Decommissioning and Safety Issues of Liquid-Mercury Waste Generated from High-Power Spallation Sources with Particle Accelerators

Large spallation sources are intended to be constructed in Europe (EURISOL nuclear physics facility and European Spallation Source). These facilities accumulate more than 20 tonnes of irradiated mercury in the target, which has to be treated as highly radioactive and chemotoxic waste. Because solids...

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Bibliographic Details
Published in:Nuclear technology 2009-11, Vol.168 (2), p.264-269
Main Authors: Chiriki, S., Fachinger, J., Moormann, R., Hinssen, H.-K., Bukaemskiy, A., Odoj, R.
Format: Article
Language:English
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Summary:Large spallation sources are intended to be constructed in Europe (EURISOL nuclear physics facility and European Spallation Source). These facilities accumulate more than 20 tonnes of irradiated mercury in the target, which has to be treated as highly radioactive and chemotoxic waste. Because solids are the only appropriate (immobile) form for this radiotoxic and toxic type of waste, solidification is required for irradiated mercury. Our irradiation experimental studies on mercury waste revealed that mercury sulfide is a reasonable solid for disposal and shows larger stability in assumed accidents with water ingress in a repository compared to amalgams. For preparation of mercury sulfide, a wet process is more suitable than a dry one. It is easier to perform under hot cell conditions and allows complete Hg conversion. Embedding HgS in a cementitious matrix increases its stability.
ISSN:0029-5450
1943-7471
DOI:10.13182/NT09-A9192