Loss of Active Material#
- class pybamm.active_material.LossActiveMaterial(param, domain, options, x_average, phase)#
Submodel for varying active material volume fraction from Ai et al.[1] and Reniers et al.[2].
- Parameters:
Extends:
pybamm.models.submodels.active_material.base_active_material.BaseModel
- get_coupled_variables(variables)#
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.
- get_fundamental_variables()#
A public method that creates and returns the variables in a submodel which can be created independent of other submodels. For example, the electrolyte concentration variables can be created independent of whether any other variables have been defined in the model. As a rule, if a variable can be created without variables from other submodels, then it should be placed in this method.
- Returns:
The variables created by the submodel which are independent of variables in other submodels.
- Return type:
- set_initial_conditions(variables)#
A method to set the initial conditions for the submodel. Note: this method modifies the state of self.initial_conditions. Unless overwritten by a submodel, the default behaviour of ‘pass’ is used as implemented in
pybamm.BaseSubModel
.- Parameters:
variables (dict) – The variables in the whole model.
- set_rhs(variables)#
A method to set the right hand side of the differential equations which contain a time derivative. Note: this method modifies the state of self.rhs. Unless overwritten by a submodel, the default behaviour of ‘pass’ is used as implemented in
pybamm.BaseSubModel
.- Parameters:
variables (dict) – The variables in the whole model.
References