The purpose of this work is to evaluate the potential of modeling the self-diffusion coefficient (SDC) of real fluids in all fluid states based on Lennard-Jones analytical relationships involving the SDC, the temperature, the density and the pressure. For that, we generated an equation of state (EOS) that interrelates the self-diffusion coefficient, the temperature and the density of the Lennard-Jones (LJ) fluid. We fit the parameters of such LJ-SDC-EOS using recent wide ranging molecular simulation data for the LJ fluid. We also used in this work a LJ pressure-density-temperature EOS that we combined with the LJ-SDC-EOS to make possible the calculation of LJ-SDC values from given temperature and pressure. Both EOSs are written in terms of ...
Literature data on the thermophysical properties of the Lennard-Jones fluid, which were sampled with...
Our earlier molecular shape dependent theoretical model for self-diffusion in, and the viscosity of,...
Extensive isothermal-isobaric (NPT) molecular dynamics simulations at many different temperatures an...
Expressions for the selfdiffusion coefficient have been obtained using the memory function formalism...
The pressure dependence of the self-diffusion in simple nonpolar liquids has been examined. It is sh...
International audienceA new model for correlating self-diffusion coefficients is proposed here. It i...
A procedure to correlate self-diffusion coefficients in dense fluids by using the perturbation theor...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The Enskog theory for the self-diffusion coefficient for fluids with continuous potentials, such as ...
The authors propose a simple model for the calculation of the self-diffusion coefficient of classica...
A study was carried out to address the need to compute Lennard-Jones (LJ) densities as a function of...
A new model for correlating self-diffusion coefficients is proposed here. It is based on the entropy...
An empirical equation of state correlation is proposed for the Lennard-Jones model fluid. The equati...
Computed self diffusion coefficients for the Lennard-Jones and hard sphere fluids are related by Dej...
Among the numerous anomalies of water, the acceleration of dynamics under pressure is particularly p...
Literature data on the thermophysical properties of the Lennard-Jones fluid, which were sampled with...
Our earlier molecular shape dependent theoretical model for self-diffusion in, and the viscosity of,...
Extensive isothermal-isobaric (NPT) molecular dynamics simulations at many different temperatures an...
Expressions for the selfdiffusion coefficient have been obtained using the memory function formalism...
The pressure dependence of the self-diffusion in simple nonpolar liquids has been examined. It is sh...
International audienceA new model for correlating self-diffusion coefficients is proposed here. It i...
A procedure to correlate self-diffusion coefficients in dense fluids by using the perturbation theor...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The Enskog theory for the self-diffusion coefficient for fluids with continuous potentials, such as ...
The authors propose a simple model for the calculation of the self-diffusion coefficient of classica...
A study was carried out to address the need to compute Lennard-Jones (LJ) densities as a function of...
A new model for correlating self-diffusion coefficients is proposed here. It is based on the entropy...
An empirical equation of state correlation is proposed for the Lennard-Jones model fluid. The equati...
Computed self diffusion coefficients for the Lennard-Jones and hard sphere fluids are related by Dej...
Among the numerous anomalies of water, the acceleration of dynamics under pressure is particularly p...
Literature data on the thermophysical properties of the Lennard-Jones fluid, which were sampled with...
Our earlier molecular shape dependent theoretical model for self-diffusion in, and the viscosity of,...
Extensive isothermal-isobaric (NPT) molecular dynamics simulations at many different temperatures an...