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            <title xml:lang="en">Two phase flow redistribution in a two-layered porous medium with contrasting permeability</title>
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            <idno type="halRefHtml">&lt;i&gt;7th International Symposium on Advances in Computational Heat Transfer&lt;/i&gt;, May 2017, Napoli, Italy. pp.441-462</idno>
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            <idno type="stamp" n="IRSN">Institut de radioprotection et de sûreté nucléaire - IRSN</idno>
            <idno type="stamp" n="UNIV-TLSE3">Université de Toulouse</idno>
            <idno type="stamp" n="CNRS">CNRS - Centre national de la recherche scientifique</idno>
            <idno type="stamp" n="IMFT">Institut mécanique des fluides de Toulouse</idno>
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            <idno type="stamp" n="UNIV-UT3">Université Toulouse 3</idno>
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                <title xml:lang="en">Two phase flow redistribution in a two-layered porous medium with contrasting permeability</title>
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              <p>Motivated to investigate debris bed coolability in a damaged nuclear reactor core by bottom re ooding, this paper studies the physical situation involving injection of water into a superheated particle bed leading to high velocity ow of steam. The particle bed is composed of two cylindrical concentric parts and stratified vertically. One of the particular features of the studied configuration is that quenching of the superheated particles generates a strong  ow of steam which may create a vertical pressure gradient leading the water in the lateral, more permeable medium, to ow faster than the injection velocity and consequently reducing the efficiency of cooling. The aim is to propose an analytical model to predict the behavior of water entrainment in the lateral layer (bypass) of larger permeability and porosity. This model computes the quench front velocity, water-to-steam conversion ratio, and the velocity of water in the bypass. It provides good qualitative and quantitative results for the two-phase ow redistribution as compared to experimental data. It also has several advantages as it allows: performing fast evaluations of the efficiency of cooling, upscaling to reactor-scale straightforwardly, and performing sensitivity studies on the physical properties of the particle beds and the fluid, and the variations of the momentum equations. For instance, it showed that the Generalized Darcy law was not sufficient to obtain acceptable evaluations whereas considering non-zero cross-terms in the Darcy Forchheimer equation by including an interfacial friction law succeeds in obtaining better results.</p>
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