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Title: Conversion of Nuclear Waste into Nuclear Waste Glass: Experimental Investigation and Mathematical Modeling

Journal Article · · Procedia Materials Science
 [1]
  1. Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)
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The melter feed, slurry, or calcine charged on the top of a pool of molten glass forms a floating layer of reacting material called the cold cap. Between the cold-cap top, which is covered with boiling slurry, and its bottom, where bubbles separate it from molten glass, the temperature changes by up to 1000 K. The processes that occur over this temperature interval within the cold cap include liberation of gases, conduction and consumption of heat, dissolution of quartz particles, formation and dissolution of intermediate crystalline phases, and generation of foam and gas cavities. These processes have been investigated using thermal analyses, optical and electronic microscopies, x-ray diffraction, as well as other techniques. Properties of the reacting feed, such as heat conductivity and density, were measured as functions of temperature. Investigating the structure of quenched cold caps produced in a laboratory-scale melter complemented the crucible studies. The cold cap consists of two main layers. The top layer contains solid particles dissolving in the glass-forming melt and open pores through which gases are escaping. The bottom layer contains bubbly melt or foam where bubbles coalesce into larger cavities that move sideways and release the gas to the atmosphere. The feed-to-glass conversion became sufficiently understood for representing the cold-cap processes via mathematical models. These models, which comprise heat transfer, mass transfer, and reaction kinetics models, have been developed with the final goal to relate feed parameters to the rate of glass melting.

Research Organization:
Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
AC05-76RL01830
OSTI ID:
1209530
Journal Information:
Procedia Materials Science, Vol. 7, Issue C; ISSN 2211-8128
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 6 works
Citation information provided by
Web of Science

References (14)

Mathematical modeling of cold cap journal October 2012
Dissolution retardation of solid silica during glass-batch melting journal July 2011
Nuclear waste vitrification efficiency: Cold cap reactions journal December 2012
Determination of HLW glass melt rate using x-ray computed tomography report October 2011
Cold-cap reactions in vitrification of nuclear waste glass: Experiments and modeling journal May 2013
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Thermal Analysis of Waste Glass Batches: Effect of Batch Makeup on Gas-Evolving Reactions book January 2012
Effect of Alumina Source on the Rate of Melting Demonstrated with Nuclear Waste Glass Batch journal February 2012
Model for the conversion of nuclear waste melter feed to glass journal February 2014
Melting of glass batch: Model for multiple overlapping gas-evolving reactions journal August 2012
Kinetic model for quartz and spinel dissolution during melting of high-level-waste glass batch journal November 2013
Determination of Temperature-Dependent Heat Conductivity and Thermal Diffusivity of Waste Glass Melter Feed journal May 2013
Cluster formation of silica particles in glass batches during melting journal June 2010

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