A Radioactive Metal Processing Industry Perspective Source.
From: Energy Solutions, 1009 Commerce Park, Suite 100, TN 37830, USA. ajohnson@energysolutions.com
Health physics
- Publish Date: Nov 2006
- ISSN: 0017-9078
- Volume: 91
- Issue: 5
- Pages: 494-7
- Medium: Print
- Language: English
- Citation (JAMA): Johnson A, et al. A Radioactive Metal Processing Industry Perspective Source.. Nov 2006;91:494-7
Abstract
The current U.S. economic environment for the disposition of radioactive waste, including very-low-activity metals, is currently experiencing relatively low radioactive disposal costs and readily available disposal space. Despite the recent market increase in demand for recycled scrap metal commodities, there is still little change in the behavior of the nuclear industry (including radioactive waste processors and radioactive scrap metal recyclers) to pursue the recycling of potentially contaminated scrap metal. The relatively low cost of traditional radioactive waste disposal combined with the perceived risks associated with recycling of previously contaminated metals means that most U.S. radioactive facility managers and stakeholders will elect not to recycle. Current technology exists and precedence has been set for prescreening (by means of bulk radioactive assay techniques) scrap metal that is not contaminated and diverting it to industrial landfills for disposal. Other processes also allow some radiologically contaminated metals to be melted and recast into products with low, but acceptable, activity levels for restricted use in the nuclear industry. A new concept is being considered that would create a centralized licensed facility for the process and disposition of “very-low-activity” metals for “directed first use.” The advantages to this type of approach would include a standardized method for licensing the clearance process.
Mesh Headings (Keywords): Decision Making, Industry, Metallurgy, Metals, Radiation Protection, Radioactive Waste, Risk Factors, Risk Management, United States, Waste Management
Check for Full Text / PubMed Unique Identifier (PMID): 17033461
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