Class / Patent application number | Description | Number of patent applications / Date published |
204267000 | Plural cells | 47 |
20090277786 | PLATING PROCESSING LINE - A plating processing line or system includes a plurality of surface processing apparatus including a surface processing apparatus for processing a surface of an object to be treated by introducing a treatment liquid to the surface, and a conveyer unit for conveying the object to be treated, which is disposed between the respective surface processing apparatus linearly or in a curved manner. Each of the surface processing apparatus includes a positioning unit for positioning the object to be treated, which has been conveyed by the conveyer unit to a predetermined position, at which the object is subjected to a pre-plating process or a plating process as a surface processing. | 11-12-2009 |
20090301870 | ELECTROCHEMICAL DEVICE AND EXHAUSTGAS PURIFICATION APPARATUS | 12-10-2009 |
20100012485 | APPARATUS INCLUDING AT LEAST ONE ELECTROLYTIC CELL - An electrolytic apparatus that can be immersed in a saline solution, includes at least one electrolytic cell having a body ( | 01-21-2010 |
20100258434 | Composite Collector Bar - A collector bar for electrical connection to a busbar system of an electrolytic cell, the collector bar being received within a recess in a cathode block of the cathode of the electrolytic cell; wherein the collector bar comprises a first conductor which electrically connects to the busbar system, the first conductor having an external surface or surfaces which electrically contact the cathode block and at least one second conductor having a lower electrical resistance to the first conductor, the second conductor being positioned on at least one external surface of the first conductor in electrical contact with the first conductor. | 10-14-2010 |
20110073468 | METHOD FOR ARRANGING ELECTRODES IN AN ELECTROLYTIC PROCESS AND AN ELECTROLYTIC SYSTEM - In the method and system, a number of electrolytic cells are arranged as a cell group, which cells are separated by a number of partition walls; in each cell, a number of anodes and cathodes are arranged in an alternating order, so that in each cell, next to each anode, there is arranged a cathode, and so that in each cell, each individual anode is fitted in the same anode line with the anode of the adjacent cell, and in each cell, each individual cathode is fitted in the same cathode line with the cathode of the adjacent cell, and each anode is galvanically connected to at least one cathode of the adjacent cell. The flowing direction of the current passing in the cell group is deviated in different directions in order to make the current flow mainly in the direction of the cell group. | 03-31-2011 |
20110168549 | OPTIMISED SUPPLY SOURCE AND STORAGE UNIT FOR CRYOGENIC POWER OR NANOHYDRIDE ASSISTANCE USING PHOTOVOLTAICS FOR ON-DEMAND ENERGY PRODUCTION SYSTEMS - The invention relates to a system that consists of a very efficient and optimized photovoltaic power supply that can be added as a complement to an on-demand hydrogen production assistance, power, and electricity unit as well as outputs adapted for a direct use. The system includes photovoltaic elements containing nano-crystalline polymers for forming super-efficient photovoltaic cells, and is paired with a cryogenic storage unit or assistance hydride storage unit or is used as a separate backup unit controlled by a driving system (FIG. | 07-14-2011 |
20110253527 | ELECTROLYTIC CELL FOR GENERATING CHLORINE IN A POOL - Disclosed herein is an improved electrolytic cell. The cell includes at least one pair of electrodes, an anode and a cathode. In general the anode includes at least one dimension, which is substantially greater than the cathode. In an exemplary embodiment, the length and the width of the anode are greater than the length and width of the cathode. In a first embodiment of a multi-cell chlorine generator, unequal dimension electrodes are stacked together. In a second embodiment of such a generator, the electrodes are of equal dimensions. In another exemplary embodiment of the improved electrolytic cell in accordance with this invention, the cathode forms a U-shaped member and the anode of at least one dimension being greater is located there between. Another embodiment of the chlorine generator includes at least two cells having the U-shaped cathode. In a first exemplary of embodiment of such a chlorine generator, the electrode are parallel to one another. In a second such exemplary embodiment, the electrodes are parallel and are coincident in plane with one another, respectively. | 10-20-2011 |
20120118729 | MODULAR ELECTROCHEMICAL SYSTEMS AND METHODS - An electrochemical separation system may be modular and may include at least a first modular unit and a second modular unit. Each modular unit may include a cell stack and a frame. The frame may include a manifold system. A flow distribution system in the frame may enhance current efficiency. Spacers positioned between modular units may also enhance current efficiency of the system. | 05-17-2012 |
20120193223 | SEALING GLASS FOR SOLID OXIDE ELECTROLYSIS CELL (SOEC) STACKS - Solid oxide electrolysis cell (SOEC) stack obtainable by a process comprising the use of a glass sealant with composition 50 to 70 wt % SiO2, 0 to 20 wt % Al2O3, 10 to 50 wt % CaO, 0 to 10 wt % MgO, 0 to 2 wt % (Na2o 1K2O), 0 to 10 wt % b2O3, and 0 to 5 wt % of functional elements selected from TiO2, ZrO2, ZrO2, F, P2O5, Mo03, FeO3, MnO 2, La—Sr—Mn—O perovskite (LSM) and combinations thereof. Preferably, the sealant is a sheet of E-glass fibres with a composition in wt % of 52-56 SiO2, 12-16AL2O3, 16-25 CaO, 0-6MgO, 0-2 Na2+K2O, 0-10 B2O3, 0-1.5 TiO2, O-1F. | 08-02-2012 |
20120228126 | GAS DECOMPOSITION APPARATUS - A gas decomposition apparatus having any one of the following structures: 1) a structure wherein an anode and a cathode on a solid electrolyte layer each have extended regions; the extended regions of the anode and those of the cathode are alternately extended to have a gap between the anode and the cathode; the cathode is higher in electric resistance than the anode; and a cathode electroconductive region connected electroconductively to a power source and made of an electroconductive material is extended in a direction crossing the direction in which the extended regions of the cathode are extended, thereby connecting the extended regions of the cathode electroconductively to each other; and (2) a structure which has an electroconductor layer through which the negative electrode of a power source is electroconductively connected to a cathode; and which is a structure wherein the cathode is laminated on the electroconductor layer to contact the layer, laminates each composed of a solid electrolyte layer and an anode are positioned on the cathode to have a gap between any adjacent two of the laminates, and the anodes are electroconductively connected to the positive electrode of the power source. | 09-13-2012 |
20120267241 | MASTER ELECTRODE AND METHOD OF FORMING IT - A master electrode is arranged on substrate and comprises a pattern layer at least partly of an insulating material and a first surface provided with a plurality of cavities in which a conducting material is arranged, said electrode conductor being electrically connected to at least one electrode current supply; said substrate comprising a surface contacting or adjacent said first surface and having a conductor arranged thereon, said substrate conductor being electrically connected to the at least one current supply; whereby a plurality of electrochemical cells are formed delimited by said cavities, said substrate conductor and said electrode conductor, said cells comprising an electrolyte; wherein an electrode resistance between said electrode conductor and said electrode current supply and a substrate resistance between said substrate conductor and said substrate current supply provide a predetermined current density in each electrochemical cell. | 10-25-2012 |
20120325652 | DEVICE FOR HIGH-TEMPERATURE WATER ELECTROLYSIS HAVING IMPROVED OPERATION - A device for high temperature electrolysis of water, including: at least one elementary electrolysis cell formed from a cathode, an anode, and an electrolyte intermediate between the cathode and the anode; a first device forming an electric and fluid interconnector including a metallic part delimited by at least one plane, the metallic part including two internal chambers, superposed one on the other, and a plurality of holes distributed around the surface, approximately perpendicular to the plane and divided into two groups, one of the groups of holes opens up onto the plane and directly into the adjacent chamber and the other group of holes opens up onto the plane and also in a furthest chamber through channels, the plane of the first interconnector being in mechanical contact with the plane of the cathode. | 12-27-2012 |
20130032474 | Contact Bar for Capping Board - Disclosed is a segmented contact bar for use boarding an electrolytic cell. The segmented contact bar has contact pieces made of electrically conductive material and being in spaced apart relation along the capping board, each of the contact pieces defining a segment for supporting and electrically connecting an anode and a cathode in the electrolytic cell. The segmented contact bar also has connection members including an insulating material and provided in between pairs of adjacent segments for providing insulating interconnection of the segments. There is also an electrolytic refining apparatus including adjacent electrolytic cells; a capping board positioned on the adjacent electrolytic cells; anodes and cathodes extending in spaced apart alternate positions into the each of the adjacent electrolytic cells along the capping boards; and a segmented contact bar. | 02-07-2013 |
20130043125 | Fuels for Fuel Cells - A hydrogen generation system comprising a solid fuel that reacts with an aqueous liquid to generate hydrogen is disclosed. The solid fuel comprises first metallic particles coated by smaller second metallic particles, such that multiple galvanic cells are formed on a surface of the first metallic particles between the metals in the first metallic particles and the second metallic particles. The first metallic particles can be further covered by smaller third particles. An example of the solid fuel is hybrid particles formed by larger magnesium particles coated by smaller iron and silicon particles. The solid fuel may also include salt such as sodium chloride and/or a fire retardant such as potassium chloride. The salt may be added to the aqueous liquid instead. The solid fuel can be formed into fuel pellets, or can be suspended in a suspension agent to form slurries or gels. | 02-21-2013 |
20130112551 | COVER FOR AN ELECTRO-CHEMICAL DEVICE AND A METHOD FOR CONTACTING ELECTRO-CHEMICAL CELLS OF AN ELECTRO-CHEMICAL DEVICE - A cell contacting system for an electro-chemical device which provides increased protection from damage and enables simple assembly of the electro-chemical device comprises a cover for an electro-chemical device which comprises a plurality of electro-chemical cells, wherein the cover comprises the following:
| 05-09-2013 |
20140014503 | High Temperature Sealed Electrochemical Cell - A cell for high temperature electrochemical reactions is provided. The cell includes a container, at least a portion of the container acting as a first electrode. An extension tube has a first end and a second end, the extension tube coupled to the container at the second end forming a conduit from the container to said first end. A second electrode is positioned in the container and extends out of the container via the conduit. A seal is positioned proximate the first end of the extension tube, for sealing the cell. | 01-16-2014 |
20140048412 | ELECTROLYTIC CELL FOR GENERATING CHLORINE IN A POOL - Disclosed herein is an improved electrolytic cell. The cell includes at least one pair of electrodes, an anode and a cathode. In general the anode includes at least one dimension, which is substantially greater than the cathode. In an exemplary embodiment, the length and the width of the anode are greater than the length and width of the cathode. In a first embodiment of a multi-cell chlorine generator, unequal dimension electrodes are stacked together. In a second embodiment of such a generator, the electrodes are of equal dimensions. In another exemplary embodiment of the improved electrolytic cell in accordance with this invention, the cathode forms a U-shaped member and the anode of at least one dimension being greater is located there between. Another embodiment of the chlorine generator includes at least two cells having the U-shaped cathode. | 02-20-2014 |
20140090976 | Ultrathin Film Solar Cells - A radiation conversion device is presented comprising at least one radiation conversion cell. The radiation conversion cell comprises a photo-absorber unit having a predetermined absorption spectrum for absorbing radiation of a certain wavelength range thereby converting the absorbed radiation into charge carriers, and at least partially reflective layer structure configured to be substantially reflective for said certain wavelength range. The photo-absorber unit and the at least partially reflective structure are configured to provide a desired refractive index profile across the radiation conversion cell with respect to said certain wavelength range and to define an optical cavity with respect to said certain wavelength range within the photo-absorber unit, thereby providing a desired interference condition for said certain wavelength range, thereby causing the radiation, absorbed by and propagating through said photo-absorber unit while being reflected from said at least partially reflective structure, to be effectively trapped within said photo-absorber unit. | 04-03-2014 |
20140102885 | SYSTEMS AND METHODS FOR PRODUCING, SHIPPING, DISTRIBUTING, AND STORING HYDROGEN - These inventions related to systems and methods for producing, shipping, distributing, and storing hydrogen. In one embodiment, a hydrogen production and storage system includes a plurality of wind turbines for generating electrical power; a power distribution control system for distributing, and converting the electrical power from the wind turbines, a water desalination and/or purification unit which receives and purifies seawater, and an electrolyzer unit that receive electrical power from the power distribution system and purified water from the desalination units and thereby converts the water into hydrogen and oxygen. After its production, hydrogen is stored, transported, and distributed in accordance with various embodiments. | 04-17-2014 |
20140251796 | MODULAR ASSEMBLY FOR COUPLING ELECTROCHEMICAL UNITS - The present invention relates to a modular assembly for coupling electrochemical units, including at least one module including a support frame for receiving at least two electrochemical units, the support frame including main fluidic connection means for coupling between juxtaposed modules and secondary fluidic connection means with the electrochemical units borne by the support frame. | 09-11-2014 |
20150368818 | SOEC STACK WITH INTEGRATED HEATER - An integrated heater for a Solid Oxide Electrolysis System is integrated directly in the SOEC stack, and can operate and heat the stack independently of the electrolysis process. | 12-24-2015 |
20160053341 | SYSTEM AND METHOD INCLUDING MULTI-CIRCUIT SOLUTION EXTRACTION FOR RECOVERY OF METAL VALUES FROM METAL-BEARING MATERIALS - The present disclosure relates to a metal recovery process comprising a solvent extraction process. In an exemplary embodiment, the solution extraction system comprises a plant with a first and second circuit. A high-grade pregnant leach solution (“HGPLS”) is provided to the first and second circuit, and a low-grade pregnant leach solution (“LGPLS”) is provided to the second circuit. The first circuit produces a rich electrolyte, which can be forwarded to a primary metal recovery, and a low-grade raffinate, which can be forwarded to a secondary metal recovery process. The second circuit produces a rich electrolyte, which can also be forwarded to the primary metal recovery process. The first and second circuits are in fluid communication with each other. | 02-25-2016 |
20160126134 | SYSTEMS AND METHODS FOR REMOVING CONTAMINATION FROM SEED LAYER SURFACE - An electrochemical deposition plating tool in accordance with one embodiment of the present disclosure includes one or more electrochemical deposition chambers and a hydrogen radical H* generation chamber. | 05-05-2016 |
20160153560 | Seal for an Electrolyser Cell and Electrolyser Cell Provided with Such a Seal | 06-02-2016 |
204269000 | With feeding and/or withdrawal means | 23 |
20100089746 | HYDRAGEN-OXYGEN ELECTROLYZING DEVICE AND CARBON PAPER ELECTRODES THEREOF WITH MATERIAL-CHANGED OUTER SURFACES - A hydrogen-oxygen electrolyzing device for generating hydrogen and oxygen with electrolytic solution comprises a first container providing a receiving trough for containing the electrolyte, and at least an electrolyzing structure; the electrolyzing structure further comprises: at least a serial cell being disposed in the receiving trough and further comprising a plurality of electrodes with a gap between every two neighboring electrodes, a first conductor and a second conductor; the first and second conductors electrically connect with the two outermost electrodes; characterized in that each of the electrodes is a carbon paper electrode with both outer surfaces thereof being changed in material; the carbon paper electrode further comprises: a carbon paper substrate having a first surface and a second surface, a first metal layer being joined to the first surface, and a second metal layer being joined to the second surface. | 04-15-2010 |
20100101942 | ELECTROLYTIC CELL WITH CAVITATING JET - The electrolytic cell of the preferred embodiment includes an electrode pair and a cavitating jet. The electrode pair includes a cathode electrode and an anode electrode and defines an electrical path between the cathode electrode and the anode electrode. The cavitating jet, which is located along the electrical path between the cathode electrode and the anode electrode, functions to cavitate a fluid, such as water. The electrode pair and the cavitating jet cooperate to initiate a plasma state in the water. The water in the plasma state acts a virtual electrode with a higher current density than the cathode electrode and/or anode electrode. The plasma virtual electrode, through thermolysis and/or electrolysis, produces hydrogen. | 04-29-2010 |
20100258435 | SYSTEM FOR MONITORING, CONTROL, AND MANAGEMENT OF A PLANT WHERE HYDROMETALLURGICAL ELECTROWINNING AND ELECTROREFINING PROCESSES FOR NON FERROUS METALS. - A system to monitor, control and management of a plant where hydrometallurgical processes of electrowinning or electrorefining of non ferrous metals which enables measuring the process variables which comprises: at least one group of electrolytic cells, said cells having means for the collection and transmission of the variables of the process; a plurality of electrodes ( | 10-14-2010 |
20110155566 | Electrolytic Combustible Gas-Producing Apparatus - It consists of a compact apparatus, easy to install, which allows the optimal dissipation of the heat produced during the electrochemical reaction, composed of a first tank ( | 06-30-2011 |
20110209993 | DUAL CYLINDER HYDROGEN GENERATOR SYSTEM - The present invention is an apparatus and method for generating hydrogen and oxygen from water for use as a fuel additive to an internal combustion engine, such as a gasoline engine or a diesel engine. An electrolysis cell is used to generate the hydrogen and oxygen from a water source. A separate water reservoir permits efficient separation of the hydrogen and oxygen from water and direction into the internal combustion engine. A pump increases output efficiency of the electrolytic cell by preventing the buildup of gas bubbles on the electrodes. | 09-01-2011 |
20110253528 | HALOGEN GENERATOR FOR ABOVE GROUND POOLS - Disclosed herein is an improved electrolytic cell. The cell includes at least one pair of electrodes, an anode and a cathode. In general the anode includes at least one dimension, which is substantially greater than the cathode. In an exemplary embodiment, the length and the width of the anode are greater than the length and width of the cathode. In a first embodiment of a multi-cell chlorine generator, unequal dimension electrodes are stacked together. In a second embodiment of such a generator, the electrodes are of equal dimensions. In another exemplary embodiment of the improved electrolytic cell in accordance with this invention, the cathode forms a U-shaped member and the anode of at least one dimension being greater is located there between. Another embodiment of the chlorine generator includes at least two cells having the U-shaped cathode. In a first exemplary of embodiment of such a chlorine generator, the electrode are parallel to one another. In a second such exemplary embodiment, the electrodes are parallel and are coincident in plane with one another, respectively. | 10-20-2011 |
20110303532 | SYSTEM FOR TREATING A SUBSTANCE WITH WAVE ENERGY FROM AN ELECTRICAL ARC AND A SECOND SOURCE - A system for treating a substance using a storage vessel and two or more devices disposed in a top of the storage vessel. Each device has: (a) a volute or cyclone head, (b) a throat connected to the volute or cyclone head, (c) a parabolic reflector connected to the throat, (d) a first wave energy source comprising a first electrode within the volute or cyclone head that extends through the outlet into the opening of the throat along the central axis, and a second electrode extending into the parabolic reflector and spaced apart and axially aligned with first electrode, and (e) a second wave energy source disposed inside the throat, embedded within the throat or disposed around the throat. The substance is supplied to the inlet of the volute or cyclone head and is irradiated with one or more wave energies produced by the first and second wave energy sources. | 12-15-2011 |
20120118730 | MODULAR ELECTROCHEMICAL SYSTEMS AND METHODS - An electrochemical separation system may be modular and may include at least a first modular unit and a second modular unit. Each modular unit may include a cell stack and a frame. The frame may include a manifold system. A flow distribution system in the frame may enhance current efficiency. Spacers positioned between modular units may also enhance current efficiency of the system. | 05-17-2012 |
20120298505 | ELECTROLYTIC REGENERATION UNIT AND ELECTROLYTIC REGENERATION APPARATUS USING SAME - An anode pipe includes a main pipe portion and a secondary pipe portion. The anode pipe has an inner circumferential surface that functions as an anode. The main pipe portion has a first connection end portion and a second connection end portion. The main pipe portion forms a flow channel for a treatment liquid that continues from the first connection end portion to the second connection end portion. The secondary pipe portion extends in a tubular fashion from the intermediate section of the main pipe portion. The interior of the secondary pipe portion communicates with the flow channel inside the main pipe portion. The cathode is disposed at a distance from the inner circumferential surface of the anode pipe. The cathode extends from a cathode attachment end portion toward the main pipe portion inside the secondary pipe portion. | 11-29-2012 |
20130037405 | Method and System for Combinatorial Electroplating and Characterization - The embodiments describe a system for combinatorial processing of a substrate. In one embodiment, electrodeposition processing techniques are combinatorially evaluated. The system is capable of providing a localized electrical connection to each region of a substrate being combinatorially processed. The localized electrical contacts allow for varying a voltage delivered to each region of a substrate whether processing the regions in serial or parallel. Accordingly, from a single substrate, a variety of materials, process conditions, and process sequences may be evaluated for desired electrodeposition results. | 02-14-2013 |
20140034487 | ROBOTIC PRETREATMENT AND PRIMER ELECTRODEPOSITION SYSTEM - 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. | 02-06-2014 |
20160122892 | SYSTEM FOR ELECTROPLATING A STRIP - A system for continuously electroplating a portion of a strip includes an unwinding reel station from which the non-electroplated strip is unwound, a first electroplating station, a driven winding reel station in which the electroplated strip is wound on a reel, and a control unit. The first electroplating station includes:
| 05-05-2016 |
204270000 | Gas | 11 |
20090038937 | Household Appliances Which Utilize an Electrolyzer and Electrolyzer that May Be Used Therein - A household appliance incorporating an electrolyzer for electrolysis of water to H | 02-12-2009 |
20090173623 | EXHAUST GAS TREATMENT DEVICE - An exhaust gas treatment device includes an electrode assembly. The electrode assembly has an ion-conducting layer, anode and cathode electrodes, and a filter. The anode and cathode electrodes are provided spaced apart from each other on the ion-conducting layer having proton conductivity. The filter is provided between the anode and cathode electrodes and the thickness of the filter is greater than that of the anode and cathode electrodes for capturing particulate matter in exhaust gas. One part of the electrode assembly is overlapped with different part thereof in such a way that the filter of the one part thereof supports the different part thereof so that a space is formed between the two parts thereof. The anode and cathode electrodes and the filter are arranged such that exhaust gas supplied to the electrode assembly contacts with the anode electrode, and flows through the filter and contacts with the cathode electrode. | 07-09-2009 |
20100038236 | Hydrogen-from-water on-demand supplemental vehicle fuel electrolyzer system - A simple electrolyzer system, that can be easily installed in most motor vehicles, including boats, generates a gaseous mixture including hydrogen as auxiliary motive fuel to provide increased performance and mileage. The electrolyzer system is powered electrically from the vehicle battery and consumes only water. In a preferred embodiment, a pair of similar electrolyzer cells, mounted in the engine compartment of the vehicle, generate a gaseous mixture of hydrogen and oxygen that is delivered independently to corresponding input ports at two strategically selected domains in the vehicle's air intake system: one at the intake manifold and the other at the main air intake duct leading to the intake manifold. A check-valve disconnect coupling in each gas delivery hose serves as a flash-back arrester for safety, and facilitates maintenance. | 02-18-2010 |
20100276278 | MODULAR ELECTROLYSIS DEVICE - Disclosed is a modular apparatus for the electrical decomposition of water. It includes a number of modular electrolysis cells contained in a main housing unit that may further contain a refill mechanism and safety devices. | 11-04-2010 |
20110073469 | ELECTROCHEMICAL DEPOSITION SYSTEM - A electrochemical deposition system which has a 3-D stacked architecture comprises a factory interface for receiving semiconductor wafers, a mainframe comprising a mainframe transfer robot and a plurality of wafer holder assemblies which disposed on the top thereof, a plurality of electroplating cells disposed within the mainframe, a plurality of cleaning cells disposed within the mainframe and located below the electroplating cells, a plurality of thermal treatment chambers disposed in between the mainframe and the factory interface, and a fluid distribution system fluidly connected to the electroplating cells and the cleaning cells, wherein the mainframe transfer robot transfers the semiconductor wafer from the factory interface and within the electroplating cells, the cleaning cells, and the thermal treatment chambers. As a result, the system of the present invention is expandable to accommodate newly-added processing units without overmuch increased footprint. | 03-31-2011 |
20110100805 | COMPOSITE GLASS SEAL FOR A SOLID OXIDE ELECTROLYSER CELL STACK - The present invention provides a solid oxide cell stack, comprising: —at least two cells which each comprise a first electrode layer ( | 05-05-2011 |
20120228127 | SYSTEMS, METHOD AND APPARATUS FOR REDUCING IMPURITIES IN ELECTROLYSIS CELLS - Systems, methods and apparatus for reducing impurities in electrolysis cells are disclosed. In one approach, a method includes feeding a particulate fines feed stream to a tank, mixing particulate fines (PF) with liquid, the liquid having a first liquid and a second liquid, and separating at least some of the first liquid from at least some of the second liquid. The particulate fines (PF) may include inlet carbon fines (CF | 09-13-2012 |
20130168238 | HIGH-TEMPERATURE ELECTROLYSER (HTE) WITH IMPROVED OPERATING SAFETY - A high-temperature electrolyser including a stack of electrolysis cells in which steam is made to flow both at a cathode and at an anode. The architecture of the electrolyser is configured to have each cathode inlet end and anode inlet end close to an oxygen, or respectably hydrogen, collection duct portion. With the structure, a buffer volume of steam is created around the oxygen and hydrogen collectors, which therefore constitutes a simple and effective sealing mechanism within the electrolyser. | 07-04-2013 |
20140166477 | MULTILAYER-STRUCTURED EXHAUST GAS DECONTAMINATION REACTOR AND METHOD FOR FABRICATING THE SAME - A multilayer-structured exhaust gas decontamination reactor comprises a frame body, a front filter board, a rear filter board, and electrochemical-catalytic conversion units. The front and rear filter boards are respectively installed at an input end and an output end of the frame body and respectively include a plurality of electrochemical-catalytic conversion units that are arranged alternatively. The input end, the interconnection regions of the front and rear filter boards, and the output end jointly form a channel allowing the exhaust gas to flow. The electrochemical-catalytic conversion units of the invention are exposed to the channel to function as the reaction sides for decontaminating the exhaust gas. Thus, the invention does not need to use an additional reducing gas system, thereby can reduce the volume and lower production cost of the exhaust gas decontamination reactor. | 06-19-2014 |
20150144482 | MODULARIZED HEALTH GAS GENERATOR - The present invention discloses a modular health gas generator, more particularly, to a modular health gas generator with an automatic circulation and a cooling function. Then, the gas production rate of the hydrogen-oxygen gas can be controlled by a plurality of freely detachable electrolytic tanks. The invention comprises an inner tank and the plurality of detachable electrolytic tanks. In application, a hollow portion of each electrolytic tank can be inputted or supplied the liquid water from the inner tank. The liquid water is electrolyzed in the electrolytic tank to generate the hydrogen-oxygen gas and be output to the inner tank, and then the hydrogen-oxygen gas will be further outputted through a gas outlet of the inner tank. | 05-28-2015 |
20160040307 | HYDROGEN ENERGY SUPPLY SYSTEM USING OCEAN CURRENT POWER GENERATION - A hydrogen energy supply system including 10 or more water wheel impeller type power generation devices that are supported to float in water by first floating bodies and generate electric power by using ocean currents; a second floating body on which a seawater electrolysis device, a hydrogen liquefaction device, and a liquid hydrogen tank are arranged; a hydrogen transporting ship that accommodates the liquid hydrogen stored in the liquid hydrogen tank and transports it by sea to land; an overland liquid hydrogen tank that stores the liquid hydrogen supplied from the hydrogen transporting ship; a small cylinder that accommodates the liquid hydrogen supplied from the overland liquid hydrogen tank; and a hydrogen transporting vehicle that transports the small cylinder to a consumer on land. | 02-11-2016 |