Study of the thermal release behaviour of mercury and thallium from liquid eutectic lead-bismuth alloy
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Summary
The release of mercury and thallium from liquid eutectic lead-bismuth alloy (LBE) under a flowing Ar/7%-H2 atmosphere has been studied in the temperature range from 408 to 1292 K using γ-ray spectroscopy. For technical applications such as liquid metal spallation targets or accelerator driven systems, where liquid LBE is planned to be used as target material, the release of radioactive mercury isotopes produced by spallation is expected to be one of the major safety issues.
During short-term experiments significant amounts of mercury begin to evaporate from liquid LBE at temperatures starting from about 475 K. 80% of the mercury present in the sample is released from samples of approximately 1.5–3 g within one hour at temperatures higher than 625 K. Thallium release in the temperature range investigated is below experimental error. Long-term experiments reveal that even at temperatures as low as 476 K about 25% of the mercury present in the samples is released per day under a flowing Ar/7%-H2 atmosphere.
© by Oldenbourg Wissenschaftsverlag, München
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Articles in the same Issue
- Predictions of adsorption behaviour of the heaviest elements in a comparative study from the electronic structure calculations
- Complexation of Cm(III) with aqueous silicic acid
- NIR spectroscopic study of the complexation of neptunium(V) with humic acids: influence of phenolic OH groups on the complex formation
- Development of quantitative analytical methods for the control of actinides in a pyrochemical partitioning process
- Study of the thermal release behaviour of mercury and thallium from liquid eutectic lead-bismuth alloy
- Corrosion of commercial spent nuclear fuel. 1. Formation of studtite and metastudtite
- Corrosion of commercial spent nuclear fuel. 2. Radiochemical analyses of metastudtite and leachates
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