Articles

type: Journal
Title DOI Date
Energy Effects on the Structure and Thermodynamic Properties of Nanoconfined Fluids (A density functional theory study) #
Relaxation time for bulk viscosity of soft-sphere and Lennard-Jones Fluids #
calculation of the second virial coefficient of the nonspherical molecules in binry mixtures #
A new expression for radial distribution function and infinite shear modulus of Lennard-Jones fluids #
An analytical model for nano confined fluids phase-transition Applications for Confined Fluids in Nanotube and Nanoslit #
Investigation of the density dependence of the shear relaxation time of dense fluids #
Prediction of the long-range correlation length and structure of factor for monatomic fluids in the supercritical region #
the state dependency pf the the effective pair potential parameters #
Prediction of the small-k behavior of the structure factor (S(k)) for Rubidium and Cesium via a new model for the Direct correlation function and evaluation of some reported effective pair potentials #
High-Frequency shear modulus and relaxation time of soft-sphere and Lennard-Jones Fluids #
Prediction of Low K- behavior of S(k) via a new modelfor the DCF in sub and supercritical regions #
Hard-Like Equation of State #
The Direct correlation function and its interpretation via the LInear Isotherm Regularity #
comparision of the Equations of state from Joule-Thomson coefficient #
solubility prediction using statistical mechanics #
Prediction of the metal -non-metal tansition using the Linear Isotherm Regularity #
Prediction of the Attractive Branch of the Effective Pair Potential by Using the Joule- Thomson Inversion Curve #
Prediction of the Inversion Curve and the Maximum Value of the J- T for Some Refrigerants #
prediction of the hydrocarbon and cfc liquid mixtures densities #
type: Conference
Title Date
Attractive energy contribution to nono-confined fluids behavior the normalpressure tensor