Pseudo-Gruneisen parameter of molten salts and their binary mixtures

Abstract: The Flory’s statistical theory has been applied to evaluate the pseudo-Gruneisen parameter for pure molten salts and their isothermal composition dependant binary system. The agreement between the calculated and experimental values was found to be good. The experimental values of the pseudo-Gruneisen parameter (Γ) were evaluated by substituting experimental values of specific heat ratio (Γ) and thermal expansion coefficient (α) in the equation of state relationship Γ = (γ−1/Tα). (AIP)

“…It is well established that liquids support a quasi-crystalline model for their structure, the lattice nature being increased at high pressure and low temperature and the Gruneisen parameter can be used to study them. Its pseudo counterpart has been found to be suitable to investigate the internal structures, clustering phenomenon and other quasi crystalline properties of liquids, liquid mixtures [2][3][4][5], liquefied gases [6], liquid metal alloys [7] and higher alkanes [2].…”

Pseudo-Gruneisen Parameter and Internal Pressure of Binary Mixtures from different Approaches

“…It is well established that liquids support a quasi-crystalline model for their structure, the lattice nature being increased at high pressure and low temperature and the Gruneisen parameter can be used to study them. Its pseudo counterpart has been found to be suitable to investigate the internal structures, clustering phenomenon and other quasi crystalline properties of liquids, liquid mixtures [2][3][4][5], liquefied gases [6], liquid metal alloys [7] and higher alkanes [2].…”

Pseudo-Gruneisen Parameter and Internal Pressure of Binary Mixtures from different Approaches

Excess internal pressure, excess energy of vaporization and excess pseudo-Gruneisen parameter of binary, ternary and quaternary liquid mixtures

A comparative study of PFP and BAB models in predicting the excess thermo-acoustical and its allied properties of liquid ternary mixtures at 298.15 K