A P2D electrochemical-thermal-degradation model with consistent parameterization predicts capacity fade trajectories and internal modes for NMC cells across calendar and combined ageing conditions, showing sub-linear to accelerated fade depending on usage.
Modeling of Galvanostatic Charge and Discharge of the Lithium/Polymer/Insertion Cell
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A computational framework integrates the Doyle-Fuller-Newman electrochemical model with a 3D distributed equivalent circuit network model to simulate Li-ion battery discharge more accurately than lumped models at low temperatures or high rates.
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Linking Calendar and Cycle Ageing in Lithium-Ion Batteries through Consistent Parameterisation of an Electrochemical-Thermal-Degradation Model
A P2D electrochemical-thermal-degradation model with consistent parameterization predicts capacity fade trajectories and internal modes for NMC cells across calendar and combined ageing conditions, showing sub-linear to accelerated fade depending on usage.
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A Computational Framework Integrating Physics-based Model and Equivalent Circuit Network Model to Simulate Li-ion Batteries
A computational framework integrates the Doyle-Fuller-Newman electrochemical model with a 3D distributed equivalent circuit network model to simulate Li-ion battery discharge more accurately than lumped models at low temperatures or high rates.