Title of article :
A Nonextensive Electrolyte UNIQUAC Model for Prediction of Mean Activity Coefficients of Binary Electrolyte Solutions
Author/Authors :
Rezaei, H Chemical Engineering Department - Islamic Azad University - Shahrood Branch , Abdolrahimi, S Chemical Engineering Department - Amirkabir University of Technology - (Tehran Polytechnic), Tehran , Pazuki, G.R Chemical Engineering Department - Amirkabir University of Technology - (Tehran Polytechnic), Tehran , Rohani, A.A Refining Technology Development Division - Research Institute of Petroleum Industry - National Iranian Oil Company, Tehran
Abstract :
In this work, an electrolyte-UNIQUAC model was developed by replacement of Boltzmann weight binary interaction parameters by the
nonextensive Tsallis weight. A summation of the long-range electrostatic term (Debye-Huckel equation) and a short-range interaction term
were considered in the calculation of thermodynamic properties. A framework proposed by Chen et al. was employed for the derivation of
the local mole fractions. Application of the nonextensive theory increased the degree of freedom of the present model (T-E-UNIQUAC).
Furthermore, the strength of the model lies in its ability to calculate individual activity coefficients of ions. The applicability of the T-EUNIQUAC
model were tested using aqueous electrolyte solutions, and subsequently, results were compared with Messnaoui, Chen and
Pitzer models.
Keywords :
Electrolyte solutions , Activity coefficient , Tsallis weight
Journal title :
Astroparticle Physics
