Low-Dose CaO₂ Enhanced Arsenite Coagulation via Elevating Solution pH and Persistently Oxidizing As(III) into As(V)

As a low-cost and commonly used technology, coagulation usually encounters two difficulties in disposing arsenite (As­(III)): (1) the removal efficiency is much lower than that of arsenate (As­(V)), and (2) acidic conditions are quite detrimental to As­(III) removal. Calcium peroxide (CaO₂) possesses dual functions of oxidizing pollutant and elevating solution pH. A CaO₂-enhanced coagulation method was thus constructed in this study, aiming to develop a versatile coagulation strategy to treat As­(III) pollution. Results showed that low-dose CaO₂ (20 mg/L) significantly improved As­(III) coagulation, and cocoagulation with Ti­(SO₄)₂ (10 mg Ti/L) achieved above 90% removal (initial As­(III) was 1.0 mg/L) at pH 4.0–7.0. The oxidation function of CaO₂ played the dominant role, whereas the pH-elevation mechanism worked a more prominent role with the increase of the CaO₂ dose. The CaO₂ with long-lasting oxidizing ability persistently converted As­(III) into As­(V), thus prompting the quick sequestration of resultant As­(V) by coagulation reaction. The dried flocs could be further reused as As­(III) adsorbent and reached a maximum adsorption capacity of 345.3 mg/g Ti (pH 5.0). CaO₂-enhanced coagulation was a universal As­(III) pollution control method with high efficiency and operational simplicity. For practical wastewater treatment, the dose of coagulant and CaO₂ should be further optimized according to As­(III) concentration, coagulant type, and water quality parameters.