高铁酸钾
化学
水溶液
絮凝作用
吸附
无机化学
钾
水处理
水解物
纳米颗粒
核化学
氧化还原
氯
反应机理
动力学
胶体
化学反应
化学工程
间歇式反应器
碱性溶液
降级(电信)
作者
Ning Wang,Nannan Wang,Li Tan,Ru Zhang,Qian Zhao,Hongbo Wang
标识
DOI:10.1016/j.scitotenv.2020.138541
摘要
This study investigated the effects of potassium ferrate (K2FeO4) dosage, pH, and reaction time on the removal of aqueous As(III) and Sb(III), and revealed the oxidation and flocculation mechanism of K2FeO4. The results show that the removal efficiencies of As(III) and Sb(III) were highly related to the hydrolysate of K2FeO4 under acidic conditions, while the efficiencies were low under alkaline condition, owning to the electrostatic repulsion between iron nanoparticles and charged As/Sb species. The increased dosage and reaction time improved the adsorption performance. Based on the comparative experiments with FeCl3, the simultaneous removal of As(III) and Sb(III) by K2FeO4 suggested that As(III) was eliminated due to the processes of oxidation, flocculation, and chemical precipitation, while Sb(III) was removed mostly by oxidation and flocculation. The generated precipitates were characterized with surface analysis and the results support that the oxidization property of K2FeO4 was essential during the removal of As(III) and Sb(III), and removal mechanisms between both elements were different.
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