Felix F. Betancourt-Cárdenas scite author profile

The long-range triangle-well fluid has been studied using three different approaches: firstly, by an analytical equation of state obtained by a perturbation theory, secondly via a self-consistent integral equation theory, the so-called self-consistent Ornstein-Zernike approach (SCOZA) which is presently one of the most accurate liquidstate theories, and finally by Monte Carlo simulations. We present vapour-liquid phase diagrams and thermodynamic properties such as the internal energy and the pressure as a function of the density at different temperatures and for several values of the potential range. We assess the accuracy of the theoretical approaches by comparison with Monte Carlo simulations: the SCOZA method accurately predicts the thermodynamics of these systems and the first-order perturbation theory reproduces the overall thermodynamic behaviour for ranges greater than two molecular diameters except that it overestimates the critical point. The simplicity of the equation of state and the fact that it is analytical in the potential range makes it a good candidate to be used for calculating other thermodynamic properties and as an ingredient in more complex theoretical approaches.

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Densities and derived thermodynamic properties of 1-heptanol and 2-heptanol at temperatures from 313K to 363K and pressures up to 22MPa

Zúñiga‐Moreno

Galicia‐Luna

Betancourt-Cárdenas

2008

The Journal of Chemical Thermodynamics

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Felix F. Betancourt-Cárdenas

Compressed liquid densities and excess volumes of CO2+thiophene binary mixtures from 313 to 363K and pressures up to 25MPa

Equation of state for the Lennard–Jones fluid based on the perturbation theory

Thermodynamic properties for the triangular-well fluid

Thermodynamics of a long-range triangle-well fluid

Densities and derived thermodynamic properties of 1-heptanol and 2-heptanol at temperatures from 313K to 363K and pressures up to 22MPa

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