Phenomenology of liquid metal thermal-hydraulics

dc.contributor.authorBellucci, Valter
dc.contributor.authorBuono, Stefano
dc.contributor.authorFotia, Giorgio
dc.contributor.authorMaciocco, Luca
dc.contributor.authorMoreau, Vincent
dc.contributor.authorMulas, Marco
dc.contributor.authorSiddi, Giuliana
dc.contributor.authorSorrentino, Luca
dc.date.accessioned2014-06-19T07:01:33Z
dc.date.available2014-06-19T07:01:33Z
dc.date.issued1999
dc.description.abstractThe cooling system of the Energy Amplifier (EA) is based on a Lead flow driven by natural circulation [1]. In the Energy Amplifier Demonstration Facility (EADF) a Lead-Bismuth eutectic is used and natural circulation, although enhanced through a gas injection system, is the pumping force for the cooling of both the target (only in the case of the window-type target) and the primary circuit[2]. Numerical simulation is extensively used for the design and analysis of these flows, using both commercial and in-house codes. However, liquid metals properties are very different from that of common fluids, so the physical models to be used in the simulations should be carefully assessed. In general the numerical simulation of any kind of flow requires: (i) the thermodynamic modelling of the fluid; (ii) the fluid dynamics governing equations; (iii) the turbulence modelling. In this work the thermodynamic model for heavy liquid metals is presented, starting with the derivation of the equations of state for a general fluid from the basic laws of thermodynamics. This thermodynamic model is then used for the analysis of a one-dimensional natural convection loop, in order to put in evidence the main physical mechanisms governing this particular kind of flow and the simplifications that can be applied to the one dimensional governing equations. An extensive analysis of the tree-dimensional fluid dynamic governing equations and of the turbulence models for liquid metal flows can be found in [7] and [8] respectively.IT
dc.identifier.urihttp://hdl.handle.net/11050/1042
dc.language.isoenIT
dc.subjectenergy amplifier demonstration facility (EADF)IT
dc.subjectnumerical modelingIT
dc.subjectenergy amplifier (EA)IT
dc.subjectfluid dynamic simulationIT
dc.subject.een-cordisEEN CORDIS::FISICA E SCIENZE ESATTE::Fisica::TermodinamicaIT
dc.titlePhenomenology of liquid metal thermal-hydraulicsIT
dc.typeReportIT
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