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基于偏微分方程模型的电池在线电芯级热故障定位框架

PDE Model-Based On-Line Cell-Level Thermal Fault Localization Framework for Batteries

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2024
被引 20
ABS 3

中文导读

提出一种基于反步法的故障定位滤波器,通过插值近似减少所需传感器数量,实现电池分布式热故障的在线检测与定位,并通过理论和实验验证其可靠性。

Abstract

Unknown distributed incipient thermal fault detection and localization are vital to the safe operation of batteries while they have not been given sufficient attention in existing works compared to the studies on estimation of State of Charge (SoC) as well as State of Health (SoH). In order to fill this gap, a backstepping-based fault localization filter (FLF) is presented. Generally, full-state temperature measurement is required to achieve fault localization, which is impossible in applications. However, with the help of interpolation-based approximation, the required number of sensors decreases from infinity to only a few, which guarantees the usability of FLF. A comprehensive methodology framework, including the FLF design, residual evaluation in a distributed manner, and threshold computation, is introduced to guarantee reliable and robust performance in a real-time pattern. Theoretic analysis as well as experiment validations are presented to for validation.

电池安全故障检测与定位热管理控制理论