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化学工业与工程 2016, Vol. 33 Issue (3) :71-75    DOI: 10.13353/j.issn.1004.9533.20151117
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储能用锰酸锂电池阻抗谱研究
高飞, 杨凯, 李大贺, 刘皓, 王丽娜, 胡晨
中国电力科学研究院, 北京 100192
Research on Impedance Spectroscopy of Manganese Acid Lithium Ion Battery for Energy Storage
Gao Fei, Yang Kai, Li Dahe, Liu Hao, Wang Lina, Hu Chen
China Electric Power Research Institute, Beijing 100192, China

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摘要 

对于储能用锰酸锂电池,除了需要准确把握其外特性,还应充分认识与电池外特性相对应的电池内特性。对储能用锰酸锂电池产品进行100%~0%荷电状态(SOC)的电化学交流阻抗测试,通过等效电路拟合,解析反映锰酸锂电池锂离子嵌入/脱出电化学反应和电荷扩散过程的电路元件参数值。结果表明锰酸锂电池的电化学反应电阻大于欧姆电阻,且随着电池SOC的降低而逐渐提高;锰酸锂电池电化学反应引起的电容效应弱于电荷扩散产生的电容效应,在20%SOC以下时锰酸锂电池扩散阻抗值随SOC的降低而逐渐提高;电池经历1 C高温(45℃)循环700次后电化学反应电阻明显提高,同时高温循环弱化了因电化学反应产生的电容效应。

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高飞
杨凯
李大贺
刘皓
王丽娜
胡晨
关键词储能;   锰酸锂电池;   阻抗谱;   荷电状态     
Abstract

For a better application of the manganese acid lithium ion battery in the field of energy storage, it is necessary to master not only output performance but also internal characteristics. A commercial manganese acid lithium ion battery was measured by electrochemical impedance spectrum (EIS) under the state of charge (SOC) ranging from 100% to 0%. By a supposed equivalent circuit and the afterwards fitting, parameters of every element in the circuit that represent Li+ intercalation/deintercalation or charge transfer were obtained. As a new battery, the electrochemical reaction resistance is bigger than the ohmic resistance. It increases while SOC gradually lowers. In addition, the diffusion impedance also increases while SOC decreases less than 20%. The capacitive effect caused by electrochemical reactions is weaker than that caused by charge diffusion. However, after 700 cycles at 1 C at 45℃, the electrochemical reaction resistance increases obviously whereas the capacitive effect caused by electrochemical reaction is weakened.

Keywordsenergy storage;   manganese acid lithium ion battery;   impedance spectrum;   state of charge     
Received 2015-12-01;
Fund:

国家863计划项目"长寿命锰酸锂系储能电池关键技术及示范"(2013AA050901);国网公司科技项目"大规模电池储能电站运行技术研究与应用"(DG71-14-032)。

Corresponding Authors: 杨凯,E-mail:yangkai@epri.sgcc.com.cn。     Email: yangkai@epri.sgcc.com.cn
About author: 高飞(1981-),男,博士,工程师,主要研究方向为能量存储与转换技术。
引用本文:   
高飞, 杨凯, 李大贺, 刘皓, 王丽娜, 胡晨.储能用锰酸锂电池阻抗谱研究[J].  化学工业与工程, 2016,33(3): 71-75
Gao Fei, Yang Kai, Li Dahe, Liu Hao, Wang Lina, Hu Chen.Research on Impedance Spectroscopy of Manganese Acid Lithium Ion Battery for Energy Storage[J].  Chemcial Industry and Engineering, 2016,33(3): 71-75
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