In this paper, experimental values of densities, speeds of sound, and refractive indices in a temperature range of 293.15−323.15 K have been measured as a function of composition for the binary liquid mixtures of 1,2dimethoxyethane with alcohols such as methanol, propan-1-ol, propan-2-ol, and butan-2-ol. From these experimental values, excess/derived properties such as excess molar volume, isentropic compressibility, deviation in isentropic compressibility, and deviation in the refractive index have been calculated. Excess/derived properties have been correlated using the Redlich− Kister equation and physicochemical properties modeled using the cubic plus association equation of state for pure and binary mixtures. The results are interpreted with respect to possible molecular interactions between components.
The
vapor pressures of the binary mixtures (furfural + ethanol)
and (furfural + butan-2-ol) along with the pure component ethanol
were measured using the static apparatus for VLE measurements (static
device) between temperatures of 283 and 363 K. The generated results
from this work were correlated using semi-empirical correlations as
described by the Antoine equation. The excess Gibbs function was computed
at assorted constant temperatures and applied to fit a fourth-order
Redlich–Kister equation utilizing the Barker’s technique,
as these two systems in study exhibited positive deviations in G
E at all temperatures studied over the whole
composition range. The Modified UNIFAC (Do) model, UNIQUAC model,
and the NRTL model together with the Peng-Robinson-Sheng-Lu equation
of state (PRSL EoS) were also employed, and excellent results were
observed in the modeling of the total pressure. The Redlich–Kister
equation was applied successfully for modeling the thermodynamic excess
properties.
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