Sorry, this URL cannot be previewed here. Visit the URL directly.
This link has been bookmarked by 1 people . It was first bookmarked on 23 May 2008, by Energy Net.
As GAO reported in 2004, existing disposal facilities had adequate capacity for most LLRW and were accessible to waste generators (hereafter referred to as disposal availability) in the short term, but constraints on the disposal of certain types of LLRW warranted concern. Specifically, South Carolina had decided to restrict access to its disposal facility by mid-2008 for class B and C waste—the facility now accepts about 99 percent of this waste generated nationwide—to only waste generators in the three states of its compact. If there are no new disposal options for class B and C wastes after 2008, licensed users of radioactive materials can continue to minimize waste generation, process waste into safer forms, and store waste pending the development of additional disposal options. While NRC prefers that LLRW be disposed of, it allows on-site storage as long as the waste remains safe and secure. In contrast, disposal availability for domestic class A waste is not a problem in the short or longer term. In 2004, GAO reported that the Utah disposal facility—which accepts about 99 percent of this waste generated nationwide—could accept such waste for 20 years or more under its current license based on anticipated class A waste volumes. Since 2005, the volume of class A waste disposed of has declined by two-thirds primarily because DOE completed several large cleanup projects, extending the capacity for an additional 13 years, for a total of 33 years of remaining disposal capacity. However, the June 2004 analysis, and the updated analysis, were based on the generation of LLRW only in the United States and did not consider the impact on domestic disposal capacity of importing foreign countries’ LLRW.
Would you like to comment?
Join Diigo for a free account, or sign in if you are already a member.