2002
DOI: 10.1016/s0378-3812(01)00638-0
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Excess properties of liquid mixtures from the perturbation theory of Barker–Henderson

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Cited by 9 publications
(12 citation statements)
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“…The generating functionals for the Green functions are written in the form of the path integrals, which are generally not Gaussian, and these integrals are calculated by perturbation theory. The perturbation methods with truncated potentials were also found to be successful to produce the properties of many body systems [15,27]. Hopefully, this formulation in terms of the density matrices may be a useful tool for further analysis of the effects of the disordered potentials, which would be worthwhile to provide a better understanding of the localization.…”
Section: Discussionmentioning
confidence: 93%
“…The generating functionals for the Green functions are written in the form of the path integrals, which are generally not Gaussian, and these integrals are calculated by perturbation theory. The perturbation methods with truncated potentials were also found to be successful to produce the properties of many body systems [15,27]. Hopefully, this formulation in terms of the density matrices may be a useful tool for further analysis of the effects of the disordered potentials, which would be worthwhile to provide a better understanding of the localization.…”
Section: Discussionmentioning
confidence: 93%
“…In this theory, molecules are modeled as chains of bonded spherical segments and the properties of a fluid are obtained by expanding about the same properties of a reference fluid. Gross and Sadowski (2001) proposed the perturbed-chain modification (PC-SAFT) to account for the effects of chain length on the segment dispersion energy, by extending the perturbation theory of Barker and Henderson (1969) to a hard chain reference (Koyuncu et al 2002). This version of SAFT properly predicts the phase behavior of mixtures containing high molecular weight fluids such as the large wax molecules.…”
Section: Pc-saft Modelmentioning
confidence: 99%
“…where ρ = N V is the number density of hard-sphere mixture, and the equivalent hard-sphere diameter, d m , is composition dependent [3]:…”
Section: Equations Of State For Hard-spheresmentioning
confidence: 99%
“…where λ ij is a parameter, whose value depends on the nature of the mixture and can be estimated by fitting to an experimental data [28] or to second virial coefficient data [3]. The values of λ ii and λ ij , which are related to a pure component and mixture, respectively, are given in Ref.…”
Section: Perturbation Theory Of Leonard-henderson-barkermentioning
confidence: 99%
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