Abstract
•Measured viscosity (η) and refractive index (nD) of 1-Propanol + Amines binary liquid mixtures at T= 298.15-318.15 K.•Evaluated Δη, G*E, Δn from the measured data.•The Δη values were interpreted by Bloomfield and Dewan model and Graph theoretical approach.•Data obtained interpreted qualitatively in terms of intermolecular interactions.•DFT studies well supported the experimental results and qualitative interpretation.
Pure liquid properties cannot always satisfy the need of chemical processes. Therefore, liquid mixtures are preferred in different compositions, and the thermo-physical properties of liquid mixtures are highly significant for different processes. The present report involves thermo-physical of amines and 1-propanol. Amines are utilized for CO2 absorption processes.
The viscosity (η) and refractive index (nD) of 1P (1-propanol) (1) + Amines (1,3-DAP(1,3-diaminopropane), 1,2-DAP(1,2-diaminopropane) and 1A2P(1-amino-2-propanol)) (2) binary mixture were measured at T = 298.15-318.15 K under the atmospheric pressure 0.1 MPa. Experimental data of η and nD were further used to determine deviation in viscosity (Δη), excess Gibbs free energy of activation (G*E) and deviation in refractive index (ΔnD). Δη were analyzed by Bloomfield and Dewan model (BFD) and also examined in term of Graph theoretical approach (GTA). The η and nD data were further correlated by various relevant correlations
The derived thermo-physical properties were well correlated with Redlich-Kister polynomial equation. DFT studies indicated the strength of molecular interactions and supported the graph theory in predicting probable associative molecular species in the liquid mixtures. Further, in 1P + amines binary liquid mixtures, the dominant interaction is OH—–NH.
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