R.W. Tilbrook scite author profile

Millions of tonnes of slightly radioactive, scrap iron and steel, stainless steel, and copper are likely to become available as nuclear and other facilities and equipment are withdrawn from service. Disposition of this material is an international policy issue under consideration currently. The major alternatives for managing this material are to either develop a regulatory process for decontamination and recycling that will safeguard human health or to hspose of the scrap and replace the metal stccks. To evaluate the alternatives, we estimate quantities of scrap arising from nuclear power plant decommissioning, evaluate potential price impacts of recycling on regional markets, and assess the health and environmental impacts of the management alternatives. We conclude that decontaminating and recycling the scrap is the superior alternative.'

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Analysis of disposition alternatives for radioactively contaminated scrap metal

Nieves

Chen

Kohout

et al. 1997

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Risk Characterization of Safety Research Areas for Integral Fast Reactor Program Planning

et al. 1990

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This paper characterizes the areas of Integral Fast Reactor (IFR) safety research in terms of their importance in addressing the risk of core disruption sequences for innovative designs. Such seauences have traditionally been determined to constitute the primary risk to public health and safety. All core disruption sequences are folded into four fault categories: classic unprotected (unscrammed) events; loss of decay heat; local fault propagation; and failure of critical reactor structures. Event trees are used to describe these seauences and the areas in the IFR Safety and related Base Technology research programs are discussed with respect to their relevance in addressing the key issues in preventing or delimiting core disruptive sequences. Thus a measure of potential for risk reduction is obtained for guidance in establishing research priorities.

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R.W. Tilbrook

Evaluation of radioactive scrap metal recycling

Analysis of disposition alternatives for radioactively contaminated scrap metal

Analysis of disposition alternatives for radioactively contaminated scrap metal

Risk Characterization of Safety Research Areas for Integral Fast Reactor Program Planning

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