ABSTRACT
Intakes of radionuclides can be estimated through in vivo measurements, and the uncertainties associated to the measured activities should be clearly stated in monitoring program reports. This study aims to evaluate the uncertainties of in vivo monitoring of iodine 131 in the thyroid. The reference values for high-energy photons are based on the IDEAS Guide. Measurements were performed at the In Vivo Monitoring Laboratory of the Institute of Radiation Protection and Dosimetry (IRD) and at the Internal Dosimetry Laboratory of the Regional Center of Nuclear Sciences (CRCN-NE). In both institutions, the experiment was performed using a NaI(Tl) 3''3â³ scintillation detector and a neck-thyroid phantom. Scattering factors were calculated and compared in different counting geometries. The results show that the technique produces reproducibility equivalent to the values suggested in the IDEAS Guide and measurement uncertainties is comparable to international quality standards for this type of in vivo monitoring.
Subject(s)
Iodine Radioisotopes/analysis , Radiation Monitoring/methods , Thyroid Gland/radiation effects , Barium Radioisotopes/analysis , Humans , Phantoms, Imaging , Photons , Radiation Monitoring/standards , Radiation Monitoring/statistics & numerical data , Reproducibility of Results , Scattering, Radiation , Scintillation Counting , UncertaintyABSTRACT
Activity concentrations of (226)Ra, (228)Ra and (40)K in scales and sludge generated during oil extraction and production operations were determined using an HPGe gamma spectrometric system. Concentrations ranged from 42.7 to 2110.0 kBqkg(-1) for (226)Ra, 40.5 to 1550.0 kBqkg(-1) for (228)Ra and 20.6 to 186.6 kBqkg(-1) for (40)K. The magnitude of these results demonstrates the need of screening oil residues for their radionuclide content in order to decide about their final disposal.