Class / Patent application number | Description | Number of patent applications / Date published |
429455000 | With means for moving reactant | 48 |
20100209798 | FUEL CELL STACK - A fuel cell stack includes a plurality of power generation cells stacked in a direction of gravity. In a cathode side separator of the power generation cell, an oxygen-containing gas discharge passage is connected to an oxygen-containing gas flow field, and a water guide member is provided for the oxygen-containing gas discharge passage for allowing condensed water to be directly dropped in the direction of gravity along the oxygen-containing gas discharge passage. The water guide member is a plate member protruding into the oxygen-containing gas discharge passage and inclined toward the direction of gravity. | 08-19-2010 |
20110008700 | FLUID DIVERTER FOR A FUEL CELL SYSTEM - A fuel cell module including a fuel cell stack which includes a cathode compartment having cathode conduit extending from an inlet thereof. The cathode conduit conveys a fluid to at least one cathode positioned in the cathode compartment. An anode compartment having a fuel inlet conduit extending from an inlet of the anode compartment, supplies fuel to at least one anode positioned in the anode compartment. An anode exhaust conduit extends from an outlet of the anode compartment, for conveying an anode exhaust fluid. The fuel cell stack is positioned in an enclosure which as has a passage extending therethrough. At least a portion of the passage is in fluid communication with the anode exhaust conduit. The fuel cell module includes a diverter device having at least a portion thereof positioned in the passage and/or the anode exhaust conduit. | 01-13-2011 |
20110008701 | FUEL CELL - A fuel cell includes plural single cells and first sidewalls disposed on the outer side of a cell stack including the plural single cells. In the first sidewalls, holes for supplying the reactive gas to the cell stack are formed. The single cells are disposed in a row shape along a jetting direction of the reactive gas jetted from the holes. The holes are formed such that a part of the reactive gas jetted from the holes brushes against at least the single cells disposed in positions closest to the first sidewalls and the remaining part of the reactive gas does not brush against the single cells disposed in the closest positions. | 01-13-2011 |
20110020724 | ELECTRODE FOR FUEL CELL HAVING TWO KINDS OF HYDROPHILICITY AND METHOD FOR PREPARING THE SAME AND MEMBRANE ELECTRODE ASSEMBLY AND FUEL CELL COMPRISING THE SAME - An electrode for a fuel cell includes a gas diffusion layer contacting with a separator having a channel and a catalyst layer interposed between the gas diffusion layer and an electrolyte membrane. The catalyst layer of the electrode has two portions with different hydrophilicities. A portion of the catalyst layer that faces a channel has a higher hydrophilicity than a portion that does not face a channel. This electrode may control hydrophilicity of the catalyst layer differently according to locations, so it is possible to keep an amount of moisture in an electrode in a suitable way, thereby improving the performance of the cell. | 01-27-2011 |
20110045375 | FUEL CELL UNIT, FUEL CELL STACK, AND ELECTRONIC DEVICE - In a fuel cell unit, oxygen electrodes are disposed on both face sides of a fuel electrode. The fuel electrode has a diffusion layer and a catalyst layer on both faces of a current collector, and each of the oxygen electrodes has a diffusion layer and a catalyst layer on the faces opposed to the fuel electrode of the current collector. A fuel/electrolyte channel for passing a fluid containing a fuel and an electrolyte is provided between the fuel electrode and each of the oxygen electrodes. The fuel and the electrolyte are supplied to both faces of the one fuel electrode, so that a reaction occurs and power is obtained between the fuel electrode and each of the oxygen electrodes. | 02-24-2011 |
20110053030 | Fuel Cell with Gas Diffusion Layer having Flow Channel and Manufacturing Method Thereof - Provided are a fuel cell with a porous gas diffusion layer having a flow channel and a method for manufacturing the same. A metal separator without a flow channel is used, but a flow channel for providing a reaction gas is formed in a gas diffusion layer made of a porous material. This improves precision of stack manufacturing and allows free design of the cooling part. | 03-03-2011 |
20110053031 | FUEL CELL - A fuel cell includes a plurality of power generation cells each having a first separator. The separator has a fuel gas flow field. A fuel gas supply passage extends through one corner of the power generation cell in the stacking direction, a fuel gas flowing through the fuel gas supply passage into a fuel gas flow field. An inlet buffer is provided upstream of the fuel gas flow field. The fuel gas supply passage and the inlet buffer are connected by a plurality of inlet connection grooves. The inlet connection grooves are inclined from a direction perpendicular to a wall surface of the fuel gas supply passage toward the center of the fuel gas flow field. | 03-03-2011 |
20110151348 | Flat plate laminated type fuel cell and fuel cell stack - A flat plate laminated type high-temperature fuel cell, with internal manifold structure, has a laminated body constructed by alternately laminating power generation cells ( | 06-23-2011 |
20110171553 | FUEL CELL AND METHOD OF PRODUCING THE SAME - The invention relates to a fuel cell having a membrane electrode assembly, anode-side and cathode-side electrodes, current collector structures and distribution structures for fuel and oxidant. Furthermore, the invention relates to a method for the production of such fuel cells and also to a stack comprising a plurality of such fuel cells. | 07-14-2011 |
20110177418 | FUEL CELL STACK AND FUEL CELL SYSTEM USING THE SAME - A fuel cell stack formed by laminating thin end plates, separators, and the like, includes a first side surface and a second side surface parallel to the laminating direction. An anode side end plate has a plane portion on a first side surface. The dimension in the laminating direction of the plane portion is larger than a thickness of one of the end plates in a portion where the end plates sandwich a membrane electrode assembly. The plane portion is provided with a fuel inlet port for taking in fuel from the outside. | 07-21-2011 |
20110189576 | FUEL CELL AND FUEL CELL STACK - A fuel cell includes separators sandwiching electrolyte electrode assemblies. Each of the separators includes a fuel gas supply section, four first bridges extending radially outwardly from the fuel gas supply section, sandwiching sections connected to the first bridges, and flow rectifier members provided between adjacent sandwiching sections. A fuel gas supply passage extends through the center of the fuel gas supply section. Each of the sandwiching sections has a fuel gas channel and an oxygen-containing gas channel. The flow rectifier members rectify the flow of the oxygen-containing gas supplied from the oxygen-containing gas supply passage to the electrolyte electrode assemblies. | 08-04-2011 |
20110200907 | ION CONDUCTIVE RESIN FIBER, ION CONDUCTIVE HYBRID MEMBRANE, MEMBRANE ELECTRODE ASSEMBLY AND FUEL CELL - Provided are an ion conductive resin fiber, an ion conductive hybrid membrane, a membrane electrode assembly and a fuel cell. The ion conductive resin fiber comprises an inner layer including an ion conductive resin; and an outer layer including an ion conductive resin having larger EW than the ion conductive resin of the inner layer, and surrounding the inner layer. The ion conductive resin fiber and the ion conductive hybrid membrane are excellent in ion conductivity, polar solvent stability and dimensional stability under low humidity conditions. The fuel cell manufactured using the same has advantages of stable operation and management of a system at ease, removal or reduction of components related to water management, and even in case of low relative humidity, operation at high temperature of 80° C. or higher. | 08-18-2011 |
20110200908 | FUEL CELL SUPPORT STRUCTURE AND METHOD OF ASSEMBLY/DISASSEMBLY THEREOF - A fuel cell installation includes a support structure and a cell stack assembly that is removably insertable into the support structure from an uninstalled position to an installed position during an installation procedure. The cell stack assembly includes a fitting. An interfacing structure is mounted on one of the support structure in the cell stack assembly. The interfacing structure carries a connector that is configured to receive the fitting in interconnected relationship. At least one of the fitting and the connector floats in a plane relative to the support structure during the installation procedure. In operation, the fitting engages the connector when the cell stack assembly is inserted into the support structure. The fitting is repositioned relative to the connector to ensure that the fitting and connector are aligned with one another and connected upon installation. | 08-18-2011 |
20110212378 | FUEL CELL ARRANGEMENT WITH FUEL CELLS DISPOSED IN A SHINGLE CONSTRUCTION AND ALSO PURPOSES OF USE - The present invention relates to a fuel cell arrangement which comprises at least two single fuel cells, the single fuel cells being disposed non-parallel to each other, i.e. being disposed offset or in a shingle construction relative to each other. | 09-01-2011 |
20110262825 | FUEL CELL SEPARATOR MATERIAL, FUEL CELL SEPARATOR USING SAME, AND FUEL CELL STACK - A fuel cell separator material, comprising an alloy layer | 10-27-2011 |
20110269049 | FUEL CELL - Flow guides forming an inlet channel are formed on a surface of a metal separator of a fuel cell. The flow guides overlap a section of an outer seal provided on the other surface of the metal separator. When a load is applied to the flow guides and the overlapping section in a stacking direction of the fuel cell, the flow guides and the overlapping section are deformed substantially equally in the stacking direction to the same extent. The line pressure of the flow guides and the line pressure of the overlapping section are substantially the same. The seal length L | 11-03-2011 |
20110274999 | FUEL CELL STACK - A fuel cell stack is comprised of a plurality of power generating units which are stacked along the horizontal direction. A corrugated passage groove having a shape corresponding to the shape of the underside surface of a corrugated passage groove of a first fuel gas passage is formed in a surface of a first metal separator. A corrugated passage groove having a shape corresponding to the shape of the underside surface of a corrugated passage groove of a second oxidant gas passage is formed in a surface of a third metal separator. The corrugated passage grooves overlap one another to define a refrigerant passage. An oxidant gas inlet port and a fuel gas inlet port are provided in the upper portion of the power generating unit, and an oxidant gas outlet port and a fuel gas outlet port are provided in the lower portion of the power generating unit. A refrigerant inlet port and a refrigerant outlet port are formed in each of the left and right portions of the power generating unit. | 11-10-2011 |
20110294028 | FUEL CELL SYSTEM COMPRISING A HEAT EXCHANGER - A fuel cell system including: a fuel cell stack including plural fuel cells sandwiched between two end plates; a fuel supply system supplying a stream of fuel gas to the fuel cell stack; an oxidizer supply system supplying a stream of oxidizer gas to the fuel cell stack; a closed loop coolant circulation system driving a cooling liquid through the fuel cell stack so that the cooling liquid enters the fuel cell stack, absorbs heat from the fuel cells, and exits the fuel cell stack. The coolant circulation system includes a circulation pump driving the cooling liquid, a heat exchanger removing heat from the cooling liquid and for at least partially transferring the heat to the stream of fuel gas and/or the stream of oxidizer gas. The heat exchanger includes a tube made from a heat-conducting material and inserted into a bore in one of the end plates, the tube and the bore defining at least a first fluid channel inside the tube and a second fluid channel in a space existing between the tube and the sides of the bore in the end plate, one of the first and second fluid channels being for the cooling liquid, and the other fluid channel being for the fuel or the oxidizer gas. | 12-01-2011 |
20110305965 | Stack for fuel cell system - A stack for a fuel cell system, including: a membrane electrode assembly, a separator that includes a fuel passage that supplies a fuel to an anode electrode of the membrane electrode assembly and an oxidant passage that supplies an oxidant to a cathode electrode of an adjacent membrane electrode assembly, a first manifold that is formed by connecting first penetration holes that penetrate the separator in a stacking direction and that is connected to the fuel passage, a second manifold that is formed by connecting second penetration holes that penetrate the separator in the stacking direction and that is connected to the oxidant passage and a baffle that is disposed in at least one of the first manifold and the second manifold. The baffle has a membrane structure to control the fluid flow inside of the at least one of the first manifold and the second manifold. | 12-15-2011 |
20120009496 | FUEL CELL SEPARATOR MATERIAL, FUEL CELL SEPARATOR USING SAME, FUEL CELL STACK, AND METHOD FOR PRODUCING FUEL CELL SEPARATOR MATERIAL - A fuel cell separator material, comprising an alloy layer 6 containing Au and a first component containing Al, Cr, Co, Ni, Cu, Mo, Sn or Bi, or an Au single layer | 01-12-2012 |
20120009497 | ELECTROCHEMICAL CELL HOLDER AND STACK - A fuel cell stack made of a plurality of cell units stacked and operatively connected at one end thereof. Each of the units includes a holder having at least one cell, typically provided as an SOFC membrane, to produce an electric current when fuel and oxidant are present as the result of an electrochemical reaction. | 01-12-2012 |
20120009498 | FUEL CELL - A fuel cell is provided with a separator that supports an electrolyte/electrode assembly sandwiched therebetween. The separator is provided with: first and second fuel gas supply parts in the center of which fuel gas supply holes are formed; first and second cross-link parts connected to the first and second fuel gas supply parts; and first and second surrounding support parts connected to the first and second cross-link parts. Each first surrounding support part is provided with a set of fuel gas exhaust passages that discharge fuel gas that has gone through a fuel gas passage and been used. The cross-sectional areas of the fuel gas exhaust passages are larger on the downstream sides than on the upstream sides, in terms of the direction of fuel gas flow. | 01-12-2012 |
20120021323 | FUEL CELL AND METHOD FOR PRODUCING THE SAME - The invention relates to a fuel cell ( | 01-26-2012 |
20120028160 | PREVENTING MIGRATION OF LIQUID ELECTROLYTE OUT OF A FUEL CELL | 02-02-2012 |
20120040266 | FUEL CELL MODULE - A fuel cell module includes a first unit cell including a first electrode, an electrolyte layer and a second electrode; and a second unit cell assembly connected to the first unit cell and including at least a second unit cell. In the fuel cell module, the respective fuel reaction areas of the unit cells are different from one another. | 02-16-2012 |
20120045707 | ANODE SUPPORTED FLAT-TUBE SOFC AND MANUFACTURING METHOD THEREOF - Disclosed is an anode supported flat-tube solid oxide fuel cell including: a stack including a plurality of unit cells layered therein, each of the unit cells having an anode support, wherein within the anode support, a flow path allowing a fuel gas to flow is formed, and on a surface of the anode support, an electrolyte, a cathode, and an interconnect layer are provided, wherein the interconnect layer positioned between the unit cells constituting the stack is formed by a paste obtained by mixing an electrical conductive material with glass, and on the interconnect layer formed by the paste, a metallic mesh for drawing out a current collection wire is disposed. | 02-23-2012 |
20120070759 | FUEL CELL STACK - A fuel cell stack includes a plurality of fuel cell modules. Each of the fuel cell modules has a first membrane electrode assembly and a second membrane electrode assembly respectively having an electrolyte membrane and being arranged, such that respective first electrodes are opposed to each other. The fuel cell module also has a first reactive gas flow path arranged to supply a first reactive gas to the first electrodes included in the first membrane electrode assembly and the second membrane electrode assembly, a second reactive gas flow path arranged to supply a second reactive gas to the second electrodes included in the first membrane electrode assembly and the second membrane electrode assembly, and a coolant flow path arranged to cool down the second electrodes included in the first membrane electrode assembly and the second membrane electrode assembly. The fuel cell stack does not have a coolant flow path for cooling down the first electrodes, but has a first flow path-forming member located between the first membrane electrode assembly and the second membrane electrode assembly to define the first reactive gas flow path. | 03-22-2012 |
20120100452 | FUEL CELL STACK - The present invention provides a fuel cell stack that has a separator arranged between fuel cells, the separator including: a sandwiching section which sandwiches an electrolyte electrode assembly and includes a fuel gas channel and a separately provided oxygen-containing gas channel; a bridge which is connected to the sandwiching section and includes a reactant gas supply channel; a reactant gas supply section which is connected to the bridge and includes a reactant gas supply passage; and a connecting section that connects the sandwiching section to the bridge. | 04-26-2012 |
20120115062 | FUEL CELL STACK COMPONENTS - An interconnect for a fuel cell stack includes a first set of gas flow channels in a first portion of the interconnect, and a second set of gas flow channels in second portion of the interconnect. The channels of the first set have a larger cross sectional area than the channels of the second set | 05-10-2012 |
20120141900 | FUEL CELL SYSTEM - A fuel cell system includes at least one cooling channel that extends between a housing and a fuel cell stack disposed within the housing. The cooling channel has an inlet and an outlet for producing a gas flow in the cooling channel. As a result, a gas flow may be used for cooling and at the same time may be used for ventilation of the cathode. | 06-07-2012 |
20120164549 | FUEL CELL - The present invention provides a fuel cell in which an electrolyte electrode assembly having an electrolyte sandwiched between an anode and a cathode is provided between separators, each of the separators including: a sandwiching section which sandwiches an electrolyte electrode assembly and includes a fuel gas channel and a separately provided oxygen-containing gas channel; a bridge which is connected to the sandwiching section and includes a reactant gas supply channel; a reactant gas supply section which is connected to the bridge and includes a reactant gas supply passage; and a connecting section that connects the sandwiching section to the bridge. | 06-28-2012 |
20120214080 | METHOD OF PRESERVING POLYMER ELECTROLYTE FUEL CELL STACK AND PRESERVATION ASSEMBLY OF POLYMER ELECTROLYTE FUEL CELL STACK - A preservation assembly of a PEFC stack which is capable of sufficiently inhibiting degradation of performance of the PEFC stack particularly during a time period that elapses from when the stack is placed in the uninstalled state until it is placed in the installation position and is practically used. The PEFC stack is provided with an oxidizing agent passage having an inlet and an outlet and extending through a cathode and a reducing agent passage having an inlet and an outlet and extending through an anode. The PEFC stack is preserved in an uninstalled state in such a manner that an interior of the oxidizing agent passage and an interior of the reducing agent passage are set in a pressure-reduced state. | 08-23-2012 |
20120264029 | FUEL CELL SYSTEM - A fuel cell system which suppresses a decrease in system efficiency of a fuel cell and, at the same time, allows an emission amount of harmful materials to be reduced for an extended period of time is disclosed. The fuel cell system includes a fuel cell stack generating electric power by chemical reaction between liquid fuel supplied to an anode and oxidant gases supplied to a cathode, and an exhaust mechanism discharging to an outside of the system exhaust gases discharged from the anode of the fuel cell stack, the exhaust mechanism being adapted to emit the exhaust gases into liquid in a tank storing the liquid fuel or water and, thereafter, discharge the exhaust gases to the outside of the system. | 10-18-2012 |
20120295179 | SEMI-PASSIVE TYPE FUEL CELL SYSTEM - A semi-passive fuel cell system is provided. A stack in which a plurality of unit cells are laterally stacked with one another is provided. Each unit cell includes a membrane-electrode assembly and bipolar plates located on both sides of the membrane-electrode assembly. The membrane-electrode assembly includes an electrolyte membrane, a cathode electrode, and an anode electrode. The cathode and anode electrodes, respectively, are formed on each side of the electrolyte membrane. Also provided are a means for supplying fuel and a means for supplying air. Each of the bipolar plates has air paths formed on a surface facing the cathode electrode and extending from an upper end to a lower end of the bipolar plate. The air supply means includes ducts which are respectively installed on an upper end and a lower end of the stack, and includes a means for blowing air through the ducts. | 11-22-2012 |
20120328969 | CENTRIFUGAL BLOWER SYSTEM AND FUEL CELL INCORPORATING SAME - A centrifugal blower system includes:
| 12-27-2012 |
20130078545 | FUEL CELL STACK - A fuel cell stack is disclosed. The fuel cell stack includes a membrane electrode assembly, separation plates on either side of the membrane electrode assembly, current collectors on either side of the separation plates and configured to electrically convey current to an outside circuit, first and second end plates sandwiching the current collectors and configured to apply a connecting pressure, and manifolds formed to pass through the membrane electrode assembly, at least one of the separation plates, at least one of the current collectors, and at least one of the end plates, the manifolds configured to conduct reaction gas, and cutoff blocks inserted into a portion forming manifolds of the end plates to separate the current collectors and the end plates on a passage in which the reaction gas is circulated. | 03-28-2013 |
20130230787 | TUBULAR SOLID OXIDE FUEL CELL ASSEMBLY AND FUEL CELL DEVICE INCORPORATING SAME - A tubular solid oxide fuel cell assembly includes at least two tubular solid oxide fuel cell units, at least one shared current collector and a retainer for retaining a section of the fuel cell units and shared current collector in close fitting relationship therewith. | 09-05-2013 |
20140023950 | FUEL CELL MODULE - A fuel cell module includes a power generating unit including a cell stack having connected therein a plurality of cells that generate power by using a hydrogen-containing gas and an oxidant, and a housing accommodating the power generating unit. The housing includes an accommodation chamber having a power generating unit arrangement surface where the power generating unit is disposed and a first side wall section and accommodating the power generating unit, and an oxidant flow channel that is formed on the outside of the accommodation chamber, with the first side wall section being interposed therebetween, and allows the oxidant to pass therethrough. A through hole is formed that connects the accommodation chamber with the oxidant flow channel and serves to supply the oxidant to the cell stack. | 01-23-2014 |
20140045090 | FUEL CELL VEHICLE - An object is to supply a sufficient amount of air to a fuel cell stack in a fuel cell vehicle when the fuel cell stack is mounted below a floor, the fuel cell stack configured to draw in air through an intake duct and discharge air to the exterior through an exhaust duct. An air introduction surface ( | 02-13-2014 |
20140080026 | ENERGY STORAGE AND SUPPLY SYSTEM AND DIRECT FUEL CELL BASED ON ORGANIC LIQUID HYDROGEN STORAGE MATERIALS - A direct Fuel Cell is based on organic liquid hydrogen storage materials, and includes a fuel cell unit connected to load through AC/DC convert circuit. The outlet and inlet of hydrogen storage materials on the fuel cell unit is connected to hydrogen storage tank through hydrogen storage output pipe and hydrogen storage input pipe, respectively. There is a pump for hydrogenated hydrogen storage materials on the hydrogenated hydrogen storage materials input pipe; the second outlet for water and gas on the fuel cell unit is connected to water tank through the second water output pipe. The water and gas inlet on the fuel cell unit is connected with oxygen input pipe; there is a gas outlet on the top of the water tank; the hydrogen storage materials tank contains hydrogen storage materials. The mentioned hydrogen storage materials are a multi-component mixture of liquid unsaturated heterocyclic aromatics. | 03-20-2014 |
20140093804 | METAL-HALOGEN FLOW BATTERY WITH SHUNT CURRENT INTERRUPTION AND SEALING FEATURES - A flow battery includes a stack of flow cells, a stack of cell frames supporting the stack of cells, stack level and cell level flow manifolds located in the stack of cell frames, and at least one sealing or shunt current mitigation feature. | 04-03-2014 |
20140193737 | MEMBRANE-ELECTRODE ASSEMBLY, FUEL CELL STACK, FUEL CELL SYSTEM AND OPERATION METHOD THEREOF - A membrane-electrode assembly includes: a polymer electrolyte membrane; catalyst layers disposed on the polymer electrolyte membrane; and gas diffusion layers respectively disposed on the catalyst layers. Each of the gas diffusion layers is constituted by a porous member containing electrically-conductive particles and polymer resin as major components, and a ratio (y/x) of a tensile strength y (N/cm) of the gas diffusion layer to a dry-wet size change rate x (%) of the polymer electrolyte membrane is 0.10 or higher. | 07-10-2014 |
20140234742 | FUEL CELL STACK - A fuel cell stack includes a plurality of power generation units, a reactant gas channel, and a coolant channel. The plurality of power generation units are stacked in a stacking direction to provide a stacked body and each includes a first separator, a first electrolyte electrode assembly, a second separator, a second electrolyte electrode assembly, and a third separator. The first electrolyte electrode assembly is provided on the first separator. The second separator is provided on the first electrolyte electrode assembly. The second electrolyte electrode assembly is provided on the second separator. The first electrolyte electrode assembly and the second electrolyte electrode assembly each include an electrolyte and a pair of electrodes sandwiching the electrolyte therebetween. The third separator is provided on the second electrolyte electrode assembly. | 08-21-2014 |
20140242493 | DIRECT CARBON ELECTROCHEMICAL CELL - A direct carbon fuel cell DCFC system ( | 08-28-2014 |
20140255815 | CELL FRAME, CELL STACK, AND REDOX FLOW BATTERY - A cell frame in which the structure of a positive electrode electrolyte flow path and the structure of a negative electrode electrolyte flow path are different from each other, a cell stack in which the structure of at least one of the positive electrode electrolyte flow path and the negative electrode electrolyte flow path differs between the cell frame positioned at the center and the cell frame positioned at an end, the cell stack being configured such that electrical resistance in at least one of the positive electrode electrolyte flow path and the negative electrode electrolyte flow path increases from the cell frame positioned at the center toward the cell frame positioned at the end, and a redox flow battery utilizing them. | 09-11-2014 |
20150044591 | Fuel Cell Pack and Fuel Cell Pack Assembly - A fuel cell pack is disclosed. The fuel cell pack has N membrane electrode assemblies, N−1 connected conductive planes, an independent first electrode conductive layer, and an independent second electrode conductive layer, wherein N is an integer and 2≦N≦3000. Each connected conductive plane has a first electrode conductive layer and a second electrode conductive layer, wherein the first electrode conductive layer connects to the second electrode conductive layer. The independent first electrode conductive layer is corresponding to the second electrode conductive layer of the N−1th connected conductive plane; the independent second electrode conductive layer is corresponding to the first electrode conductive layer of the 1 | 02-12-2015 |
20160141661 | AIR PROCESSING SYSTEM OF FUEL CELL VEHICLE MOUNTED WITH INTEGRATED VALVE - An air processing system of a fuel cell vehicle mounted with an integrated valve includes: the integrated valve attached to an air inlet and an air outlet formed integrally with a fuel cell stack and adjusting amounts of air introduced into and discharged from the fuel cell stack. The integrated valve is positioned at the shortest distance from the fuel cell stack, such that an amount of remaining oxygen that is to be consumed at the time of stopping start of a fuel cell vehicle is minimized. Therefore, corrosion of cathode carbon is decreased as compared with the related art, such that durability of the fuel cell vehicle is improved. | 05-19-2016 |
20160254564 | FUEL CELL | 09-01-2016 |