The ideal gas law is independent of composition and determines V at given T and P. Density can be calculated from

where Hi,ig,Tref relates the enthalpy of an ideal gas to the enthalpy at the selected reference state for species i.

where Si,ig,Tref is the entropy of an ideal gas to the entropy of species at the selected reference state.

The equation of state determines V at given x, T, and P. Density can be expressed as Equation 2-101. The partial fugacity coefficients are derived from

where Vi is the partial molar volume. The enthalpy, entropy, and Gibbs free energy follow from the partial fugacity coefficients and the ideal gas contributions as:

were v is a function of T and P. A Taylor expansion of vat constant composition gives

Cv is available if Cp and volume are available and fluid is compressible by means of volume is pressure dependent. For ideal gas Equation 2-112 express as

The enthalpy, entropy, and Gibbs free energy follow from the activity coefficients and the ideal gas contributions in Equation 2-103 – Equation 2-105. The activity coefficients describe the deviation of chemical potentials from the ideal liquid phase, so heats of vaporization need to be accounted for

where Ui,ig,ref is the enthalpy of an ideal gas to the species enthalpy at the selected reference state.

K-values for phases p and q are taken from

If only liquid phases are defined, the K-value calculation is reduced to