Dissolution, Solubility, and Stability of the Basic Ferric Sulfate-Arsenates [Fe(SO4)x(AsO4)y(OH)z•nH2O] at 25-45°C and pH 2-10

Basic ferric sulfate-arsenates [FeSAsOH, Fe(SO4)(x)(AsO4)(y)(OH)(z)center dot nH(2)O] were prepared and characterized to study their potential fixation of arsenic in the oxidizing and acidic environment through a dissolution for 330d. The synthetic solids were well-shaped monoclinic prismatic crystals. For the dissolution of the sample FeSAsOH-1 [Fe(SO4)(0.27)(AsO4)(0.73) (OH)(0.27)center dot 0.26H(2)O] at 25-45 degrees C and initial pH 2, all constituents preferred to be dissolved in the order of AsO43- > SO42- > Fe3+ in 1-3 h, in the order of SO42- > AsO43- > Fe3+ from 1-3 h to 12-24 h, and finally in the order of SO42- > Fe3+ > AsO43-. The released iron, sulfate, and arsenate existed dominantly as Fe3+/Fe(OH)(2+)/FeSO4+, HSO4-/SO42-/FeSO4+, and H3AsO40/H2AsO4-, respectively. The higher initial pHs (6 and 10) could obviously inhibit the release of Fe3+ from solid into solution, and the solid components were released in the order of SO42- > AsO43- > Fe3+. The crystal tops were first dissolved, and the crystal surfaces were gradually smoothed/rounded until all edges and corners disappeared. The dissociations were restricted by the Fe-O(H) breakdown in the FeO6 octahedra and obstructed by the OH- and AsO4 tetrahedra outliers; the lowest concentration of the dissolved arsenic was 0.045 mg/L. Based on the dissolution experiment at 25 degrees C and pH 2, the solubility products (K-sp) for the basic ferric sulfate-arsenate [Fe(SO4)(0.27)(AsO4)(0.73) (OH)(0.27)center dot 0.26H(2)O], which are equal to the ion activity products (logIAP) at equilibrium, were calculated to be -23.04 +/- 0.01 with the resulting Gibbs free energies of formation (Delta G(f)(o)) of -914.06 +/- 0.03 kJ/mol.