Sol-Gel Technology Applied to Crystalline Ceramic Nuclear Waste Forms

The sol-gel process is being developed for the solidification and isolation of high-level nuclear fuel waste. Three gelation methods are being developed for producing alternative waste forms. These include internal gelation for producing spheres of up to 1 mm diam suitable for coating, external gela...

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Bibliographic Details
Main Authors: Angelini, P., Bond, W. D., Caputo, A. J., Mack, J. E., Lackey, W. J., Lee, D. A., Stinton, D. P.
Format: Article in Journal/Newspaper
Language:English
Published: Oak Ridge National Laboratory 1980
Subjects:
Urotropin
Urea
Amines
Waste Processing
Refractory Metals
Very High Temperature
Processing
Ruthenium
Transition Elements
Elements
Alkali Metals
Amides
Strontium
Cleaning
Phase Transformations
Sol-Gel Process
Carbon
Fabrication
Diuretics
Ceramics
Radioactive Wastes
Molybdenum
Separation Processes
Washing
Carbides
Alkaline Earth Metals
Materials
Organic Compounds
Carbon Compounds
Pyrolytic Carbon
Cesium
Sintering
Solidification
Flowsheets
Drugs
Silicon Compounds
12 Management Of Radioactive And Non-Radioactive Wastes From Nuclear Facilities
Dissolution
Metals
Platinum Metals
Thermal Analysis
Coatings
Neodymium
Leaching
Management
Radioactive Materials
Waste Management
Carbonic Acid Derivatives
Silicon Carbides
Radioactive Waste Processing
Rare Earths
Organic Nitrogen Compounds
Nonmetals
Wastes 052001* > Nuclear Fuels > Waste Processing
High-Level Radioactive Wastes
Diagrams
Microspheres
Carbonic acid
Online Access:https://digital.library.unt.edu/ark:/67531/metadc1197172/
Description
Summary:The sol-gel process is being developed for the solidification and isolation of high-level nuclear fuel waste. Three gelation methods are being developed for producing alternative waste forms. These include internal gelation for producing spheres of up to 1 mm diam suitable for coating, external gelation, and water extraction methods for producing material suitable for alternate ceramic processing. In this study internal gelation has been used to produce ceramic spheres of various alternative nuclear waste compositions. A gelation system capable of producing 100-g batches has been assembled and used for development. Waste forms containing up to 70 wt % simulated Savannah River Plant waste have been produced. Dopants such as Cs, Sr, Nd, Ru, and Mo were used in some experiments to observe side waste streams and sintering effects. Synroc microspheres were coated with both low-density carbon, high-density impermeable carbon, high-temperature dense SiC, and SiC deposited at temperatures near 900/sup 0/C. Other gelation methods and other alternative waste forms are being developed.

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