Impact Of Particle Agglomeration On Accumulation Rates In The Glass Discharge Riser Of HLW Melter

Kruger, A. A.; Rodriguez, C. A.; Matyas, J.; Owen, A. T.; Jansik, D. P.; Lang, J. B.

Title: Impact Of Particle Agglomeration On Accumulation Rates In The Glass Discharge Riser Of HLW Melter

Conference · Mon Nov 12 00:00:00 EST 2012

OSTI ID:1055734

Kruger, A. A. ^[1]; Rodriguez, C. A. ^[2]; Matyas, J. ^[2]; Owen, A. T. ^[2]; Jansik, D. P. ^[2]; Lang, J. B. ^[2]

Department of Energy, Office of River Protection, Richland, WA (United States)
Pacific Northwest National Laboratory, Richland, WA (United States)

The major factor limiting waste loading in continuous high-level radioactive waste (HLW) melters is an accumulation of particles in the glass discharge riser during a frequent and periodic idling of more than 20 days. An excessive accumulation can produce robust layers a few centimeters thick, which may clog the riser, preventing molten glass from being poured into canisters. Since the accumulation rate is driven by the size of particles we investigated with x-ray microtomography, scanning electron microscopy, and image analysis the impact of spinel forming components, noble metals, and alumina on the size, concentration, and spatial distribution of particles, and on the accumulation rate. Increased concentrations of Fe and Ni in the baseline glass resulted in the formation of large agglomerates that grew over the time to an average size of ~185+-155 {mu}m, and produced >3 mm thick layer after 120 h at 850 deg C. The noble metals decreased the particle size, and therefore significantly slowed down the accumulation rate. Addition of alumina resulted in the formation of a network of spinel dendrites which prevented accumulation of particles into compact layers.

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Research Organization:: Hanford Site (HNF), Richland, WA (United States)

Sponsoring Organization:: USDOE Office of Environmental Management (EM) (United States)

DOE Contract Number:: DE-AC27-08RV14800

OSTI ID:: 1055734

Report Number(s):: ORP-53909-FP Rev 0; TRN: US1300297

Resource Relation:: Conference: MS&T'12 (American Ceramic Society ACS), Pittsburgh, Pennsylvania (United States), 7-11 Oct, 2012

Country of Publication:: United States

Language:: English

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