Abstract: The invention relates to a method and device for treating liquids, particularly ocean, brackish water, refuse liquid, and waste water, wherein a hot carrier gas flow charged with water vapor is present in a predetermined treatment step as a hot water vapor carrier gas flow, particularly from a device for the treatment of liquids. According to the invention, at least a partial flow of the hot water vapor carrier gas flow is subjected to water vapor electrolysis in a water vapor electrolysis device in which at least part of the hydrogen and oxygen is separated from the hot water vapor carrier gas flow, and a dried carrier gas flow is created.

Abstract: Techniques for maintenance-free on-demand high-efficient hydrogen generation using a small amount of electricity are described. A piece of foam is provided in the fluid used to generate the hydrogen. The foam, similar to a sponge structure, includes a plurality of open cells to accommodate the fluid. In a sense, the foam has been made to have the maximum contact with the fluid. When applied on with an electrical power (current or voltage), the fluid causes electrolysis and pyrolysis to happen so as to generate hydrogen and oxygen (oxy-hydrogen). Depending on implementation, the electrical power is electronically pulsed electricity and helps drive the fluid in a container to vibrate at an electrical resonance of the container.

Abstract: A novel process of preparing a Grignard reagent is disclosed. The process is effected by electrochemically reacting a Grignard precursor with an electrode which comprises a metal for forming the Grignard reagent, in the presence an electrolyte solution that comprises a room temperature ionic liquid (RTIL). Electrochemical cells and systems for performing the process, and uses thereof in various applications are also disclosed.

Abstract: Method and apparatus for a low maintenance, high reliability on-site electrolytic generator incorporating automatic cell monitoring for contaminant film buildup, as well as automatically removing or cleaning the contaminant film. This method and apparatus preferably does not require human intervention to clean. For high current density cells, cleaning is preferably performed by reversing the polarity of the electrodes and applying a lower current density to the electrodes, preferably by adjusting the salinity or brine concentration of the electrolyte while keeping the voltage constant. Electrolyte flow preferably comprises water and brine flows which are preferably separately monitored and automatically adjusted. For bipolar cells, flow between modules arranged in parallel is preferably approximately equally distributed between modules and between intermediate electrodes within each module.

Abstract: Methods, apparatus, and systems for depositing copper and other metals are provided. In some implementations, a wafer substrate is provided to an apparatus. The wafer substrate has a surface with field regions and a feature. A copper layer is plated onto the surface of the wafer substrate. The copper layer is annealed to redistribute copper from regions of the wafer substrate to the feature. Implementations of the disclosed methods, apparatus, and systems allow for void-free bottom-up fill of features in a wafer substrate.

Abstract: The invention relates to apparatuses, systems, and methods for the treatment of contaminated fluids, in particular water. The system is generally a continuous flow system including a multi-stage cavitation device, an electrocoagulation device, and an air flotation unit. The electrocoagulation device includes a plurality of interweaved cathode and anode plates. The anode plates are coated with an oxygen generating mixed-metal oxide coating. The air flotation unit includes a cavitation aerator and electrode blocks to introduce air bubbles into the fluid. Contaminants attach to the air bubbles and float to the fluid surface where they are removed as sludge. Treated fluid is passed through a final filtration system. The methods involve the processes imparted by the various apparatuses on the fluid.

Abstract: A self-contained system which promotes the multiplication of algae from either salt water or fresh water sources as a feedstock. This process inspires a direct output of lipids for bio-diesel fuel as well as a significant raw algae yield which can be further processed into additional bio-fuel as well as other valuable resources. In addition to inspiring a direct output of algal lipids for bio-diesel, the system generates massive raw algae biomass output that can be directly utilized as an agent for efficiently cleaning up oil spills.

Abstract: A hydrogen supplementation fuel apparatus and method having a power source, a hydrogen generator and an accumulator for supplementing hydrogen gas to improve the fuel efficiency of internal combustion engines. The hydrogen generator uses electrodes that are helically wound about a separator to increase the hydrogen generation output.

Abstract: A water treatment system is disclosed having electrolytic cell for liberating hydrogen from a base solution. The base solution may be a solution of brine for generating sodium hypochlorite, or potable water to be oxidized. The cell has first and second opposing electrode endplates held apart from each other by a pair of supports such that the supports enclose opposing sides of the endplates to form a cell chamber. One or more inner electrode plates are spaced apart from each other in the cell chamber in between the first and second electrode plates. The supports are configured to electrically isolate the first and second electrode plates and the inner electrode plates from each other. The first and second electrode plates are configured to receive opposite polarity charges that passively charge the inner electrode plates via conduction from the base solution to form a chemical reaction in the base solution as the base solution passes through the cell chamber.

Abstract: A novel electromechanical, chemical, thermal apparatus having the combined properties of a voltage intensifier, a diode and a capacitor for the molecular breakdown of water into its oxygen and hydrogen components. The instant invention uses only water (tap water, distilled water, purified water, etc.) without the need of adding any electrolyte. The system comprises a unique molecular reactor core having conductive inner and outer windings and a molecular reactor control assembly having water level controls via a float switch mechanism and temperature control process serving as the basis for the unique operation of the system. The instant invention provides a novel combination of the molecular reactor core and molecular reactor control assembly, in conjunction with a means for replenishing the water therein, all powered and controlled by simple control circuitry, and having usage implications for various functions, including but not limited to the generation of hydrogen gas.

Abstract: A supplementary hydrogen fuel system is described. The supplementary hydrogen fuel system can include a hydrogen generator. The hydrogen generator can include a cylindrical enclosure of metal and a fuel cell unit disposed within the cylindrical enclosure. The fuel cell unit includes an anode core coupled to a second terminal of the power source. The anode core includes indentations on one or more surfaces. The indentations are arranged according to a first pattern.

Abstract: A biocide solution containing hypochlorous acid, hydrochlorous acid, hydrochloric acid, percholoric acid, chlorine gas, hydrogen peroxide and ozone provides broad spectrum biocidal properties as well as an apparatus for producing the solution.

Abstract: The present invention provides a device for single-sided electrolytic treatment of a flat substrate. The device comprises a bath for electrolytic fluid and conveying means for conveying the flat substrate in a conveying direction at the free surface of the fluid in the bath, with the flat substrate being horizontally oriented such that the underside of the flat substrate makes contact with the free surface of the fluid in the bath. The conveying means comprise two conveying elements disposed opposite each other, which extend along two respective conveying paths, which conveying paths each comprise an electrolytic part, which electrolytic parts extend on two opposite longitudinal sides of the bath.

Abstract: The invention relates to a machine for electrochemical metal machining, wherein metal is removed by electrolytic dissolution of the workpiece (10), comprising a frame (1), with a work holder (19), wherein a workpiece (10) is mounted in the work holder (19) in such a way that it can be rotationally driven under numerical control about a vertical spindle axis (6) and a horizontal axis of rotation (9), with at least one tool (15), which can be infed to the workpiece (10), wherein the workpiece (10) is positively poled as an anode and the tool (15) is negatively poled as a cathode, wherein the work holder (19) is guided movably in a controlled manner in relation to the frame (1) in a horizontal direction on the horizontal slide (4) along Y guides (3) and in a vertical direction with the spindle (5) along the Z guide (16), and the tool (15) can be moved in a horizontal direction on the infeed slide (12) along the X guide (11) on the frame (1).

Abstract: The present disclosure relates to a sterilized water creating cartridge having an inlet and an outlet in one direction for producing sterilized water by underwater-discharging water supplied from an inlet and discharging the sterilizes water to an outlet, the cartridge including a sterilized water producing unit including a negative electrode plate having an electrode connector for underwater-discharging the water, and a positive electrode plate, and a case accommodating the sterilized water producing unit thereinside, formed with an electrode connector through hole passing the electrode connector, and having an inlet and an outlet on a surface of one direction toward both sides of the sterilized water producing unit.

Abstract: A bipolar cell for a reactor for treatment of electrolyte such as waste water and effluent or for electrosynthesis comprises end electrodes and at least one bipolar electrode therebetween. The or each bipolar electrode comprises a diamond sheet. The cell includes a porous support structure, for example in the form of spacers, a lattice of plastic rods, or a woven mesh, between each end electrode and the adjacent diamond sheet, there being porous support structure between the or each pair of adjacent diamond sheets, the support structures acting to contact or support the or each diamond sheet.

Abstract: Devices for receiving fluid such as water are described. Principally (although not necessarily exclusively) designed for use as chlorinators, the devices may divert water flowing in conduits into the devices for treatment and subsequent return to the flow stream. A device may connect to a pipe without tools and require only one hole to be formed in a pipe wall.

Abstract: Provided is a standalone integrated water treatment system for a distributed water supply. A filter input receives water to be treated. A coagulation system is in operative connection with the filter input, wherein the water which has been filtered is subjected to a coagulation process performed by the coagulation system to create pin floc from suspensions in the water. A maturation buffer tank is in operative connection with the coagulation system, wherein floc is aggregated in size within the water. A spiral separator is in operative connection with the maturation buffer tank, and the water is separated into two water streams, a first stream of water having most of the floc removed, and a second stream of water which includes a concentrated amount of the floc. An optional filtration system is in operative connection with the spiral separator and is configured to receive the first stream of water and to perform a filtration operation on the first stream of water.

Abstract: A method of electrolysing water, using a water electrolyser having cathode and anode compartments respectively on either side of a hydrophilic polymer cation-exchange membrane, the method comprising: (i) adding water to the anode compartment only, such that the cathode compartment is predominantly free of water in liquid form; (ii) electrolysing the water to form hydrogen gas in the cathode compartment and oxygen gas in the anode compartment; and (iii) re-circulating the hydrogen gas through the cathode compartment.

Abstract: A method and an apparatus for providing a substance for the analysis of isotope ratios, at least some of the substance being contained in a liquid phase in which the liquid phase is subjected to electrolysis and, in the process, the substance or a pre-product for the latter is formed.

Abstract: An electrolytic cell, a method for manufacturing the cell, and a method of operating same. The electrolytic cell has at least two bipolar plates, at least one fluid inflow and outflow, as well as at least one laminated core arranged between the at least two bipolar plates. The laminated core is constructed from laminations which are stacked one on top of the other. At least two laminations have recesses which are designed to extend through the entire thickness of the respective lamination. The at least two laminations are arranged one on top of the other in such a way that recesses in adjacent laminations overlap partially, but not completely, as a result of which ducts, which are continuous in the direction of the plane of the lamination, are formed.

Abstract: A system for the pretreatment and primer electrodeposition of an assembly is provided. The system includes one or more large envelope, heavy payload robots configured to grasp the assembly and arrange the assembly in a substantially vertical orientation. The one or more robots are further configured to vertically raise and lower the assembly. A tank is configured to receive the assembly in a substantially vertical orientation. The tank is further configured to impart a liquid onto the assembly. The liquid imparted onto the assembly is configured to improve the corrosion resistance of the assembly.

Abstract: Methods and systems for electrochemical conversion of carbon dioxide to carboxylic acids, glycols, and carboxylates are disclosed. A method may include, but is not limited to, steps (A) to (D). Step (A) may introduce water to a first compartment of an electrochemical cell. The first compartment may include an anode. Step (B) may introduce carbon dioxide to a second compartment of the electrochemical cell. The second compartment may include a solution of an electrolyte and a cathode. Step (C) may apply an electrical potential between the anode and the cathode in the electrochemical cell sufficient to reduce the carbon dioxide to a carboxylic acid intermediate. Step (D) may contact the carboxylic acid intermediate with hydrogen to produce a reaction product.

Abstract: An electrochemical system includes an electrochemical compressor through which a working fluid that includes a component that primarily acts as an electrochemically-active component flows; a sealed vessel in which the electrochemical compressor is housed; an inlet conduit for passing working fluid into the vessel; and an outlet conduit for passing fluid out of the vessel. The working fluid that leaks from the electrochemical compressor is contained within the vessel.

Abstract: A solid electrolyte producing system includes a supercapacitor desalination device comprising a power supply and a supercapacitor desalination unit. The supercapacitor desalination unit includes a pair of electrodes electrically coupled to the power supply and operable in a charging mode of operation and a discharging mode of operation. A feeding source is configured to provide a feed liquid to the supercapacitor desalination unit when the supercapacitor desalination unit is in the charging mode of operation. The feed liquid comprises at least one determined electrolyte. A crystallization device is providing for receiving a concentrated liquid from the supercapacitor desalination device in the discharging mode of operation, the concentrated liquid being a saturated liquid or supersaturated liquid of the at least one determined type of electrolyte. The at least one determined type of electrolyte precipitates in the crystallization device as solid electrolyte.

Abstract: A process for electrolyzing a material to change at least a portion of the material from a first chemical state to a second chemical state includes placing a known quantity of a first substance into either a mixing chamber or an electrolysis chamber of an integrated electrochemical reactor, placing a known quantity of a second substance into the other chamber free of the first substance; sealing an opening to isolate an internal volume within the reactor; rotating the reactor to form a mixture, rotating the reactor again such that the mixture is transferred to the electrolysis chamber; electrolyzing the mixture in the electrolysis chamber to change at least a portion of the mixture from the first chemical state to the second chemical state; and analyzing the first substance, or analyzing the second substance, or analyzing the first chemical state, or analyzing the second chemical state, or any analytical combinations thereof.

Abstract: A plating apparatus includes: a plating bath configured to store a plating solution therein; a substrate transport device configured to remove a substrate before plating from a substrate cassette and return the substrate after plating to the substrate cassette; a substrate holder configured to detachably hold the substrate with a sealing member sealing a peripheral portion of the substrate and immerse the substrate in the plating solution in the plating bath; a dummy substrate arranged in a position accessible by the substrate transport device; and a substrate holder cleaning bath configured to immerse the substrate holder in a cleaning liquid to clean the substrate holder when holding the dummy substrate with the sealing member sealing a peripheral portion of the dummy substrate.

Abstract: There is provided a hydrogen production device high in light use efficiency and capable of producing hydrogen with high efficiency. The hydrogen production device according to the present invention includes a photoelectric conversion part having a light acceptance surface and a back surface, a first gas generation part provided on the back surface, and a second gas generation part provided on the back surface, in which one of the first gas generation part and the second gas generation part is a hydrogen generation part to generate H2 from an electrolytic solution, another one thereof is an oxygen generation part to generate O2 from the electrolytic solution, the first gas generation part is electrically connected to the back surface, and the second gas generation part is electrically connected to the light acceptance surface via a first conductive part.

Abstract: An electrochemical finishing system for super conducting radio frequency (SCRF) cavities including a low viscosity electrolyte solution that is free of hydrofluoric acid, an electrode in contact with the electrolyte solution, the SCRF cavity being spaced apart from the electrode and in contact with the electrolyte solution and a power source including a first electrical lead electrically coupled to the electrode and a second electrical lead electrically coupled to the cavity, the power source being configured to pass an electric current between the electrode and the workpiece, wherein the electric current includes anodic pulses and cathodic pulses, and wherein the cathodic pulses are interposed between at least some of the anodic pulses. The SCRF cavity may be vertically oriented during the finishing process.

Abstract: An electrocoagulation apparatus is disclosed integrated with a plate clarifier and sludge chamber for effluent treatment. The clarifier includes first and second tanks, an electrocoagulation reactor positioned in the first tank. The sludge chamber is defined below and integrated with the primary reaction chamber and has a selectively openable outlet.

Abstract: Disclosed herein is a plating apparatus, including: a plating tank receiving a plating solution and having an article to be plated injected thereinto; an anode disposed to face one surface or both surfaces of the article to be plated; and a shielding member disposed between the article to be plated and the anode and configured of a first plate and a second plate adjacently disposed to the first plate, the first plate and the second plate moving in parallel with each other.

Abstract: An improved electrolytic cell, its method and system configured for simple and rapid troubleshooting, removal and replacement of the cell or a component of the cell during service and maintenance procedures is disclosed. The electrolytic cell (12) is includes a host manifold (27) housing a degassing chamber (125) and various flow paths for routing liquid and gases into and out of a guest device (33) and the host manifold (27). The host manifold (27) is connected to input sources and output collections. The guest device (33) generally houses an anode chamber (104), a cathode chamber (112), and a brine chamber or reservoir (108) that serves as a source of anions and cations for the anode and cathode chambers. The guest device (33) is separable from the host manifold (27) to repair, maintain and/or replace the cell.

Abstract: An improved electrolytic cell, its method and system is disclosed. The electrolytic cell (12) is configured, at least in one design, to recycle the catholyte to increase chlorine capture and concentration in the output solution. The cell (12) includes at least an anode chamber (39) and a cathode chamber (35). And in one design, a chamber or reservoir (31) for that serves as a source of anions and cations for the anode and cathode chambers. The outlet (38) of the cathode chamber is preferably connected in fluid communication with the inlet (44) of a degassing chamber (14) and the outlet (46) of the degassing chamber is preferably connected in fluid communication with the inlet (40) of the anode chamber.

Abstract: An electroless plating system includes a plating solution, and controlling reducing agents in the plating solution for deposition over outlier features smaller than about five hundred nanometers and isolated by about one thousand nanometers.

Abstract: A plating assembly for plating a part having an interior cavity with a plating material. The plating assembly has a main frame assembly adapted to receive and support the part. An anode frame assembly is positioned inside the main frame assembly and is electrically isolated from the main frame assembly. The anode frame assembly is electrically connected to an anode of a direct current power supply. A plurality of anode rods are mounted on the anode frame assembly in electrically conductive contact with it. A cathode assembly is electrically connected to the part and is electrically connected to a cathode of the direct current power supply. A fluid conduit assembly connects a fluid source such as a pump station to a plurality of fluid nozzles. At least one of the fluid nozzles is positioned within the interior cavity of the part.

Abstract: Electrochemical cells modules made up of couples of catalytic multilayer porous electrodes forming the anodes and the cathodes and delimitating external gaseous areas and internal areas containing the electrolyte wherein the pressure modulators, generating two pressure cycles independently synchronized but of opposite phase, act at the inlet and at the outlet of the electrolyte and the multilayer porous electrodes are weeping on the gas side. According to a preferred embodiment the multilayer porous electrodes are hydrophobic and conductive on the gas side, the conductive and catalytic middle layers are hydrophobic and hydrophilic, the non-conductive and non-catalytic layer on the electrolyte side is hydrophilic.

Abstract: A device for producing hydrogen in an electric field includes a shaft rotationally coupled via bearings to a vacuum protection housing, which encloses a disc like structure fastened to the shaft that supplies a split medium provided through inlet channels situated at one longitudinal end of the shaft to split cells arranged at a periphery of the disc like structure. Each split cell includes first and second electrodes. To the vacuum protection housing are fastened diffusor-spirals where a produced gas and a material residue from the split cells are provided through a plurality of nozzles, each of which is arranged inside one of the diffusor-spirals with minimal clearance between an outer wall of the nozzle and an inner wall of the associated diffusor-spiral. A rotation of the disk like structure is supported by a gas pressure generated by the produced gas emitted from the nozzles.

Abstract: A method for water treatment system comprising: mixing feed water to be treated with an agent to increase a pH level of the feed water; running the feed water through a plurality of Electro-Coagulation (EC) units; and running the feed water through a plurality of settling tank chambers wherein each successive settling tank chamber removes smaller particles.

Abstract: A cleaning device includes a cleaning solution tank filled to a predetermined height with an electrolyte solution, a negative electrode provided inside the cleaning solution tank, a metal jig mounted with a metal mask used to manufacture an organic light emitting diode (OLED) display to one side for guiding the metal mask to be connected to the negative electrode, positive electrodes installed at predetermined intervals inside the cleaning solution tank with along with a metal mask, and a rectifying device electrically connected to the negative electrode and the positive electrodes.

Abstract: The invention relates to a method and a device for electrowinning of zinc from sulfate solutions. The electrolyzer for zinc extraction according to the invention includes a bath-reactor which is equipped with power supply buses, a pipeline of two pipes for supplying the electrolyte, cathodes, anodes, plastic strips along the height of the anodes, an overflow for electrolyte discharge by gravity. The cathodes have an area of 3.5-10 m2. The height of the electrolyzer is at least two times greater than its width, and the length of the electrolyzer depends on the number of the electrodes. The bottom of the electrolyzer is divided by a groove along the length of the bath.

Abstract: In an electropolishing method passing large current, an electrolytic solution is given a viscosity by reacting an organic acid (a phosphoric acid solution or a mixed solution of phosphoric acid and sulfuric acid) with a silicon dioxide as a gelling agent, the electrolytic solution is continuously introduced to an electrolysis case and concurrently the first introduced electrolytic solution is discharged to progress the electropolishing. The electrolysis case has a cathode at a specific height from a lower open end of a frame in a specific size and depth, an introduction port on the cathode for introducing the electrolytic solution with specific viscosity, and a discharge port for discharging the solution from the frame. It is possible to shorten the distance of the cathode in the electrolysis case from the open end corresponding to the work-piece surface, and control the resistant of the electrolytic solution, so that the large current can be passed and the operation time can be reduced.

Abstract: The embodiments herein relate to methods and apparatus for electroplating one or more materials onto a substrate. In many cases the material is a metal and the substrate is a semiconductor wafer, though the embodiments are no so limited. Typically, the embodiments herein utilize a channeled plate positioned near the substrate, creating a cross flow manifold defined on the bottom by the channeled plate, on the top by the substrate, and on the sides by a cross flow confinement ring. During plating, fluid enters the cross flow manifold both upward through the channels in the channeled plate, and laterally through a cross flow side inlet positioned on one side of the cross flow confinement ring. The flow paths combine in the cross flow manifold and exit at the cross flow exit, which is positioned opposite the cross flow inlet. These combined flow paths result in improved plating uniformity.

Abstract: An apparatus for cleaning and/or disinfecting surfaces and objects is disclosed herein. In one embodiment, such an apparatus includes a spray bottle that is refillable with water. A dispenser is integrated into the spray bottle to dispense a soluble material into the water to produce a solution. The soluble material includes at least one of a cleaning agent and a disinfecting agent. The soluble material is provided in a quantity sufficient to last several refills of the spray bottle.

Abstract: A process for creating porous anode foil for use in an electrolytic capacitor of an implantable cardioverter defibrillator is provided. The process includes electrochemical drilling a plurality of etched metal foils in sequence one after the other in a bath containing electrochemical drilling (ECD) solution initially having a pH of less than 5. Alternatively, an etched foil sheet may be passed through the bath in a substantially continuous manner such that a portion of said etched foil sheet is in contact with the ECD solution is electrochemically drilled to generate pores.

Abstract: A nanocatalytic electrolysis and flocculation apparatus includes a housing, a water inlet on the housing, an impurities baffle in the housing, a water baffle in the housing, a drainage chamber defined by the impurities baffle and one side of the housing, a first gap between a bottom of the impurities baffle and a bottom of the housing, a water outlet on the drainage chamber, an impurities chamber defined by the water baffle and an other side of the housing, a second gap between a top of the water baffle and a top of housing, an impurities discharge port on the impurities chamber, a hydrogen discharge port on top of the housing, at least one electrolytic cell between the impurities baffle and the water baffle, an electrode in each electrolytic cell, a gas liquid separation chamber in the housing, and a drainage port on the bottom of the housing.

Abstract: This invention relates to a unit cell for a flat-tubular solid oxide fuel cell or solid oxide electrolyzer, and a flat-tubular solid oxide fuel cell and a flat-tubular solid oxide electrolyzer using the same, and more particularly to a unit cell for a flat-tubular solid oxide fuel cell or solid oxide electrolyzer, wherein the unit cell includes a connector including connection parts, thus decreasing the thickness of the unit cell and reducing the size of a cell stack, and to a flat-tubular solid oxide fuel cell and a flat-tubular solid oxide electrolyzer using the same.

Abstract: A method and apparatus for treating water or wastewater for drinking and/or industrial use. The method and apparatus comprises of a plurality of vertically positioned electrodes, which are placed in a treating chamber and wherein the electrodes are interconnected to one another. The positive and negative electrodes are insulated there-between. The polarity of the direct current supply is changeable at regular intervals in order to prevent passivation of the electrodes when reaching an even abrasion. The current can preferably be pulsatory. In order to be able to keep the current density between the electrodes at a desired value, the most efficient possible electrolysis is achieved by means of a minimum total current and wherein the spacing between the electrodes are adjustable.

Abstract: Provided are cleaning methods and systems to remove unintended metallic deposits from electroplating apparatuses using reverse current deplating techniques. Such cleaning involves positioning a cleaning (deplating) disk in an electroplating cup similar to a regular processed substrate. The front surface of the cleaning disk includes a corrosion resistant conductive material to form electrical connections to deposits on the cup's surfaces. The disk is sealed in the cup and submerged into a plating solution. A reverse current is then applied to the front conductive surface of the disk to initiate deplating of the deposits. Sealing compression in the cup may change during cleaning to cause different deformation of the lip seal and to form new electrical connections to the deposits. The proposed cleaning may be applied to remove deposits formed during electroplating of alloys, in particular, tin-silver alloys widely used for semiconductor and wafer level packaging.

Abstract: A continuous electrowinning system 100 comprises, in accordance with some embodiments of the invention, a cell body 106 configured to maintain electrolyte solution at a high pressure and/or temperature within the cell body 106; at least one anode 174; at least one cathode 172; an inlet 110 configured for receiving an influent stream 200 of electrolyte solution; a first outlet 120 configured for discharging an effluent stream 220 of spent electrolyte solution; a second outlet 130 configured for removing cathode slime/sludge concentrate 230; and a residence chamber 160 configured to dynamically and continuously transfer electrolyte solution from said inlet 110 to said first outlet 120 and increase residence time of said electrolyte solution between said at least one anode 174 and said at least one cathode 172, the residence chamber 160 comprising one or more channels 162 which are configured to provide a forced flow 212 of electrolyte solution therein which is strong enough to continuously dislodge and/or move

Abstract: Apparatus for the electrolytic treatment of the product L using a treatment agent is used to make the treatment of a plate-shaped product more uniform. This apparatus includes devices 40, 42 for retaining the product L in the apparatus, one or more flow devices 10, which each include at least one nozzle 15 and are disposed situated opposite the product L, one or more counter electrodes 30, which are inert relative to the treatment agent and are disposed parallel to at least one treatment surface, eccentric motor means for generating a relative movement 44 between the product L, on the side, and the flow devices 10 and/or the counter electrodes 30, on the other side, in at least one direction parallel to a treatment surface. The product L can be immersed in the treatment agent during treatment.