We consider a model for the distribution of radionuclides in the ground water around a deep repository for used nuclear fuel, based on the assumption that different isotopes of the same chemical element A contribute jointly to the chemical potential of A. In this hypothesis, the total flux of a particular isotope has two components, one due to the interaction with the solvent molecules B, the other with the kin isotopes. We study some qualitative properties of the solution in the physically relevant assumption that the first of these components is negligible. In this assumption the problem reduces to a parabolic equation for the total concentration of the element A, coupled with hyperbolic equations for the concentrations of the single isotopes.
On a model for the propagation of isotopic disequilibrium by diffusion
UGHI, MAURA
2009-01-01
Abstract
We consider a model for the distribution of radionuclides in the ground water around a deep repository for used nuclear fuel, based on the assumption that different isotopes of the same chemical element A contribute jointly to the chemical potential of A. In this hypothesis, the total flux of a particular isotope has two components, one due to the interaction with the solvent molecules B, the other with the kin isotopes. We study some qualitative properties of the solution in the physically relevant assumption that the first of these components is negligible. In this assumption the problem reduces to a parabolic equation for the total concentration of the element A, coupled with hyperbolic equations for the concentrations of the single isotopes.Pubblicazioni consigliate
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