Issue 2, 1998

Benzene–dimethyl ketone association

Excess molar enthalpy of (cyclohexane + dimethyl ketone)(g) and (benzene + dimethyl ketone)(g) from temperatures of 353.2 to 403.2 K

Abstract

A differential flow mixing calorimeter has been used to measure the excess molar enthalpy HmE of (cyclohexane + dimethyl ketone)(g) and (benzene + dimethyl ketone)(g) at standard atmospheric pressure over the temperature range 353.2–403.2 K. The non-ideality of the cyclohexane and benzene was fitted using the Kihara potential, and that of the dimethyl ketone using the Stockmayer potential. Cross terms were calculated using the equation ε12 = (1 − k12)(ε11ε22)1/2 and to fit the measurements on (cyclohexane + dimethyl ketone)(g) the value (1 − k12) = 1.175 was needed. None of the usual combining rules give this value.

The measurements on (benzene + dimethyl ketone)(g) could not be fitted by adjusting the value of (1 − k12), though an approximate fit could be obtained using the value 1.38. The difference between the experimental values of HmE for (benzene + dimethyl ketone)(g) and those calculated using (1 − k12) = 1.175, the value appropriate to (cyclohexane + dimethyl ketone)(g), was described in terms of a quasi-chemical model, which, for the benzene–dimethyl ketone interaction, yielded a value of the equilibrium constant K12(298.15 K) = 0.349 MPa−1 and an enthalpy of association ΔH12 = −(16.4 ± 2) kJ mol−1 . This value of ΔH is attributed to a charge transfer interaction between the benzene and dimethyl ketone molecules which is not present in the cyclohexane–dimethyl ketone interaction.

Article information

Article type
Paper

J. Chem. Soc., Faraday Trans., 1998,94, 207-212

Benzene–dimethyl ketone association

C. J. Wormald and J. C. Mayr, J. Chem. Soc., Faraday Trans., 1998, 94, 207 DOI: 10.1039/A706117J

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