Class / Patent application number | Description | Number of patent applications / Date published |
204522000 | Using both anion and cation selective membranes | 34 |
20080245667 | Electromembrane Process and Apparatus - 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. | 10-09-2008 |
20100006438 | WATER PURIFICATION PROCESS - An efficient system for desalinization of water is described wherein multiple stages of deionization result in drinking water quality and provision is made for recycling wastewater through the system. | 01-14-2010 |
20100126864 | PROCESS TO PREPARE AMINO ACID-N, N-DIACETIC ACID COMPOUNDS - The invention relates to a process for the production of an amino acid having at least one secondary or tertiary amino group and three or more carboxyl groups or its salt with less than an equivalent of alkaline metal based on the number of carboxyl groups, said process comprising reducing alkali metal ions from an aqueous solution of an alkali metal salt of an amino acid having at least one secondary or tertiary amino group and three or more carboxyl groups and acidifying the amino carboxylate starting material by first performing a chemical acidification step using an organic or inorganic acid to get a compound in which at least one of the groups is protonated, and in a subsequent step further acidifying the amino carboxylate starting material and reducing alkali metal ions from an aqueous solution of the partially acidified alkali metal salt of the amino acid having at least one secondary or tertiary amino group and three or more carboxyl groups by electrodialysis, wherein the electrodialysis is performed using a hydrogen ion permselective membrane on the anode side and a cation-permeable membrane on the cathode side. | 05-27-2010 |
20100140092 | FLOW DE-IONIZATION USING INDEPENDENTLY CONTROLLED VOLTAGES - An embodiment is a method and apparatus to provide de-ionization. First and second conductive porous membranes are placed between a feed channel having a feed flow and first and second concentration channels having first and second concentration flows to separate the feed channel from the concentration channels. Cathode and anode electrodes are placed on external sides of the concentration channels. A voltage supply distribution network provides independent voltages across the channels to cause movement of ions in the feed and concentration flows toward the electrodes. | 06-10-2010 |
20100270158 | DESALINATION DEVICES AND METHODS - Microbial processes and systems are provided according to the present invention for desalination of saline materials, such as aqueous mixtures including dissolved salts. Microbial desalination devices according to embodiments of the present invention create hydrogen gas in a configuration referred to as a microbial electrolysis desalination cell (MEDC), or electricity in a configuration referred to as a microbial fuel desalination cell (MFDC) in addition to desalination of saline materials. | 10-28-2010 |
20110089036 | Method And System For Desalinating Saltwater Using Concentration Difference Energy - Described herein are a method and system for desalinating saltwater using concentration difference energy. A “five stream” dialytic stack is described that can be used to desalinate saltwater at a relatively high recovery ratio. The dialytic stack may include, for example, one or more drive cells having a paired concentrate and a diluent-c chamber in ionic communication with a product chamber that is adjacent to an anion and a cation discharge chamber each filled with diluent-p. The drive cell applies a drive voltage across the product chamber, and when the drive voltage exceeds a desalination voltage of the product chamber, the saltwater in the product chamber is desalinated. The diluent-p may be at a lower ionic concentration than the diluent-c, which may be at a lower concentration than the concentrate. The relatively high concentrations of the concentrate and the diluent-c facilitate a relatively high recovery ratio, while the relatively low concentration of the diluent-p facilitates a relatively low desalination voltage. The dialytic stack may accept brine discharged from a first desalination plant and may use this brine as a source of the concentrate, diluent-c, or diluent-p. Alternatively, the dialytic stack may accept the brine as saltwater to be desalinated, and may then output desalinated brine back to the first desalination plant for further desalination. Processing the brine in the dialytic stack may decrease its volume, decreasing costs associated with treating or otherwise disposing of the brine. | 04-21-2011 |
20110132762 | NANOENGINEERED FIELD INDUCED CHARGE SEPARATION MEMBRANES MANUFACTURE THEREOF - A device according to one embodiment includes a porous membrane having a surface charge and pore configuration characterized by a double layer overlap effect being present in pores of the membrane. A device according to another embodiment includes a porous membrane having a surface charge in pores thereof sufficient to impart anion or cation selectivity in the pores. Additional devices, systems and methods are also presented, | 06-09-2011 |
20110162965 | DEIONIZATION DEVICE - 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. | 07-07-2011 |
20120024704 | Modular Apparatus For A Saltwater Desalinating System, And Method For Using Same - The present disclosure is directed at a modular apparatus for a saltwater desalinating system, and a method for using same. The apparatus includes multiple internal modules that are compressively coupled to each other. Each of the internal modules includes a pair of rigid end plates located at opposing ends of the internal module, and a stack of membrane bounded compartments that are layered from one of the end plates to the other. The modular apparatus can be used in a membrane based desalination system, which includes concentration difference energy systems, electrodialysis reversal systems, and membrane distillation systems. The modular apparatus helps to mitigate problems such as leakage and buckling in such systems, and can be used to increase membrane packing density and, accordingly, desalination efficiency. | 02-02-2012 |
20120279861 | Method And System For Desalinating Saltwater Using Concentration Difference Energy - Described herein are a method and system for desalinating saltwater using concentration difference energy. A “five stream” dialytic stack is described that can be used to desalinate saltwater at a relatively high recovery ratio. The dialytic stack may include, for example, one or more drive cells having a paired concentrate and a diluent-c chamber in ionic communication with a product chamber that is adjacent to an anion and a cation discharge chamber each filled with diluent-p. The drive cell applies a drive voltage across the product chamber, and when the drive voltage exceeds a desalination voltage of the product chamber, the saltwater in the product chamber is desalinated. The dialytic stack may accept brine discharged from a first desalination plant as saltwater to be desalinated. Processing the brine in the dialytic stack may decrease its volume, decreasing costs associated with treating or otherwise disposing of the brine. | 11-08-2012 |
20130048498 | THREE-ELECTRODE BUFFER GENERATOR AND METHOD - An electrodialytic buffer generator is described. The buffer generator may include a central buffer-generating channel having an inlet and outlet, a second chamber, and a third chamber. The buffer-generating channel, the second chamber, and the third chamber may each include an electrode. The buffer generator may also include a first ion exchange barrier and a second ion exchange barrier. The first ion exchange barrier can be disposed between the second chamber and the buffer-generating channel. The second ion exchange barrier can be disposed between the third chamber and the buffer-generating channel. | 02-28-2013 |
20130068620 | ELECTRODIALYSIS METHOD AND APPARATUS FOR PASSIVATING SCALING SPECIES - 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. | 03-21-2013 |
20150021184 | Carbon Dioxide Capture Using Resin-Wafer Electrodeionization - The present invention provides a resin-wafer electrodeionization (RW-EDI) apparatus including cathode and anode electrodes separated by a plurality of porous solid ion exchange resin wafers, which when in use are filled with an aqueous fluid. The apparatus includes one or more wafers comprising a basic ion exchange medium, and preferably includes one or more wafers comprising an acidic ion exchange medium. The wafers are separated from one another by ion exchange membranes. The fluid within the acidic and/or basic ion exchange wafers preferably includes, or is in contact with, a carbonic anhydrase (CA) enzyme to facilitate conversion of bicarbonate ion to carbon dioxide within the acidic medium. A pH suitable for exchange of CO | 01-22-2015 |
20150041322 | DESALINATION SYSTEM AND METHOD - A desalination system comprises a silica removal unit. The silica removal unit comprises first and second electrodes, a plurality of ion exchange membranes disposed between the first and second electrodes and a plurality of spacers disposed between adjacent ion exchange membranes and between the first and second electrodes and the respective ion exchange membranes. The plurality of the ion exchange membranes comprises a pair of cation exchange membranes and a pair of anion exchange membranes disposed between the pair of cation exchange membranes. A first channel is defined between the anion exchange membranes and second and third channels are defined between each anion exchange membrane and an adjacent cation exchange membrane. A silica removal apparatus and a desalination method are also presented. | 02-12-2015 |
20160023925 | POLARIZED ELECTRODIALYSIS - Some embodiments described herein generally relate to apparatus and methods for performing polarized electrodialysis, which may be used for desalination, purification and concentration. Such apparatus may include, for example, a pair of electrodes, a plurality of ion exchange membranes disposed between the pair of electrodes and a reservoir between each of the electrodes and the ion exchange membranes. The ion exchange membranes may include cation exchange membranes alternating with anion exchange membranes. A voltage may be applied between the pair of electrodes to generate concentration polarization wherein concentration of ions near the surface of one of at least one of the cation and anion exchange membranes is lower than a concentration of ions in the sample solution. The solution with lower ion concentration may be collected to form a desalinated stream by the apparatus. The apparatus and methods may also be able to remove or concentrate less mobile, weakly charged or bigger matters which cannot be purified by conventional electrodialysis. | 01-28-2016 |
20160152492 | Electrodialysis | 06-02-2016 |
204523000 | Alternating anion and cation selective membranes | 7 |
204524000 | And using ion exchange material (e.g., suspended particles, etc.) | 4 |
20090294289 | Hybrid System For Selective Removal Of Contaminants - A system for removing contaminants from water utilizes a layered stack of anion permeable membranes and cation permeable membranes positioned between an anode and a cathode. The layered stack of membranes forms a concentrate water stream flow channel and a diluent water stream flow channel. Ion specific ion exchange resins are inserted within the diluent water stream flow channel. The water stream is pumped through the layered stack of anion permeable membranes. By using the anode, the cathode, and the voltage source to place an electrical potential gradient across the layered stack of membranes the negative ions are drawn toward the anode and the positive ions are drawn toward the cathode in the diluent water stream that flows through the diluent water stream flow channel. | 12-03-2009 |
20130081946 | Electrodeionization device with protected electrodes - The present invention relates generally to the deionization of liquids through the use of electrodeionization methods and apparatuses. The apparatuses may be configured to minimize the fouling of the electrode chambers and to provide continuous regeneration of the ion exchange materials. The apparatuses may be configured according to the desired levels of deionization for anions, cations, or both. Finally, methods are presented for various uses of the apparatuses. | 04-04-2013 |
20140209462 | DESALINATION SYSTEM AND METHOD - A desalination system is provided. The desalination system comprises a desalination apparatus. The desalination apparatus comprises first and second electrodes, and a first group of paired ion exchange membranes disposed between the first and second electrodes to form a first group of alternating first and second channels. The first channels are configured to receive a first stream for desalination and the second channels are configured to receive a second stream to carry away ions removed from the first stream, respectively. The desalination apparatus further comprises a plurality of spacers disposed between each pair of the adjacent ion exchange membranes and between the first and second electrodes and the respective ion exchange membranes. Wherein each of the ion exchange membranes in the first group is a cation exchange membrane. A desalination system and a method for removing ions from an aqueous stream area also presented. | 07-31-2014 |
20160115046 | LOW SCALE POTENTIAL WATER TREATMENT - An electrochemical treating device having low scale potential is disclosed. The device has a variety of configurations directed to the layering of the anionic exchange and cationic exchange. The treatment device can also comprise unevenly sized ion exchange resin beads and/or have at least one compartment that provides a dominating resistance that results in a uniform current distribution throughout the apparatus. | 04-28-2016 |
204527000 | Biological material prepared, recovered, or treated (e.g., urine, etc.) | 1 |
20120292187 | REVERSE ELECTRODIALYSIS SUPPORTED MICROBIAL FUEL CELLS AND MICROBIAL ELECTROLYSIS CELLS - Systems and methods for microbial processes of generating products such as electrical power, hydrogen gas and methane, are provided according to aspects of the present invention which include a reaction chamber having a wall defining an interior of the reaction chamber and an exterior of the reaction chamber; an anode at least partially contained within an anode compartment of the reaction chamber; a plurality of exoelectrogenic microorganisms disposed in the anode compartment; a cathode at least partially contained within a cathode compartment of the reaction chamber; a conductive conduit for electrons in electrical communication with the anode and the cathode; and a reverse electrodialysis stack comprising a plurality of plurality of alternating anion selective barriers and cation selective barriers disposed between the anode and the cathode defining one or more saline material compartments and one or more lower-saline material compartments. | 11-22-2012 |
204528000 | Regeneration of liquid electrolyte | 1 |
20100116663 | RECOVERY OF REGENERANT ELECTROLYTE - Methods, systems and compositions for recovery of regenerant ions from spent regenerant solution by utilization of electrodialysis are provided. For example, in certain aspects methods for separating spent regenerant using an electrodialysis system comprising selective membranes are described. Furthermore, the invention provides methods for treating a friable solid ion-removal material to prevent fragmentation during regeneration. | 05-13-2010 |
204529000 | Metal or metal salt recovered or removed | 1 |
20150308001 | ELECTRODIALYSIS STACKS, SYSTEMS, AND METHODS FOR RECOVERING AMMONIA AND MONOVALENT SALTS FROM ANAEROBIC DIGESTATE - Electrodialysis stacks comprising a series of electrodialysis cells and anaerobic digestion systems incorporating the electrodialysis stacks are provided. Also provided are methods of using the electrodialysis stacks and systems to recover nitrogen, in the form of ammonia, from separated anaerobic digestate. The electrodialysis stacks use monovalent-selective cation exchange membranes to concentrate ammonium ions and other monovalent ions in a concentrate stream, while discriminating against multivalent cations, which, as a result, are retained in a diluate stream. The electrodialysis stacks may use monovalent-selective anion exchange membranes to discriminate against multivalent anions, which, as a result, are selectively retained in a diluate stream. | 10-29-2015 |
204533000 | And using ion exchange material (e.g., suspended particles, etc.) | 10 |
20110114489 | Method of simultaneous anion and cation suppression in a continuous electrodeionization apparatus - The present invention pertains to a method of ion chromatography wherein a specialized electrodeionization (EDI) apparatus is used for simultaneous ion suppression of cations from a flowing base containing an anion sample of interest and ion suppression of anions from a flowing acid containing a cation sample of interest. The methods described herein allow for the ion suppression of samples containing chloride, nitrate, and other electrochemically active anions, as well as sodium, potassium, and other electrochemically active cations, without causing damage to the suppressor. | 05-19-2011 |
20130081947 | BIOPROCESS UTILIZING CARBON DIOXIDE AND ELECTRODEIONIZATION - A method for producing succinic acid is provided, which comprises circulating a fermentation broth containing succinate ion through an electrodeionization apparatus. The apparatus comprises an anode; a cathode; a stacked ion-exchange assembly comprising a one or more oriented ion-exchange units between the anode and the cathode. Each ion-exchange unit comprises a porous ion-exchange resin wafer including an inlet and an outlet together are adapted to circulate a liquid reaction stream containing a carboxylate anion from a fermentor through the resin wafer; a flow-distributing gasket for circulating a product stream through a product reservoir; an anion exchange membrane for transporting at least a portion of the carboxylate anion to the product stream; and a bipolar ion-exchange membrane to direct protons toward the cathode and into the product stream and to direct hydroxyl ions toward the anode and into the reaction stream in the resin wafer of an adjacent ion-exchange unit. | 04-04-2013 |
20130092540 | ELECTRODEIONIZATION ELECTRODE CHAMBER CONFIGURATION FOR ENHANCING HARDNESS TOLERANCE - An electrodeionization stack for deionizing a feed solution. The electrodeionization stack includes a recirculating system adapted to flow an acidic anode effluent solution into a cathode compartment. The anode compartment, may have a three-layer ion exchange resin stack, the three-layer ion exchange resin stack being made up of a layer of cation exchange resin, a layer of anion exchange resin, and a mixed bed ion-exchange resin located between the cation and the anion exchange resins. The cathode compartment may have anion exchange resins adjacent the cathode and a mixed bed ion exchange resins. | 04-18-2013 |
20130126355 | LOW SCALE POTENTIAL WATER TREATMENT - An electrochemical treating device having low scale potential is disclosed. The device has a variety of configurations directed to the layering of the anionic exchange and cationic exchange. The treatment device can also comprise unevenly sized ion exchange resin beads and/or have at least one compartment that provides a dominating resistance that results in a uniform current distribution throughout the apparatus. | 05-23-2013 |
20130199931 | ELECTROCHEMICALLY REGENERATED WATER DEIONIZATION - An apparatus and method for abating scale formation during the purification and demineralization of water in an electrochemical deionization apparatus. In the apparatus and method, scale forming ions in a raw water feed are precipitated at a controlled location remote from the deionization chambers of the deionization apparatus. Concentrate water produced during the deionization process to produce demineralized product water is acidified and circulated through the deionization apparatus to prevent scale formation and build-up in the deionization apparatus. | 08-08-2013 |
20130199932 | Layered electrodeionization device with discreet cation chamber - The present invention relates generally to the deionization of liquids through the use of electrodeionization methods and apparatuses. The apparatuses are configured to produce purified liquids having an ion content at a level of parts-per-trillion or less, and to provide continuous regeneration of the ion exchange materials. The apparatuses may be configured according to the desired levels of deionization for anions, cations, or both. Finally, methods are presented for various uses of the claimed apparatus. | 08-08-2013 |
20130220814 | ELECTROLYTIC BUFFER GENERATOR - Buffer generators are described based on electrodialytic devices. The methods of using these devices can generate buffers for diverse applications, including separations, e.g., HPLC and ion chromatography. Also provided are chromatographic devices including the buffer generators, generally located upstream from a chromatography column, sample injector valve or both. | 08-29-2013 |
20130292248 | CARBON DIOXIDE CAPTURE USING RESIN-WAFER ELECTRODEIONIZATION - The present invention provides a resin-wafer electrodeionization (RW-EDI) apparatus including cathode and anode electrodes separated by a plurality of porous solid ion exchange resin wafers, which when in use are filled with an aqueous fluid. The apparatus includes one or more wafers comprising a basic ion exchange medium, and preferably includes one or more wafers comprising an acidic ion exchange medium. The wafers are separated from one another by ion exchange membranes. The fluid within the acidic and/or basic ion exchange wafers preferably includes, or is in contact with, a carbonic anhydrase (CA) enzyme to facilitate conversion of bicarbonate ion to carbon dioxide within the acidic medium. A pH suitable for exchange of CO | 11-07-2013 |
20140246318 | DESALINATION SYSTEM AND METHOD - A desalination system comprises at least one desalination cell. The at least one desalination cell comprises first and second electrodes, an anion exchange layer and a cation ion exchange layer disposed on the respective first and second electrodes, and a spacer disposed between the first and second electrodes. The at least one desalination cell further comprises an ion exchange resin disposed between the first and second electrodes. A desalination system and a method for removing ions from an aqueous stream are also presented. | 09-04-2014 |
20150041323 | CELL FOR DEPOLARISED ELECTRODIALYSIS OF SALT SOLUTIONS - The invention relates to a salt solution electrodialysis cell for production of the relevant acids and bases by means of a process with reduced or nil consumption of electrical energy. The cell comprises an anodic chamber fed with hydrogen and a cathodic chamber fed with oxygen or air, provided with the relevant gas-diffusion electrodes; the driving power of the electrodialysis process is given by the oxidation and reduction chemical potentials of hydrogen and oxygen fed to the two chambers. | 02-12-2015 |
204534000 | And using bipolar membrane | 1 |
20120298509 | Membrane Electrolysis Stack, Electrodialysis Device Including the Stack and Method for the Regeneration of an Electroless Plating Bath - To prevent biological fouling in an electrodialysis device, an electrodialysis device including a membrane electrolysis stack are created. Every membrane electrolysis stack comprises membranes stacked on top of each other and respectively dilute and concentrate compartments arranged therebetween, at least one first and at least one second membrane alternating in succession in the membrane electrolysis stack. At least one first membrane is selected from a group comprising an anion exchange membrane and a bipolar membrane, and at least one second membrane is selected from a group comprising a monoselective anion exchange membrane, a monoselective cation exchange membrane and a proton-selective exchange membrane, with the proviso that the membranes are respectively selected independently of each other and that at least one first membrane in the membrane electrolysis stack is a bipolar membrane. | 11-29-2012 |