Fuel cell system and power supply control method
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0594526
(2008-04-18)
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등록번호 |
US-8580449
(2013-11-12)
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우선권정보 |
JP-2007-110355 (2007-04-19) |
국제출원번호 |
PCT/JP2008/057997
(2008-04-18)
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§371/§102 date |
20091002
(20091002)
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국제공개번호 |
WO2008/133318
(2008-11-06)
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발명자
/ 주소 |
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출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
In order to determine the air stoichiometric ratio without using multidimensional mapping, a fuel cell system of the invention computes a command current value and command voltage value in a fuel cell during low-efficiency electrical power generation based on the required electrical power, estimates
In order to determine the air stoichiometric ratio without using multidimensional mapping, a fuel cell system of the invention computes a command current value and command voltage value in a fuel cell during low-efficiency electrical power generation based on the required electrical power, estimates a reference voltage of the fuel cell from the command voltage value and the water temperature when the command current value is taken as a reference current, determines the difference between the reference voltage thus obtained and the command voltage value as an air concentration overvoltage target value, computes the air stoichiometric ratio based on the air concentration overvoltage target value, computes the air amount during low-efficiency electrical power generation based on the air stoichiometric ratio, and controls the amount of air supplied to the fuel cell according to the air amount thus computed.
대표청구항
▼
1. A fuel cell system, which performs low-efficiency electrical power generation that generates power by setting an air amount to be supplied with a fuel cell at an air amount that is less than an air amount during a normal drive operation, comprising: a command value computation portion programmed
1. A fuel cell system, which performs low-efficiency electrical power generation that generates power by setting an air amount to be supplied with a fuel cell at an air amount that is less than an air amount during a normal drive operation, comprising: a command value computation portion programmed to compute a command current value and command voltage value for the fuel cell during low-efficiency electrical power generation based on a required power;an air concentration overvoltage target value computation portion programmed to estimate a reference voltage value for the fuel cell when the command current value is taken to be a reference current value based on a reference current—voltage characteristic defined in the normal drive operation, and compute the difference between the reference voltage value and the command voltage value as an air concentration overvoltage target value;an air stoichiometric ratio computation portion programmed to compute the air stoichiometric ratio based on a one-dimensional mapping of the air concentration overvoltage target value and the air stoichiometric ratio; andan air amount computation portion programmed to compute an air amount during the low-efficiency electrical power generation, based on the air stoichiometric ratio. 2. The fuel cell system according to claim 1, wherein the air concentration overvoltage target value computation portion is programmed to detect the temperature of the fuel cell, and estimate the reference voltage value from the detected temperature and the command current value. 3. The fuel cell system according to claim 1, wherein the air concentration overvoltage target value computation portion is programmed to estimate an impedance of the fuel cell, and estimate the reference voltage value from the estimated impedance and from the command current value. 4. The fuel cell system according to claim 1, wherein the air concentration overvoltage target value computation portion is programmed to estimate an impedance of the fuel cell at the end of the previous operation, and estimate the reference voltage value from the estimated impedance and from the command current value. 5. The fuel cell system according to claim 1, wherein the air stoichiometric ratio computation portion is further programmed to measure a water content of the fuel cell, and compute the air stoichiometric ratio referencing the measured water content. 6. A fuel cell system, which performs low-efficiency electrical power generation that generates power by setting an air amount to be supplied with a fuel cell at an air amount that is less than an air amount during a normal drive operation, comprising: a command value computation portion programmed to compute a command current value and command voltage value for the fuel cell during low-efficiency electrical power generation based on a required power;an air concentration overvoltage target value computation portion programmed to estimate a reference voltage value for the fuel cell when the command current value is taken to be a reference current value based on a reference current—voltage characteristic defined in the normal drive operation, and compute the difference between the reference voltage value and the command voltage value as an air concentration overvoltage target value;an air stoichiometric ratio computation portion programmed to compute the air stoichiometric ratio based on a two-dimensional mapping of the air concentration overvoltage target value, a measured water content of the fuel cell, and the air stoichiometric ratio; andan air amount computation portion programmed to compute an air amount during the low-efficiency electrical power generation, based on the air stoichiometric ratio. 7. A power supply control method for a fuel cell system which performs low-efficiency electrical power generation that generates power by setting an amount to be supplied with a fuel cell at an air amount that is less than an air amount during a normal drive operation, comprising: computing a command current value and a command voltage value for the fuel cell during low-efficiency electrical power generation based on a required power;estimating a reference voltage value for the fuel cell when the command current value is taken as a reference current value based on a reference current—voltage characteristic defined in the normal drive operation;computing the difference between the reference voltage value and the command voltage value as an air concentration overvoltage target value;computing an air stoichiometric ratio based on a one-dimensional mapping of the air concentration overvoltage target value and the air stoichiometric ratio; andcomputing an air amount during the low-efficiency electrical power generation, based on the air stoichiometric ratio. 8. A power supply control method for a fuel cell system which performs low-efficiency electrical power generation that generates power by setting an air amount to be supplied with a fuel cell at an air amount that is less than an air amount during a normal drive operation, comprising: computing a command current value and command voltage value for the fuel cell during low-efficiency electrical power generation based on a required power;estimating a reference voltage value for the fuel cell when the command current value is taken to be a reference current value based on a reference current—voltage characteristic defined in the normal drive operation, and compute the difference between the reference voltage value and the command voltage value as an air concentration overvoltage target value;computing an air stoichiometric ratio based on a two-dimensional mapping of the air concentration overvoltage target value, a measured water content of the fuel cell, and the air stoichiometric ratio; andcomputing an air amount during the low-efficiency electrical power generation, based on the air stoichiometric ratio.
이 특허에 인용된 특허 (2)
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Gustav Boehm DE; David P. Wilkinson CA; Shanna Knights CA; Reinhold Schamm DE; Nicholas J. Fletcher CA, Method and apparatus for operating a fuel cell.
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Takabayashi Yasuhiro (Kawasaki JPX), Protective apparatus and method for a fuel cell.
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