Understanding self-discharge or what's going on inside a lead-acid battery when nothing happens outside

International audienceA physics-based model has been developed to study the main electrochemical processes at stake during the battery self-discharge at different temperatures, explaining why the battery still remains active even though it is unused. Moreover, we will show how each electrode behaves independently from the other and the further consequences

Analysing the impact of C-rate and loading on intercalated lithium heterogeneity with graphite electrode modelling

International audienc

Multiscale modelling in Li-ion cells: Study of ageing at the electrode-electrolyte interface

International audienc

Multiscale modelling in Li-ion cells: Study of ageing at the electrode-electrolyte interface

International audienc

Analysing the impact of C-rate and loading on intercalated lithium heterogeneity with graphite electrode modelling

International audienc

Peukert's Law of a Lead-Scid Battery Simulated by a Mathematical Model

Abstract not Available.</jats:p

Understanding self-discharge or what's going on inside a lead-acid battery when nothing happens outside

International audienceA physics-based model has been developed to study the main electrochemical processes at stake during the battery self-discharge at different temperatures, explaining why the battery still remains active even though it is unused. Moreover, we will show how each electrode behaves independently from the other and the further consequences

Analysing the impact of C-rate and loading on intercalated lithium heterogeneity with graphite electrode modelling

International audienc