Behaviour of fission gas products in single crystal UO2 during intermediate temperature irradiation
Autor: | Marcin Szuta |
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Rok vydání: | 1985 |
Předmět: |
Nuclear and High Energy Physics
Steady state Isotope Chemistry Fission Xenon-135 Nuclear Theory Uranium dioxide Thermodynamics Nuclear physics chemistry.chemical_compound Nuclear Energy and Engineering Scientific method Physics::Atomic and Molecular Clusters General Materials Science Irradiation Diffusion (business) Nuclear Experiment |
Zdroj: | Journal of Nuclear Materials. 130:434-442 |
ISSN: | 0022-3115 |
Popis: | A new mathematical interpretation is presented of fission gas release from monocrystalline uranium dioxide fuel during intermediate temperature irradiation in terms of a defect trap model, knock-out process and diffusion of bubbles. In the present model it is assumed that gas in an intermediate state exists side by side with the dissolved fission gas and that trapped in bubbles. It is assumed also that the isolated gas atoms, being re-dissolved, are immobile. The present model gives a satisfactory interpretation of the relative proportions of isotopes in the steady state fission gas release at diffrent temperatures. The dependence of fractional fission gas release on fission rate is also interpreted; regimes either proportional to fission rate or inversely proportional to fission rate are predicted depending on the fission rate interval considered. Both temperature dependent and temperature independent fission gas release can arise. The presented dynamic method of studying the release of fission gases during irradiadion provides a further test beside the static method of the veracity of the assumed mechanisms. Calculations show that fission gas behaviour becomes more complex for oscillated fission rate in the regime where the fractional release is inversely proportional to the fission rate for the steady state. |
Databáze: | OpenAIRE |
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