This is a filter class for ThermoPhase that implements some preparatory steps for efficiently handling mixture of gases that whose standard states are defined as ideal gases, but which describe also non-ideal solutions. MixedSolventElectrolyte is a derived class of GibbsExcessVPSSTP that employs the DH and local Marguless approximations for the excess gibbs free energy. More.Ĭlass MineralEQ3 represents a stoichiometric (fixed composition) incompressible substance based on EQ3's parameterization. More.Ĭlass MetalSHEelectrons represents electrons within a metal, adjacent to an aqueous electrolyte, that are consistent with the SHE reference electrode. More.Ĭlass MetalPhase represents electrons in a metal. MargulesVPSSTP is a derived class of GibbsExcessVPSSTP that employs the Margules approximation for the excess gibbs free energy. More.Ī simple thermodynamic model for a bulk phase, assuming a lattice of solid atoms. ![]() This class can handle either an ideal solution or an ideal gas approximation of a phase. More.Ĭlass IdealSolidSolnPhase represents a condensed phase ideal solution compound. This phase is based upon the mixing-rule assumption that all molality-based activity coefficients are equal to one. More.Ĭlass IdealGasPhase represents low-density gases that obey the ideal gas equation of state. More.Ĭlass HMWSoln represents a dilute or concentrated liquid electrolyte phase which obeys the Pitzer formulation for nonideality. More.Ĭlass FixedChemPotSSTP represents a stoichiometric (fixed composition) incompressible substance. More.Ī thermodynamic Phase representing a one dimensional edge between two surfaces. More.Ĭlass DebyeHuckel represents a dilute liquid electrolyte phase which obeys the Debye Huckel formulation for nonideality. Overloads the virtual methods of class ThermoPhase to implement the incompressible equation of state. To compute the thermodynamic properties of multicomponent solutions, it is necessary to know something about the thermodynamic properties of the individual species present in the solution. Managers for Calculating Standard-State Thermodynamics The ThermoPhase object relies on classes to calculate the thermodynamic properties of the reference state for all of the species in the phase. Species Reference-State Thermodynamic Properties The ThermoPhase object relies on a set of manager classes to calculate the thermodynamic properties of the reference state for all of the species in the phase. Managers for Calculating Reference-State Thermodynamics In this module we describe Cantera's treatment of pressure dependent standard states ( PDSS) objects. ![]() Species Standard-State Thermodynamic Properties This browser is not able to show SVG: try Firefox, Chrome, Safari, or Opera instead.
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