Rapid Immobilization of Transferable Ni in Soil by Fe78Si9B13 Amorphous Zero-Valent Iron  

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作  者:Liefei Pei Xiangyun Zhang Zizhou Yuan 

机构地区:[1]School of Materials Science and Engineering,Lanzhou University of Technology,Lanzhou,730050,China

出  处:《Journal of Renewable Materials》2022年第4期955-968,共14页可再生材料杂志(英文)

基  金:This research was funded by the National Natural Science Foundation of China(NSFC)[Grant Nos.51661015 and 52061024];the Natural Science Foundation of Zhejiang Province[Grant No.LQ20E010002]。

摘  要:Fe-Si-B amorphous zero-valent iron has attracted wide attention because of its efficient remediation of heavy metals and dye wastewater.In this paper,the remediation effect of amorphous zero-valent iron powder(Fe78Si9-B13^(AP))on Ni contaminated soil was investigated.Results show that the immobilization efficiency of nickel in soil by Fe_(78)Si_(9)B_(13)^(AP)with low iron content is higher than that by ZVI.The apparent activation energies of the reactions of Fe_(78)Si_(9)B_(13)^(AP)with Ni^(2+)ions is 25.31 kJ/mol.After continuing the reaction for 7 days,Ni^(2+)ions is mainly transformed into monoplasmatic nickel(Ni0)and nickel combined with iron(hydroxide)oxides.Microstructure investigations show that the product layer with nano-pore structure is beneficial to improve the reaction activity of Fe_(78)Si_(9)B_(13)^(AP).After that,a magnetic separation process is introduced,in which part of the immobilized Ni are removed to reduce the total Ni content in soil by 58.21%.The results of simulated acid rain leaching experiment showed that the release of Ni in the soil after Fe_(78)Si_(9)B_(13)^(AP)remediation is 62.89%lower than that before remediation.

关 键 词:Amorphous alloy soil contamination NICKEL magnetic separation 

分 类 号:X53[环境科学与工程—环境工程]

 

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