Seawater Usage in Flotation for Minerals Beneficiation in Arid Regions

Due to the shortage of fresh water in the Middle East, seawater has been used as an alternative in flotation beneficiation. The flotation process requires about 7 m3 of water/mt ore. This article aims to study the effect of seawater cations and anions on the flotation. Natural pure francolite, calcite, dolomite and quartz were characterized by chemical, thermal and x-ray diffraction analyses, surface area, solubility and zeta potential. Synthetic seawater was prepared with the major chemical composition similar to natural seawater as follow; 2.45% NaCl, 0.52% MgCl2, 0.41% Na2SO4, 0.116% CaCl2 and 0.07% KCl. Also, natural seawater was used in application. The point zero of charge was estimated at pH 6.5, 7.8, 9.2 and 2.2 for francolite, calcite, dolomite and quartz, respectively. Calcium ions were released from the three minerals with Mg2+ and P2O5 3– released from dolomite and phosphate, respectively. The adsorption of collector, zeta-potential and floatability of pure minerals were studied. The effect of individual cations and anions predominant in seawater are studied on individual mineral or group. The troublesome Ca2+ and Mg2+ ions should be controlled by soda ash addition. Sodium silicate improved the selectivity of mineral mixtures and natural ore. At optimum conditions the calcareous phosphate ore yielded a concentrate of 34% P2O5, at 83% recovery with 0.61% MgO, from an ore assaying 25.3% P2O5 and 9.4% MgO. To minimize the Clcontent, fresh water of about 0.5 m3 /t was used and the Cl- decreased to about 0.09 %