Thermodynamics Research Center / ThermoML | Journal of Chemical Thermodynamics

ABSTRACT

The phase equilibrium and thermodynamic properties of FeSO4*7H2O in the FeSO4-Ti(SO4)2-H2SO4-H2O system are of critical significance because iron removal is one of the most important stages in the sulfate process for titania production. The solubility of the FeSO4*7H2O in the Ti(SO4)2-H2SO4-H2O system was measured over the temperature range from 278 to 298 K using a dynamic method. The initial concentrations of Ti(SO4)2 and H2SO4 were 0.2 1.0 mol kg 1 and 2.0 3.5 mol kg 1, respectively. It was found that the solubility of FeSO4 7H2O significantly increased with the temperature throughout the entire concentration ranges of H2SO4 and Ti(SO4)2. A new chemical model was developed by obtaining the parameters of the mixed-solvent electrolyte (MSE) model via regression of the solubility data of FeSO4*7H2O in the Ti (SO4)2-H2SO4-H2O system. The model with the newly obtained parameters was successfully applied to predict the sulfate speciation in both FeSO4-H2SO4-H2O and FeSO4-Ti(SO4)2-H2SO4-H2O systems and the crystallization behavior of FeSO4*7H2O. The results will provide fundamental data and thermodynamic information for improving the existing sulfate process for the production of titanium dioxide pigment.