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Measuring low concentrations of naturally occurring uranium by analysing the 351.9 keV gamma ray peak of 214 Pb. Jacques Bezuidenhout Stellenbosch University South Africa. Naturally Occurring Radioactive Nuclides. - Earth’s sciences - Exploration - Environmental monitoring
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Measuring low concentrations of naturally occurring uranium by analysing the 351.9 keV gamma ray peak of 214Pb. Jacques Bezuidenhout Stellenbosch University South Africa
Naturally Occurring Radioactive Nuclides - Earth’s sciences - Exploration - Environmental monitoring - Classification of soil and rocks - Fossil areas - Mining areas
Primordial nuclides Uranium (238U), Thorium (232Th) and Potassium (40K)
214Pb (351.3 keV) Counts 40K (1460.8 keV) 214Bi (1764.5 keV) 208Tl (2614.5 keV) Energy (keV) Method A Typical Laboratory Gamma Ray Spectrum
Uranium decay 238U gamma lines
Uranium decay Gamma ray emitting daughters of uranium
Method • 1. Sampling • - More than a 100 samples • - Polypropylene pill containers of 100 ml • - Sample mass ranging from 0.110 kg to 0.180 kg. • 2. Measuring System • - NaI(Tl) detector (7.62 x 7.62 cm) coupled to a scintiSPEC MCA • - Surrounded by 15 cm thick lead shielding • 3. Calibration and measurements • - Efficiency calibration was done with 40K, 238U and 232Th reference materials. • - Energy calibration was done from 0.3 to 2.7 MeV. • 4. Region of Interest (ROI) • - Four counting windows or ROI were selected. • - Equation of Rybach (1971, 1988) was adapted for four regions
Method Net count rate in the ROI: ROI’s is i = 0, 1, 2, and 3 (351.3 keV, 1460.8 keV, 1764.5 keV and 2614.5 keV Calibration standards is j = 1, 2 and 3 of 40K, 238U and 232Th. The isotopes n = 1, 2 and 3 of 40K, 238U and 232Th. The net count rate Ri,j: Linear system of i x n (4 x 3) simultaneous equations
214Pb (351.3 keV) Counts 40K (1460.8 keV) 214Bi (1764.5 keV) 208Tl (2614.5 keV) Energy (keV) Method A Typical Laboratory Gamma Ray Spectrum
Method Solved efficiencies
Method Solve AU’, AK, AU and ATh Measuring uncertainties Detection limits
Results 212Pb peak vs. 214Bi peak R2 = 0.9789
Results 212Pb peak vs. 214Bi peak Coefficient of correlation: 0.9789 Average Statistically uncertainties: 214Pb => 7.1 Bq/kg 214Bi => 4.4 Bq/kg The natural background less than 3 counts/second. Average detection limits: 214Pb => 9.6 Bq/kg 214Bi => 36.8 Bq/kg Samples within detection limits: 214Pb => 76.6% 214Bi => 31.2% 214Pb peak results in shorter acquisition or more accurate uranium concentration
Future - In Situ measurements - Fossil areas - 234Pa measurements - 232Th measurements
Uranium decay γ-emitters
Baviaansberg Palaeoshoreline