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Results 1-10 of 126,655 for Criteria: Office(s):all Language:EN Stemming: true maximize
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NoCtrTitlePubDateInt.ClassAppl.NoApplicantInventor
1. WOWO/2014/200482 - FLOW BATTERY WITH MANIFOLD PASSAGE THAT VARIES IN CROSS-SECTION18.12.2014
H01M 8/04
PCT/US2013/045532UNITED TECHNOLOGIES CORPORATIONDARLING, Robert Mason
A flow battery includes a cell stack that has electrochemically active cells and manifolds that define common manifold passages in fluid communication with the electrochemically active cells. A supply/storage system is external of the cell stack and includes at least one vessel fluidly connected with respective ones of the common manifold passages. Fluid electrolytes are in the supply/storage system. At least one of the fluid electrolytes is an ionic-conductive fluid. The manifolds extend in a length direction through the cell stack. The common manifold passages include a common manifold passage P that varies in cross-section along the length direction.

2. WOWO/2014/199528 - FUEL CELL SYSTEM18.12.2014
H01M 8/04
PCT/JP2013/078565FUJI ELECTRIC CO., LTD.SUZUKI Yuji
A ventilation fan (180) is attached to a chassis (100) and exhausts air inside the chassis (100) to the outside of the chassis (100). A first detection unit (200) monitors the operation of the ventilation fan (180). When the detection result by the first detection unit (200) indicates that the rotation speed of the ventilation fan (180) has become a reference value or less, a relay circuit unit (210) outputs a signal to a shut-off valve (110), said signal allowing the shut-off valve (110) to perform a closing operation. The shut-off valve (110) is provided in a pipe of a fuel gas supply unit installed at the entrance of a fuel cell main body and, upon the reception of the signal, shuts off the supply of a fuel gas to a fuel cell stack (150).

3. WOWO/2014/199658 - FUEL CELL MODULE18.12.2014
H01M 8/04
PCT/JP2014/053684MURATA MANUFACTURING CO., LTD.NAKAMURA, Tomonobu
Provided is a fuel cell module capable of heating an object to be heated and of suppressing external heat dissipation from a combustion chamber, without reducing the operation temperature of a fuel cell arranged inside the combustion chamber. The fuel cell (20) is arranged inside the combustion chamber (11) in the fuel cell module (101) and fuel gas and oxidant gas is supplied to the fuel cell (20). A fuel gas flow path (12) supplies fuel gas to the fuel cell (20) and an oxidant gas flow path (13) supplies oxidant gas to the fuel cell (20). A vaporizer (30) generates water vapor to be supplied to a reformer (14) and a water flow path (15) for reforming supplies water to the vaporizer (30). A heat exchanger (40) is provided on an outside wall surface of the combustion chamber (11). Exhaust gas discharged from the combustion chamber (11) flows through the heat exchanger (40). At least one out of the fuel gas flow path (12), the oxidant gas flow path (13), the vaporizer (30), and the water flow path (15) for reforming is arranged inside the heat exchanger (40).

4. WOWO/2014/199539 - FUEL CELL SYSTEM AND FUEL CELL SYSTEM MODULE18.12.2014
H01M 8/24
PCT/JP2014/001245PANASONIC CORPORATIONSUZUKI, Yuya
A fuel cell system (100) comprises: a plurality of cell units including a first cell unit (10A) and a second cell unit (10B) positioned below the first cell unit (10A) in the vertical direction; and at least one connection portion including a first connection portion (20A) for connecting the first cell unit (10A) and the second cell unit (10B). In the fuel cell system (100), the cell units each have at least one electrode cell (2) equipped with: a processing bath (3) having a flow path (8) for circulating a liquid to be processed; a liquid supply inlet (11A, 11B) for supplying the liquid to be processed to the flow path (8); and a liquid discharging outlet (13A, 13B) for discharging the liquid to be processed from the flow path (8). The first connection portion (20A) has: a connection path (9) for circulating the liquid to be processed discharged from the liquid discharging outlet (13A, 13B) of the first cell unit (10A) to the liquid supply inlet (11A, 11B) of the second cell unit (10B); and an atmospheric pressure adjustment portion for suppressing atmospheric pressure variations caused by the movement of the liquid to be processed in the connection path (9).

5. WOWO/2014/198364 - ELECTRODE MODULE18.12.2014
H01M 8/18
PCT/EP2014/001226CARL FREUDENBERG KGKRITZER, Peter
The invention relates to an electrode module for a Redox flow battery, comprising an electrode (1) and a sealing frame (2). The aim of the invention is to join an electrode of said type to a sealing frame such that the thus produced electrode module can be used, problem-free, in Redox flow cells, characterised in that the electrode (1) is mechanically connected to the sealing frame (2).

6. WOWO/2014/198523 - IMPREGNATION OF AN ELECTROCHEMICAL CELL CATHODE BACKBONE18.12.2014
H01M 8/12
PCT/EP2014/060810TOPSØE FUEL CELL A/SPRIMDAHL, Søren
An electrochemical cell comprising a reducing side (i.e. side of cell exposed to gases of lower oxygen potential than the opposing side) support structure containing Ni/NiO and stabilized zirconia, a reducing side electrode structure, an electrolyte structure, which consists of at least one layer and which is substantially gas-tight after heating, an oxidant side electrode (i.e. side of cell exposed to gases of higher oxygen potential than the reducing side) first material and an oxidant side electrode second material or group of materials having some degree of electronic conductivity is prepared by a process comprising (a) establishing several layers, either by tape casting together or by repeated tape casting procedures or by use of a slot die system, (b) laminating any components or subassemblies from a) to form the required unfired 4-layer structure, which includes a support, a reducing electrode structure, an electrolyte structure and a oxidant electrode first structure (originating from a standard tape casting), (c) sintering of the assembled four layers of the cell, (d) one or more infiltrations of the oxidant electrode first structure with a liquefied substance, i.e. salt solutions or molten salts, to obtain the oxidant electrode second material or group of materials, and (e) optionally a final heat treatment at a temperature above the operational temperature.

7. WOWO/2014/198997 - MODULAR FUEL CELL IN BLOCKS18.12.2014
H01M 8/24
PCT/ES2014/070498CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS (CSIC)BARRERAS TOLEDO, Félix
The invention relates to a modular fuel cell characterised in that it comprises: i) at least two blocks of cells (14), each one independently comprising at least two monocells formed by a flat anodic plate, a flat cathodic plate and at least one chemical reaction region located between the two (7); ii) a system for supplying reactive gases from the general collectors to the chemical reaction area; and iii) means for closing each cell and intercoupling the cells.

8. WOWO/2014/198485 - OPERATION OF FUEL CELLS18.12.2014
H01M 8/04
PCT/EP2014/060108SIEMENS AKTIENGESELLSCHAFTHOFFMANN, Joachim
The invention relates to the operation of fuel cells, DC-to-DC converters intended therefor, a program for a corresponding controller, a system of such components, and a computer program product. In order to operate fuel cells according to the degradation thereof, a solution is proposed in which parameters of the fuel cell are determined, on the basis of which a load characteristic curve is established while taking into account the fuel cell type of the corresponding fuel cell, wherein at least a cell open-circuit voltage, a cell temperature, a cell load voltage, and/or an exhaust gas composition are determined as parameters, wherein the power is drawn by a DC-to-DC converter and wherein a current/voltage combination is selected in accordance with the load characteristic curve, depending on the demanded power. This makes it possible for a fuel cell to always be operated in the optimal operating range thereof. Therefore the aging process of the fuel cell can be slowed and the service life and the availability of a fuel cell can be increased.

9. WOWO/2014/200712 - ON-CHIP INTEGRATED PROCESSING AND POWER GENERATION18.12.2014
H01M 8/24
PCT/US2014/040114MICROSOFT CORPORATIONMCKNIGHT, Gregory Joseph
A self-powered processing device comprises both a processing device and a power generator that are physically, electrically, and thermally coupled to one another. The power generator can be a fuel cell that can be manufactured from materials that can also support processing circuitry, such as silicon-based materials. A thermal coupling between the power generator and the processing device can include a thermoelectric either generating electrical power from the temperature differential or consuming electrical power to generate a temperature differential. A computing device with self-powered processing devices also includes energy storage devices to store excess energy produced by the self-powered processing device and provide it back during times of need. The self-powered processing device comprises either a wireless or wired network connection, the latter being connectable to a slot on a backplane that can aggregate multiple self-powered processing devices and provide fuel delivery paths for them.

10. WOWO/2014/198546 - REDOX FLOW BATTERY AND METHOD FOR THE REACTIVATION THEREOF18.12.2014
H01M 8/18
PCT/EP2014/061104CELLSTROM GMBHHARRER, Martin
In order to reactivate a redox flow battery, at least parts of the flow path of the electrolytes of one of the half-cells of the flow battery are temporarily cleaned with the electrolytes of the other half-cell.


Results 1-10 of 126,655 for Criteria: Office(s):all Language:EN Stemming: true
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