A Simple Probabilistic Risk Analysis for High-Level Waste Repositories
暂无分享,去创建一个
A method is developed for estimating, on a generic basis, the probability per year for an atom of average rock at a given depth to be transferred into a river. For a 600-m depth, it is 0.9 x 10/sup 9//yr. The transfer probability from shallow aquifers or rivers into human stomachs is dominated by our use of well water with additional contributions from direct use of river water, irrigation, and fish; the total probability is 4 x 10/sup -4/. The product of these, corrected for the greater leachability of waste glass than of average rock, gives a total transfer rate for an atom of buried waste into human stomachs of 10/sup -12//yr. When combined with health risk information, it is concluded that we may eventually expect 0.017 deaths/GW (electric) x yr from high-level waste, and 0.068 deaths/GW (electric) x yr from unreprocessed spent fuel.
[1] Humphrey John Moule Bowen,et al. Environmental chemistry of the elements , 1979 .
[2] B. Cohen. Effects of ICRP Publication 30 and the 1980 BEIR Report in hazard assessments of high-level waste. , 1982, Health physics.
[3] F. Mackenzie,et al. Evolution of sedimentary rocks , 1971 .