Second-order excess derivatives for the 1,3-dichloropropane plus n-dodecane system

An experimental study of the behaviour of the second-order excess derivatives against composition and temperature for the 1.3-dichloropropane + n-dodecane system is presented. To this end, densities and speeds of sound were obtained in the interval 278.15-328.15 K with a step of 1 K. In addition, isobaric molar heat capacities were obtained in the temperature range 283.15-323.15 K. Measurements were performed over the whole composition range and at atmospheric pressure. Isentropic compressibilities were determined using the Laplace equation, and isobaric thermal expansivities were obtained in the interval 283.15-323.15 K from density data. Isothermal compressibilities and isochoric molar heat capacities within 283.15-323.15 K were derived from the above-mentioned properties via appropriate thermodynamic relations. The excess quantities for these properties were calculated using the ideality criterion first proposed by Benson and Kiyohara. Destruction of the 1,3-dichloropropane dipolar order during mixing appears to be the main effect to which the excess properties are sensitive. (C) 2002 Elsevier Science B.V. All rights reserved.