Isothermal Vapor−Liquid Equilibria, Excess Molar Enthalpies, and Excess Molar Volumes of Trichloromethane + 1,2-Epoxybutane at (288.15, 298.15, and 313.15) K

Abstract: Isothermal vapor−liquid equilibria, VLE, excess Gibbs energies, , excess molar enthalpies, , and excess molar volumes, , were determined for the binary mixture trichloromethane + 1,2-epoxybutane at (288.15, 298.15, and 313.15) K and at atmospheric pressure. All excess properties are negative. The vapor−liquid equilibrium data are thermodynamically consistent and have been fitted to the Redlich−Kister equation. The influence of temperature has been discussed, and the relative magnitudes and signs of the e… Show more

“…), chloroform (stabilized with amylene) by Riedel-de Haën with a purity of 99.8 mass %, and benzene by Aldrich with a purity of 99.9 mass % (HPLC). Table lists the measured densities of 2-butanol, chloroform, and benzene, which agree to within ± 0.07 kg·m −3 with most of the corresponding literature values. – …”

“…Table 1 lists the measured densities of 2-butanol, chloroform, and benzene, which agree to within ( 0.07 kg • m -3 with most of the corresponding literature values. [10][11][12][13] Measurements. Densities F of the ternary and binary mixtures and corresponding pure substances were measured by means of an Anton Paar DMA 5000 digital vibrating U-tube densimeter (with automatic viscosity correction) having a stated accuracy ( 5 • 10 -3 kg • m -3 .…”

Densities and Excess Molar Volumes of the Ternary Mixture 2-Butanol + Chloroform + Benzene and Binary Mixtures 2-Butanol + Chloroform, or + Benzene over the Temperature Range (288.15 to 313.15) K

“…), chloroform (stabilized with amylene) by Riedel-de Haën with a purity of 99.8 mass %, and benzene by Aldrich with a purity of 99.9 mass % (HPLC). Table lists the measured densities of 2-butanol, chloroform, and benzene, which agree to within ± 0.07 kg·m −3 with most of the corresponding literature values. – …”

“…Table 1 lists the measured densities of 2-butanol, chloroform, and benzene, which agree to within ( 0.07 kg • m -3 with most of the corresponding literature values. [10][11][12][13] Measurements. Densities F of the ternary and binary mixtures and corresponding pure substances were measured by means of an Anton Paar DMA 5000 digital vibrating U-tube densimeter (with automatic viscosity correction) having a stated accuracy ( 5 • 10 -3 kg • m -3 .…”

Densities and Excess Molar Volumes of the Ternary Mixture 2-Butanol + Chloroform + Benzene and Binary Mixtures 2-Butanol + Chloroform, or + Benzene over the Temperature Range (288.15 to 313.15) K

“…), chloroform (stabilized with amylene) by Riedel-de Haën with a purity of 99.8 mass%, while benzene by Aldrich with a purity of 99.9 mass% (HPLC). Table 1 lists the measured densities [17] of the pure components at 298.15, and they agree within ±4 × 10 −5 g · cm −3 with most of the corresponding literature values [17,18].…”

Temperature Dependence of Densities and Excess Molar Volumes of the Ternary Mixture (1-Butanol + Chloroform + Benzene) and its Binary Constituents (1-Butanol + Chloroform and 1-Butanol + Benzene)

“…Chloroform (stabilized with amylene) was supplied by Riedel-de Haën with a purity of 99.8 %, and benzene was supplied by Aldrich with a purity of 99.9 % (HPLC). Table lists the measured densities of 1-propanol, chloroform, and benzene, which agree to within ± 0.09 kg·m -3 with most of the corresponding literature values. − …”

Densities and Excess Molar Volumes of the Binary 1-Propanol + Chloroform and 1-Propanol + Benzene and Ternary 1-Propanol + Chloroform + Benzene Mixtures at (288.15, 293.15, 298.15, 303.15, 308.15, and 313.15) K