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    • 5. 发明申请
    • Fuel cell and control method thereof
    • 燃料电池及其控制方法
    • US20090186246A1
    • 2009-07-23
    • US12219545
    • 2008-07-23
    • Jin S. HeoHyun Chul Lee
    • Jin S. HeoHyun Chul Lee
    • H01M8/06H01M8/04
    • H01M8/04089H01M8/04022H01M8/04029H01M8/0612H01M8/0668
    • Disclosed herein are a fuel cell and a method for controlling the fuel cell. The fuel cell includes a reforming apparatus to perform reformation reactions and thereby to produce a fuel gas and a heat by-product, a stack to receive the fuel gas from the reforming apparatus and thereby to generate energy, a preheating unit to heat the stack and thereby to promote the operation of the stack, and an operation control unit to supply at least one of the fuel gas and heat by-product to the preheating unit during an initial operation of the reforming apparatus, and to supply the fuel gas to the stack upon the completion of the initial operation of the reforming apparatus. According to the fuel cell, it is possible to rapidly elevate an internal temperature of the fuel cell in an economical manner until the fuel cell initially operation and then enables normal operation.
    • 本文公开了燃料电池和控制燃料电池的方法。 燃料电池包括重整装置,用于进行重整反应,从而产生燃料气体和副产物;叠层,用于从重整装置接收燃料气体,从而产生能量;预热装置,用于加热堆料; 从而促进堆叠的操作,以及操作控制单元,用于在重整装置的初始操作期间将燃料气体和热副产物中的至少一种供应到预热单元,并将燃料气体供应到堆叠 完成重整装置的初始操作。 根据燃料电池,能够以经济的方式快速地升高燃料电池的内部温度,直到燃料电池初始运转,然后使能正常运转。
    • 6. 发明申请
    • Fuel cell system and control method thereof
    • 燃料电池系统及其控制方法
    • US20090269631A1
    • 2009-10-29
    • US12385584
    • 2009-04-13
    • Jin S. HeoHyun Chul LeeTakami Higashi
    • Jin S. HeoHyun Chul LeeTakami Higashi
    • H01M8/04H01M8/18
    • H01M8/04029H01M8/04022H01M8/04268H01M8/0618H01M8/0668
    • Disclosed is a method of controlling a fuel cell system including a fuel processor to generate reforming gas and a stack to generate energy by receiving the reforming gas from the fuel processor. The method includes performing an initial operation, in which the fuel processor is operated to generate thermal energy heating, a heat medium is heated by the thermal energy generated from the fuel processor, and raising a temperature of the stack to a normal operation temperature by the heat medium having a high temperature, and performing a normal operation, in which the reforming gas is supplied to the stack after the temperature of the stack has reached the normal operation temperature. The stack temperature is raised until the stack is normally operated by heating the stack through the circulation of a heat medium heated by heat generated from a fuel processor.
    • 公开了一种控制燃料电池系统的方法,其包括燃料处理器以产生重整气体和堆叠,以通过从燃料处理器接收重整气体来产生能量。 该方法包括执行初始操作,其中燃料处理器被操作以产生热能加热,热介质被从燃料处理器产生的热能加热,并且通过该燃料处理器将堆叠的温度升高到正常工作温度 具有高温的热介质,并且执行正常操作,其中在堆叠的温度达到正常工作温度之后将重整气体供应到堆叠。 通过通过由燃料处理器产生的热量加热的热介质的循环来加热堆叠,堆叠温度升高直到堆叠正常工作。
    • 7. 发明申请
    • Fuel cell system and fuel supply method thereof
    • 燃料电池系统及其燃料供给方法
    • US20100062291A1
    • 2010-03-11
    • US12379370
    • 2009-02-19
    • Jin S. HeoTakami HigashiJae Hyuk Oh
    • Jin S. HeoTakami HigashiJae Hyuk Oh
    • H01M8/04H01M8/06
    • H01M8/04753H01M8/04089H01M8/04425H01M8/04776H01M8/0618Y02P80/15
    • A stable fuel supply system in a fuel cell system produces heat and electricity by combining hydrogen modified from a major raw material selected from various hydrogen compounds, with oxygen existing in air. A fuel supply device and a fuel supply method in a fuel cell system, which automate a steam to carbon ratio (S/C) control and a lamda control, and achieve a fuel cell system operation efficiently and stably coping with pressure loss and pulsation occurring within the system, while using a minimum number of balance-of-plant (BOP) units. A method more efficiently and precisely supplies fuel during the start-up and operation of the fuel cell system, while preventing flame failure of a burner and maintaining an appropriate carbon monoxide concentration even when an abrupt flow rate variation occurs. Also, an operating method improves functions associated with a decomposition ability based on selection of the specification of a fuel pump, and thus, is more economical and stable in terms of the costs and configuration of the fuel cell system.
    • 燃料电池系统中稳定的燃料供应系统通过将从各种氢化合物中选择的主要原料改性的氢与存在于空气中的氧组合而产生热和电。 燃料电池系统中的燃料供给装置和燃料供给方法,其使蒸汽/碳比(S / C)控制和拉姆达控制自动化,并且实现燃料电池系统运行,有效且稳定地应付压力损失和脉动发生 在系统内使用最少数量的植物平衡(BOP)单位。 在燃料电池系统的启动和运行期间,更有效和精确地提供燃料的方法,同时防止燃烧器的火焰故障,并且即使当突然的流量变化发生时也保持适当的一氧化碳浓度。 此外,根据燃料泵的规格的选择,操作方法改善与分解能力相关的功能,因此在燃料电池系统的成本和构造方面更加经济和稳定。
    • 9. 发明授权
    • Fuel cell system and fuel supply method thereof
    • 燃料电池系统及其燃料供给方法
    • US08227125B2
    • 2012-07-24
    • US12379370
    • 2009-02-19
    • Jin S. HeoTakami HigashiJae Hyuk Oh
    • Jin S. HeoTakami HigashiJae Hyuk Oh
    • H01M8/04
    • H01M8/04753H01M8/04089H01M8/04425H01M8/04776H01M8/0618Y02P80/15
    • A stable fuel supply system in a fuel cell system produces heat and electricity by combining hydrogen modified from a major raw material selected from various hydrogen compounds, with oxygen existing in air. A fuel supply device and a fuel supply method in a fuel cell system, which automate a steam to carbon ratio (S/C) control and a lamda control, and achieve a fuel cell system operation efficiently and stably coping with pressure loss and pulsation occurring within the system, while using a minimum number of balance-of-plant (BOP) units. A method more efficiently and precisely supplies fuel during the start-up and operation of the fuel cell system, while preventing flame failure of a burner and maintaining an appropriate carbon monoxide concentration even when an abrupt flow rate variation occurs. Also, an operating method improves functions associated with a decomposition ability based on selection of the specification of a fuel pump, and thus, is more economical and stable in terms of the costs and configuration of the fuel cell system.
    • 燃料电池系统中稳定的燃料供应系统通过将从各种氢化合物中选择的主要原料改性的氢与存在于空气中的氧组合而产生热和电。 一种燃料电池系统中的燃料供给装置和燃料供给方法,其使蒸汽/碳比(S / C)控制和拉姆达控制自动化,并且实现燃料电池系统运行,有效且稳定地应付压力损失和脉动发生 在系统内使用最少数量的植物平衡(BOP)单位。 在燃料电池系统的启动和运行期间,更有效和精确地提供燃料的方法,同时防止燃烧器的火焰故障,并且即使当突然的流量变化发生时也保持适当的一氧化碳浓度。 此外,根据燃料泵的规格的选择,操作方法改善与分解能力相关的功能,因此在燃料电池系统的成本和构造方面更加经济和稳定。