Add to ORKGThe oxidative remobilization of uranium from biogenic U(IV) precipitates was investigated in bioreduced sediment suspensions in contact with atmospheric O2 with an emphasis on the influence of Fe(II) and pH on the rate and extent of U release from the solid to the aqueous phase. The sediment was collected from the U.S. Department of Energy Field Research Center (FRC) site at Oak Ridge, Tennessee. Biogenic U(IV) precipitates and bioreduced sediment were generated through anaerobic incubation with a dissimilatory metal reducing bacterium Shewanella putrefaciens strain CN32. The oxidative remobilization of freshly prepared and 1-yr aged biogenic U(IV) was conducted in 0.1 mol/L NaNO3 electrolyte with variable pH and Fe(II) concentrations. Biog...
Uranium contaminations of the subsurface in the vicinity of nuclear materials processing sites pose ...
The research in Y02 was focused on the design and execution of experiments in the abiotic reduction ...
Bioreduction-based strategies for remediating uranium (U)-contaminated sediments face the challenge ...
The oxidative remobilization of uranium from biogenic U(IV) precipitates was investigated in bioredu...
The research in FY04 was focused in five specific topics: (1) U(VI) sorption on microbially and abio...
Bioreduction of U in contaminated sediments is an attractive strategy because of its low cost, and b...
This research focuses on the conditions and rates under which uranium will be remobilized after it h...
Reductive immobilization of uranium by the stimulation of dissimilatory metal-reducing bacteria (DMR...
It has generally been assumed that the bioreduction of hexavalent uranium in groundwater systems wil...
Reductive immobilization of uranium by the stimulation of dissimilatory metal-reducing bacteria (DMR...
The influence of sediment bioreduction and reoxidation on U(VI) sorption was studied using Fe(III) o...
The removal of uranium (VI) from zerovalent iron permeable reactive barriers and wetlands can be exp...
Stimulation of U(VI) bioreduction is becoming an attractive in-situ method for stabilizing U in cont...
The influence of sediment bioreduction and reoxidation on U(VI) sorption was studied using Fe(III) o...
Mining and processing of uranium ore, followed by improper disposal and aging nuclear waste infrastr...
Uranium contaminations of the subsurface in the vicinity of nuclear materials processing sites pose ...
The research in Y02 was focused on the design and execution of experiments in the abiotic reduction ...
Bioreduction-based strategies for remediating uranium (U)-contaminated sediments face the challenge ...
The oxidative remobilization of uranium from biogenic U(IV) precipitates was investigated in bioredu...
The research in FY04 was focused in five specific topics: (1) U(VI) sorption on microbially and abio...
Bioreduction of U in contaminated sediments is an attractive strategy because of its low cost, and b...
This research focuses on the conditions and rates under which uranium will be remobilized after it h...
Reductive immobilization of uranium by the stimulation of dissimilatory metal-reducing bacteria (DMR...
It has generally been assumed that the bioreduction of hexavalent uranium in groundwater systems wil...
Reductive immobilization of uranium by the stimulation of dissimilatory metal-reducing bacteria (DMR...
The influence of sediment bioreduction and reoxidation on U(VI) sorption was studied using Fe(III) o...
The removal of uranium (VI) from zerovalent iron permeable reactive barriers and wetlands can be exp...
Stimulation of U(VI) bioreduction is becoming an attractive in-situ method for stabilizing U in cont...
The influence of sediment bioreduction and reoxidation on U(VI) sorption was studied using Fe(III) o...
Mining and processing of uranium ore, followed by improper disposal and aging nuclear waste infrastr...
Uranium contaminations of the subsurface in the vicinity of nuclear materials processing sites pose ...
The research in Y02 was focused on the design and execution of experiments in the abiotic reduction ...
Bioreduction-based strategies for remediating uranium (U)-contaminated sediments face the challenge ...