Abstract: The invention relates to electrowinning of aluminum from cryolite-alumina melts, and can be used in the shunt design of a cathode assembly. In an aluminum electrolysis cell, cathode vertical metal shunts, are designed such that their top part is melted aluminum, and the bottom part is solid aluminum. Shunts are located in conduits made in a hearth slab lining which has a widening in the middle part which is wider than both parts of the shunts. The widening in the shunt conduit can be filled with a composite material, i.e. titanium diboride-carbon. The shunts can be designed as a tube, and the widening in the conduit and the space inside the tube can be filled with the composite material titanium diboride-carbon. The invention makes it possible to increase the electrical efficiency due to the absence of contact assemblies, reduced current loss, and achieving an effective current distribution and current shunting.

Abstract: In order to provide a reference electrode capable of suppressing an error in a measured value even when refilling an internal solution during sample measurement, a reference electrode including: a casing adapted to store the internal solution in an internal space; and an internal electrode that rises from the bottom surface of the internal space and is immersed in the internal solution further includes: a surrounding wall that rises from the bottom surface so as to surround the side circumferential surface of the internal electrode; and an inlet port that is for refilling the internal solution in the casing. In addition, in the reference electrode, the surrounding wall is adapted such that a fore end surface thereof is opened and the height thereof is higher than the height of the internal electrode, and the inlet port is adapted to be opened toward a space outside the surrounding wall.

Abstract: A contact bar and related techniques allow enhanced electrolytic refining of metals, e.g. avoiding or reducing electrical short circuits. The contact bar is adapted to rest on an insulating capping board for contacting symmetrical electrodes to provide locations for electrical contact therewith. The contact bar includes a central portion laying on the capping board and branch portions extending laterally outward from the central portion, such that the branch portions fit in between seats of the capping board. The contact bar may include a retention member enabling to reduce lateral movement of the electrodes, and may include a plurality of apertures to engage corresponding holding arms of the capping board. There may be a plurality of adjacent similar contact bar segments.

Abstract: The present invention provides a system for prevention of adhesion of organisms in water to a substrate in contact with the water, wherein the substrate and the water flowing around the substrate form together a treated region, comprising a generator for producing electromagnetic wave having a time varying frequency, in electrical connection with a first excitation site of the treated region and with an avalanche current suppressor having its another terminal connected with a second excitation site of the treated region. A selected voltage is applied to the generator such that the generator is triggered to produce the electromagnetic wave capable of inducing an avalanche current to shock or kill the organisms. The invention also provides a method for prevention of adhesion of organisms in water to a substrate in contact with the water.

Abstract: A corrosion protection anode using an external power supply in which a reinforcing layer formed of a fiber base material is laminated with an adhesive layer on one surface of a conductive layer formed of a graphite sheet, and an electrolyte layer of an electrolyte-containing resin formed in a sheet shape and having adhesive power such that the layer is capable of being adhered to the conductive layer and to a surface layer of an object to be protected from corrosion is adhered by the adhesive power thereof to the other surface of the conductive layer, wherein the conductive layer always has a resistance value of 4 ? or less between any two points on the surface thereof on a side that comes into contact with the electrolyte layer.

Abstract: A hybrid sacrificial galvanic anode, an anodic system including the hybrid sacrificial anode, and a method of cathodically protecting steel reinforcement in concrete structures is provided. The hybrid anode provides initial steel polarization followed by long term galvanic protection without the use of batteries or external power supplies.

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 hanging bar for supporting an anode (10) without lugs which is formed by a first lower portion of the body (11) and a second upper hanging portion (12) which comprises: two elongated splints (15) having a width similar to said second upper hanging portion (12); two plastic spacer pieces (33) connecting the ends of said two splints (15) being each one of said two plastic spacer pieces (33) formed by a base (28) from which two pillars (20) emerge, leaving between both pillars (20) a central housing zone (34), wherein on said base (28) and between said pillars (20) there is a planar surface (31) and on the inner portion of said base (28) there is an inclined surface (30), two pivoting supports (17), being each one of them housed in the central housing (34) of said two plastic spacer pieces (33), wherein said pivoting supports (17) are formed by a straight piece (43) which finishes in one of its ends in a bushing (27) in the center of which has a first hole (39) which matches second holes (38) of said pillars (

Abstract: A method of making a nuclear fuel structure may include reducing a metal oxide in a cathode assembly so as to deposit a metal of the metal oxide on the cathode plate of the cathode assembly, and processing the cathode plate with the metal deposited thereon to fabricate the nuclear fuel structure. The cathode plate may include an upper blade including an electrically conductive material, a lower blade portion connected to the upper blade, and a connection structure configured to secure the lower blade portion to the upper blade while providing electrical continuity. The connection structure may be configured to be disconnected from the lower blade portion to detach the lower blade portion from the upper blade.

Abstract: A sacrificial galvanic anode, an anodic assembly including the sacrificial anode, and a method of cathodically protecting steel reinforcement in concrete structures from corrosion is provided. The sacrificial galvanic anode comprises at least one sacrificial metal helical coil. The galvanic anode is easily fabricated and occupies a minimum volume within a steel reinforced concrete structure while providing maximum surface area for sacrificial corrosion.

Abstract: An electrode of an embodiment includes a base material, and a catalyst layer provided on the base material and having a porous structure. When a sum of heights of all peaks belonging to Ir oxide is I0, the height of a peak of IrO2 (110) is I1, and the height of a peak of IrO2 (211) is I2, a ratio of (I1+I2)/I0, which is a ratio of spectra obtained by X-ray diffraction measurements using K? rays of Cu in the catalyst layer, is 50% or more and 100% or less in a range of a diffraction angle of 20 degrees or more and 70 degrees or less.

Abstract: A substrate holder for holding a substrate, such as a wafer, is disclosed. The substrate holder includes a seal ring which can be brought into contact with a peripheral portion of the substrate, a support ring supporting the seal ring, and a fixing ring pressing the seal ring against the support ring. The fixing ring includes an annular portion having an inner circumferential surface and an outer circumferential surface, each of which is constituted by a tapered surface. The fixing ring further includes a seal-ring pressing portion connected to the annular portion, and a regulation ring projecting radially inwardly from the seal-ring pressing portion. The regulation ring has an inside diameter which is smaller than an inside diameter of the seal ring.

Abstract: A method and system is disclosed for testing a cathodic protection system that protects a metallic structure with one or more DC power sources electrically connected to the metallic structure and an associated reference electrode. The metallic structure may be cathodically protected at multiple locations. A Cathodic Protection Waveform Monitoring Unit (CPWMU) operates independently from power cycling by the cathodic protection system to measure cathodic protection voltage levels by measuring, over one or more measurement time periods, a voltage differential between the metallic structure and its associated reference electrode, a plurality of times when power provided to the metallic structure is cycled on and off. The CPWMU includes digital storage to store values indicative of the measured voltage differentials over the measurement time period.

Abstract: An electro-anti deposit device is coupled to an irrigation pipe for removing mineral deposit from drippers of the pipe. The electro-anti deposit device includes an engine configured to move the electro-anti deposit device along the pipe. The electro-anti deposit device also includes a mineral deposit removal module. The mineral deposit removal module includes a water container, a battery, and two electrodes. The water container may be configured to create an ionic environment at a dripper. The dripper may be covered with the mineral deposit. The battery may be configured to generate electric current. The two electrodes may be connected to two poles of the battery with a space separating tips of the two electrodes.

Abstract: Disclosed herein are lipseal assemblies for use in an electroplating clamshell for engaging and supplying electrical current to a semiconductor substrate during electroplating, which include an elastomeric lipseal for engaging the semiconductor substrate during electroplating, and wherein upon engagement the elastomeric lipseal forms multiple radially-separated sealing contact surfaces with the substrate which substantially exclude plating solution from a peripheral region of the substrate. Said lipseal assemblies may also include one or more electrical contact elements for supplying electrical current to the semiconductor substrate during electroplating.

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: Disclosed herein are cups for engaging wafers during electroplating in clamshell assemblies and supplying electrical current to the wafers during electroplating. The cup can comprise an elastomeric seal disposed on the cup and configured to engage the wafer during electroplating, where upon engagement the elastomeric seal substantially excludes plating solution from a peripheral region of the wafer, and where the elastomeric seal and the cup are annular in shape, and comprise one or more contact elements for supplying electrical current to the wafer during electroplating, the one or more contact elements attached to and extending inwardly towards a center of the cup from a metal strip disposed over the elastomeric seal. A notch area of the cup can have a protrusion or an insulated portion on a portion of a bottom surface of the cup where the notch area is aligned with a notch in the wafer.

Abstract: Corrosion protection of steel in concrete is provided by locating an anode assembly including both a sacrificial anode and an impressed current anode in contact with the concrete and providing an impressed current from a power supply to the anode. The impressed current anode forms a perforated sleeve surrounding a rod of the sacrificial anode material with an activated ionically-conductive filler material between. The system can be used without the power supply in sacrificial mode or when the power supply is connected, the impressed current anode can be powered to provide an impressed current system and/or to recharge the sacrificial anode from sacrificial anode corrosion products.

Abstract: Various break-resistant anode assemblies and method of installing the same in the ground are disclosed. Each anode assembly (20) basically comprises an anode (22), at least one pulling cable (24), and a protective nose cone (26). The nose cone is a hollow member receiving the leading end (22A) of the anode and from which the anode's electrical conductor (28) extends. The nose cone includes a tapered leading surface (32) that facilitates and guides the anode assembly as it is pulled through the ground, while protecting the anode. A break-away mechanism (54) may also be provided to ensure that no more than a maximum pulling force is applied to the anode assembly during its installation to ensure that the anode is not damaged.

Abstract: An automated tank Cathodic/Corrosion Protection (CCP) monitoring system includes a mobile CCP data collection device. The data collection device can be moved horizontally to different locations in the tank. A reference electrode and corrosion coupon are lowered from the data collection device to desired depths within a liquid medium in the tank to collect data. The data collection device is connected to a programmable, external control unit enabling a operator to program a data collection schedule, the horizontal and vertical distance between readings, interruption of the system if the system is designed in a way to handle interruption, and has the ability to transmit the data remotely to a control center. These capabilities enable automated, remote monitoring of the CCP system, eliminate the safety concerns associated with sending technicians onto tank roofs, and give a more accurate and complete representation of the CCP system functionality and level of protection achieved.