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ISSN : 1738-1894(Print)
ISSN : 2288-5471(Online)
ISSN : 2288-5471(Online)
환원환경에서 암반 균열을 통한 우라늄 이동 및 지연 특성
Migration and Retardation Properties of Uranium throught a Rock Fracture in a Reducing Environment
Abstract
In this study, uranium migration experiments have been performed using a natural groundwater and a granite core with natural fractures in a glove-box constructed to simulate an appropriate subsurface environment. Groundwater flow experiments using the non-sorbing anionic tracer Br were carried out to analyze the flow properties of groundwater through the fracture of the granite core. The result of the uranium migration experiment showed a breakthrough curve similar to that of the non-sorting Br. This result may imply that uranium migrates as anionic complexes through the rock fracture since uranium can form carbonate complexes at a given groundwater condition. The distribution coefficient of the uranium between the groundwater and the fracture filling material was obtained as low as 2.7 mL/g from a batch sorption experiment. This result agrees well with the result from the migration experiment, showing a faster elution of the uranium through the rock fracture. In order to analyze retardation properties of the uranium through the rock fracture, the retardation factor was obtained by using the obtained from the batch sorption experiment and it was compared with the obtained by using the result from the uranium migration experiment. The values obtained from the both experiments were very similar to each other. This reveals that the retardation of the uranium is mainly occurred by the fracture filling material when the uranium migrates through the fracture of a granite core.
Uranium migration, Glove-box, Rock fracture, Hydraulic properties, Retardation factor, Distribution coefficient, 우라늄 이동, 글러버박스, 암반균열, 수력학적 특성, 지연인자, 분배계수
Reference
JNFCWT
Online Submission
Korean Radioactive
Waste Society (KRS)
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