Patent application number | Description | Published |
20090311562 | METHOD AND SYSTEM OF ACTIVATING FUEL CELL STACK - An activation method and system to selectively activate defective cells in a laminated fuel cell stack. The system includes a tank to store a polar solvent used to activate the cells; a body including a transfer unit to transfer the polar solvent to the fuel cell stack and a control unit to control the transfer unit; and a nozzle coupled to the body, to be inserted into an inlet manifold of the fuel cell stack. The nozzle has an opening positioned opposite to a channel inlet of at least one non-activated cell of the plurality of cells, to jet the polar solvent into only a channel of the non-activated cell, through the opening. | 12-17-2009 |
20090311576 | DIRECT METHANOL TYPE FUEL CELL STACK AND DIRECT METHANOL TYPE FUEL CELL SYSTEM - A direct methanol type fuel cell stack and a direct methanol type fuel cell system using the same are discussed. The fuel cell stack may be configured to allow a concentration gradient of a mixed fuel in which fuel and water are not properly mixed to be uniform without increasing the volume of the fuel cell stack. The fuel cell stack may include at least one cell having an anode, a cathode, an electrolyte separating the anode and the cathode and a mixer coupled to the anode. The mixer may be configured to mix fuel and water and achieve a uniform concentration of the mixed fuel supplied to the anode. | 12-17-2009 |
20100203402 | FUEL CELL SYSTEM AND DRIVING METHOD THEREOF - A fuel cell system and method for driving the same is disclosed. In one embodiment, the fuel cell system includes i) a fuel supply unit, ii) a fuel cell stack in fluid communication with the fuel supply unit, wherein the fuel cell stack has a fuel inlet and a fuel outlet and iii) a bypass pipe configured to transfer fuel received from the fuel supply unit to a fuel outflow pipe connected to the fuel outlet. In one embodiment, the driving method includes i) receiving fuel from a fuel supply unit, ii) transferring the received fuel to a fuel outflow pipe connected to a fuel outlet of a fuel cell stack and iii) discharging non-reacted fuel from a fuel inlet of the fuel cell stack. | 08-12-2010 |
Patent application number | Description | Published |
20090042073 | FUEL CELL SYSTEM CAPABLE OF SUPPLYING POWER OF VARIOUS LEVELS AND METHOD OF OPERATING THE SAME - A fuel cell system capable of supplying power at various levels and a method of operating the same includes a power unit having a stack, a power generation unit including unit cells, and a switch group to connect the unit cells in series or in parallel wit. The switch group may include a first switch to connect anodes of two neighboring unit cells, a second switch to connect cathodes of the two neighboring unit cells, and a third switch to connect the two neighboring unit cells in series. | 02-12-2009 |
20110223522 | BIPOLAR PLATE FOR FUEL CELL, METHOD OF MANUFACTURING THE BIPOLAR PLATE, AND FUEL CELL INCLUDING THE BIPOLAR PLATE - A bipolar plate for a fuel cell includes a metal plate and a coating layer disposed on a surface of the metal plate. The coating layer includes a polymer of an oxazine-based compound, particularly, a benzoxazine-based compound and a conducting material. A method of manufacturing the bipolar plate includes coating a surface of a metal plate with a coating layer forming composition including at least one oxazine-based compound, a conducting material, and a solvent; and thermally treating the metal plate coated with the coating layer forming composition. A fuel cell includes the bipolar plate. | 09-15-2011 |
20110244371 | MICROPOROUS THIN FILM COMPRISING NANOPARTICLES, METHOD OF FORMING THE SAME, AND FUEL CELL COMPRISING THE SAME - A microporous thin film, a method of forming the same and a fuel cell including the microporous thin film, are provided. The microporous thin film includes uniform nanoparticles and has a porosity of at least about 20%. Therefore, the microporous thin film can be efficiently used in various applications such as fuel cells, primary and secondary batteries, adsorbents, and hydrogen storage alloys. The microporous thin film is formed on a substrate, includes metal nanoparticles, and has a microporous structure with porosity of 20% or more. | 10-06-2011 |
20120028156 | STACK HAVING UNIFORM TEMPERATURE DISTRIBUTION AND METHOD OF OPERATING THE SAME - A stack and a method of operating the stack. A method of operating a stack having a plurality of cells and a plurality of cooling plates includes: supplying a working fluid to a first group of the cooling plates; and re-supplying the working fluid passed through the first group of the cooling plates to a second group of the cooling plates, wherein the first and second groups are divided according to an operating temperature in the stack. | 02-02-2012 |
20120171592 | UNIT CELL OF FUEL CELL STACK AND FUEL CELL STACK HAVING THE UNIT CELL - A unit cell of a fuel cell stack, and a fuel cell stack including the unit cell, where the unit cell includes channel plates including first and second manifolds, a plurality of channels and channel connecting units; hard plates arranged to contact surfaces of the channel connecting units; and gaskets arranged to surround the plurality of channels and first and second manifolds between the channel plates and the hard plates. | 07-05-2012 |
20120183871 | METHOD OF OPERATING HIGH TEMPERATURE FUEL CELL - A method of operating a high-temperature fuel cell, the method including increasing the temperature of a fuel cell stack the operation of which has stopped; starting the operation of the fuel cell stack and applying at least a portion of a load to the fuel cell stack when the temperature of the fuel cell stack reaches a first temperature; and applying any remaining load to the fuel cell stack when the temperature of the fuel cell stack reaches a second temperature that is higher than the first temperature. | 07-19-2012 |
20130236800 | METHOD OF ACTIVATING FUEL CELL - A method of activating a fuel cell includes: supplying a fuel to an anode of the fuel cell; supplying a gas mixture to a cathode of the fuel cell; applying a second load, which is equal to or less than a predetermined first load, to a stack of the fuel cell after supplying the gas mixture to the cathode; discontinuing the supply of the gas mixture; resupplying the gas mixture to the cathode when a voltage of the stack of the fuel cell is a predetermined voltage or less after discontinuing the supply of the gas mixture; and applying a third load, which is higher than the predetermined first load, to the stack of the fuel cell, where the supply of the fuel to the anode of the fuel cell is maintained. | 09-12-2013 |
20130266885 | FUEL CELL STACK AND FUEL CELL COMPRISING THE SAME - A fuel cell stack includes a membrane electrode assembly, plates on the membrane electrode assembly, and gaskets between the plates, where the membrane electrode assembly includes an electrolyte membrane-electrode including an electrolyte membrane between first and second electrodes thereof, and gas diffusion layers in contact with the first and second electrodes, where the gaskets are in contact with the plates and surround the membrane electrode assembly, where a ratio of change in compressibility of the gaskets is in a range from 0.5 times to 1.5 times a ratio of change in compressibility of the gas diffusion layers at a same compressibility, where a compressibility is a ratio of a reduced thickness to an initial thickness, and where the ratio of change in compressibility is defined by Equation 1 below: Ratio of change in compressibility=ΔP/Δt, where ΔP denotes a pressure change, and Δt denotes a thickness change. | 10-10-2013 |
20140099563 | FUEL CELL STACK HAVING COOLING MEDIUM LEAKAGE PREVENTING UNIT - A fuel cell stack includes a plurality of unit cells, a cooling plate and a block plate. Each unit cell includes a cathode electrode and an anode electrode respectively at opposing sides of an electrolyte membrane, and a separator facing each of the cathode electrode and the anode electrode. The cooling plate is between adjacent unit cells a cooling medium flows in the cooling plate. The block plate is between the cooling plate and an adjacent unit cell of the adjacent unit cells. The block plate blocks the cooling medium flowing in the cooling plate from contacting the adjacent unit cell of the adjacent unit cells. | 04-10-2014 |
20150064595 | FLUID TUBE INCREASING UNIFORMITY OF FLUID FLOW AND APPARATUS INCLUDING THE SAME - A fluid tube includes: a first fluid tube; a second fluid tube connected to the first fluid tube; and a flow velocity equalizer in the second fluid tube, where the flow velocity equalizer increases a uniformity of fluid flow passed therethrough, the second fluid tube is wider than the first fluid tube, and the flow velocity equalizer includes a diverging tube and a converging tube. The fluid tube may further include a fluid divider between the flow velocity equalizer and the first fluid tube. The diverging tube of the flow velocity equalizer may have a width increasing in a fluid flow direction, and the converging tube of the flow velocity equalizer may include a plurality of converging tubes having widths decreasing in the fluid flow direction. | 03-05-2015 |