Asymptotic reduction of volume-averaged thermo-electrochemical models yields solutions matching P2D numerics up to 2C, while homogenization of multi-cell batteries shows no thermal runaway and allows analytical solutions.
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Systematic asymptotic derivation of corrected and generalized single-particle models from porous electrode theory, validated against full PET for NMC, graphite and LFP at moderate-to-high rates.
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Asymptotic reduction, solution, and homogenisation of a thermo-electrochemical model for a lithium-ion battery
Asymptotic reduction of volume-averaged thermo-electrochemical models yields solutions matching P2D numerics up to 2C, while homogenization of multi-cell batteries shows no thermal runaway and allows analytical solutions.
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Generalised single particle models for high-rate operation of graded lithium-ion electrodes: systematic derivation and validation
Systematic asymptotic derivation of corrected and generalized single-particle models from porous electrode theory, validated against full PET for NMC, graphite and LFP at moderate-to-high rates.