Thermophysical Study on the Mixing Properties of Mixtures Comprising 2-(2-Methoxyethoxy)ethanol, Butan-1-ol, Butan-2-ol, and Propan-1-ol

“…This work is a continuation of our previously published research on the thermodynamic properties of mixtures composed of alkoxyethanols, hydrocarbons, and alcohols. − In this work, we report new p ρ T experimental data of the mixture 1-propanol + 2-(2-methoxyethoxy)­ethanol at pressures up to 140 MPa and temperatures between 298.15 and 393.15 K. The isobaric thermal expansion and the isothermal compressibility for the same mixture are derived for six mole fractions. The experimental densities of the studied binary mixture of 1-propanol + 2-(2-methoxyethoxy)­ethanol were correlated using the Tait-like equation and predicted using PC-SAFT and Peng–Robinson equations of state.…”

“…Excess Volumes. The excess volume, V E , was calculated using the following equation: 18) with n: the number of components; x i: the composition of component i in the mixture; M i : the molar mass; while ρ and ρ i are the experimental densities of the studied binary mixture and pure component i, respectively. The density of pure 1-propanol and pure 2-(2-methoxyethoxy)ethanol is reported in Table 2, and they are used for the calculation of V E .…”

Measurement of Liquid Density of Mixtures of 1-Propanol + 2-(2-Methoxyethoxy)ethanol at Temperatures from 298.15 to 393.15 K and Pressures up to 140 MPa and Modeling Using PC-SAFT and Peng–Robinson Equations of State

“…This work is a continuation of our previously published research on the thermodynamic properties of mixtures composed of alkoxyethanols, hydrocarbons, and alcohols. − In this work, we report new p ρ T experimental data of the mixture 1-propanol + 2-(2-methoxyethoxy)­ethanol at pressures up to 140 MPa and temperatures between 298.15 and 393.15 K. The isobaric thermal expansion and the isothermal compressibility for the same mixture are derived for six mole fractions. The experimental densities of the studied binary mixture of 1-propanol + 2-(2-methoxyethoxy)­ethanol were correlated using the Tait-like equation and predicted using PC-SAFT and Peng–Robinson equations of state.…”

“…Excess Volumes. The excess volume, V E , was calculated using the following equation: 18) with n: the number of components; x i: the composition of component i in the mixture; M i : the molar mass; while ρ and ρ i are the experimental densities of the studied binary mixture and pure component i, respectively. The density of pure 1-propanol and pure 2-(2-methoxyethoxy)ethanol is reported in Table 2, and they are used for the calculation of V E .…”

Measurement of Liquid Density of Mixtures of 1-Propanol + 2-(2-Methoxyethoxy)ethanol at Temperatures from 298.15 to 393.15 K and Pressures up to 140 MPa and Modeling Using PC-SAFT and Peng–Robinson Equations of State