Title :
Influence of radionuclide adsorption on detection efficiency and energy resolution for flow-cell radiation detectors
Author :
DeVol, T.A. ; Keillor, M.E. ; Burggraf, L.W.
Author_Institution :
Clemson Univ., SC, USA
fDate :
6/1/1996 12:00:00 AM
Abstract :
Flow-cell and batch test experiments were performed to determine the uranyl ion adsorption onto and/or complexation with CaF2:Eu scintillator as a function of pH. The flow-cell experiments were modeled with an energy dispersive Monte Carlo algorithm. At pH 2, the flow-cell and batch tests gave consistent results, detection efficiency ~60% and distribution coefficient (Kd ) ~0.3-0.7 mL/g, with the model. At pH 8, the comparison was not as good and assumed to be due to variation in scintillator particle size realized in the experiment. From the flow-cell experiments performed at pH 8, the detection efficiency was determined to be 68% which correlated reasonably well with the model (60%). Where the experiments and model differed greatly was with Kd which was determined to be 102 and 60 for the flow-cell and batch experiments, respectively, and 0.43 from the model
Keywords :
Monte Carlo methods; adsorption; calcium compounds; pH; solid scintillation detectors; uranium compounds; CaF2:Eu; CaF2:Eu scintillator; Kd; UO2(NO3)2; complexation; detection efficiency; distribution coefficient; energy dispersive Monte Carlo algorithm; energy resolution; flow-cell radiation detectors; pH; radionuclide adsorption; scintillator; uranyl ion adsorption; Chemicals; Crystals; Dispersion; Electronic circuits; Energy resolution; Monte Carlo methods; Performance evaluation; Powders; Radiation detectors; Testing;
Journal_Title :
Nuclear Science, IEEE Transactions on
