Daniela Galatro scite author profile

Summary This work summarizes the findings resulting from applying an aging modeling approach to four different capacity loss experimental datasets of lithium‐ion batteries (LIBs). This approach assumes that the degradation trajectory of the capacity is a function of three variables: time, kinetic constant, and time‐dependent factor. The analysis shows that the time‐dependent factor α is cell‐chemistry dependent and cannot be averaged for calendar and cycling modes and combined modes. This factor was also found to be a function of the stress factors. A quadratic model was used to obtain the kinetic constants per test, and statistical metrics were provided to evaluate the quality of the fitting, which was significantly affected when using averaged values of α and refitted kinetic constants. A set of test matrices is proposed for calendar, cycling, and mixed aging modes to overcome the challenges of data‐based models developed from accelerated test approaches for modeling aging in LIBs. This work also proposes a methodology to develop these data‐based aging models.

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A methodology to characterize a sanitary landfill combining, through a numerical approach, a geoelectrical survey with methane point-source concentrations

Jácome

Costanzo-Alvarez

Aldana

et al. 2021

Environmental Technology & Innovation

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EV BMS with Distributed Switch Matrix for Active Balancing, Online Electrochemical Impedance Spectroscopy, and Auxiliary Power Supply

Gong

Lamoureux

Ven

et al. 2019

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Daniela Galatro

Modeling degradation of lithium-ion batteries considering cell-to-cell variations

Thermal Behavior of Lithium-Ion Batteries: Aging, Heat Generation, Thermal Management and Failure

Challenges in data‐based degradation models for lithium‐ion batteries

A methodology to characterize a sanitary landfill combining, through a numerical approach, a geoelectrical survey with methane point-source concentrations

EV BMS with Distributed Switch Matrix for Active Balancing, Online Electrochemical Impedance Spectroscopy, and Auxiliary Power Supply

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