Add to ORKGIn this paper we investigate the solubility of a hard-sphere gas in a solvent modeled as an associating lattice gas. The solution phase diagram for solute at 5% is compared with the phase diagram of the original solute free model. Model properties are investigated both through Monte Carlo simulations and a cluster approximation. The model solubility is computed via simulations and is shown to exhibit a minimum as a function of temperature. The line of minimum solubility (TmS) coincides with the line of maximum density (TMD) for different solvent chemical potentials, in accordance with the literature on continuous realistic models and on the “cavity” picture
We present the exact Bethe lattice solution for a lattice gas Potts model defined in the generalized...
Two different lattice models of hard-core molecules with attractions are discussed. Both of them ref...
We study the cluster properties of the lattice-gas model (isomorphous to the usual ferromagnetic Isi...
In this paper we investigate the solubility of a hard-sphere gas in a solvent modeled as an associat...
We have investigated the phase diagram of a statistical model for hydrogen-bonding solutions for pol...
A lattice model for the study of mixtures of associating liquids is proposed. Solvent and solute are...
We investigate the relation between thermodynamic and dynamic properties of an associating lattice g...
Abstract Well established equation-of-state (EoS) models from Perturbed Hard Sphere Chain Theory ...
In recent years, several publications have provided solubilities of ordinary gases and liquids in io...
he liquid crystal phase behavior of linear and partially flexible hard-sphere chain fluids and the s...
AbstractWe study a purely repulsive lattice gas model. The chemical versus temperature phase diagram...
This thesis is a contribution to the understanding of solvent effects on the thermodynamic propertie...
We present a theory that predicts the phase behavior of hard spheres (HS) mixed with non-adsorbing s...
We study lattice gas models with the imposition of a constraint on the maximum number of bonds (near...
We study a purely repulsive lattice gas model. The chemical versus temperature phase diagram is obta...
We present the exact Bethe lattice solution for a lattice gas Potts model defined in the generalized...
Two different lattice models of hard-core molecules with attractions are discussed. Both of them ref...
We study the cluster properties of the lattice-gas model (isomorphous to the usual ferromagnetic Isi...
In this paper we investigate the solubility of a hard-sphere gas in a solvent modeled as an associat...
We have investigated the phase diagram of a statistical model for hydrogen-bonding solutions for pol...
A lattice model for the study of mixtures of associating liquids is proposed. Solvent and solute are...
We investigate the relation between thermodynamic and dynamic properties of an associating lattice g...
Abstract Well established equation-of-state (EoS) models from Perturbed Hard Sphere Chain Theory ...
In recent years, several publications have provided solubilities of ordinary gases and liquids in io...
he liquid crystal phase behavior of linear and partially flexible hard-sphere chain fluids and the s...
AbstractWe study a purely repulsive lattice gas model. The chemical versus temperature phase diagram...
This thesis is a contribution to the understanding of solvent effects on the thermodynamic propertie...
We present a theory that predicts the phase behavior of hard spheres (HS) mixed with non-adsorbing s...
We study lattice gas models with the imposition of a constraint on the maximum number of bonds (near...
We study a purely repulsive lattice gas model. The chemical versus temperature phase diagram is obta...
We present the exact Bethe lattice solution for a lattice gas Potts model defined in the generalized...
Two different lattice models of hard-core molecules with attractions are discussed. Both of them ref...
We study the cluster properties of the lattice-gas model (isomorphous to the usual ferromagnetic Isi...