Method and apparatus for monitoring a selected group of fuel cells of a high-temperature fuel cell stack
First Claim
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1. In a method for monitoring a selected group of fuel cells of a fuel cell stack, the improvement which comprises:
- ascertaining a change over time in an averaged electrical voltage of the fuel cells of the selected group and comparing the change over time with a reference value encompassing at least a change over time in a voltage of other fuel cells of the fuel cell stack.
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Abstract
In a method and an apparatus for monitoring a selected group of fuel cells of a high-temperature fuel cell stack, a change over time in an averaged electrical voltage of the fuel cells of the selected group is ascertained and compared with a reference value that detects at least a change over time in a voltage of other fuel cells. The method permits a reliable detection of the failure of one fuel cell of a stack with simple measures.
29 Citations
15 Claims
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1. In a method for monitoring a selected group of fuel cells of a fuel cell stack, the improvement which comprises:
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ascertaining a change over time in an averaged electrical voltage of the fuel cells of the selected group and comparing the change over time with a reference value encompassing at least a change over time in a voltage of other fuel cells of the fuel cell stack. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
subdividing all of the cells of the stack into a plurality of groups of fuel cells connected directly in series;
ascertaining the averaged voltage in the other fuel cells when the change over time in the averaged electrical voltage in the selected group is ascertained; and
forming a mean voltage of one group in each case from only a measured voltage between the electric input and the electric output of the one group at two successive times.
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3. The method according to claim 2, which comprises ascertaining a relative change in the difference between the input voltage of the first fuel cell and the output voltage of the last fuel cell of the one group, as a change over time in the voltages of the one group.
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4. The method according to claim 1, which comprises measuring a total voltage of the fuel cells of the selected group and dividing the total voltage by the number of fuel cells, as the averaged voltage of the fuel cells of the selected group.
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5. The method according to claim 1, which comprises ascertaining a relative change in a measured total voltage of the fuel cells of the selected group, as a change in the averaged electrical voltage of the fuel cells of the selected group.
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6. The method according to claim 1, which comprises encompassing at least the voltages of all fuel cells not belonging to the selected group, and their changes, in the reference value.
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7. The method according to claim 1, which comprises ascertaining a sum of relative changes of the measured voltages as the reference value.
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8. The method according to claim 1, which comprises ascertaining a relative change in a sum of the measured voltages as the reference value.
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9. The method according to claim 1, which comprises additionally comparing the averaged voltage of the selected group with a mean value encompassing the voltage of all of the fuel cells.
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10. The method according to claim 1, which comprises additionally comparing the averaged voltage of the selected group with a mean value encompassing the voltage of at least different fuel cells in the stack.
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11. The method according to claim 1, which comprises simultaneously detecting the voltages of all of the fuel cells of the stack, and monitoring each fuel cell as a member of the selected group.
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12. The method according to claim 1, which comprises redundantly monitoring each fuel cell of the stack as a member of at least two selected groups.
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13. The method according to claim 12, which comprises performing the redundant monitoring by redundant monitoring devices for the measured voltages.
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14. In an apparatus for monitoring series-connected fuel cells of a fuel cell stack, the improvement comprising:
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a) pickups associated with the fuel cells;
b) signal lines connected to said pickups; and
c) at least two monitoring devices having signal inputs connected to said signal lines, each of said monitoring devices operating at a predetermined time for receiving an electrical input voltage and output voltage of the entire stack and for receiving a plurality of voltages picked up between adjacent fuel cells through said pickups and signal inputs, at least one of said pickups between at least two of said pickups applied to one of said monitoring devices being connected to one of said signal lines leading to another of said monitoring devices, and each of said monitoring devices having an arithmetic stage to be activated for comparing a plurality of differences among the voltages applied at one time with corresponding differences applied at an earlier time. - View Dependent Claims (15)
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Specification
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Current AssigneeSiemens AG
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Original AssigneeSiemens AG
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InventorsKeim, Martin, Stühler, Walter, Zeilinger, Reinhold
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Primary Examiner(s)KALAFUT, STEPHEN J
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Application NumberUS09/197,370Time in Patent Office1,362 DaysField of Search324/433, 324/434, 340/636, 429/23US Class Current429/432CPC Class CodesG01R 19/16542 for batteries charge condit...G01R 31/396 Acquisition or processing o...H01M 8/04552 of the individual fuel cellH01M 8/04559 of fuel cell stacksH01M 8/04671 of the individual fuel cellH01M 8/04992 characterised by the implem...H01M 8/249 comprising two or more grou...Y02E 60/50 Fuel cells
