Determination of uranium isotopic composition and 236U content of soil samples and hot particles using inductively coupled plasma mass spectrometry

As a result of the accident at the Chernobyl nuclear power plant (N-PP) the environment was contaminated with spent nuclear fuel. The U-236 isotope was used in this study to monitor the spent uranium from nuclear fallout in soil samples collected in the vicinity of the Chernobyl NPP. Nuclear track radiography was applied for the identification and extraction of hot radioactive particles from soil samples. A rapid and sensitive analytical procedure was developed for uranium isotopic ratio measurement in environmental samples based on double-focusing inductively coupled plasma mass spectrometry (DF-ICP-MS) with a MicroMist nebulizer and a direct injection high-efficiency nebulizer (DIHEN). The performance of the DF-ICP-MS with a quartz DIHEN and plasma shielded torch was studied. Overall detection efficiencies of 4x10(-4) and 10(-3) counts per atom were achieved for U-238 in DF-ICP-QMS with the MicroMist nebulizer and DIHEN, respectively. The rate of formation of uranium hydride ions UH+/U+ was 1.2x10(-4) and 1.4x10(-4), respectively. The precision of short-term measurements of uranium isotopic ratios (n = 5) in 1 mug L-1 NBS U-020 standard solution was 0.11% (U-238/U-235) and 1.4% (U-236/U-238) using a MicroMist nebulizer and 0.25% (U-235/U-238) and 1.9% (U-236/U-238) using a DIHEN. The isotopic composition of all investigated Chernobyl soil samples differed from those of natural uranium; i.e. in these samples the U-236/U-238 ratio ranged from 10(-5) to 10(-3). Results obtained with ICP-MS, alpha- and gamma -spectrometry showed differences in the migration properties of spent uranium, plutonium, and americium. The isotopic ratio of uranium was also measured in hot particles extracted from soil samples.