| Institution: | 1.Department of Environmental Engineering, School of Metallurgy and Environment,Central South University,Changsha,China;2.Chinese National Engineering Research Center for Control & Treatment of Heavy Metal Pollution,Changsha,China;3.Administration of Quality and Technology Supervision of Hunan Province,Changsha,China |
| Abstract: | PurposeSoil contamination with arsenic (As) is an increasingly worldwide concern. Immobilization is a potentially reliable, cost-effective technique for the reclamation of As-contaminated soils. The aim of this study is to develop new soil amendments with high As immobilization efficiency, cost-effective, environmental-friendly, and without soil acidification for As-contaminated soil remediation.Materials and methodsBiosynthesis of schwertmannite by Acidithiobacillus ferrooxidans has been conducted, and two types of biogenetic schwertmannites SCH and A-SCH were prepared and characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), Fourier transform infrared spectroscopy (FTIR), etc. The A-SCH was formed through pretreating SCH by acidic and alkaline activation. The potential of SCH and A-SCH in As immobilization in contaminated soil was evaluated. The effect of ferrous sulfate and A-SCH on soil pH and immobilization of NaHCO3-extractable As were also investigated for comparison.Results and discussionThe chemical formula of SCH and A-SCH can be expressed as Fe8O8(OH)4.89(SO4)1.55 and Fe8O8(OH)5.19(SO4)1.41, respectively. Compared to SCH, A-SCH exhibits much higher specific surface area of 74.99 m2 g?1 and contains more hydroxyl groups and inner-sphere sulfate complexes. Immobilization efficiency of water-soluble As above 99.5 % can be achieved with A-SCH dosage of 5 % and SCH dosage of 10 %, respectively. The immobilization percentages of NaHCO3-extractable As increased from 31.5 to 90.4 % and from 40.2 to 93.8 % with increasing dosage from 0.5 to 10 wt % for SCH and A-SCH, respectively. In general, both SCH and A-SCH immobilize As in contaminated soil effectively, and the immobilization performance of A-SCH was better than that of SCH, especially at lower dosage.ConclusionsBiogenetic schwertmannite could be used as a potential effective soil amendment for As immobilization in contaminated soil. Our findings in this study also have important implications for in situ immobilization of As in contaminated soils, especially the soils related to acidic iron and sulfate-rich environments. |
