Excess Molar Volumes and Viscosities for Binary Mixtures of 1-Alkoxypropan-2-ols with 1-Butanol, and 2-Butanol at 298.15 K and Atmospheric Pressure

Excess molar enthalpies H E m and excess molar volumes V E m have been determined for (2-methylpropane + 2-methylpropene), (2-methylpropane + propan-2-ol), and (2-methylpropene +propan-2-ol) at the temperatures (298.15 and 323.15) K and at the pressures (5, 10, and 15) MPa. For (alkane + alkene), H

Excess molar enthalpies H E m and excess molar volumes V E m have been determined for (butane+propan-1-ol) at temperatures (298.15, 323.15, and 348.15) K and at pressures (5, 10, and 15) MPa. The H E m results and the excess molar heat capacity C E p,m are positive, while V E m (x) is s-shaped, chan

Excess molar enthalpies H E m and excess molar volumes V E m have been determined for (propane+propan-1-ol) at a temperature T=348.15 K and pressures p=(5, 10, and 15) MPa. Large and positive H E m with a large positive temperature coefficient (excess molar heat capacity) C E p,m are explained in te

Excess volumes of (1,2-dichloroethane or 1,2-dibromoethane + each of several isomers of butanol) have been determined from density measurements at the temperatures \(298.15 \mathrm{~K}\) and \(313.15 \mathrm{~K}\) using an Anton-Paar dersimeter. The results show that excess volumes are positive over

The excess molar volumes V E m of [xH(CH2)n {O(CH2)2}3OH+(1-x)H2O] for n=1, 2, and 4 have been measured using a continuous-dilution dilatometer over the whole mole-fraction range at the temperature 298.15 K. All three mixtures show negative V E m . The results were used to estimate the apparent mola