Effect of Silica Particle Size of Nuclear Waste-to-Glass Conversion - 17319

Dixon, Derek R.; Cutforth, Derek A.; Vanderveer, Bradley J.; Schweiger, Michael J.; Hrma, Pavel R.

Title: Effect of Silica Particle Size of Nuclear Waste-to-Glass Conversion - 17319

Conference · Mon May 22 00:00:00 EDT 2017

OSTI ID:1440654

Dixon, Derek R.; Cutforth, Derek A.; Vanderveer, Bradley J.; Schweiger, Michael J.; Hrma, Pavel R.

The process for converting nuclear waste-to-glass in an electric melter occurs in the cold cap, a crust of reacting solids floating on the glass pool. As the melter feed (a mixture of the nuclear waste and glass forming and modifying additives) heats up in the cold cap, glass-forming reactions ensue, causing the feed matrix to connect, trapping reaction gases to create a foam layer. The foam layer reduces the rate of melting by separating the reacting feed from the melt pool. The size of the silica particle additives in the melter feed affects melt viscosity and, hence, foam stability. To investigate this effect, seven nuclear waste simulant feeds of a high-level waste were batched as slurries and prepared with dissimilar ranges of silica particle size. Each slurry feed was charged into a laboratory-scale melter (LSM) to produce a cold cap and the propensity of feeds to foam was determined by pressing dried feeds into pellets and monitoring the change of pellet volume in response to heating. Two of these slurries were designed to have dissimilar glass viscosities at 1150°C. In the low temperature region of the cold cap, before the melter feed connects, the feeds without fine silica particles behaved similar to the high viscosity feed as their volume contracted while the feed with silica particles no larger than 5 µm reacted like the low viscosity feed. However, the feed volume similarities reversed as the feed connected and expanded through the foam region of the cold cap.

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Research Organization:: Pacific Northwest National Lab. (PNNL), Richland, WA (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC05-76RL01830

OSTI ID:: 1440654

Report Number(s):: PNNL-SA-122292; 830403000

Resource Relation:: Conference: Proceedings of the 34rd Annual Waste Management Conference (WM 2017): Education & Opportunity in Waste Management, March 5-9, 2017, Phoenix, Arizona, 4:2734-2745

Country of Publication:: United States

Language:: English

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Nuclear Waste Glass
High-Level Waste
Cold Cap
Viscosity
Laboratory-Scale Melter

Title: Effect of Silica Particle Size of Nuclear Waste-to-Glass Conversion - 17319

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