Aging diagnosis of batteries is essential to ensure that the energy storage systems operate within a safe region.This paper proposes a novel cell to pack health and lifetime prognostics method based on the combination of transferred deep learning and Gaussian process regression.General health indicators are extracted from the partial discharge process.The sequential degradation model of the health indicator is developed based on a deep learning framework and is migrated for the battery pack degradation prediction.The future degraded capacities of both battery pack and each battery cell are probabilistically predicted to provide a comprehensive lifetime prognostic.Besides,only a few separate battery cells in the source domain and early data of battery packs in the target domain are needed for model construction.Experimental results show that the lifetime prediction errors are less than 25 cycles for the bat-tery pack,even with only 50 cycles for model fine-tuning,which can save about 90％time for the aging experiment.Thus,it largely reduces the time and labor for battery pack investigation.The predicted capacity trends of the battery cells connected in the battery pack accurately reflect the actual degradation of each battery cell,which can reveal the weakest cell for maintenance in advance.

Yunhong Che;Zhongwei Deng;Xiaolin Tang;Xianke Lin;Xianghong Nie;Xiaosong Hu

College of Mechanical and Vehicle Engineering,Chongqing University,Chongqing 400044,China;State Key Laboratory of Mechanical Transmissions,Chongqing University,Chongqing 400044,China;Department of Automo-tive,Mechanical and Manufacturing Engineering,Ontario Tech University,Oshawa,ON L1G 0C5,Canada;Powertrain Engineering R&D Institute,Chong-qing Changan Automotive Co.Ltd,Chongqing 401133,China

中国机械工程学报

[1]Yunhong Che;Zhongwei Deng;Xiaolin Tang;Xianke Lin;Xianghong Nie;Xiaosong Hu-.Lifetime and Aging Degradation Prognostics for Lithium-ion Battery Packs Based on a Cell to Pack Method)[J].中国机械工程学报,2022(01):192-207

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