零价铁
斯沃特曼矿
化学
酸性矿井排水
共沉淀
核化学
X射线光电子能谱
腐植酸
降水
无机化学
吸附
环境化学
化学工程
针铁矿
有机化学
气象学
工程类
物理
肥料
作者
Hua Yin,Guining Lu,Xueqin Tao,Zhen Wen,Zhi Dang
标识
DOI:10.1016/j.jhazmat.2021.126952
摘要
A novel collaborative strategy for enhanced removal of Cr(VI) using nano zero valent iron (nZVI) assisted by schwertmannite (Sch) with two synthesis methods was designed. Batch experiments demonstrated that nZVI/Sch-AP (synthesized by abiotic precipitation of Fe3+ species) exhibited excellent removal performance for Cr(VI) than nZVI/Sch-CO (synthesized by chemical oxidation of Fe2+ species). The results indicated that the removal efficiencies of Cr(VI) by nZVI/Sch-AP and nZVI/Sch-CO were highly pH-dependent and achieved to be 99.99% and 98.01% under the optimal conditions of 10 mg L-1 Cr(VI) concentration, a pH of 6.3 and a Fe(0)/Cr(VI) molar ratio of 12. But nZVI/Sch-AP emerged greater k of 0.1097 min-1 than that of nZVI/Sch-CO (0.0485 min-1). Humic acid exhibited promotion effect on the Cr(VI) removal in low concentration of 1 mg L-1. Results of XRD and XPS demonstrated that α-FeOOH was the dominant products in both incubations of nZVI/Sch-AP and nZVI/Sch-CO, accompanied with FeCr2O4 and CrFe mixed (oxy)hydroxides, and γ-FeOOH was found alone in the incubations of nZVI/Sch-CO. We proposed a consecutive and simultaneous process involving surface absorption-reduction and co-precipitation/immobilization for the removal. This study provides new insights into the elimination of Cr(VI) from wastewater by nZVI/Sch, especially in acid mine drainage.
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