Arsenic removal from high-arsenic water by enhanced coagulation with ferric ions and coarse calcite

Arsenic removal from high-arsenic water in a mine drainage system has been studied through an enhanced coagulation process with ferric ions and coarse calcite (38-74 μm) in this work. The experimental results have shown that arsenic-borne coagulates produced by coagulation with ferric ions alone were very fine, so micro-filtration (membrane as filter medium) was needed to remove the coagulates from water. In the presence of coarse calcite, small arsenic-borne coagulates coated on coarse calcite surfaces, leading the settling rate of the coagulates to considerably increase. The enhanced coagulation followed by conventional filtration (filter paper as filter medium) achieved a very high arsenic removal (over 99%25) from high-arsenic water (5 mg/l arsenic concentration), producing a cleaned water with the residual arsenic concentration of 13 μg/l. It has been found that the mechanism by which coarse calcite enhanced the coagulation of high-arsenic water might be due to attractive electrical double layer interaction between small arsenic-borne coagulates and calcite particles, which leads to non-existence of a potential energy barrier between the heterogeneous particles.

Arsenic removal; Coagulation; Coarse calcite; Colloidal stability; Ferric sulfate Calcite; Coagulation; Concentration (process); Ions; Microfiltration; Water; Arsenic removal; Coarse calcite; Colloidal stability; Ferric sulfate; Arsenic; arsenic; calcium carbonate; ferric ion; water; coagulation; pollutant removal; water treatment; article; filtration; microfiltration; mining; particle size; priority journal; surface property; water analysis; water supply

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