Título
A New Battery SOC/SOH/eSOH Estimation Method Using a PBM and Interconnected SPKFs: Part II. SOH and eSOH EstimationAutor-a (de otra institución)
Otras instituciones
IkerlanUniversity of Colorado Colorado Springs (UCCS)
Versión
Postprint
Derechos
© 2024 IOP PublishingAcceso
Acceso embargadoVersión del editor
https://doi.org/10.1149/1945-7111/ad30d5Publicado en
Journal of the Electrochemical Society Vol. 171. N. 3. N. art. 030518, 2024Editor
IOP PublishingPalabras clave
Lithium Ion Battery
Sigma-Point Kalman Filter (SPKF)
State-of-Charge (SOC) Estimation
Physics-based model (PBM) ... [+]
Sigma-Point Kalman Filter (SPKF)
State-of-Charge (SOC) Estimation
Physics-based model (PBM) ... [+]
Lithium Ion Battery
Sigma-Point Kalman Filter (SPKF)
State-of-Charge (SOC) Estimation
Physics-based model (PBM)
State-of-Health (SOH)
electrode- State-of-Health (eSOH)
Degradation Modes [-]
Sigma-Point Kalman Filter (SPKF)
State-of-Charge (SOC) Estimation
Physics-based model (PBM)
State-of-Health (SOH)
electrode- State-of-Health (eSOH)
Degradation Modes [-]
Campo (Clasificación UNESCO)
Ciencias TecnológicasDisciplina (Clasificación UNESCO)
Tecnología energéticaResumen
Battery management systems (BMSs) are required to estimate many non-measurable values that describe the actual operating condition of batteries; such as state of charge (SOC) or state of health (SOH). ... [+]
Battery management systems (BMSs) are required to estimate many non-measurable values that describe the actual operating condition of batteries; such as state of charge (SOC) or state of health (SOH). In order to improve accuracy, many physical states and parameters can be estimated using physics-based models (PBMs). These estimates could be used to improve the control and
prognosis of batteries. In a series of papers, we propose a new method to estimate internal physical states, SOC, SOH and other electrode-specific state of health (eSOH) parameters of a lithium-ion battery, using interconnected sigma-point Kalman filters (SPKFs) and a single-particle model with electrolyte dynamics (SPMe). This second paper focuses on eSOH parameter estimation. Simulation
results show that the method is capable of estimating the eSOH parameters and key degradation modes that can occur inside a lithium-ion battery cell using only cell voltage and current measurements. [-]
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