| Patent application number | Description | Published |
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| 20100119895 | OXYGEN RECOVERY SYSTEM AND METHOD FOR RECOVERING OXYGEN IN AN ELECTROCHEMICAL CELL - An oxygen recovery system configured to recover evolved oxygen from a regenerative electrochemical cell. The electrochemical cell includes an oxygen reduction cathode, a fuel electrode configured to be a fuel anode when the cell is operated to generate electricity and a cathode for reducing fuel thereon when the cell is operated to regenerate the fuel, and an oxygen evolution anode that is configured to evolve oxygen from an electrolyte solution when the cell is operated to regenerate the fuel. The oxygen recovery system includes an oxygen separator located downstream of the oxygen evolution anode in a recharge direction of flow. The oxygen separator is configured to separate the evolved oxygen from the electrolyte solution. An oxygen recovery path is disposed between the oxygen separator and the oxygen reduction cathode. The oxygen recovery path is configured to direct the evolved oxygen separated from the electrolyte solution to the oxygen reduction cathode. | 05-13-2010 |
| 20100243459 | ELECTRODE FOR A CHARGE STORAGE DEVICE AND METHOD OF MANUFACTURE - An electrode for a charge storage device and a method for forming the electrode. The electrode comprises an electrode body having an essentially continuous phase of an active material, an essentially continuous phase of an electroconductive material, and an essentially continuous phase of void space. The active material is oxidized by applying a potential to the electrode body in the charge storage device so as to transform the active material to an oxide species thereof. The resulting oxide species of the active material has a higher active surface area than the active material prior to the oxidizing. | 09-30-2010 |
| 20100285375 | METAL-AIR LOW TEMPERATURE IONIC LIQUID CELL - The present application relates to an electrochemical metal-air cell in which a low temperature ionic liquid is used. | 11-11-2010 |
| 20110070506 | RECHARGEABLE ELECTROCHEMICAL CELL SYSTEM WITH A CHARGING ELECTRODE CHARGE/DISCHARGE MODE SWITCHING IN THE CELLS - One aspect of the present invention provides a rechargeable electrochemical cell system for generating electrical current using a fuel and an oxidant. The cell system comprises N electrochemical cells each comprising a fuel electrode, an oxidant electrode, a charging electrode, and an ionically conductive medium communicating the electrodes, wherein N is an integer greater than or equal to two. Any number of cells may be used. The cell system includes a plurality of switches that are switcheable to a discharge mode coupling the oxidant electrode of each cell to the fuel electrode of the subsequent cell, a charge mode coupling the charging electrode of each cell to the fuel electrode of the subsequent cell, and a bypass mode coupling charging electrode or the oxidant electrode of a previous cell to the fuel electrode of a subsequent cell. | 03-24-2011 |
| 20110086278 | ELECTROCHEMICAL CELL WITH FLOW MANAGEMENT SYSTEM - An electrochemical cell includes a fuel electrode configured to operate as an anode to oxidize a fuel when connected to a load. An electrode holder includes a cavity for holding the fuel electrode, at least one inlet connected to the cavity on one side of the cavity and configured to supply an ionically conductive medium to the cavity, and at least one outlet connected to the cavity on an opposite side of the cavity and configured to allow the ionically conductive medium to flow out of the cavity. A plurality of spacers extend across the fuel electrode and the cavity in a spaced relation from each other to define a plurality of flow lanes in the cavity. | 04-14-2011 |
| Patent application number | Description | Published |
|---|
| 20090017342 | FUEL CELL WITH SWITCHING ELECTRODES - A fuel cell includes a fuel source, an oxidizer source, and a plurality of electrodes each having a surface provided with an electrolyte. Relative movement is permitted between the electrodes and the fuel and oxidizer sources such that, when the electrodes are coupled to a load, each electrode is switched between (a) an anode condition wherein the electrode communicates with the fuel source for oxidizing the fuel and conducting electrons from the oxidized fuel to the load, and (b) a cathode condition wherein the electrode communicates with the oxidizer source and receives electrons from the load for reducing the oxidizer. The fuel cell also includes a driver to affect the relative movement between the electrodes and the fuel and oxidizer sources so as to continuously switch the electrodes between the anode and cathode conditions. | 01-15-2009 |
| 20090284229 | Electrochemical cell, and particularly a cell with electrodeposited fuel - The present invention relates to a method for charging the cell by electrodeposition of metal fuel on the anode thereof. | 11-19-2009 |
| 20100119883 | FUEL CELL WITH TRANSPORT FLOW ACROSS GAP - The present invention relates to a fuel cell with a gap for transport flow of an electrolyte containing charge carrying ions from either a fuel or an oxidizer between anode and a cathode. | 05-13-2010 |
| 20100316935 | ELECTROCHEMICAL CELLS CONNECTED IN FLUID FLOW SERIES - An electrochemical cell system for generating electrical power is disclosed. The electrochemical cell system comprises a plurality of fluidly connected electrochemical cells. Each electrochemical cell comprises an anode and a cathode. The anode is configured to permit a fluid comprising at least an electrolyte to flow in contact therewith to oxidize a fuel. The cathode is permeable to an oxidizer and is configured to receive electrons to reduce the oxidizer. The cathode and the anode are spaced apart to define a gap therebetween for receiving the fluid flow. The plurality of electrochemical cells are connected in fluid flow series such that, for each pair of fluidly connected electrochemical cells, the fluid flows from a first cell of the pair of cells to a second cell of the pair of cells. The plurality of electrochemical cells are connected electrically in series such that, for each pair of fluidly connected electrochemical cells, the cathode of the first cell of the pair is electrically connected to the anode of the second cell of the pair. | 12-16-2010 |
| 20110039181 | Electrochemical cell, and particularly a metal fueled cell with non-parallel flow - The present invention relates to an electrochemical cell with a gap between an anode and a cathode for transport flow of an electrolyte containing charge carrying ions from a solid fuel and an oxidizer. | 02-17-2011 |
