Various versions of the Soave-Redlich-Kwong (SRK) equation of state incorporating different mixing rules were applied to calculate vapor-iquid equilibrium (VLE), liquid-liquid equilibrium (LLE), and vapor-liquid-liquid equilibrium (VLLE) properties for the systems containing water, alcohols, and esters. The calculated results showed that the SRK equation with the T-type a function and the Chung-Twu (CT) mixing rules embedded in the UNLFAC-Lyngby model (SRK-T/CT-UNIFAC- Lyngby) not only predicts accurately the VLE properties of the constituent binaries but also represents the ternary LLE and VLLE phase behavior reasonably well. Using this model, the vapor pressure data of the pure constituent components are the only required property for the phase equilibrium calculations.