| Popis: |
In order to assess the worst impact of an extremely improbable accident in an accelerator target for producing tritium, an event scenario was developed and analyzed, and an experiment was Performed to resolve an important question raised by the analysis. The target, known as SILC for ``Spallation Induced Lithium Conversion,`` contains approximately 22 metric tons of Pb, with small inventories of potentially hazardous radionuclides which continue to accumulate as the production cycle continues. Analysis of a scenario involving several failures in the normal, backup, and emergency cooling systems is presented, including event simulation by BNL indicating when and how long the Pb continues to melt, and a summary of SNL estimates of the releases of potentially hazardous spallation products is given. Finally, a recent experiment is described in which it was shown that virtually no mercury is likely to escape from the molten Pb, a result having significant impact on the potential risk of such worst-case scenarios. |
