Rapid determination of uranium isotopes in calcium fluoride sludge by tandem quadrupole ICP-MS/MS

Quantitative analyses of potential radionuclide contaminants in solid wastes ( e.g. calcium fluoride sludge) generated by the nuclear industry are essential for clearance or reutilization of these wastes. In order to measure trace uranium isotopes in calcium fluoride sludge, a total sample dissoluti...

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Bibliographic Details
Published in:Journal of analytical atomic spectrometry 2019-10, Vol.34 (1), p.227-234
Main Authors: Xing, Shan, Luo, Maoyi, Wu, Yang, Liu, Daqian, Dai, Xiongxin
Format: Article
Language:English
Subjects:
Americium
Ammonia
Anion exchanging
Calcium fluoride
Contaminants
Flow velocity
Fluorides
Helium
Lithium
Low level
Plutonium
Quadrupoles
Radioisotopes
Sensitivity analysis
Sludge
Solid wastes
Uranium
Uranium isotopes
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Summary:Quantitative analyses of potential radionuclide contaminants in solid wastes ( e.g. calcium fluoride sludge) generated by the nuclear industry are essential for clearance or reutilization of these wastes. In order to measure trace uranium isotopes in calcium fluoride sludge, a total sample dissolution method was developed utilizing lithium metaborate fusion and anion exchange chromatography combined with a triple quadrupole ICP-MS/MS instrument. The method was validated using calcium fluoride sludge spiked with known amounts of uranium isotopes. All measured results were in good agreement with the expected values, demonstrating the feasibility of the method for the determination of trace uranium isotopes. The minimum detectable activities of 234 U, 235 U and 238 U were determined to be 0.15 mBq (0.65 pg), 0.67 μBq (8.38 pg) and 0.014 mBq (1.13 ng), respectively. A key finding was that the sensitivity of uranium (750 Mcps ppm −1 ) with He at a flow rate of 8.5 mL min −1 was 5 times that achieved by ICP-MS/MS without the collision gas. The investigation of the mechanism of He collision would provide a novel and optimal method to simultaneously improve the sensitivity and suppress interference for the analysis of ultra-low level heavy radionuclides ( e.g. , uranium, plutonium, and americium) combined with reaction gasses ( e.g. , CO 2 , O 2 , and NH 3 ). A rapid, novel and sensitive method was developed for the determination of uranium isotopes in CaF 2 sludge by using lithium metaborate fusion and ICP-MS/MS under He mode. This technology could be useful for treatment of radionuclide contaminated nuclear industry waste.
ISSN:0267-9477
1364-5544
DOI:10.1039/c9ja00209j