Title of article :
Immobilization of uranium and arsenic by injectible iron and hydrogen stimulated autotrophic sulphate reduction
Author/Authors :
D. Burghardt، نويسنده , , E. Simon، نويسنده , , K. Knoller، نويسنده , , A. Kassahun، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2007
Abstract :
The main object of the study was the development of a long-term efficient and inexpensive in-situ immobilization technology for uranium (U) and arsenic (As) in smaller and decentralized groundwater discharges from abandoned mining processing sites. Therefore, corrosion of grey cast iron (gcFe) and nano-scale iron particles (naFe) as well as hydrogen stimulated autotrophic sulphate reduction (aSR) were investigated. Two column experiments with sulphate reducing bacterias (SRB) (biotic gcFe , biotic naFe) and one abiotic gcFe-column experiment were performed. In the biotic naFe column, no particle translocation was observed and a temporary but intensive naFe corrosion indicated by a decrease in Eh, a pH increase and H2 evolution. Decreasing sulphate concentrations and 34S enrichment in the column effluent indicated aSR. Fe(II) retention could be explained by siderite and consequently FeS precipitation by geochemical modeling (PhreeqC). U and As were completely immobilised within the biotic naFe column. In the biotic gcFe column, particle entrapment in open pore spaces resulted in a heterogeneous distribution of Fe-enriched zones and an increase in permeability due to preferential flow. However, Fe(II) concentrations in the effluent indicated a constant and lasting gcFe corrosion. An efficient immobilization was found for As, but not for U.
Keywords :
arsenic , uranium , sulphate reduction , Iron corrosion , in-situ , Immobilization
Journal title :
Journal of Contaminant Hydrology
Journal title :
Journal of Contaminant Hydrology