METHOD AND APPARATUS FOR DIAGNOSING FAULT WITHIN FUEL CELL STACK

US 20140159738A1
Filed: 12/11/2013
Published: 06/12/2014
Est. Priority Date: 12/11/2012
Status: Active Grant

First Claim

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1. A method of diagnosing a fault of a fuel cell stack, the method comprising:

supplying, to the fuel cell stack, a plurality of alternating currents having different frequency combinations by an alternating current (AC) current generator;

measuring, by a processor, a distortion rate and impedance of the fuel cell stack for each alternating current, and selecting an optimal frequency based on the measured distortion rate and impedance;

supplying, to the fuel cell stack, an alternating current having the selected optimal frequency by the AC current generator;

calculating, by the processor, the distortion rate of the fuel cell stack according to the alternating current having the optimal frequency, and diagnosing a drop in cell voltage based on the calculated distortion rate; and

calculating, by the processor, the impedance of the fuel cell stack according to the alternating current having the optimal frequency, amount of water in the fuel cell stack based on the calculated impedance, and diagnosing a cause of the drop in cell voltage based on the calculated impedance and amount of water.

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Abstract

To diagnose a fault of a fuel cell stack, an alternating current having a first optimal frequency of a first frequency domain to diagnose a drop in cell voltage and an alternating current having a second optimal frequency of a second frequency domain to diagnose a cause of the drop in cell voltage are supplied to the fuel cell stack are provided. A distortion rate is then calculated based on voltage of the fuel cell stack according to the alternating current of the first optimal frequency, and the drop in cell voltage is diagnosed based on the calculated distortion rate. Also, impedance is calculated based on voltage and a current of the fuel cell stack according to the alternating current of the second optimal frequency and amount of water is calculated based on the calculated in the fuel cell stack, and the cause of the drop in cell voltage is diagnosed based on the calculated impedance and amount of water.

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10 Claims

1. A method of diagnosing a fault of a fuel cell stack, the method comprising:
- supplying, to the fuel cell stack, a plurality of alternating currents having different frequency combinations by an alternating current (AC) current generator;
  
  measuring, by a processor, a distortion rate and impedance of the fuel cell stack for each alternating current, and selecting an optimal frequency based on the measured distortion rate and impedance;
  
  supplying, to the fuel cell stack, an alternating current having the selected optimal frequency by the AC current generator;
  
  calculating, by the processor, the distortion rate of the fuel cell stack according to the alternating current having the optimal frequency, and diagnosing a drop in cell voltage based on the calculated distortion rate; and
  
  calculating, by the processor, the impedance of the fuel cell stack according to the alternating current having the optimal frequency, amount of water in the fuel cell stack based on the calculated impedance, and diagnosing a cause of the drop in cell voltage based on the calculated impedance and amount of water.
- View Dependent Claims (2, 3)
- - 2. The method of claim 1, wherein:
    - supplying of the plurality of alternating currents to the fuel cell stack includes supplying, to the fuel cell stack, an alternating current having a first frequency of a first frequency domain to diagnose the drop in cell voltage and an alternating current having a second frequency of a second frequency domain to diagnose the cause of the drop in cell voltage, wherein the plurality of alternating currents has the first frequency and the second frequency that are different from each other.
  - 3. The method of claim 1, wherein:
    - the selecting of the optimal frequency comprises;
      
      selecting a first frequency of an alternating current corresponding to the largest distortion rate as a first optimal frequency to diagnose the drop in cell voltage, based on the distortion rates measured for the respective alternating currents; and
      
      selecting a second frequency of an alternating current corresponding to the largest impedance as a second optimal frequency to diagnose the cause of the drop in cell voltage, based on the impedances measured for the respective alternating currents.

4. A method of diagnosing a fault of a fuel cell stack, the method comprising:
- supplying, to the fuel cell stack, an alternating current having a first optimal frequency of a first frequency domain to diagnose a drop in cell voltage and an alternating current having a second optimal frequency of a second frequency domain to diagnose a cause of the drop in cell voltage by an alternating current (AC) current generator;
  
  calculating, by a processor, a distortion rate based on voltage of the fuel cell stack according to the alternating current of the first optimal frequency, and diagnosing the drop in cell voltage based on the calculated distortion rate; and
  
  calculating, by the processor, impedance based on the voltage and a current of the fuel cell stack according to the alternating current of the second optimal frequency and amount of water in the fuel cell stack based on the calculated impedance, and diagnosing the cause of the drop in cell voltage based on the calculated impedance and amount of water.
- View Dependent Claims (5)
- - 5. The method of claim 4, wherein:
    - diagnosing of the drop in cell voltage includes diagnosing the drop in cell voltage based on a total harmonic distortion analysis (THDA) method, anddiagnosing of the cause of the drop in cell voltage includes measuring the impedance using an electromechanical impedance spectroscopy (EIS) and diagnosing the cause of the drop in cell voltage.

6. An apparatus to diagnose a fault of a fuel cell stack, the apparatus comprising:
- an alternating current (AC) injector connected to the fuel cell stack and applying an alternating current to a current which flows from the fuel cell stack to a load;
  
  an AC current generator configured to generate the applied alternating current; and
  
  a diagnosis processor configured to measure voltage and a current of the fuel cell stack, to diagnose a drop in cell voltage of the fuel cell stack and to diagnose a cause of the drop in cell voltage based on the measured voltage and current.
- View Dependent Claims (7, 8, 9)
- - 7. The apparatus of claim 6, wherein:
    - the AC current generator supplies an alternating current having a first optimal frequency of a first frequency domain to diagnose the drop in cell voltage and an alternating current having a second optimal frequency of a second frequency domain to diagnose the cause of the drop in cell voltage.
  - 8. The apparatus of claim 7, wherein:
    - the diagnosis processor includes;
      
      an optimal frequency selection processor configured to select the first optimal frequency to diagnose the drop in cell voltage and the second optimal frequency to diagnose the cause of the drop in cell voltage;
      
      an alternating current control section configured to control the AC current generator;
      
      a distortion rate calculating section configured to measure the voltage of the fuel cell stack, and to calculate a distortion rate of the fuel cell stack based on the measured voltage;
      
      an impedance/water calculating section configured to measure the voltage and the current of the fuel cell stack, and to calculate impedance based on the measured voltage and current and amount of water in the fuel cell stack based on the calculated impedance; and
      
      a diagnosis section configured to diagnose the drop in cell voltage of the fuel cell stack based on the distortion rate, and to diagnose the cause of the drop in cell voltage based on the impedance and amount of water.
  - 9. The apparatus of claim 8, wherein:
    - the AC injector includes electronic devices configured to supply an alternating current according to an alternating signal output from the AC current generator.

10. A non-transitory computer readable medium containing program instructions executed by a processor, the computer readable medium comprising:
- program instructions that measure a distortion rate and impedance of the fuel cell stack for each alternating current, and selecting an optimal frequency based on the measured distortion rate and impedance;
  
  program instructions that control supply of an alternating current having the selected optimal frequency by an alternating current (AC) current generator;
  
  program instructions that calculate the distortion rate of the fuel cell stack according to the alternating current having the optimal frequency, and diagnosing a drop in cell voltage based on the calculated distortion rate; and
  
  program instructions that calculate the impedance of the fuel cell stack according to the alternating current having the optimal frequency, and diagnosing a cause of the drop in cell voltage based on the calculated impedance.

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Current Assignee
Hyundai Kefico Corporation (Hyundai Mobis Co., Ltd.), Kangnam University Industry-Academia Cooperation Foundation
Original Assignee
Hyundai Autron Co., Ltd. (Hyundai Mobis Co., Ltd.), Hyundai Motor Company (Hyundai Motor Group)
Inventors
Jeong, Kwi Seong, Kim, Sae Hoon, Kim, Uck Soo, Park, Hyun-Seok, Lee, Young-hyun

Granted Patent

US 9,373,860 B2
Time in Patent Office

Days
Field of Search
US Class Current

324/430
CPC Class Codes

H01M 8/04492   Humidity; Ambient humidity;...

H01M 8/04649   of fuel cell stacks

H01M 8/04679   of fuel cell stacks

Y02E 60/50   Fuel cells

METHOD AND APPARATUS FOR DIAGNOSING FAULT WITHIN FUEL CELL STACK

First Claim

4 Assignments

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Abstract

8 Citations

10 Claims

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METHOD AND APPARATUS FOR DIAGNOSING FAULT WITHIN FUEL CELL STACK

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

8 Citations

10 Claims

Specification

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Solutions

Use Cases

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