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조수빈,권기덕,현성필,Cho, Subin,Kwon, Kideok D.,Hyun, Sung Pil 한국암석학회한국광물학회 2022 광물과 암석 (J.Miner.Soc.Korea) Vol.35 No.2
The mobility and transport of radioactive cesium are crucial factors to consider for the safety assessment of high-level radioactive waste disposal sites in granite. The retardation of radionuclides in the fractured crystalline rock is mainly controlled by the hydrochemical condition of groundwater and surface reactions with minerals present in the fractures. This paper reports the experimental results of cesium sorption to the Wonju Granite, a typical Mesozoic granite in Korea, performed in an anaerobic chamber that mimics the anoxic environment of a deep disposal site. We measured the rates and amounts of cesium (<sup>133</sup>Cs) removed by crushed granite samples in different electrolyte (NaCl, KCl, and CaCl<sub>2</sub>) solutions and a synthetic groundwater solution, with variations in the initial cesium concentration (10<sup>-5</sup>, 5×10<sup>-6</sup>, 10<sup>-6</sup>, 5×10<sup>-7</sup> M). The cesium sorption kinetic and isotherm data were successfully simulated by the pseudo-second-order kinetic model (r<sup>2</sup>= 0.99) and the Freundlich isotherm model (r<sup>2</sup>= 0.99), respectively. The sorption distribution coefficient of granite increased almost linearly with increasing biotite content in granite samples, indicating that biotite is an effective cesium scavenger. The cesium removal was minimal in KCl solution compared to that in NaCl or CaCl<sub>2</sub> solution, regardless of the ionic strength and initial cesium concentration that we examined, showing that K<sup>+</sup> is the most competitive ion against cesium in sorption to granite. Because it is the main source mineral of K<sup>+</sup> in fracture fluids, biotite may also hinder the sorption of cesium, which warrants further research.