MCCLOY, John, RILEY, Brian, DIXON WILKINS, M., EVARTS, Jonathan, BUSSEY, John, VIENNA, John, BINGHAM, Paul, GREGG, Dan, OJOVAN, Michael, SCHULLER, Sophie, URUGA, Kazuyoshi, PERRET, Damien, REGNIER, Elise, GIBOIRE, Isabelle, UM, Wooyong, XU, Kai, GOEL, Ashutosh and KRUGER, Albert (2024). International Perspectives on Glass Waste Form Development for Low-Level and Intermediate-Level Radioactive Waste. Materials Today, 80, 594-618. [Article]
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Abstract
The global energy transition to low-carbon energy sources will require a significant contribution of nuclear
energy to achieve emission goals. Low-level radioactive wastes (LLW) and intermediate-level radioactive
wastes (ILW) are created in various phases in the nuclear fuel cycle for power generation, as well as from
nuclear accidents, legacy weapons production, contaminated site decommissioning, and other nuclear fuel
cycle activities such as radiopharmaceutical production. In this review, we will summarize recent
developments, state-of-the-art glass formulations, and thermal treatment process developments for
vitrification of nuclear LLW and ILW from programs in Europe, Asia, Australia, and North America.
Throughout, we will discuss the selection of glass over other possible waste forms and any special
processing considerations due to the nature of the waste. The characteristics of the wastes, such as mixed
technological waste, waste coming from dismantling of reprocessing facilities, site decommissioning,
accident site decontamination, are important considerations. This is balanced with the suite of technologies
available to vitrify these wastes, such as variations of incineration, in-can melting, and plasma treatment.
Glass properties and microstructural aspects – such as inclusion of crystals or metallic phases – are
compared to give an overview of the versatility of packaging matrices, such as homogeneous glasses,
composites, and crystalline matrices. The volume and heterogeneity of the waste, as well as radionuclide,
chemical and low silicate solubility components, factor into the selection of a given waste form, processing
route, and technology. Case studies include examples from the United States, United Kingdom, Russia,
France, Australia, Japan, Korea, and China.
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