Chemical reaction models. More...
Chemical reactions can be relevant for all thermodynamic relations for the liquid and gas phase of multiple chemical species. The main purpose is to provide a convenient way to access these relationships via source or sink terms.
Files | |
| file | electrochemistry.hh |
| Electrochemical model for a fuel cell application. | |
| file | electrochemistryni.hh |
| Electrochemical model for a fuel cell application. | |
Classes | |
| class | Dumux::ElectroChemistry< Scalar, Indices, FluidSystem, GridGeometry, electroChemistryModel > |
| This class calculates source terms and current densities for fuel cells with the electrochemical models suggested by Ochs (2008) [ochs2008] or Acosta et al. (2006) [A3:acosta:2006]. More... | |
| class | Dumux::ElectroChemistryNI< Scalar, Indices, FluidSystem, GridGeometry, electroChemistryModel > |
| Class calculating source terms and current densities for fuel cells with the electrochemical models suggested by Ochs (2008) [ochs2008] or Acosta (2006) [A3:acosta:2006] for the non-isothermal case. More... | |
Enumerations | |
| enum | Dumux::ElectroChemistryModel { Dumux::Ochs , Dumux::Acosta } |
| The type of electrochemistry models implemented here (Ochs (2008) [ochs2008] or Acosta et al. (2006) [A3:acosta:2006] ) More... | |