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Abstract
In this study, the removal of MS2 by hematite in the absence and presence of As(V) was examined in batch experiments. The sorption tests demonstrate that As(V) could have a negative effect on MS2 removal by occupying sorption sites on hematite through competition with MS2, causing a decrease in MS2 removal. In the experiments (hematite dosages = 0.5–4.0 g L−1; reaction time = 4 h; MS2 concentration = 6.01 × 105 pfu mL−1), the percent removals of MS2 by hematite were in the range of 95.0–99.8%. In the presence of As(V) (=0.2 mg L−1), the percent removals of MS2 by hematite were 55–88% lower compared to removal in the absence of As(V). The inactivation of MS2 in an As(V) solution where no hematite was present was observed, showing that As(V) could have a positive effect on MS2 removal through the inactivation of MS2, resulting in an increase of MS2 removal. In the inactivation tests (reaction time = 4 h; As(V) concentration = 0.1–1.0 mg L−1; MS2 concentration = 3.68 × 105 pfu mL−1), the percent removals of MS2 were in the range of 4.1–11.1%. In another tests (reaction time = 6 h; As(V) concentration = 0.1–10 mg L−1; MS2 concentration = 4.10 × 105 pfu mL−1), the percent removals were in the range of 2.2–20.1%. This study demonstrates that As(V) mainly has a negative effect on MS2 removal by hematite through the competitive sorption, but a positive effect of As(V) via the inactivation of MS2 cannot be neglected.
Acknowledgements
This research was supported by the Korea Ministry of Environment as GAIA project.