A metal coated polymer membrane, a method for the production thereof, an electrofiltration device or electrosorption device, and a method of electrofiltration and electrosorption using a metal coated polymer membrane. The polymer membrane is coated with metal using Atomic layer deposition (ALD).

A device (10) for capacitive deionization of an aqueous media containing dissolved ion species, said device comprising a cell with a first primary electrode (2) and a second primary electrode (3) arranged opposite the first primary electrode (2) and preferably separated by at least one non-conductive spacer (4, 4). A third electrode (7) is arranged between the first and the second electrode. The third electrode (7) is grounded whereas the first and the second electrodes are polarized versus the grounded third electrode.

One embodiment of the invention provides an electrolytic treatment unit comprising a casing, a plate bundle, a cathode and an anode. The casing has a longitudinal axis. The plate bundle is positioned in the casing. The plate bundle comprises a plurality of spaced-apart parallel plates and each plate is positioned normal to the longitudinal axis. The cathode or anode are connected to selected plates of the bundle. Another embodiment of the invention provides an electrolytic treatment unit comprising a casing, a baffle separating the casing into first and second compartment, and a plate bundle positioned in each compartment. A cathode is connected to one bundle and an anode to the other bundle. A product stream is taken from each compartment. To achieve needed throughput at low head, the plates are spaced in the range of 1 cm to 10 cm apart.

The present disclosure provides a device comprising or configured to comprise composite resin electrodes. Further provided are methods of using the device for selectively removing dissolved ions from water.

A device for removing ions from a flow of water includes a first electrode and a counter-electrode opposite the first electrode in the flow of water. The first electrode contains at least one material which is capable of intercalating one or both of Mg.sup.2+ and Ca.sup.2+ ions in the flow of water. The counter-electrode can include a material capable of binding to anions in the flow of water.

The invention relates to a water filtration with a process optimization method, which employ cartridges with conventional electrolytic cells that have electrolytic cells, modified with automated control systems for the purpose of manipulating, monitoring and performing maintenance strategies in a single device, either in mobile containers or in swimming pools, gutters, etc., in such a way that: the purification process of the liquid, preferably water, is increased, the speed of its processing is increased, a process that is conventionally performed manual way is automated; in addition to optimizing the materials used in the purification, the process minimizes the risks of infiltration of impurities in the organism by immersion in treated waters with high pollutant levels; finally the process decreases the formation of tartar in the containers.

A method for fabricating a porous carbon material possessing a hierarchical porosity, the method comprising subjecting a precursor composition to a curing step followed by a carbonization step, the precursor composition comprising: (i) a templating component comprised of a block copolymer, (ii) a phenolic component, (iii) a dione component in which carbonyl groups are adjacent, and (iv) an acidic component, wherein said carbonization step comprises heating the precursor composition at a carbonizing temperature for sufficient time to convert the precursor composition to a carbon material possessing a hierarchical porosity comprised of mesopores and macropores. Also described are the resulting hierarchical porous carbon material, a capacitive deionization device in which the porous carbon material is incorporated, as well as methods for desalinating water by use of said capacitive deionization device.

The present invention discloses an apparatus and a method to desalinate aqueous solution. The apparatus disclosed herein comprises at least two electrodes and at least one ion selective membrane in continuous contact with the aqueous solution that is contained in the internal space created by connecting a top manifold and a bottom manifold of the apparatus. The ion selective membrane(s) are arranged in such a manner as to enable reversing the flow of the charged particles by direct or indirect means. The electrodes in this apparatus may be made of material that reversibly reacts with chlorides in water.

A three-dimensional photo/electrodialysis unit includes four compartments. A first compartment holds a three-dimensional electrode and a group of one or more electrochemically active redox species. A first electroactive cation selective membrane couples the first compartment to a second compartment that provides a first feedstock. An electroactive anion selective membrane couples the second compartment to a third compartment that provides a second feedstock. And a second electroactive cation selective membrane couples the third compartment to a fourth compartment

A process for removing oil and other organics, especially naphthalenic acid, is disclosed. The process involves use of electrical fields using electrodes in the device, inducing gas bubbles which force contaminants to the surface of the solutions to be skimmed off and recovered.