Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8082589 | Journal of Environmental Radioactivity | 2015 | 8 Pages |
Abstract
The diffusion and distribution coefficients are important parameters in the design of barrier systems used in radioactive repositories. These coefficients can be determined using a two-reservoir configuration, where a saturated porous medium is allocated between two reservoirs filled by stagnant water. One of the reservoirs contains a high concentration of radioisotopes. The goal of this work is to obtain an analytical solution for the concentration of all radioisotopes in the decay chain of a two-reservoir configuration. The analytical solution must be obtained by taking into account the diffusion and sorption processes. Concepts such as overvalued concentration, diffusion and decay factors are employed to this end. It is analytically proven that a factor of the solution is identical for all chains (considering a time scaling factor), if certain parameters do not change. In addition, it is proven that the concentration sensitivity, due to the distribution coefficient variation, depends of the porous medium thickness, which is practically insensitive for small porous medium thicknesses. The analytical solution for the radioisotope concentration is compared with experimental and numerical results available in literature.
Related Topics
Physical Sciences and Engineering
Energy
Nuclear Energy and Engineering
Authors
Juan Guzman, Serguei Maximov, Rafael Escarela-Perez, Irvin López-GarcÃa, Mario Moranchel,