Intermolecular potentials from nmr data: C2H2, C2H2He, C2H2Ar, and C2H2N2

A systematic study was performed with mixtures consisting of N2, CH4, C2H6 and C3H8, to investigate experimentally phase equilibria and caloric properties and to test the accuracy of thermodynamic correlations. The first part of this Paper reports results of T-p-x-y measurements on ternary systems i

The successive C-H bond dissociation energies of CH,, &Hz. C2H4, and H&O (ketene) are determined using large basis sets and a high level of correlation treatment. For CHI, C2H2, and C2H4 the computed values are in excellent agreement with experiment. Using our results we recommend 107.9 +2.0 and 96.

Activity coefficients for the Ar-N,, CZH6-C2H4, and CSHB-CO2 systems are calculated from published vapour-liquid equilibrium compositions at various pressures and temperatures. The activity coefficients are correlated using a two parameter model based on the principles of molecular thermodynamics. T

A systematic study has been performed with mixtures consisting of N 2, CH 4, C2H 6 and C3H 8 to investigate experimentally phase equilibria and caloric properties and to test the accuracy of thermodynamic correlations. This Paper reports more results of T-p-x-y measurements on ternary systems in the

The C-H bond energy in C2H 6 is computed to be 99.76 \_+ 0.45 kcal/mol, which is in excellent agreement with the most recent experimental values. The calculation of the C-H bond energy by direct dissociation and by an isodesmic reaction is discussed.