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Results 1-10 of 126,805 for Criteria: Office(s):all Language:EN Stemming: true maximize
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NoCtrTitlePubDateInt.ClassAppl.NoApplicantInventor
1. WOWO/2014/142963 - FLOW BATTERY FLOW FIELD HAVING VOLUME THAT IS FUNCTION OF POWER PARAMETER, TIME PARAMETER AND CONCENTRATION PARAMETER18.09.2014
H01M 8/20
PCT/US2013/032038UNITED TECHNOLOGIES CORPORATIONSMELTZ, Andrew
A flow battery includes a cell that has first and second flow fields spaced apart from each other and an electrolyte separator layer. A supply/storage system is external of the cell and includes first and second vessels fluidly connected with the first and second flow fields, and first and second pumps configured to selectively move first and second fluid electrolytes between the vessels and the first and second flow fields. The flow fields each have an electrochemically active zone that is configured to receive flow of the fluid electrolytes. The electrochemically active zone has a total open volume that is a function of at least one of a power parameter of the flow battery, a time parameter of the pumps and a concentration parameter of the fluid electrolytes.

2. WOWO/2014/142387 - CONTROL APPARATUS AND CONTROL METHOD OF FUEL CELL SYSTEM18.09.2014
H01M 8/04
PCT/KR2013/004438GS CALTEX CORPORATIONCHA, Du Ho
A control apparatus and a control method of a fuel cell system are disclosed. Another control apparatus of a fuel cell system according to an embodiment of the present invention comprises an electric power supply unit for receiving an AC electric power from the outside, converting the received AC electric power into a DC electric power, and supplying the DC electric power; a central control unit for receiving the electric power from the electric power supply unit, controlling an operation of the fuel cell system, and monitoring whether the fuel cell system is abnormal or not; a main switch unit for switching on/off the DC electric power supplied from the electric power supply unit under a control of the central control unit; and an operating-time driving unit for receiving the electric power from the electric power supply unit through the main switch unit to supply fuel and air to a fuel cell stack of the fuel cell system, and collecting status information of the fuel cell system to provide the collected status information to the central control unit according to a request of the central control unit.

3. WOWO/2014/139712 - HEATING INSTALLATION AND METHOD FOR OPERATING A HEATING INSTALLATION18.09.2014
F24D 11/00
PCT/EP2014/051195ROBERT BOSCH GMBHSTUMPP, Hermann
The invention relates to a heating installation (10) and to a method for operating such a heating installation (10), having at least one force/heat coupling installation, having at least one additional heater (14) and having at least one heat-storage unit. It is proposed that the heat-storage unit be configured in the form of a heat buffer (16).

4. WOWO/2014/141339 - FUEL CELL SYSTEM18.09.2014
H01M 8/04
PCT/JP2013/006932PANASONIC CORPORATIONMATSUDA, Hiroaki
In the present invention, a fuel cell system is equipped with a fuel cell, a fuel-supplying unit, a collecting unit, a first fluid flow path, a second fluid flow path, and a third fluid flow path. The fuel cell generates power by consuming a fuel. The fuel-supplying unit feeds a circulatory fluid containing a fuel to the fuel cell. The collecting unit collects the circulatory fluid containing an unconsumed fuel, the circulatory fluid being discharged from the fuel cell. The first fluid flow path connects the fuel cell and the collecting unit. The second fluid flow path connects the collecting unit and the fuel-supplying unit. The third fluid flow path connects the fuel-supplying unit and the fuel cell. The total mass of the collecting unit, the first fluid flow path, the second fluid flow path, and the third fluid flow path is M1. When the collecting unit, the first fluid flow path, the second fluid flow path, and the third fluid flow path are immersed in a circulator fluid having a temperature TH1 or an equivalent thereof for a time period TM1, the ratio of the mass M2 of an organic substance solved out into the circulatory fluid, etc. to the mass M1 (M2/M1) is 20 ppm or less in terms of hexadecane.

5. WOWO/2014/140962 - SOLAR POWER SUPPLY SYSTEM18.09.2014
H01M 8/00
PCT/IB2014/058965KONINKLIJKE PHILIPS N.V.KAAG, Bjorn Christiaan Wouter
The invention provides a power supply system comprising a solar panel for generating electricity and a fuel cell for supplying electricity to a load. The fuel cell is regenerated using the electricity generated by the solar panel. This regeneration is based on supply and demand data for at least a full year cycle. In this way, an energy shift method is used to create an energy efficient system to store summer surplus energy, for either longer endurance or even over the winter. This fuel cell system can for example break the geographical barrier for off grid street lighting system with high light output by downsizing the photo-voltaics while upsizing energy storage, thereby reducing cost compared to battery driven systems.

6. WOWO/2014/139718 - METHOD FOR REGULATING A MOISTURE OF A CATHODE GAS OF A FUEL CELL, AND FUEL CELL ARRANGEMENT18.09.2014
H01M 8/04
PCT/EP2014/051533ROBERT BOSCH GMBHHELLMANN, Mark
The invention relates to a method for regulating a moisture of a cathode gas of a fuel cell arrangement (1). The fuel cell arrangement (1) has: at least one fuel cell (10) with a cathode (11); a cathode gas supply line (12); and a cathode gas discharge line (13). The invention further relates to a fuel cell arrangement (1) having: at least one fuel cell (10) with a cathode (11); a cathode gas supply line (12); a cathode gas discharge line (13); a first pressure sensor (20) in the cathode gas supply line (12); a second pressure sensor (21) in the cathode gas discharge line (13); an analyzing unit; and means (14) for influencing the moisture of the cathode gas.

7. WOWO/2014/139823 - SOFC STACK WITH INTEGRATED HEATER18.09.2014
C25B 1/04
PCT/EP2014/054086TOPSØE FUEL CELL A/SPEDERSEN, Friis Claus
An integrated heater for a Solid Oxide Fuel Cell System is integrated directly in the SOFC stack, and can operate and heat the stack independently of the process.

8. WOWO/2014/141752 - IMPEDANCE MEASURING DEVICE AND CONTROL METHOD FOR IMPEDANCE MEASURING DEVICE18.09.2014
G01R 27/02
PCT/JP2014/051373NISSAN MOTOR CO., LTD.SAKAI, Masanobu
An impedance measuring device that outputs an alternating current signal at a prescribed frequency to each of a positive terminal and a negative terminal of a fuel cell comprises a detecting unit that detects potential difference in the alternating current from the positive terminal to a central point, and a modulating unit that modulates the amplitude of the alternating current signal in order to adjust a detection signal to a prescribed value. In addition, the device comprises an in-phase component extracting unit that extracts a resistance component of the detection signal by multiplying an in-phase signal by the detection signal, and a calculating unit that calculates the real-axis impedance on the positive terminal side on the basis of the resistance component of the detection signal and an output signal. Furthermore, the device comprises a quadrature component extracting unit that extracts a capacitance component of the detection signal by multiplying a quadrature signal by the detection signal, and a reproducing unit that reproduces a vector value for the detection signal on the basis of the extracted capacitance component and resistance component. The modulating unit modulates the amplitude of the alternating current signal so that the reproduced vector value is a prescribed value.

9. WOWO/2014/139822 - SOEC STACK WITH INTEGRATED HEATER18.09.2014
C25B 1/04
PCT/EP2014/054085HALDOR TOPSØE A/SPEDERSEN, Friis Claus
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.

10. WOWO/2014/139016 - FUEL CELL DC-DC CONVERTER18.09.2014
H02J 1/00
PCT/CA2014/050263SOCIÉTÉ BICMCLEAN, Gerard F.
A method and system for supplying power to a portable electronic device includes supplying current from one or more fuel cells to a DC-DC converter and regulating a current limit of the DC-DC converter as a function of a measured temperature of at least one of the power supply system and the portable electronic device. The current limit can vary as an inverse function of the measured temperature. The current limit can be an input current limit of the DC-DC converter or an output current limit of the DC-DC converter. Current produced by the one or more fuel cells can decrease proportionally to a decrease of the current limit of the DC-DC converter, reducing the heat produced by the one or more fuel cells and thereby reducing the measured temperature. A temperature sensor can be located on or near the one or more fuel cells. A temperature sensor can be located on an internal housing of the portable electronic device.


Results 1-10 of 126,805 for Criteria: Office(s):all Language:EN Stemming: true
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