2003
DOI: 10.1021/es034318d
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Identification of the Non-Pertechnetate Species in Hanford Waste Tanks, Tc(I)−Carbonyl Complexes

Abstract: Immobilization of the high-level nuclear waste stored at the Hanford Reservation has been complicated by the presence of soluble, lower-valent technetium species. Previous work by Schroeder and Blanchard has shown that these species cannot be removed by ion-exchange and are difficult to oxidize.The Tc-K edge XANES spectra of the species in Tanks SY-101 and SY-103 were reported by Blanchard, but they could not be assigned to any known technetium complex. We report that the XANES spectra are most likely those of… Show more

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Cited by 73 publications
(106 citation statements)
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“…The Department of Energy Hanford Site in eastern Washington State is the largest nuclear waste storage site in the United States, with 54 million gallons of radioactive waste contained underground in storage tanks [1][2][3]. The first tank leak, reported in 1956, was a result of corrosion, with about 67 tanks believed to have leaked about 0.75-1.5 million gallons of radioactive waste into the soil, resulting in the contamination of the vadose zone [4].…”
Section: Introductionmentioning
confidence: 99%
“…The Department of Energy Hanford Site in eastern Washington State is the largest nuclear waste storage site in the United States, with 54 million gallons of radioactive waste contained underground in storage tanks [1][2][3]. The first tank leak, reported in 1956, was a result of corrosion, with about 67 tanks believed to have leaked about 0.75-1.5 million gallons of radioactive waste into the soil, resulting in the contamination of the vadose zone [4].…”
Section: Introductionmentioning
confidence: 99%
“…The chemical form of technetium in the raw tank waste is usually pertechnetate, but lower valent complexes may be present in some tanks. [12][13][14][15][16] When the waste is incorporated into glass, the nitrate and nitrite will oxidize all of the organic compounds and will oxidize technetium to Tc(VII) (fused nitrate is an extremely powerful oxidizing agent). At the maximum temperature of the glass melt, Tc(VII) can lose oxygen and drop to a lower oxidation state, which likely will have a different solubility in the glass than Tc(VII).…”
mentioning
confidence: 99%
“…Because X-ray spectroscopic techniques do not destroy the sample, spectra can be obtained for several different elements in the same sample and the sample can be subsequently used for further experiments. X-ray spectroscopic techniques have been used to determine uranium speciation in soils from the deep subsurface in the northwestern USA [45] and from Kuwait [46], to analyze mercury speciation in soils [47 ], and to determine the chemistry of technetium in wastes [48]. Oliver et al [49,50] used X-ray spectroscopy to monitor Cr(VI) reduction in soil microcosms and this method was also used to monitor the microbial reduction of technetium [51] and uranium [52] by pure cultures, as well as to study uranium in microcosm studies [42 ].…”
Section: Solid Phase Based Methods For Metal Analysismentioning
confidence: 99%