Abstract: A metal section in concrete or mortar material is protected against corrosion by providing an anode and a solar panel where the solar panel and the anode are supplied for installation as a common unit where the anode is mounted to the rear of the solar panel with an optional storage component therebetween. At least a part of the anode is attached to a surface of the material and one or both of the anode and the solar panel is flexible to conform to the surface. In installation, a light meter is used to determine levels of ambient light for example in an interior location not in receipt of direct sunlight and details of the material and metal section at the location to calculate a required location and size of the solar panels and the anodes.

Abstract: The invention relates to an electrode for electrolytic processes, in particular to an anode suitable for oxygen evolution comprising a valve metal substrate, a catalytic layer, a protection layer consisting of oxides of valve metals interposed between the substrate and the catalytic layer and an outer coating of oxides of valve metals. The electrode of the invention is particularly suitable for processes of cathodic electrodeposition of chromium from an aqueous solution containing Cr (III).

Abstract: An autonomous impressed current cathodic protection device utilizes a spiral layout of materials, with a magnesium sheet placed in parallel with a copper sheet, and a foamed material in between as insulation, all placed in a plastic container and solidified after inert fluid material is poured in. At a center of the spiral layout, a magnesium anode core is connected through a wire to the surrounding spiral layout. The device can generate electrical voltage of up to ?1.7 volt with increased amperage of up to 500 mA. The presented layout of the materials and components allows for increased flexibility concerning the manufacturing of devices based on the requirements of industrial applications, construction sites, and various needs and demands in marine applications for ships, regardless of size.

Abstract: An electrode for an ozone generator or chlorine generator includes an electrically conductive substrate, a doped-Si layer disposed over the conductive substrate, and a boron-doped diamond (BDD) layer disposed over the doped-silicon layer. The doped-silicon layer defines a discrete architecture that maintains adhesion throughout a high temperature CVD boron-doped diamond process. Another electrode having a PVD nitrogen-doped diamond (ta-C:N) layer disposed over a conductive substrate is also provided.

Abstract: An anode for generating ozone by electrolysis of water, a preparation method and use thereof, an ozone generating system, and a dental scaler are provided. The anode includes a titanium substrate and a composite oxide layer attached to a surface of the titanium substrate. The composite oxide layer is made of a metal oxide. Metal elements in the metal oxide comprise tin, ruthenium, manganese, titanium, and nickel, and a molar ratio of tin, ruthenium, manganese, titanium, and nickel is (200-500):(2.5-20):1:(1.5-7):(5-15).

Abstract: An oxygen generation electrode includes, a conductive layer including a salt of stannic acid, the salt of stannic acid having a perovskite structure, a light absorption layer disposed on the conductive layer, and a catalyst layer disposed on the light absorption layer, the catalyst layer including an oxide having a perovskite structure and being responsible for an oxygen evolution reaction, the conductive layer being doped to degeneracy with impurities, the light absorption layer forming a Type-II heterojunction with the conductive layer, the catalyst layer being doped to degeneracy with impurities, the upper end of the valence band of the catalyst layer being higher than the upper end of the valence band of the light absorption layer.

Abstract: A system implementing fiber optics to monitor pipeline cathodic protection systems includes a cathodic protection system coupled to a hydrocarbon pipeline and a fiber optic system connected to the cathodic protection system. The cathodic protection system passes a current through the hydrocarbon pipeline to control corrosion of the hydrocarbon pipeline. The fiber optic system measures the current flowing through the hydrocarbon pipeline over time and provides the measured current.

Abstract: A powered anode current drive device is configured to automatically determine an anode drive current that offsets galvanic corrosion in a vessel. A method alerts a user on a change of an output of a powered anode current drive device. The method includes receiving an anode drive level output of the powered anode current drive device, determining electrical characteristics of the anode drive level output, analyzing the determined electrical characteristics for anomalous behavior, and generating an alert of the anomalous behavior.

Abstract: An electrode (10) is disclosed in which a first layer (30) of TiOx with a porosity in the range 0-3% is present on at least one surface of an electrode substrate (20), a second layer (40) of TiOx with a porosity of greater than 3 and up to 20% is present on the first layer (30) of TiOx. An electro-catalytic layer (50) is present on the second layer (40) of TiOx. x is in the range 1-2 for the first (30) and second layer (40) of TiOx. A process for the manufacture of the electrode (10) is disclosed as are uses thereof.

Abstract: To provide an ion exchange membrane for alkali chloride electrolysis which has high membrane strength and low membrane resistance, thereby capable of reducing the electrolysis voltage during alkali chloride electrolysis. In this ion exchange membrane (1) for alkali chloride electrolysis, a reinforcing material 20 formed by weaving reinforcing yarns 22 and sacrificial yarns 24 is disposed in a layer (S) 14, and layer (S) 14 has elution portions 28 formed by elution of at least portions of the sacrificial yarns 24.

Abstract: An apparatus for holding a substrate (113) has a chuck cup (101), a seal shell (111), a chuck plate (102) and a vertical driving device (103). The seal shell (111) has a bottom wall (1111), an outer wall (1112) and an inner wall (1114). The inner wall (1114) forms a lip seal portion (1115). The bottom wall (1111) and the outer wall (1112) of the seal shell (111) respectively wrap the bottom surface and the outer surface of the base portion (1011) of the chuck cup (101). The lip seal portion (1115) wraps the supporting portion (1014) of the chuck cup (101) for sealing the edge of the front side of the substrate (113). The apparatus protects the edge of the front side of the substrate, the back side of the substrate and the chuck cup from contacting with the electrolyte solution.

Abstract: An electrode for electrochemical processes comprises a substrate of titanium or other valve metal, an intermediate protection layer based on valve metal oxides and a catalytic layer based on oxides of tin and of iridium doped with small amounts of oxides of elements selected between bismuth, antimony, tantalum and niobium. The electrode used in electrometallurgical processes, for example in the electrowinning of metals, as anode for anodic oxygen evolution presents a reduced overvoltage and a higher duration.

Abstract: An apparatus may mount an in-stream, continuous contact, visible, sacrificial anode in a fluid passage for the electrolytic corrosion protection. The apparatus may function to protect heat exchangers and/or other metallically connected system components that share contact with electrolytically active fluids. The apparatus may consist of an in-line anode cartridge including a collar body and a viewing port. The apparatus may include a site glass and compression fittings which seals the device causing corrosive fluids to flow past a sacrificial anode. The apparatus may include a visual indicator and an elastically compressed member (e.g., spring) which facilitate continuous metallic/electrical contact and inspection of the anode through the viewing port without system shut down or disassembly. The elastically compressed member and gauge assembly fills the view-ports with a bright indicator as the anode dissolves and the elastically compressed member expands.

Abstract: A gas generating apparatus with separated water pump, comprising a delivery device, an electrolytic device and a water pump. The delivery device accommodates electrolyzed water. The electrolytic device is configured for electrolyzing electrolyzed water to generate hydrogen. The water pump comprises a stirring fan and a drive motor. The stirring fan is configured inside the delivery device to promote the electrolyzed water flowing. The drive motor is coupled to an outer surface of the delivery device and is configured for driving the stirring fan to promote the electrolyzed water flowing. In present invention, the flowing electrolyzed water driven by the separated water pump cools down the electrolytic device, and the drive motor is prevented from corroding by the electrolyzed water and the cooling efficiency of the drive motor is increased. Therefore, the operational safety is improved and the life of the gas generating apparatus with separated water pump is extended.

Abstract: Disclosed are electroplating cups for holding, sealing, and providing electrical power to wafers during electroplating, where the electroplating cup can include a cup bottom, an elastomeric lipseal, and an electrical contact element. The cup bottom can include a radially inwardly protruding surface with a plurality of through-holes. The elastomeric lipseal can directly adhere to the radially inwardly protruding surface of the cup bottom, fill the plurality of through-holes, and encircle an inner edge of the cup bottom. In some implementations, this can mitigate the effects of wafer sticking. In some implementations, the cup bottom may be treated to promote adhesion between the elastomeric lipseal and the radially inwardly protruding surface of the cup bottom.

Abstract: Bioelectrochemical systems (BES) having configurations with spiral wound structures and with frame-and-plate structures are provided. Systems may allow for production of an electrical current that is at least partially generated by anodophilic microorganisms connected directly or indirectly to an electrode. A spiral wound or frame-and-plate type bioelectrochemical system may include an anolyte influent point, a catholyte influent point, electrodes, ion selective membranes, mesh separators, gas collection devices, an exterior containment vessel, and one or more external electrical devices.

Abstract: The diaphragm for alkaline water electrolysis according to the present invention comprises a porous polymer membrane, the porous polymer membrane comprising a polymer resin and hydrophilic inorganic particles. A porosity of the porous polymer membrane is 30% or more and 60% or less, average pore sizes at both surfaces of the porous polymer membrane is 0.5 ?m or more and 2.0 ?m or less, and a ratio of a mode particle size of the hydrophilic inorganic particles to the average pore size of the porous polymer membrane (mode particle size/average pore size) is 2.0 or more.

Abstract: A substrate holder includes: a first holding member having a surface configured to come into contact with the substrate; and a second holding member, between which and the first holding member the substrate is put and held. The second holding member includes a removal portion that is disposed along an outer circumference of the substrate and configured to come into contact with the substrate and remove an insulating material on the substrate when the substrate is put between the first holding member and the second holding member, and an electric contact portion that is disposed along the outer circumference of the substrate and configured to come into contact with a region on the substrate in which the removal portion has removed the insulating material when the substrate is put and held between the first holding member and the second holding member.

Abstract: Electroplating and painting systems, methods and power converters are disclosed to provide regulated individual DC output signals to anode structures distributed in a plating solution in a tank to promote formation of plating material on a workpiece using a PWM inverter to generate a first AC signal, a sinewave filter to provide a filtered AC signal, a multiphase isolation transformer to provide a plurality of isolated AC signals, a multi-pulse diode bridge rectifier to provide a DC rectifier output signal, an output filter to provide a filtered DC rectifier output signal, and a blocking diode to provide the filtered DC rectifier output signal to the corresponding tank anode structure.

Abstract: An aspect of the present disclosure is a photoelectrochemical device that includes a first cell that includes a first semiconductor alloy, a capping layer that includes a second semiconductor alloy, and a passivating layer that includes a third semiconductor alloy, where the passivating layer is positioned between the first cell and the capping layer, and at least a portion of the capping layer is configured to be in direct contact with an electrolyte.