Experimental solid + liquid equilibria and excess molar volumes of alkanol + hexylamine mixtures
2003; Elsevier BV; Volume: 216; Issue: 1 Linguagem: Inglês
10.1016/j.fluid.2003.10.007
ISSN1879-0224
AutoresUrszula Domańska, Małgorzata Głoskowska,
Tópico(s)Chemical Thermodynamics and Molecular Structure
ResumoSolid+liquid phase diagrams (SLE) have been determined for octan-1-ol, or nonal-1-ol, or decan-1-ol, or undecan-1-ol+hexylamine mixtures. Solid addition compounds form with the empirical formulae: (C8H17OH·C6H15N), (C9H19OH·C6H15N), (C10H21OH·C6H15N) and (C11H23OH·C6H15N). All these compounds are congruently melting compounds. Compound formation is attributed to a strong OH⋯O and NH⋯N hydrogen bonds. Excess molar volumes, VmE have been determined for an alcohol (octan-1-ol, or nonal-1-ol, or decan-1-ol, or undecan-1-ol) + hexylamine at 298.15 K and atmospheric pressure. The systems exhibit very large negative molar excess volumes, VmE and excess molar enthalpies, HmE. Our experimental data of VmE and the literature data of HmE were treated in terms of ERAS model, DISQUAC and Mod. UNIFAC. DISQUAC is the only model that can be used to accurately represent excess molar enthalpies. Mod. UNIFAC overestimates the self-association of the alcohol in the solutions under study. Currently, the ERAS model can be used to examine VmE of these solutions but the same ERAS parameters overestimate the strong interactions between unlike molecules.
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