English

Improved Ionic Model of Liquid Uranium Dioxide

Chemical Physics 2009-05-19 v1
Authors: Victor Gryaznov , Igor Iosilevski , Eugene Yakub , Vladimir Fortov , Gerard J. Hyland , Claudio Ronchi
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Abstract

The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic model, previously adopted to describe the equation of state of this substance [1]. A "chemical picture" is used for liquid UO2 of stoichiometric and non-stoichiometric composition. Several ionic species are considered here: U(5+), U(4+), U(3+), O(2-) and O(-). The ions are described as charged hard-spheres of different diameters. Coulomb interaction of ions is taken into account according to the modified Mean Sphere Approximation (MSA). The main result of the new model is the appearance of natural "plasma" equivalent, which, from the theory, is directly related to the definition of oxygen potential in liquid UO(2+x). The features of the model make it possible to describe non-congruent phase equilibrium (and evaporation) in uranium dioxide, as well as other relevant phenomena characterising the phase equilibrium in chemically active matter. First calculation results are discussed.

Keywords

plasma physics water dynamics atomic hydrogen and helium systems

Cite

@article{arxiv.0905.2703,
  title  = {Improved Ionic Model of Liquid Uranium Dioxide},
  author = {Victor Gryaznov and Igor Iosilevski and Eugene Yakub and Vladimir Fortov and Gerard J. Hyland and Claudio Ronchi},
  journal= {arXiv preprint arXiv:0905.2703},
  year   = {2009}
}

Comments

5 pages, no figures, 2 tables, Proceedings of Int. Conf. "Strongly Coupled Coulomb Systems", Sent-Malo, France, 1999

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