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Accelerated Aging Characterization of Lithium-ion Cells: Using Sensitivity Analysis to Identify the Stress Factors Relevant to Cyclic Aging

Tanja Gewald, Adrian Candussio, Leo Wildfeuer, Dirk Lehmkuhl, Alexander Hahn, Markus Lienkamp

2020Batteries41 citationsDOIOpen Access PDF

Abstract

As storage technology in electric vehicles, lithium-ion cells are subject to a continuous aging process during their service life that, in the worst case, can lead to a premature system failure. Battery manufacturers thus have an interest in the aging prediction during the early design phase, for which semi-empirical aging models are often used. The progress of aging is dependent on the application-specific load profile, more precisely on the aging-relevant stress factors. Still, a literature review reveals a controversy on the aging-relevant stress factors to use as input parameters for the simulation models. It shows that, at present, a systematic and efficient procedure for stress factor selection is missing, as the aging characteristic is cell-specific. In this study, an accelerated sensitivity analysis as a prior step to aging modeling is proposed, which is transferable and allows to determine the actual aging-relevant stress factors for a specific lithium-ion cell. For the assessment of this accelerated approach, two test series with different acceleration levels and cell types are performed and evaluated. The results show that a certain amount of charge throughput, 100 equivalent full cycles in this case, is necessary to conduct a statistically significant sensitivity analysis.

Topics & Concepts

Service lifeAccelerated agingBattery (electricity)Reliability engineeringStress (linguistics)Lithium (medication)Sensitivity (control systems)Accelerated life testingComputer scienceCharacterization (materials science)AccelerationMaterials scienceProcess (computing)Lithium-ion batteryPower (physics)NanotechnologyElectronic engineeringPsychologyEngineeringMathematicsStatisticsLinguisticsQuantum mechanicsClassical mechanicsOperating systemPsychiatryPhysicsPhilosophyWeibull distributionAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsElectric Vehicles and Infrastructure