Excess and unlike-Interaction second virial coefficients and excess molar enthalpy of (0.500CO + 0.500CO2)

The excess second virial coefficient for (1,1,1,2-tetrafluoroethane + propane) has been measured at temperatures of 299.5 K, 313.15 K, 328.15 K, and 343.15 K, using the pressure-change-on-mixing method. The excess enthalpy and unlike-interaction second virial coefficients are also reported. The resu

A flow-mixing calorimeter has been used to measure the excess molar enthalpy H E m ( p o ) of (carbon dioxide + dioxane)(g) and (propane + dioxane)(g) at standard atmospheric pressure ( p o ) = 0.101325 MPa over the temperature range T = (373.2 to 433.2) K. The measurements on (propane + dioxane) we

Excess and intkcfion second vhial coefficients h&e been measured over the temperature range 293-321 K For the systems He-N2, He-CO\*, He-NZO, Hea, He-SFe, BE are e&mated to have an accuracy of 0.3 cm3 mol-\* He-CFa and Ar-SFe. The excess second virial coefficients

Flow calorimetric measurements of the excess molar enthalpy H E m of {yN2+(1-y)C3H8}(g) at standard atmospheric pressure over the temperature range T=(241.2 to 393.4) K, and of {yN2+(1-y)C4H10}(g) made over the temperature range T=(283.4 to 393.5) K are reported. The measurements were analysed using

Second virial coefficients of chloromethane and chloroethane from measurements of the ( ) () excess enthalpy of 0.5N H 0.5CH Cl g , and 2 3 ( ) () 0.5N H C H Cl g . The excess enthalpy of 2 2 5 ( ) ( ) 0.5CH Cl H 0.5C H Cl g 3 2 5

Values of the second virial coefficient B of benzene and cyclohexane have been obtained from measurements of the excess molar enthalpy H E m of {yN2 + (1y)C6H6} and {yN2+(1-y)C6H12} measured at standard atmospheric pressure over the temperature range 333.2 to 433.2 K. In a hypothetical mixture of an