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    • 71. 发明公开
    • REDOX FLOW BATTERY AND METHOD FOR OPERATING SAME
    • REDOX-FLUSSBATTERIE UND VERFAHREN ZUM BETRIEB DAVON
    • EP2980903A1
    • 2016-02-03
    • EP14779360.8
    • 2014-03-31
    • Le System Co., Ltd.
    • FUKUSHIMA, JunichiSATO, KanjiHIRANO, Keiji
    • H01M8/18H01M8/04
    • H01M8/04186G01R31/3606H01M8/04223H01M8/04544H01M8/188H01M8/20Y02E60/528
    • Object
      To provide a redox flow battery where it is possible to know the charging/discharging state inside the cell stack and to use the battery with higher efficiency, and a method of operating the same.
      Solution
      A redox flow battery includes: a positive electrolyte storage tank; a negative electrolyte storage tank; a cell stack; a positive electrolyte outward path that sends positive electrolyte, which has been sent out from the positive electrolyte storage tank, to positive electrode chambers of cells in the cell stack; a positive electrolyte return path that sends positive electrolyte, which has flowed out from the positive electrode chambers, to the positive electrolyte storage tank; a negative electrolyte outward path that sends negative electrolyte, which has been sent out from the negative electrolyte storage tank, to negative electrode chambers of the cells; a negative electrolyte return path that sends negative electrolyte, which has flowed out from the negative electrode chambers, to the negative electrolyte storage tank; an entrance open circuit voltage measuring portion that measures an upstream open circuit voltage between the positive electrolyte inside the positive electrolyte outward path and the negative electrolyte inside the negative electrolyte outward path; and an exit open circuit voltage measuring portion that measures a downstream open circuit voltage between the positive electrolyte inside the positive electrolyte return path and the negative electrolyte inside the negative electrolyte return path, and can be operated more efficiently by controlling the flow rate of electrolyte in accordance with the values of the measured entrance open circuit voltage and exit open circuit voltage.
    • 对象为了提供氧化还原液流电池,其可以知道电池堆内的充电/放电状态以及更高效率地使用电池及其操作方法。 解决方案氧化还原液电池包括:正电解液储罐; 负电解质储罐; 一个电池堆; 正电解液向外的路径,将从正极电解液储罐送出的正电解质送到电池堆中的电池正极室; 将从正极室流出的正电解质送到正极电解质储罐的正电解液返回路径; 负电解质向外的路径,将从负电解质储罐输出的负电解质传送到电池的负极室; 将从负极室流出的负电解质的负电解质返回路径传送到负电解质储罐; 入射开路电压测量部,其测量正电解质向外通路内的正电解质和负电解质向外通路内的负电解质之间的上游开路电压; 以及出口开路电压测量部分,其测量正电解液返回路径内的正电解质和负电解质返回路径内的负电解质之间的下游开路电压,并且可以通过控制电解质的流速来更有效地操作 根据测量的入口开路电压和退出开路电压的值。