Integrated model for conservation of charge in the electrolyte derived from integrating the Stefan-Maxwell constitutive equations, from 1.
param (parameter class) – The parameters to use for this submodel
domain (str, optional) – The domain in which the model holds
References
F. Brosa Planella, M. Sheikh, and W. D. Widanage, “Systematic derivation and validation of reduced thermal-electrochemical models for lithium-ion batteries using asymptotic methods.” arXiv preprint, 2020.
Extends: pybamm.electrolyte_conductivity.BaseElectrolyteConductivity
A public method that creates and returns the variables in a submodel which require variables in other submodels to be set first. For example, the exchange current density requires the concentration in the electrolyte to be created before it can be created. If a variable can be created independent of other submodels then it should be created in ‘get_fundamental_variables’ instead of this method.