Analysis of components from drip tests with ATM-10 glass

Fortner, J.; Bates, J.K.; Gerding, T.J.

doi:10.2172/459914

Cited by 5 publications

(13 citation statements)

References 8 publications

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“…The chemical compositions of the individual phases are characterized by the EDS spectra of Figure 16, while EELS analysis of REE and actinides in the brockite appears in Figure 17. The distribution of rare earths and actinides at 8 years is virtually identical to that observed in tests terminated after 1 year (Fortner et al , 1997a. At one year, very little spallation was observed in terminated test glass surfaces (Fortner et al , 1997a.…”

Section: Claysupporting

confidence: 65%

“…Growth occurs as the hydrated layer beneath the existing clay dissolves and the elements from solution saturate and reprecipitate onto the surface of the clay. This growth mechanism leads to the observed "backbone" structure of the clays in the N3 test glasses (Fortner et al 1997a). The very thin clay layers observed early in a test tend to have lattice planes somewhat oriented parallel with the surface, suggesting the original restructuring of the gel at the gel-water interface.…”

Section: Notementioning

confidence: 88%

“…This layer may spall away, however, as stress builds up in the structure and as the glass etches away. This is likely the origin of the clay colloid particles observed in solution from the N3 Drip Tests (Buck and Bates 1999;Fortner et al , 1997aFortner et al , 1997bFortner and Bates 1996). December 2000 The apparent role of colloids in actinide release in the drip tests is illustrated in Figure 10.…”

Section: Notementioning

confidence: 98%

“…Data used in these analyses include at least ten years of testing for the static glass tests (Ebert 1995;Buck and Bates 1999; DTN: LL991110251021.099), over ten years of testing for the glass drip tests Fortner et al 1997aFortner et al , 1997b; DTN: LL000205551021.118), and over four years of testing for the spent fuel tests (Finn et al 1994a(Finn et al , 1994b; DTN: LL991001251021.090). The methods employed for colloid characterization in this section are TEM and filtration (analysis of filtrates with inductively coupled plasma-mass spectrometry (ICP-MS) or alpha spectroscopy).…”

Section: The Nature Of Waste Form Colloidsmentioning

confidence: 99%

“…Additional air is also injected into the test vessel with the water. Details of the test procedure are given elsewhere (Fortner et al 1997a). Tests using actinide-and technetium-doped SRL 165 glass have been ongoing for over 12 years and are termed the N2 Tests.…”

Section: Properties Of Colloids Generated From Glass Testsmentioning

confidence: 99%

See 4 more Smart Citations

Colloid-Associated Radionuclide Concentration Limits: ANL

Mertz¹

2000

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Section: Claysupporting

confidence: 65%

Section: Notementioning

confidence: 88%

Section: Notementioning

confidence: 98%

Section: The Nature Of Waste Form Colloidsmentioning

confidence: 99%

Section: Properties Of Colloids Generated From Glass Testsmentioning

confidence: 99%

See 3 more Smart Citations

Colloid-Associated Radionuclide Concentration Limits: ANL

Mertz¹

2000

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Effects of Al:Si and (Al+Na):Si ratios on the static corrosion of sodium‐boroaluminosilicate glasses

Reiser

Parruzot

Gin

et al. 2021

Int J of Appl Glass Sci

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Understanding alteration mechanisms of borosilicate glasses in aqueous media is essential to nuclear waste performance assessments to ensure radioisotopes are contained for extended durations. Aluminum is typically added to glass compositions to reduce the extent of alteration. However, previous work on 7-day durability tests has suggested that Al has a nonlinear relationship with extent of alteration. The effects of Al:Si and (Al+Na):Si substitutions on glass durability were evaluated using series of glasses based on the International Simple Glass corroded in static conditions up to 13 months in deionized water at 90°C. The alteration behavior was determined by measurement of element release in solution. The ~7-day alteration trends across the series were consistent with predicted trends. The 13-month results indicated overall alteration decreased as Al:Si ratios increased and was unaffected by changes in (Al+Na):Si except for the glass with the highest (Al+Na):Si ratio (ISG-A23N), which completely altered within 14 days. Frequent sampling and in situ Raman measurements of solutions revealed ISG-A23N experienced several distinguishable alteration rate regimes within 7 days, forming a ~100 µm alteration layer and a NaSiAlO 4 zeolite.

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Sorption behaviour of Am on precorroded HLW glass in water and brines

Luckscheiter¹,

Nesovic

2002

Radiochimica Acta

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In the alteration layer of HLW glasses corroded in aqueous solutions, less soluble elements like REE, actinides and other elements are retained by sorption or by formation of secondary alteration products controlling the solution concentrations. In order to quantify the sorption effect on the retention of metal ions, first sorption tests with U, Th and Eu have been performed using precorroded, simulated HLW glass as substrate.To demonstrate that the sorption behaviour of Eu is also representative for homologue trivalent actinides additional sorption tests were performed with Am 241 in deionized water, NaCl and MgCl 2 brine. Distribution ratios R s (R s = Am sorb /Am sol × V/m) for Am were found independent of the starting concentration in the pH range 2 to 6. At higher pH, a high amount of Am-containing colloidal particles were detected. The R s values of Am show a strong increase with pH, quite similar to the R s values of Eu. In general, the sorption behaviour of Eu and Am is very similar in deionized water and in brines. Clay minerals formed in the gel layer as secondary phases during long-term glass corrosion are assumed to act primilary as strong sorbents. Therefore, the sorption of REE and Am onto synthetic poor crystalline smectite precursors and a "well crystallized" natural smectite is compared with the findings obtained from precorroded glass. The sorption of Am on the precorroded glass is found to be much stronger than the retention on the investigated pure clay phases, indicating a different number of active sites or occurance of a different sorption mechanism.

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Analysis of components from drip tests with ATM-10 glass

Cited by 5 publications

References 8 publications

Colloid-Associated Radionuclide Concentration Limits: ANL

Colloid-Associated Radionuclide Concentration Limits: ANL

Effects of Al:Si and (Al+Na):Si ratios on the static corrosion of sodium‐boroaluminosilicate glasses

Sorption behaviour of Am on precorroded HLW glass in water and brines

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