Ion Selective Patents (Class 204/630)
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Patent number: 8440063Abstract: The present invention provides a device and methods of use thereof in concentrating a species of interest and/or controlling liquid flow in a device. The methods make use of a device comprising a fluidic chip comprising a planar array of channels through which a liquid comprising a species of interest can be made to pass with at least one rigid substrate connected thereto such that at least a portion of a surface of the substrate bounds the channels, and a high aspect ratio ion-selective membrane is embedded within the chip, attached to at least a portion of the channels. The device comprises a unit to induce an electric field in the channel and a unit to induce an electrokinetic or pressure driven flow in the channel.Type: GrantFiled: March 23, 2009Date of Patent: May 14, 2013Assignee: Massachusetts Institute of TechnologyInventors: Jongyoon Han, Sung Jae Kim
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Publication number: 20130112560Abstract: Systems and methods for trapping and moving individual particles of a target material of a suspension are disclosed. In one aspect, a system includes a tube and an electronically addressable float. The float includes one or more arrays of electrodes in which each electrode can be independently addressed to create non-uniform electric fields that trap and isolate target particles near the float. The electrodes can be dynamically operated to move the target particles to particular locations on the float for analysis and collection.Type: ApplicationFiled: March 28, 2012Publication date: May 9, 2013Inventor: Joshua John Nordberg
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Publication number: 20130087501Abstract: In a desalination system, water is treated, for example by reverse osmosis, to produce desalinated product water and a reject stream. Salt from the reject stream is transferred to a flow of low salinity wastewater, such as effluent from a municipal wastewater treatment plant. For example, the reject stream may be fed to the high salinity cell in an electrodialysis (ED) unit. The adjacent low salinity cell receives the low salinity wastewater. The high salinity and low salinity cells are separated by ion exchange membranes. The salty wastewater is discharged, for example to the ocean. The salt-reduced reject stream is treated to extract more product water from it, for example by recycling it to the feed water. Less feed water is needed to produce a given volume of product water. If a thermal desalination unit is combined with divalent ion selective ion exchange membranes, then scaling is reduced.Type: ApplicationFiled: October 6, 2011Publication date: April 11, 2013Applicant: GENERAL ELECTRIC COMPAYInventors: Neil Edwin MOE, John BARBER
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Publication number: 20130068620Abstract: In one embodiment, this invention relates to an electrodialysis device comprising an inlet for directing a feed stream into a plurality of first feed paths and a plurality of second feed paths; the feed stream is comprised of a first anionic scaling species and a first cationic scaling species; the first cationic scaling species is transferred from the second feed paths to the first feed paths through a first membrane group, the first anionic scaling species is transferred from the first feed paths to the second feed paths through the first membrane group. In another embodiment, this invention relates to a method for passivating scaling species in an electrodialysis device.Type: ApplicationFiled: September 16, 2011Publication date: March 21, 2013Applicant: GENERAL ELECTRIC COMPANYInventor: Neil Edwin Moe
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Publication number: 20130008795Abstract: An electrophoresis apparatus for measuring, characterizing and/or altering a composition of a sample. The apparatus comprises an anode compartment having an anode and a cathode compartment having a cathode. The anode and cathode are spaced at a distance from one another to define an electric field having a direction along longitudinal axis, and between the anode and cathode compartments can be at least one separation compartment. Each compartment includes means for adding or removing a solution, a first dimension orthogonal to the direction of the electric field, a second dimension orthogonal to the electric field and the first dimension, and a third dimension parallel to the electric field and orthogonal to the first and second dimensions. A ratio of the first and second dimensions define an aspect ratio, at least one aspect ratio being less than one. An ion-permeable barrier is positioned between each compartment to prevent convective mixing therebetween.Type: ApplicationFiled: February 6, 2012Publication date: January 10, 2013Inventors: Gyula VIGH, Peniel LIM
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Publication number: 20120234679Abstract: There is provided a substantially bare, self-supported single-layer graphene membrane including a nanopore extending through a thickness of the graphene membrane from a first to a second membrane surface opposite the first graphene membrane surface. A connection from the first graphene membrane surface to a first reservoir provides, at the first graphene membrane surface, a species in an ionic solution to the nanopore, and a connection from the second graphene membrane surface to a second reservoir is provided to collect the species and ionic solution after translocation of the species and ionic solution through the nanopore from the first graphene membrane surface to the second graphene membrane surface. An electrical circuit is connected on opposite sides of the nanopore to measure flow of ionic current through the nanopore in the graphene membrane.Type: ApplicationFiled: March 13, 2012Publication date: September 20, 2012Applicant: PRESIDENT AND FELLOWS OF HARVARD COLLEGEInventors: Slaven Garaj, Jene A. Golovchenko, Daniel Branton
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Publication number: 20120217162Abstract: A nitrogen compound-containing acidic liquid such as a monoethanolamine-containing dilute hydrochloric acid waste liquid discharged during the regeneration of condensate demineralizers in nuclear power plants or thermal power plants is efficiently and economically treated. A neutralization dialysis device 2 is provided in which a raw water chamber 22 and an alkaline solution chamber 23 are partitioned from each other with an anion exchange membrane 21. The nitrogen compound-containing acidic liquid is passed through the raw water chamber 22, while an alkaline solution is passed through the alkaline solution chamber 23, thereby neutralizing and demineralizing the acidic liquid. Thereafter, the nitrogen compound contained in the neutralized demineralized liquid is concentrated with an electrodeionizer 4. The neutralization dialysis treatment using the anion exchange membrane 21 and the alkaline solution can neutralize and demineralize the nitrogen compound-containing acidic liquid.Type: ApplicationFiled: November 9, 2010Publication date: August 30, 2012Applicant: KURITA WATER INDUSTRIES LTD.Inventors: Hideyuki Komori, Nobuhiro Orita
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Publication number: 20120199486Abstract: Provided are a CDI electrode and a method for manufacturing a module using the same. A composite electrode manufactured by the manufacturing method of the present invention can manufacture a CDI electrode capable of increasing adsorption efficiency and rate of ions and selectively adsorbing cation and anion, thereby simply and inexpensively manufacturing the CDI electrode module without using a cation-exchange membrane and an anion-exchange membrane.Type: ApplicationFiled: October 7, 2010Publication date: August 9, 2012Applicant: SION TECH CO., LTD.Inventors: Kyung Seok Kang, Won Keun Son, Jae Hwan Choi, Nam Soo Park, Tae Il Kim
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Publication number: 20120175257Abstract: A system that incorporates teachings of the present disclosure may include, for example, a solid-state selector having a vessel for carrying a liquid medium with one or more molecules surrounded by ions, a solid state conductive structure doped with impurities having one or more through-holes extending between two surfaces of the solid state conductive structure positioned within the liquid medium of the vessel, a voltage source coupled to the solid state conductive structure to selectively stimulate the ions surrounding the one or more molecules to pass through the one or more through-holes. Additional embodiments are disclosed.Type: ApplicationFiled: March 22, 2012Publication date: July 12, 2012Applicant: THE BOARD OF TRUSTEES OF THE UNIVERSITY OF ILLINOISInventors: Jean-Pierre Leburton, Gregory Timp, Maria E. Gracheva, Julien Vidal
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Publication number: 20120165420Abstract: A process for preparing a composite membrane comprising acidic and/or basic groups comprising the following steps: (i) applying a curable composition to a support; and (ii) curing the composition to form a membrane; wherein the curable composition comprises: (a) 18 to 78 wt % crosslinking agent(s) having at least two acrylic groups; (b) 20 to 80 wt % curable compound(s) having one or more acidic or basic groups or groups which are convertible to acidic or basic groups; (c) 2 to 30 wt % solvent(s); and (d) 0 to 10 wt % photoinitiator(s). The membranes are particularly useful for water purification or for the generation of electricity from two streams differing in salt concentration.Type: ApplicationFiled: August 11, 2010Publication date: June 28, 2012Applicant: Fujifilm Manufacturing Europe B.VInventors: Vinodnarain Veedprakash Bhikhi, Johannes Adrianus Wilhelmus Van Engelen
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Publication number: 20120152747Abstract: An apparatus for performing electrodialysis at pressures greater than or equal to the ambient pressure is described. The apparatus includes an electrodialysis membrane stack and housing. The electrodialysis membrane stack includes at least one electrodialysis cell. The electrodialysis apparatus includes electrodes that apply voltage across the electrodialysis stack. The housing pressurizes the electrodialysis stack at a stack pressure. The housing includes a cell chamber that receives the electrodialysis stack, the cell chamber including at least one pressurization port communicating with the cell chamber such that a portion of electrode solution is transmittable into a region of the cell chamber outside the electrodialysis stack.Type: ApplicationFiled: December 15, 2010Publication date: June 21, 2012Applicant: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Matthew D. Eisaman, Karl A. Littau, Daniel Larner
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Publication number: 20120145546Abstract: A coagulation generating system that combines the advantages of conventional and electrocoagulation. In the coagulation generating system electro-coagulation is performed on an input (e.g., salt/brine) solution to generate a concentrated coagulant solution, which is then added to the source water in the same way as a standard stored chemical coagulant.Type: ApplicationFiled: December 14, 2010Publication date: June 14, 2012Applicant: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Armin R. Volkel, Meng H. Lean, Kai Melde, Norine E. Chang
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Patent number: 8197658Abstract: In order to solve various problems such as a reduction in a paint resin with the progress of electrodeposition coating treatment and remelting of a coating film or the occurrence of pinholes caused by an increased concentration of an electrolyte as a result of the reduction, upsizing of a hollow electrode with a membrane for electrodeposition coating combined with a barrier membrane (e.g., an ion exchange membrane) and an increase in the number of components should be avoided. In order to realize this, a barrier membrane 20 such as an ion exchange membrane is attached to the exterior surface of an electrode main body 10, which is in a hollow state made of a conductive material and configured so as to allow a liquid to pass through freely between the inside and outside of the electrode serving as a support.Type: GrantFiled: April 13, 2007Date of Patent: June 12, 2012Assignees: Daiso Co., Ltd., AGC Engineering Co., Ltd.Inventors: Shouhei Matsui, Yasushi Yoshida, Nobuyoshi Shoji, Yukio Matsumura
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Publication number: 20120118742Abstract: An electrochemical separation system may be modular and may include at least a first modular unit and a second modular unit. Each modular unit may include a cell stack and a frame. The frame may include a manifold system. A flow distribution system in the frame may enhance current efficiency. Spacers positioned between modular units may also enhance current efficiency of the system.Type: ApplicationFiled: November 11, 2011Publication date: May 17, 2012Applicant: SIEMENS PTE. LTD.Inventors: Li-Shiang Liang, Keng Hoo Yeo, Lawrence J. Salvo
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Publication number: 20120118741Abstract: An integrated electronic device, and its method of manufacture, are provided. The integrated electronic device can include Iontophoresis electrodes that are electrically coupled to a thin printed flexible electrochemical cell. In one example, the Iontophoresis electrodes and the electrochemical battery are provided on a single substrate. In one example method of manufacture, the entire cell can be made on a printing press to integrate the battery directly with the electronic assembly of the Iontophoresis electrodes.Type: ApplicationFiled: July 30, 2008Publication date: May 17, 2012Applicant: BLUE SPARK TECHNOLOGIES, INC.Inventor: Gary R. Tucholski
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Patent number: 8137524Abstract: A device is disclosed for electrically controlled transport of ions between a source and a target electrolyte, including a source electrode and a target electrode. The electrodes are each capable of conducting ions, and the source electrode is arranged to receive ions from the source electrolyte and the target electrode is arranged to release ions to the target electrolyte. The device further includes an ion-conductive channel, arranged to receive ions from the source electrode and to release ions to the target electrode. Moreover, the ion-conductive channel is arranged to provide an ionic connection between the source and the target electrodes. The electrodes and the ion-conductive channel are formed of solid or semi-solid materials which are directly or indirectly attached to a support.Type: GrantFiled: June 4, 2007Date of Patent: March 20, 2012Assignee: Oboe IPR ABInventors: Magnus Berggren, Peter Kjäll, David Nilsson, Nathaniel D. Robinson, Agneta Richter Dahlfors, Joakim Isaksson
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Publication number: 20120046496Abstract: A method and system for purifying crude glycerin is provided in which a mixture is formed by blending glycerin, water, an organic solvent, and an acid. The acid being capable of reacting with soap impurities to form lipids that are soluble in the organic solvent and ionic salts that are soluble in the glycerin and water. Liquid-liquid extraction separates and partitions the organic solvents and lipids away from the glycerin, water, and ionic salts with the organic solvent and lipids being reclaimed for future use. Any residual trace amount of organic solvent that remains in the glycerin and water is separated and removed through the use of a clarifier system, with the formation of micro-bubbles arising from a diffuser facilitating the separation. Prior to collection of the purified glycerin product, the ionic salts are removed from the mixture through the use of an ionic exchange resin, electrodialysis, or electrodeionization, followed by the water being removed by evaporation.Type: ApplicationFiled: August 20, 2010Publication date: February 23, 2012Inventor: James Cramer
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Patent number: 8114261Abstract: A microfluidic device for electrochemically regulating the pH of a fluid includes: an ion-exchange material; an anode chamber having a surface defined by a surface of the ion-exchange material and an anode electrode disposed along an edge of the surface of the anode chamber; and a cathode chamber having a surface defined by an opposite surface of the ion-exchange material and a cathode electrode disposed along an edge of the surface of the cathode chamber.Type: GrantFiled: June 15, 2006Date of Patent: February 14, 2012Assignee: Samsung Electronics Co., Ltd.Inventors: Hun-joo Lee, Joon-ho Kim, Chin-sung Park, Jung-im Han, Seung-yeon Yang, Shin-i Yoo
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Publication number: 20120031763Abstract: An object of this invention is to provide an electrodialyzer which is effective in saving electric power. According to this invention, there is provided an electrodialyzer which electrically dialyzes water to be processed while a voltage causing substantially no current to flow is applied between an anode and a cathode.Type: ApplicationFiled: April 20, 2010Publication date: February 9, 2012Inventors: Tadahiro Ohmi, Tetsuya Goto, Tomotsugu Ohashi, Keita Fushimi, Takashi Imaoka
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Publication number: 20120022312Abstract: A method for treating a radioactive liquid waste containing a sodium salt is described, including: a liquid waste reducing step of partially reducing sodium nitrate contained in a radioactive liquid waste to convert the radioactive liquid waste into a reduced solution containing at least one of sodium hydroxide, sodium hydrogencarbonate, and sodium carbonate; and an electrodialysis step of performing electrodialysis of the reduced solution by supplying the reduced solution to an anode chamber of an electrolytic cell, the electrolytic cell including an anode and a cathode disposed on both sides of a permeable membrane which a sodium ion selectively permeates.Type: ApplicationFiled: February 22, 2010Publication date: January 26, 2012Applicant: JGC CORPORATIONInventors: Takashi Kato, Mamoru Numata, Yasuhiro Suzuki, Yasutomi Morimoto
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Patent number: 8088261Abstract: An electrochemical cell for producing copper having a dense graphite anode electrode and a dense graphite cathode electrode disposed in a CuCl solution. An anion exchange membrane made of poly(ethylene vinyl alcohol) and polyethylenimine cross-linked with a cross-linking agent selected from the group consisting of acetone, formaldehyde, glyoxal, glutaraldehyde, and mixtures thereof is disposed between the two electrodes.Type: GrantFiled: May 15, 2007Date of Patent: January 3, 2012Assignee: Gas Technology InstituteInventors: Qinbai Fan, Renxuan Liu
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Publication number: 20110308953Abstract: A liquid electrolyte can be desalinated and purified using a system that includes a first electrode and a configuration selected from (a) a second electrode and at least one distinct ion-selective boundary and (b) a second electrode that also serves as the ion-selective boundary. The ion-selective boundary is contained in the liquid conduit adjacent to a porous medium that defines pore channels filled with the liquid and that have a surface charge, and the charge of the ion-selective boundary and the surface charge of the pore channels share the same sign. A liquid including at least one charged species flows through the pore channels, forming a thin diffuse electrochemical double layer at an interface of the liquid and the charged surface of the pore channels.Type: ApplicationFiled: June 21, 2011Publication date: December 22, 2011Applicant: MASSACHUSETTS INSTITUTE OF TECHNOLOGYInventors: Martin Z. Bazant, EthelMae Victoria Dydek, Daosheng Deng, Ali Mani
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Publication number: 20110293506Abstract: An object (first object) of the invention is to provide a waste water treatment technology (pretreatment technology in particular) which makes it possible to recover fluorine at a high recovery rate as highly pure calcium fluoride, without diluting waste water containing fluorine and silicon, i.e. to recover fluorine from high-concentration waste water containing fluorine and silicon. Waste water containing fluorine and silicon is supplied to a pH controlling tank 1 and sodium hydroxide (NaOH) is added thereto, with the result that sodium silicate is precipitated. Thereafter, the waste water is supplied to a solid-liquid separator 2 so that solid-liquid separation of sodium silicate is conducted.Type: ApplicationFiled: February 9, 2010Publication date: December 1, 2011Applicant: Kobelco Eco-Solutions Co., Ltd.Inventors: Katsuyoshi Tanida, Tsutomu Kinoshita, Hiroyuki Chifuku, Sousuke Onoda
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Publication number: 20110290727Abstract: A process for preparing a composite membrane comprising the steps of: (i) applying to a porous support having an average surface energy of 1 to 30 mN/m a composition having a viscosity of 1 to 5,000 mPa·s; and (ii) increasing the viscosity of the composition to a value higher than 30,000 mPa·s within 30 seconds after the composition has been applied to the support; wherein the composition applied in step (i) has a surface tension that is at least 25 mN/m higher than the average surface energy of the porous support.Type: ApplicationFiled: January 18, 2010Publication date: December 1, 2011Inventor: Ronny Van Engelen
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Patent number: 8057680Abstract: The scope of the invention is to apply an electric current or to use a kind of iontophoresis system with the hemodialysis cartridge and system (the proposed method is also applicable to peritoneal dialysis or other similar methods) to remove unwanted molecules from blood, plasma or serum or other body fluids and to increase the effectiveness of the process. This cartridge can be used for patients with uremia and cartridge fixed to the conventional hemodialysis machine and additionally the electric current applied to the electrodes placed in to the cartridge or electrode connectors placed to the conventional cartridge. When the system activated, the molecules in the blood or other body fluid migrates to the hemodialysis solution. Charged ions or uncharged molecules move together with electroosmotic flow. The sterilized electrodes preferably made by Ag/AgCl to prevent pH changing effect. Other apparatus can also be used for providing an electropotential gradient.Type: GrantFiled: November 19, 2002Date of Patent: November 15, 2011Assignee: Dizayn Teknik Plastik Boru Ve Elemanlari Sanayi Ve Ticaret A.S.Inventors: Tuncer Degim, Rusen Dundaroz, Metin Denli, Sibel Ilbasmis, Tanju Ozcelikay, Zelihagul Degim
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Patent number: 7994546Abstract: The invention provides a method for forming a sodium ion selective electrode, including: (a) providing a conductive substrate; (b) forming a conductive wire which extends from the conductive substrate for external contact; and (c) forming a sodium ion sensing film on the conductive substrate, wherein the method for forming the conductive substrate includes: providing a substrate; and forming a conductive layer on the substrate.Type: GrantFiled: May 22, 2009Date of Patent: August 9, 2011Assignee: National Yunlin University of Science and TechnologyInventors: Jung-Chuan Chou, Ya-Ping Huang, Chien-Cheng Chen
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Publication number: 20110162965Abstract: A deionization device including at least one flow path configured for an influent fluid; at least one pair of electrodes; at least one charge barrier disposed between the at least one flow path and a corresponding electrode of the at least one pair of electrodes; and at least one electrolyte solution disposed between at least one electrode of the at least one pair of electrodes and a corresponding charge barrier of the at least one charge barrier, wherein at least one electrode of the at least one pair of electrodes includes an electrochemical redox active material, and the at least one electrolyte solution and the influent fluid are different.Type: ApplicationFiled: June 29, 2010Publication date: July 7, 2011Applicant: SAMSUNG ELECTRONICS CO., LTD.Inventors: Hyun-seok KIM, Hyo-rang KANG, Ho-jung YANG, Chang-hyun KIM
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Patent number: 7959805Abstract: A manifold adaptor plate useful as a gasket having liquid pathways which permit passing of a filtrate, a feed and a retentate wherein admixture of the filtrate with the feed or the retentate is prevented is provided and is formed of an elastomeric layer, a rigid intermediate layer and a polymer layer. The elastomeric layer functions as a gasket and is bonded to the polymeric layer through the liquid pathways of the intermediate plate. An elastomer layer may be formed on both layers as well and optionally a second polymer layer between the intermediate layer and the second elastomer layer may also be used.Type: GrantFiled: July 9, 2007Date of Patent: June 14, 2011Assignee: Millipore CorporationInventors: Mark Chisholm, Stephen J. Dzengeleski, Tom Janko, James E. Kelly, Jr., Ralph Stankowski
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Patent number: 7909975Abstract: Disclosed is a system for recovering gas produced during electrodialysis of a saline solution, from gas entrained in an electrolyte solution circulating through anode and cathode compartments of an electrodialysis (ED) unit. In one embodiment, the system provides separate catholyte and anolyte towers within a closed, re-circulating loop between the cathode and anode compartments. Each tower comprises an inlet at which the entrained gas separates from the electrolyte solution and flows into the headspace. One can recover residual gases from the electrolyte solution in one more additional apparatus. Preferably, hydrogen gas is separated from the catholyte solution and, more preferably, further purified for use as a fuel source in alternative power generating devices, such as a fuel cell or bio-fuel generator, useful in the unit operations of a water treatment system.Type: GrantFiled: October 6, 2006Date of Patent: March 22, 2011Assignee: Volker Stevin Contracting Ltd.Inventor: Vitselle (Vita) S. P. Martez
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Publication number: 20110062024Abstract: The invention provides an electrophoresis cassette, methods for making the electrophoresis cassette, and method of fractionating analytes from a sample based upon electrophoretic mobility in a single application of the sample to an electrophoretic system.Type: ApplicationFiled: April 14, 2010Publication date: March 17, 2011Inventors: Douglas Grosvenor Sabin, Todd J. Barbera, Paul Chandler Sabin, T. Christian Boles
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Publication number: 20110042214Abstract: A water treatment apparatus that includes a cation exchange chamber containing a cation exchange resin and an anion exchange chamber containing an anion exchange resin. A bipolar interface is located between the resin chambers and defines a zone of water disassociation. A cathode communicates with the cation exchange chamber through a cation exchange membrane. An anode communicates with the anion exchange chamber through an anion exchange membrane. Dilution or flushing water flows through cathode and anode chambers and conveys captured ions to a drain or other waste connection. A baffle may be used in some configurations to divide a resin chamber into an exhausted resin region and a regenerated resin region and causes incoming water to flow through the exhausted resin region first. The exhausted resin region is located near its associated electrode, thus improving the electrical efficiency of the cell.Type: ApplicationFiled: April 23, 2008Publication date: February 24, 2011Inventors: David F. Rath, Christopher L. Hansen, Lyle Edward Kirman, Christopher S. Putka, James E. Bolton
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Publication number: 20110000789Abstract: Method for the removal of ions and ionizable substances from a polar liquid (10) comprising at least one process wherein said polar liquid (10) is split into a first stream (F1) and a second stream (F2), Said first stream (F1) passing through an electrochemically regenerable ion-exchange material (2) located where an electric field between two electrodes (4, 5) is applied, said first stream (F1) flowing from one electrode (4) to the other electrode (5) so that the ions to be removed are migrating in the direction reverse to the first stream flow through said ion-exchange material (2), Said second stream (F2) rinsing said one electrode (4), and said material is regenerated by the ions which are formed at the other electrode (5). Device in particular for the implementation of said method.Type: ApplicationFiled: December 28, 2009Publication date: January 6, 2011Applicant: MILLIPORE CORPORATIONInventor: Andrej Grabowski
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Publication number: 20100307919Abstract: An acid or base is generated in an aqueous solution by the steps of: (a) providing a source of first ions adjacent an aqueous liquid in a first acid or base generation zone, separated by a first barrier (e.g., anion exchange membrane) substantially preventing liquid flow and transporting ions only of the same charge as said first ions, (b) providing a source of second ions of opposite charge adjacent an aqueous liquid in a second acid or base generation zone, separated by a second barrier transporting ions only of the same charge as the second ions, and (c) transporting ions across the first barrier by applying an electrical potential through said first and second zones to generate an acid-containing aqueous solution in one of said first or second zones and a base-containing aqueous solution in the other one which may be combined to form a salt. Also, electrolytic apparatus for performing the above method.Type: ApplicationFiled: June 15, 2010Publication date: December 9, 2010Applicant: Dionex CorporationInventors: Yan Liu, Nebojsa Avdalovic
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Patent number: 7833400Abstract: Flow-through capacitors are provided with one or more charge barrier layers. Ions trapped in the pore volume of flow-through capacitors cause inefficiencies as these ions are expelled during the charge cycle into the purification path. A charge barrier layer holds these pore volume ions to one side of a desired flow stream, thereby increasing the efficiency with which the flow-through capacitor purifies or concentrates ions.Type: GrantFiled: December 8, 2004Date of Patent: November 16, 2010Assignee: Biosource, Inc.Inventors: Marc D. Andelman, Gregory S. Walker
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Patent number: 7794577Abstract: A spacer element (1) is disclosed having an integral screen for use in filled cell electrodialysis. The spacer (1) has a continuous portion (2) impermeable to flow and a screen (3) which spans a centrally-located flow treatment region that contains active treatment material, such as ion exchange beads. The screen (3) may perform a structural function, allowing operation at elevated pressure, and may also define a minimum gap between adjacent membranes and enhance mixing along the flow path and at cell boundaries. The spacer element (1) may be configured to enhance hydraulic filling of the cells, and cell architecture is readily implemented in a wide range of useful flow path geometries utilizing the screen spacer element (1).Type: GrantFiled: November 16, 2002Date of Patent: September 14, 2010Assignee: Ionics, IncorporatedInventors: William W. Carson, Oleg Grebenyuk, Vladimir Grebenyuk, Keith J. Sims, R. Hilda Zanapalidou, Bernard R. Mack, Richard G. Parent
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Publication number: 20100224492Abstract: Systems and methods for hemodialysis or peritoneal dialysis having integrated electrodeionization capabilities are provided. In an embodiment, the dialysis system includes a carbon source, a urease source and an electrodeionization unit. The carbon source and urease source can be in the form of removable cartridges.Type: ApplicationFiled: March 5, 2010Publication date: September 9, 2010Applicants: BAXTER INTERNATIONAL INC., BAXTER HEALTHCARE S.A.Inventors: Yuanpang Samuel Ding, Ying-Cheng Lo, Joshua James Miller, Justin Rohde, Sujatha Karoor
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Patent number: 7763157Abstract: An electrodeionization device for large-volume ultra-pure deionization of water is disclosed. The device comprises a plurality of alternating ion depletion and concentration compartments, interposed between an anode assembly and a cathode assembly, through which flows either a product stream or a waste stream. Each compartment contains several fluid-accessible channels packed with an appropriate ion-exchange medium. The flow of the waste and product streams among the compartments is “parallel” (i.e., contemporaneous). The flow of a stream through the compartments—i.e., through the channels therein—is “serial” (i.e., sequential). In an embodiment, electrical current is generated through the compartments using segmented electrodes—either in the anode and/or the cathode assembly—that are connected to a single multiple-outlet power source. The device is fast, efficient, robust, and its configuration is comparatively easy to scale upwards to accommodate larger water processing volumes.Type: GrantFiled: April 2, 2004Date of Patent: July 27, 2010Assignee: Millipore CorporationInventors: Chester L. Bejtlich, III, Turgut Sarioglu, Gastón de los Reyes, Wisam Yacteen
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Publication number: 20100185036Abstract: A method for treating a radioactive liquid waste containing a sodium salt, which includes: feeding a radioactive liquid waste containing at least one of sodium hydroxide, sodium hydrogencarbonate and sodium carbonate to an anode chamber in an electrolytic cell provided with an anode and a cathode on both sides of a permeable membrane, which is selectively permeable to sodium ions, and electrodialyzing the radioactive liquid waste; separating sodium ions permeated through the permeable membrane as sodium hydroxide from the radioactive liquid waste in a cathode chamber; separating a radioactive substance remaining in the anode chamber as a concentrated radioactive liquid waste; and recovering the separated sodium hydroxide and concentrated radioactive liquid waste, respectively.Type: ApplicationFiled: November 28, 2008Publication date: July 22, 2010Applicant: JGC CORPORATIONInventors: Yasutomi Morimoto, Mamoru Numata, Takashi Kato
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Publication number: 20100105126Abstract: A method and apparatus for extracting CO2 from air comprising an anion exchange material formed in a matrix exposed to a flow of the air, and for delivering that extracted CO2 to controlled environments. The present invention contemplates the extraction of CO2 from air using conventional extraction methods or by using one of the extraction methods disclosed; e.g., humidity swing or electro dialysis. The present invention also provides delivery of the CO2 to greenhouses where increased levels of CO2 will improve conditions for growth. Alternatively, the CO2 is fed to an algae culture.Type: ApplicationFiled: December 15, 2009Publication date: April 29, 2010Inventors: Allen B. Wright, Klaus S. Lackner, Ursula Ginster
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Publication number: 20100059378Abstract: A method and system for treating a fluid includes an electrode with an outer housing having openings in a side wall thereof, a granular conductive material encapsulated within the outer housing, and an electrical terminal located at least partially within the outer housing and in electrical communication with the granular conductive material, wherein the openings are configured to permit ions in a fluid to be treated to pass there through so as to come into contact with the granular conductive material. The system includes a treatment tank and electrodes within the tank being charged to differing polarities by a voltage source. The method includes applying a first polarity to at least one electrode, oppositely charging one or more of other spaced apart electrodes, and flowing the fluid within the space so as to treat the fluid.Type: ApplicationFiled: September 4, 2009Publication date: March 11, 2010Applicant: The Water Company LLCInventors: Brian B. Elson, Brian C. Large, Peter Norman
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Publication number: 20100038245Abstract: A continuous electrochemical pump comprising a water generator compartment, an anode compartment on one side of said generator compartment, a cation exchange barrier, separating the generator compartment from the anode compartment, a first electrode in electrical communication with the anode compartment, a cathode compartment adjacent the generator chamber, an anion exchange barrier, separating the generation compartment from the cathode compartment, and a second electrode in electrical communication with the cathode compartment. Use of the pump as a sample concentrator. A feedback loop for the pump. A reservoir, with or without an intermediate piston, on the output side of the pump.Type: ApplicationFiled: August 15, 2008Publication date: February 18, 2010Applicant: Dionex CorporationInventors: Hamish Small, Yan Liu, Christopher A. Pohl
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Patent number: 7662267Abstract: An improved apparatus and operating method related thereto for deionizing water to produce substantially pure water using electric field and ion exchange materials are disclosed, including embodiments incorporating one or more of the novel features of brine and electrode streams flowing in a direction counter-current to the stream being deionized, a filling of the brine stream with stratified ion exchange materials, a stream mixing feature for mixing the stream being deionized, a gas removal feature for removal of gases, a spiral-wound embodiment of an electrodialysis device according to the invention, and a method for determining the preferred operating current for electrodialysis systems according to this invention.Type: GrantFiled: August 10, 2001Date of Patent: February 16, 2010Assignee: Ionics, IncorporatedInventors: William W. Carson, Keith J. Sims, Oleg Grebenyuk, Thomas J. Susa, Hilda R. Zanapalidou, Wayne A. McRae, Russell J. MacDonald
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Publication number: 20100035228Abstract: A device for separating and purifying useful quantities of particles comprises: a. an anolyte reservoir connected to an anode, the anolyte reservoir containing an electrophoresis buffer; b. a catholyte reservoir connected to a cathode, the catholyte reservoir also containing the electrophoresis buffer; c. a power supply connected to the anode and to the cathode; d. a column having a first end inserted into the anolyte reservoir, a second end inserted into the catholyte reservoir, and containing a separation medium; e. a light source; f. a first optical fiber having a first fiber end inserted into the separation medium, and having a second fiber end connected to the light source; g. a photo detector; h. a second optical fiber having a third fiber end inserted into the separation medium, and having a fourth fiber end connected to the photo detector; and i. an ion-exchange membrane in the anolyte reservoir.Type: ApplicationFiled: March 28, 2005Publication date: February 11, 2010Applicant: Board of Regents, University of HoustonInventors: George William Jackson, Richard Coale Willson, George Edward Fox
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Publication number: 20090308752Abstract: The invention provides electrochemically-based methods and devices for producing fluid flow and/or changes in fluid pressure. In the methods and devices of the invention, current passes through a divided electrochemical cell. Adjacent compartments of the cell are divided by an ionically conducting separator. Each compartment includes an electrode and an electrolyte solution or ionic liquid. The electrolyte solution(s) or ionic liquid(s) and the ionically conducting separator are selected to obtain the desired relationship between the current through the cell and the fluid flowrate and/or change in fluid pressure.Type: ApplicationFiled: August 25, 2009Publication date: December 17, 2009Inventors: Christine E. Evans, Forrest W. Payne, Carl A. Koval, Richard D. Noble, Mya A. Norman
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Publication number: 20090242406Abstract: The present invention provides a device and methods of use thereof in concentrating a species of interest and/or controlling liquid flow in a device. The methods make use of a device comprising a fluidic chip comprising a planar array of channels through which a liquid comprising a species of interest can be made to pass with at least one rigid substrate connected thereto such that at least a portion of a surface of the substrate bounds the channels, and a high aspect ratio ion-selective membrane is embedded within the chip, attached to at least a portion of the channels. The device comprises a unit to induce an electric field in the channel and a unit to induce an electrokinetic or pressure driven flow in the channel.Type: ApplicationFiled: March 23, 2009Publication date: October 1, 2009Inventors: Jongyoon Han, Sung Jae Kim
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Publication number: 20090188799Abstract: An apparatus and method for electrochemically modifying the retention of a species on a chromatography material is disclosed. The apparatus comprises a housing having an effluent flow channel adapted to permit fluid flow therethrough. The effluent flow channel comprises chromatography material. The apparatus further comprises first and second electrodes positioned such that at least a portion of the chromatography material is disposed between the first and second electrodes, and fluid flow through the apparatus is between, and in contact with, the first and second electrodes.Type: ApplicationFiled: April 2, 2009Publication date: July 30, 2009Applicant: Dionex CorporationInventors: James M. Anderson, JR., Raaidah Saari-Nordhaus, Carl W. Sims, Yuri E. Gerner
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Publication number: 20090178928Abstract: Processes for desalting glycerol-rich solutions or process streams using electrodialysis are provided. The glycerol-rich process streams are typically byproducts from the production of biodiesel. Following electrodialysis, the resulting aqueous salt solution is placed in a water splitting cell to recover the acid and base components of the salt. These acid and base components, in turn, can be reused in other processes, such as biodiesel production.Type: ApplicationFiled: June 30, 2008Publication date: July 16, 2009Applicant: Archer-Daniels-Midland CompanyInventors: Jeremie Ray GROOS, Ahmad K. Hilaly, Krishnamurthy Mani, Rishi Shukla
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Publication number: 20090152117Abstract: An electrodialysis apparatus includes an anode chamber (10) having an anode (2), and a cathode chamber (50) having a cathode (3). The electrodialysis apparatus includes a desalting chamber (40) for removing fluoride ions from waste water supplied to produce treated water, a concentrating chamber (30) for concentrating the fluoride ions, which have moved from the desalting chamber (40), in the waste water to produce concentrated water, and a buffer chamber (20) for blocking the fluoride ions in the waste water from flowing from the concentrating chamber (30) directly into the anode chamber (10). The electrodialysis apparatus also include a path for supplying pure water to the anode chamber (10), and a path for supplying effluent water from the anode chamber (10) to the buffer chamber (20).Type: ApplicationFiled: June 2, 2006Publication date: June 18, 2009Inventors: Masaji Akahori, Sota Nakagawa, Yuji Sasaki
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Publication number: 20090038315Abstract: An ion pump that generates a stream of unbalanced aqueous anions that transit from a cathode surface to a region adjacent to an anode surface. The ion pump works in conjunction with an ultrasound generator that produces standing waves having the intensity to dehydrogenate liquid hydrocarbons at the catalytic anode surface. Current density of the ion pump and frequency of the ultrasound transducer are synchronized according to the rate hydrogen permeates through a membrane. An electrochemical engine uses ion pumps and ultrasound generators to convert liquid hydrocarbon fuel to useful work while recovering hydrogen-depleted carbon from the fuel for recycling, including production of renewable fuel. When carbon is recovered, carbon dioxide is not produced. Tensile stress applied to the ion-pump membranes by rotation, high-frequency pressure waves, and radial acceleration of the interstitial hydrogen are applied in a collective manner that facilitates hydrogen permeation through the ion pump membranes.Type: ApplicationFiled: January 2, 2008Publication date: February 12, 2009Inventor: Robert Paul Johnson
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Publication number: 20080245667Abstract: Apparatus is described for removing ionisable impurities from an electrolyte solution in an electromembrane device. The apparatus comprises means for recirculating the electrolyte solution between the cathode and the anode, and means for transferring selected ions from the electrolyte solution into a separate stream upon application of a current.Type: ApplicationFiled: March 9, 2005Publication date: October 9, 2008Inventors: Christopher Peter Jones, Peter James Mawle