
doi: 10.2172/6809639
A review of the literature and prior experience led to selection of induction melting as the most promising method for volume reduction of low-level transuranic contaminated metal waste. The literature indicates that melting with the appropriate slags significantly lowers the total contamination level of the metals by preferentially concentrating contaminants in the smaller volume of slag. Surface contamination not removed to the slag is diluted in the ingot and is contained uniformly in the metal. This dilution and decontamination offers the potential of lower cost disposal such as shallow burial rather than placement in a national repository. A processing plan is proposed as a model for economic analysis of the collection and volume reduction of contaminated metals. Further development is required to demonstrate feasibility of the plan.
Transuranium Elements, Economics, Phase Transformations, Wastes 052001* -- Nuclear Fuels-- Waste Processing, Melting, Low-Level Radioactive Wastes, Processing, Elements, Management, Radioactive Materials, Waste Management, Metals, Waste Processing, 12 Management Of Radioactive And Non-Radioactive Wastes From Nuclear Facilities, Radioactive Wastes, Radioactive Waste Processing
Transuranium Elements, Economics, Phase Transformations, Wastes 052001* -- Nuclear Fuels-- Waste Processing, Melting, Low-Level Radioactive Wastes, Processing, Elements, Management, Radioactive Materials, Waste Management, Metals, Waste Processing, 12 Management Of Radioactive And Non-Radioactive Wastes From Nuclear Facilities, Radioactive Wastes, Radioactive Waste Processing
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