Optimum Model-Based Design of Diagnostics Experiments (DOE) with Hybrid Pulse Power Characterization (HPPC) for Lithium-Ion Batteries

Jinwook Rhyu, D. Zhuang, M. Bazant, R. D. Braatz
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Abstract

Diagnostics of lithium-ion batteries are frequently performed in battery management systems for optimized operation of lithium-ion batteries or for second-life usage. However, attempting to extract dominant degradation information requires long rest times between diagnostic pulses, which compete with the need for efficient diagnostics. Here, we design a set of efficient optimal hybrid pulse power characterization (HPPC) diagnostics using model-based design of experiment (DOE) methods, applying knowledge of degradation effects on pulse kinetics and cell properties. We validate that these protocols are effective through minimization of uncertainty, and robust with Markov Chain Monte Carlo (MCMC) simulations. Contrary to traditional HPPC diagnostics which use fixed pulse magnitudes at uniformly distributed state of charges (SOC), we find that well-designed HPPC protocols using our framework outperform traditional protocols in terms of minimizing both parametric uncertainties and diagnostic time. Trade-offs between minimizing parametric uncertainty and total diagnostic time can be made based on different diagnostics needs.
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基于模型的锂离子电池诊断实验 (DOE) 优化设计与混合脉冲功率特性分析 (HPPC)
电池管理系统经常对锂离子电池进行诊断,以优化锂离子电池的运行或二次使用。然而,要提取主要的退化信息,诊断脉冲之间需要较长的休息时间,这与高效诊断的需求相冲突。在此,我们采用基于模型的实验设计(DOE)方法,运用降解对脉冲动力学和电池特性的影响的知识,设计了一套高效的最佳混合脉冲功率表征(HPPC)诊断方法。我们通过最小化不确定性和马尔可夫链蒙特卡罗(MCMC)模拟验证了这些方案的有效性和稳健性。传统的 HPPC 诊断在均匀分布的电荷状态 (SOC) 下使用固定的脉冲幅度,与之相反,我们发现使用我们的框架精心设计的 HPPC 协议在参数不确定性最小化和诊断时间方面优于传统协议。可以根据不同的诊断需求,在参数不确定性最小化和总诊断时间最小化之间进行权衡。
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