New VLE ebulliometric data for binary aqueous 2-amino-2-methyl-1-propanol (AMP) and piperazine (Pz) solutions and ternary aqueous AMP/Pz solutions are reported at different temperatures and concentrations. A proposed combination of titration and a 1H-NMR technique was developed and determination of the composition of the ternary system was successfully carried out. show that AMP is more volatile than commercial solvents such as MEA and MDEA whereas Pz is observed to be less volatile than that of MEA and MAPA. Three thermodynamic models (NRTL, Wilson and UNIQUAC) were used to correlate the data and the determined interaction parameters for both the binary and ternary VLE systems are given. New binary interaction parameters for (AMP(1) and Pz) are also proposed. However, the parameters have no statistical significance which indicates that the activity coefficients for the species in the ternary system in general are similar to the activity coefficients obtained from the corresponding binary mixture. More data may be required for ternary VLE estimation, especially at higher amine concentrations. Binary VLE data of aqueous 2-amino-2-methyl-1-propanol (AMP) solution was measured. Binary VLE data of aqueous piperazine (Pz) solution was measured. Ternary VLE data of aqueous AMP/Pz solution was reported. A combination of titration and a 1H-NMR techniques was successfully carried out. The NRTL, Wilson and UNIQUAC models were tested and the parameters are suggested.
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