanchez, Philippe Gramain
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Patent number: 7138058Abstract: Semi-permeable membranes are described that allow for the efficient processing of many liquid based feed solutions, particularly those that contain acids. The membranes of this invention are able to process such feeds with high permeate rates while maintaining excellent retention of dissolved metals, cations, and organic compounds, even in the presence of hot concentrated acids. The semi-permeable membranes of this invention are able to conduct such separations for a useful period of time due to their chemical stability towards acids and their ability to permeate acids.Type: GrantFiled: November 22, 2002Date of Patent: November 21, 2006Assignee: GE Osmonics, Inc.Inventors: Christopher J. Kurth, Steven D. Kloos, Jessica A. Peschl, Leonard T. Hodgins
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Patent number: 7101947Abstract: The present invention is directed to enantioselective polyelectrolyte complex films. Further, said films may be free or isolated membranes, or coatings on substrates such a porous substrates, capillary tubes, chromatographic packing material, and monolithic stationary phases and used to separate chiral compounds. The present invention is also directed to a method for forming such enantioselective polyelectrolyte complex films.Type: GrantFiled: June 16, 2003Date of Patent: September 5, 2006Assignee: Florida State University Research Foundation, Inc.Inventors: Joseph B. Schlenoff, Hassan Rmaile
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Patent number: 7056726Abstract: The invention concerns a semipermeable chamber for encapsulation of cells producing at least a biological substance of interest, characterised in that it consists of a porous polycarbonate biocompatible film modified at the surface by generated polar sites and covered with at least a layer of hydrophilic polymer.Type: GrantFiled: January 29, 2002Date of Patent: June 6, 2006Assignees: Association pour les Transferts de Technologies du Mans, Universite Catholique de louvain, Centre Europeen d'Etude du Diabete (CEED)Inventors: Gilbert Legeay, Patrick Bertrand, Alain Belcourt, Laurence Kessler
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Patent number: 7001518Abstract: Novel low pressure reverse osmosis and nanofiltration membranes and a process for their preparation are disclosed. Polyamide reverse osmosis membranes are contacted with organic sulfonic acid solutions without the need for additional treatment by a rejection enhancing agent. These membranes provide sodium chloride rejections of greater than 20 percent and water fluxes greater than 15 gallons per square foot per day at a test pressure of 75 psi. Optimally treated membranes when tested similarly on 0.2 percent magnesium sulfate provide rejections greater than 95 percent with water fluxes greater than 15 gallons per square foot per day.Type: GrantFiled: November 28, 2000Date of Patent: February 21, 2006Assignee: HydranauticsInventor: John Edward Tomaschke
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Patent number: 6974544Abstract: A method for membrane filtration of effluent water containing suspended matter reduces membrane clogging and improves filtration capacity of the membrane. The method includes adding a dose of a preselected coagulation reactant to the effluent before the effluent passes over the membrane. The added dose is a fraction of the coagulating reactant dose (X) that would render the zeta potential of the effluent equal to zero. The range of the added dose is X/30-X/80. The suspended matter in the effluent is subjected to the added dose of coagulation reactant for destabilizing the suspended matter.Type: GrantFiled: October 26, 2000Date of Patent: December 13, 2005Assignee: Ondeo DegremontInventor: Chrystelle Langlais
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Patent number: 6972093Abstract: An onboard fuel separation apparatus separates a material fuel (gasoline) into a high-octane fuel having a higher octane value than the material fuel and a low-octane fuel having a lower octane value than the material fuel using a separation membrane which selectively allows high-octane value components (such as aromatic components) permeate through the membrane. The apparatus increases the ratio of the amount of the high-octane value components permeating through the membrane to the amount of the high-octane value components contained in the material fuel by, (A) Controlling the temperature of the material fuel supplied to the membrane (B) Increasing partial pressure of the low-octane value components on the high-octane fuel side of the membrane and removing volatiles from the permeate, and (C) Bypassing volatiles in the material feed around the membrane.Type: GrantFiled: January 30, 2003Date of Patent: December 6, 2005Assignees: Exxonmobil Research and Engineering Company, Toyota Jidosha Kabushiki KaishaInventors: Randall D. Partridge, Walter Weissman, Takanori Ueda, Yoshihiro Iwashita
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Patent number: 6972094Abstract: Upon recovering a fluorochemical surfactant from a fluorochemical-containing aqueous solution, there is provided a method for recovering the fluorochemical surfactant from the aqueous solution containing the surfactant. In the method, the fluorochemical surfactant is recovered by subjecting the aqueous solution containing the fluorochemical surfactant to a filtration treatment step with a reverse osmosis membrane so as to obtain from the aqueous solution, a concentrated aqueous solution in which the concentration of the fluorochemical surfactant is increased.Type: GrantFiled: August 8, 2001Date of Patent: December 6, 2005Assignee: Daikin Industries, Ltd.Inventors: Takuya Ichida, Masahiro Kondo
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Patent number: 6857162Abstract: The present invention relates to a cleaning and/or treatment device for cleaning and/or treating surfaces such as floors, pavements and carpets. The invention particularly relates to a cleaning and/or treatment device using cleaning/treatment solution, wherein the solution is recirculated and thereby used more than one time. The cleaning device comprises a filter unit for cleaning dirt from a dirty solution tank and means for recirculating said cleaned solution to a clean solution tank, wherein said filter unit comprise at least one cross-flow filter, said cross-flow filter preferably being a membrane filter. The invention also relates to a process of cleaning and/or treating surfaces using such a device.Type: GrantFiled: October 12, 1999Date of Patent: February 22, 2005Assignee: Nilfisk Advance A/SInventor: Erik Rasmussen
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Patent number: 6797172Abstract: A process for refining and degumming edible oils by ultrafiltration which produces a permeate fraction with reduced phosphatide content and retentate with increased phosphatide content, and wherein the ultrafiltration membrane is composed of a polymerical polymer of a vinylidene difluoride monomer.Type: GrantFiled: November 25, 2002Date of Patent: September 28, 2004Assignee: The Texas A&M University SystemInventors: Semih Sefa Koseoglu, Walter E. Farr, Wim F. S. De Greyt, Marc Kellens