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基于大数据的电池安全研究

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基于大数据的电池安全研究

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章节目录

  • 一 电池安全研究概述
  • 二 一种基于云端充电数据的电池组一致性评价方法
    1. (一)研究背景及意义
    2. (二)评价方法
    3. (三)实验
    4. (四)结果
      1. 1.Pack A各项指标的结果
      2. 2.电池组一致性的综合评分
  • 三 一种基于云端充电数据的电池寿命估计方法
    1. (一)研究背景及意义
    2. (二)估计原理
      1. 1.SOH的定义
      2. 2.SOH的估计原理
    3. (三)结果
  • 四 一种基于充电数据的电池内短路检测方法
    1. (一)研究背景及意义
    2. (二)检测方法
      1. 1.剩余充电电量和内短路的关系
      2. 2.充电电压曲线相似性变换
      3. 3.剩余充电电量的计算与内短路的检测
    3. (三)实验
    4. (四)结果
  • 五 一种全工况适用的电池内短路检测方法
    1. (一)研究背景及意义
    2. (二)检测方法
    3. (三)实验
    4. (四)结果
      1. 1.短路导致热失控的边界的确定
      2. 2.内短路检测算法的实验验证
  • 六 总结

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